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Comparing UserCode/VHbbAnalysis/HbbAnalyzer/plugins/HbbAnalyzerNew.cc (file contents):
Revision 1.13 by tboccali, Mon Jul 25 08:55:40 2011 UTC vs.
Revision 1.55 by arizzi, Tue Oct 18 09:58:20 2011 UTC

#	Line 17 | Line 17 | Implementation:
17		//
18		//
19
20	–	#include "VHbbAnalysis/HbbAnalyzer/interface/HbbAnalyzerNew.h"
21	–	#include "VHbbAnalysis/VHbbDataFormats/interface/VHbbEvent.h"
22	–	#include "VHbbAnalysis/VHbbDataFormats/interface/VHbbEventAuxInfo.h"
20
21	<	#include "DataFormats/GeometryVector/interface/VectorUtil.h"
21	>	//uncomment to save also jet collections 1 and 4
22	>	//#define ENABLE_SIMPLEJETS1
23	>	//#define ENABLE_SIMPLEJETS4
24	>
25	>	#include "CondFormats/JetMETObjects/interface/JetCorrectorParameters.h"
26	>	#include "CondFormats/JetMETObjects/interface/JetCorrectionUncertainty.h"
27	>	#include "JetMETCorrections/Objects/interface/JetCorrector.h"
28	>	#include "JetMETCorrections/Objects/interface/JetCorrectionsRecord.h"
29	>	#include "DataFormats/TrackReco/interface/TrackFwd.h"
30	>
31	>	#include "VHbbAnalysis/HbbAnalyzer/interface/HbbAnalyzerNew.h"
32	>	#include "SimDataFormats/PileupSummaryInfo/interface/PileupSummaryInfo.h"
33
34	+	#include "SimDataFormats/GeneratorProducts/interface/GenEventInfoProduct.h"
35
36		#define GENPTOLOR(a) TLorentzVector((a).px(), (a).py(), (a).pz(), (a).energy())
37		#define GENPTOLORP(a) TLorentzVector((a)->px(), (a)->py(), (a)->pz(), (a)->energy())
38
39	+
40	+	struct CompareJetPtMuons {
41	+	bool operator()( const VHbbEvent::MuonInfo& j1, const  VHbbEvent::MuonInfo& j2 ) const {
42	+	return j1.p4.Pt() > j2.p4.Pt();
43	+	}
44	+	};
45	+	struct CompareJetPtElectrons {
46	+	bool operator()( const VHbbEvent::ElectronInfo& j1, const  VHbbEvent::ElectronInfo& j2 ) const {
47	+	return j1.p4.Pt() > j2.p4.Pt();
48	+	}
49	+	};
50	+	struct CompareJetPtTaus {
51	+	bool operator()( const VHbbEvent::TauInfo& j1, const  VHbbEvent::TauInfo& j2 ) const {
52	+	return j1.p4.Pt() > j2.p4.Pt();
53	+	}
54	+	};
55	+
56	+
57	+
58		HbbAnalyzerNew::HbbAnalyzerNew(const edm::ParameterSet& iConfig):
59		eleLabel_(iConfig.getParameter<edm::InputTag>("electronTag")),
60		muoLabel_(iConfig.getParameter<edm::InputTag>("muonTag")),
#	Line 39 | Line 67 | HbbAnalyzerNew::HbbAnalyzerNew(const edm
67		tauLabel_(iConfig.getParameter<edm::InputTag>("tauTag")),
68		metLabel_(iConfig.getParameter<edm::InputTag>("metTag")),
69		phoLabel_(iConfig.getParameter<edm::InputTag>("photonTag")),
42	–	dimuLabel_(iConfig.getParameter<edm::InputTag>("dimuTag")),
43	–	dielecLabel_(iConfig.getParameter<edm::InputTag>("dielecTag")),
70		hltResults_(iConfig.getParameter<edm::InputTag>("hltResultsTag")),
71		runOnMC_(iConfig.getParameter<bool>("runOnMC")), verbose_(iConfig.getUntrackedParameter<bool>("verbose")) {
72
#	Line 71 | Line 97 | void
97		HbbAnalyzerNew::produce(edm::Event& iEvent, const edm::EventSetup& iSetup){
98		using namespace edm;
99		using namespace reco;
100	<
100	>
101	>
102	>	// JEC Uncertainty
103	>
104	>	//  JetCorrectionUncertainty *jecUnc=0;
105	>	edm::ESHandle<JetCorrectorParametersCollection> JetCorParColl;
106	>	iSetup.get<JetCorrectionsRecord>().get("AK5PFchs",JetCorParColl);
107	>	JetCorrectionUncertainty *jecUnc=0;
108	>	//  if (!runOnMC_){
109	>	JetCorrectorParameters const & JetCorPar = (*JetCorParColl)["Uncertainty"];
110	>	jecUnc = new JetCorrectionUncertainty(JetCorPar);
111	>	//  }
112
113		std::auto_ptr<VHbbEvent> hbbInfo( new VHbbEvent() );
114		std::auto_ptr<VHbbEventAuxInfo> auxInfo( new VHbbEventAuxInfo() );
115	<
115	>
116	>
117	>	if (runOnMC_){
118	>	Handle<GenEventInfoProduct> evt_info;
119	>	iEvent.getByType(evt_info);
120	>	auxInfo->weightMCProd = evt_info->weight();
121	>	}
122	>	else
123	>	{ auxInfo->weightMCProd =1.;}
124		//
125		// ??
126	<
126	>
127	>	// trigger
128	>
129		// trigger
130		edm::Handle<edm::TriggerResults>  hltresults;
131		//iEvent.getByLabel("TriggerResults", hltresults);
#	Line 88 | Line 135 | HbbAnalyzerNew::produce(edm::Event& iEve
135		iEvent.getByLabel(hltResults_, hltresults);
136
137		const edm::TriggerNames & triggerNames_ = iEvent.triggerNames(*hltresults);
91	–
92	–	int ntrigs = hltresults->size();
93	–	if (ntrigs==0){std::cout << "%HLTInfo -- No trigger name given in TriggerResults of the input " << std::endl;}
94	–
95	–	for (int itrig = 0; itrig != ntrigs; ++itrig){
96	–
97	–	TString trigName=triggerNames_.triggerName(itrig);
98	–	bool accept = hltresults->accept(itrig);
99	–
100	–	if (accept){(auxInfo->triggerInfo.flag)[itrig] = 1;}
101	–	else { (auxInfo->triggerInfo.flag)[itrig] = 0;}
102	–
103	–	//    std::cout << "%HLTInfo --  Number of HLT Triggers: " << ntrigs << std::endl;
104	–	//    std::cout << "%HLTInfo --  HLTTrigger(" << itrig << "): " << trigName << " = " << accept << std::endl;
105	–	}
106	–
107	–	//
108	–	// big bloat
109	–	//
110	–
111	–
112	–	int goodDoubleMu3=0,goodDoubleMu3_2=0,
113	–	goodMu9=0, goodIsoMu9=0, goodMu11=0, goodIsoMu13_3=0, goodMu15=0, goodMu15_1=0;
114	–	int goodDoubleElec10=0,goodDoubleElec15_1=0,goodDoubleElec17_1=0;
115	–	int goodMet100=0;
116	–	int goodSingleEle1=0,goodSingleEle2=0,goodSingleEle3=0,goodSingleEle4=0;
117	–	int goodBtagMu1=0,goodBtagMu2=0,goodBtagMu0=0,goodBtagMu11=0;
118	–	int goodBtagMuJet1=0, goodBtagMuJet2=0, goodBtagMuJet3=0, goodBtagMuJet4=0;
119	–	int goodIsoMu15=0,goodIsoMu17v5=0,goodIsoMu17v6=0;
120	–
121	–	for (int itrig = 0; itrig != ntrigs; ++itrig){
122	–	TString trigName=triggerNames_.triggerName(itrig);
123	–	if(strcmp(trigName,"HLT_Mu9")==0) goodMu9++;
124	–	if(strcmp(trigName,"HLT_IsoMu9")==0) goodIsoMu9++;
125	–	if(strcmp(trigName,"HLT_IsoMu13_v3")==0) goodIsoMu13_3++;
126	–	if(strcmp(trigName,"HLT_Mu11")==0) goodMu11++;
127	–	if(strcmp(trigName,"HLT_DoubleMu3")==0) goodDoubleMu3++;
128	–	if(strcmp(trigName,"HLT_DoubleMu3_v2")==0) goodDoubleMu3_2++;
129	–	if(strcmp(trigName,"HLT_Mu15")==0) goodMu15++;
130	–	if(strcmp(trigName,"HLT_Mu15_v1")==0) goodMu15_1++;
131	–
132	–	if(strcmp(trigName,"HLT_DoubleEle10_SW_L1R")==0) goodDoubleElec10++;
133	–	if(strcmp(trigName,"HLT_DoubleEle15_SW_L1R_v1")==0) goodDoubleElec15_1++;
134	–	if(strcmp(trigName,"HLT_DoubleEle17_SW_L1R_v1")==0) goodDoubleElec17_1++;
135	–	if(strcmp(trigName,"HLT_MET100_v1")==0) goodMet100++;
136	–	if(strcmp(trigName,"HLT_Ele15_SW_L1R")==0) goodSingleEle1++;
137	–	if(strcmp(trigName,"HLT_Ele17_SW_TightEleId_L1R")==0) goodSingleEle2++;
138	–	if(strcmp(trigName,"HLT_Ele17_SW_TighterEleIdIsol_L1R_v2")==0) goodSingleEle3++;
139	–	if(strcmp(trigName,"HLT_Ele17_SW_TighterEleIdIsol_L1R_v3")==0) goodSingleEle4++;
140	–	if(strcmp(trigName,"HLT_BTagMu_DiJet20U_v1")==0) goodBtagMu1++;
141	–	if(strcmp(trigName,"HLT_BTagMu_DiJet30U_Mu5_v3")==0) goodBtagMu2++;
142	–	if(strcmp(trigName,"HLT_BTagMu_Jet20U")==0) goodBtagMu0++;
143	–	if(strcmp(trigName,"HLT_BTagMu_DiJet20U_Mu5_v1")==0) goodBtagMu11++;
144	–	if(strcmp(trigName,"HLT_Mu17_CentralJet30_BTagIP_v2")==0) goodBtagMuJet1++;
145	–	if(strcmp(trigName,"HLT_Mu17_CentralJet30_v2")==0) goodBtagMuJet2++;
146	–	if(strcmp(trigName,"HLT_HT200_Mu5_PFMHT35_v2")==0) goodBtagMuJet3++;
147	–	if(strcmp(trigName,"HLT_Mu12_CentralJet30_BTagIP_v2")==0) goodBtagMuJet4++;
148	–
149	–	if(strcmp(trigName,"HLT_IsoMu15_v5")==0) goodIsoMu15++;
150	–	if(strcmp(trigName,"HLT_IsoMu17_v5")==0) goodIsoMu17v5++;
151	–	if(strcmp(trigName,"HLT_IsoMu17_v6")==0) goodIsoMu17v6++;
152	–	}
153	–	int itrig1=-99;
154	–	if(goodMu9!=0) itrig1 = triggerNames_.triggerIndex("HLT_Mu9");
155	–	int itrig2=-99;
156	–	if(goodIsoMu9!=0) itrig2 = triggerNames_.triggerIndex("HLT_IsoMu9");
157	–	int itrig3=-99;
158	–	if(goodIsoMu13_3!=0) itrig3 = triggerNames_.triggerIndex("HLT_IsoMu13_v3");
159	–	int itrig4=-99;
160	–	if(goodMu11!=0) itrig4 = triggerNames_.triggerIndex("HLT_Mu11");
161	–	int itrig5=-99;
162	–	if(goodDoubleMu3!=0) itrig5 = triggerNames_.triggerIndex("HLT_DoubleMu3");
163	–	int itrig6=-99;
164	–	if(goodDoubleMu3_2!=0) itrig6 = triggerNames_.triggerIndex("HLT_DoubleMu3_v2");
165	–	int itrig7=-99;
166	–	if(goodMu15!=0) itrig7 = triggerNames_.triggerIndex("HLT_Mu15");
167	–	int itrig8=-99;
168	–	if(goodMu15_1!=0) itrig8 = triggerNames_.triggerIndex("HLT_Mu15_v1");
169	–
170	–	int itrig9=-99;
171	–	if(goodDoubleElec10!=0) itrig9 = triggerNames_.triggerIndex("HLT_DoubleEle10_SW_L1R");
172	–	int itrig10=-99;
173	–	if(goodDoubleElec15_1!=0) itrig10 = triggerNames_.triggerIndex("HLT_DoubleEle15_SW_L1R_v1");
174	–	int itrig11=-99;
175	–	if(goodDoubleElec17_1!=0) itrig11 = triggerNames_.triggerIndex("HLT_DoubleEle17_SW_L1R_v1");
176	–	int itrig12=-99;
177	–	if(goodMet100!=0) itrig12 = triggerNames_.triggerIndex("HLT_MET100_v1");
178	–
179	–	int itrig13=-99;
180	–	if(goodSingleEle1!=0) itrig13 = triggerNames_.triggerIndex("HLT_Ele15_SW_L1R");
181	–	int itrig14=-99;
182	–	if(goodSingleEle2!=0) itrig14 = triggerNames_.triggerIndex("HLT_Ele17_SW_TightEleId_L1R");
183	–	int itrig15=-99;
184	–	if(goodSingleEle3!=0) itrig15 = triggerNames_.triggerIndex("HLT_Ele17_SW_TighterEleIdIsol_L1R_v2");
185	–	int itrig16=-99;
186	–	if(goodSingleEle4!=0) itrig16 = triggerNames_.triggerIndex("HLT_Ele17_SW_TighterEleIdIsol_L1R_v3");
187	–
188	–	int itrig17=-99;
189	–	if(goodBtagMu1!=0) itrig17 = triggerNames_.triggerIndex("HLT_BTagMu_DiJet20U_v1");
190	–	int itrig18=-99;
191	–	if(goodBtagMu2!=0) itrig18 = triggerNames_.triggerIndex("HLT_BTagMu_DiJet30U_Mu5_v3");
192	–	int itrig19=-99;
193	–	if(goodBtagMu0!=0) itrig19 = triggerNames_.triggerIndex("HLT_BTagMu_Jet20U");
194	–	int itrig20=-99;
195	–	if(goodBtagMu11!=0) itrig20 = triggerNames_.triggerIndex("HLT_BTagMu_DiJet20U_Mu5_v1");
196	–	int itrig21=-99;
197	–	if(goodBtagMuJet1!=0) itrig21 = triggerNames_.triggerIndex("HLT_Mu17_CentralJet30_BTagIP_v2");
198	–	int itrig22=-99;
199	–	if(goodBtagMuJet2!=0) itrig22 = triggerNames_.triggerIndex("HLT_Mu17_CentralJet30_v2");
200	–	int itrig23=-99;
201	–	if(goodBtagMuJet3!=0) itrig23 = triggerNames_.triggerIndex("HLT_HT200_Mu5_PFMHT35_v2");
202	–	int itrig231=-99;
203	–	if(goodBtagMuJet4!=0) itrig231 = triggerNames_.triggerIndex("HLT_Mu12_CentralJet30_BTagIP_v2");
204	–
205	–	int itrig24=-99;
206	–	if(goodIsoMu15!=0) itrig24 = triggerNames_.triggerIndex("HLT_IsoMu15_v5");
207	–	int itrig25=-99;
208	–	if(goodIsoMu17v5!=0) itrig25 = triggerNames_.triggerIndex("HLT_IsoMu17_v5");
209	–	int itrig26=-99;
210	–	if(goodIsoMu17v6!=0) itrig26 = triggerNames_.triggerIndex("HLT_IsoMu17_v6");
211	–
212	–	if (itrig1!=-99 && hltresults->accept(itrig1))  auxInfo->triggerInfo.triggerMu9=1; else auxInfo->triggerInfo.triggerMu9=0;
213	–	if (itrig2!=-99 && hltresults->accept(itrig2))  auxInfo->triggerInfo.triggerIsoMu9=1; else auxInfo->triggerInfo.triggerIsoMu9=0;
214	–	if (itrig3!=-99 && hltresults->accept(itrig3))  auxInfo->triggerInfo.triggerIsoMu13_3=1; else auxInfo->triggerInfo.triggerIsoMu13_3=0;
215	–	if (itrig4!=-99 && hltresults->accept(itrig4))  auxInfo->triggerInfo.triggerMu11=1; else auxInfo->triggerInfo.triggerMu11=0;
216	–	if (itrig5!=-99 && hltresults->accept(itrig5))  auxInfo->triggerInfo.triggerDoubleMu3=1; else auxInfo->triggerInfo.triggerDoubleMu3=0;
217	–	if (itrig6!=-99 && hltresults->accept(itrig6))  auxInfo->triggerInfo.triggerDoubleMu3_2=1; else auxInfo->triggerInfo.triggerDoubleMu3_2=0;
218	–	if (itrig7!=-99 && hltresults->accept(itrig7))  auxInfo->triggerInfo.triggerMu15=1; else auxInfo->triggerInfo.triggerMu15=0;
219	–	if (itrig8!=-99 && hltresults->accept(itrig8))  auxInfo->triggerInfo.triggerMu15_1=1; else auxInfo->triggerInfo.triggerMu15_1=0;
220	–
221	–	if (itrig9!=-99 && hltresults->accept(itrig9))  auxInfo->triggerInfo.triggerDoubleElec10=1; else auxInfo->triggerInfo.triggerDoubleElec10=0;
222	–	if (itrig10!=-99 && hltresults->accept(itrig10))  auxInfo->triggerInfo.triggerDoubleElec15_1=1; else auxInfo->triggerInfo.triggerDoubleElec15_1=0;
223	–	if (itrig11!=-99 && hltresults->accept(itrig11))  auxInfo->triggerInfo.triggerDoubleElec17_1=1; else auxInfo->triggerInfo.triggerDoubleElec17_1=0;
224	–	if (itrig12!=-99 && hltresults->accept(itrig12))  auxInfo->triggerInfo.triggerMet100_1=1; else auxInfo->triggerInfo.triggerMet100_1=0;
225	–
226	–	if (itrig13!=-99 && hltresults->accept(itrig13))  auxInfo->triggerInfo.triggerSingleEle1=1; else auxInfo->triggerInfo.triggerSingleEle1=0;
227	–	if (itrig14!=-99 && hltresults->accept(itrig14))  auxInfo->triggerInfo.triggerSingleEle2=1; else auxInfo->triggerInfo.triggerSingleEle2=0;
228	–	if (itrig15!=-99 && hltresults->accept(itrig15))  auxInfo->triggerInfo.triggerSingleEle3=1; else auxInfo->triggerInfo.triggerSingleEle3=0;
229	–	if (itrig16!=-99 && hltresults->accept(itrig16))  auxInfo->triggerInfo.triggerSingleEle4=1; else auxInfo->triggerInfo.triggerSingleEle4=0;
230	–
231	–	if (itrig17!=-99 && hltresults->accept(itrig17))  auxInfo->triggerInfo.triggerBtagMu1=1; else auxInfo->triggerInfo.triggerBtagMu1=0;
232	–	if (itrig18!=-99 && hltresults->accept(itrig18))  auxInfo->triggerInfo.triggerBtagMu2=1; else auxInfo->triggerInfo.triggerBtagMu2=0;
233	–	if (itrig19!=-99 && hltresults->accept(itrig19))  auxInfo->triggerInfo.triggerBtagMu0=1; else auxInfo->triggerInfo.triggerBtagMu0=0;
234	–	if (itrig20!=-99 && hltresults->accept(itrig20))  auxInfo->triggerInfo.triggerBtagMu11=1; else auxInfo->triggerInfo.triggerBtagMu11=0;
235	–	if (itrig21!=-99 && hltresults->accept(itrig21))  auxInfo->triggerInfo.triggerBtagMuJet1=1; else auxInfo->triggerInfo.triggerBtagMuJet1=0;
236	–	if (itrig22!=-99 && hltresults->accept(itrig22))  auxInfo->triggerInfo.triggerBtagMuJet2=1; else auxInfo->triggerInfo.triggerBtagMuJet2=0;
237	–	if (itrig23!=-99 && hltresults->accept(itrig23))  auxInfo->triggerInfo.triggerBtagMuJet3=1; else auxInfo->triggerInfo.triggerBtagMuJet3=0;
238	–	if (itrig231!=-99 && hltresults->accept(itrig231))  auxInfo->triggerInfo.triggerBtagMuJet4=1; else auxInfo->triggerInfo.triggerBtagMuJet4=0;
239	–
240	–	if (itrig24!=-99 && hltresults->accept(itrig24))  auxInfo->triggerInfo.triggerIsoMu15=1; else auxInfo->triggerInfo.triggerIsoMu15=0;
241	–	if (itrig25!=-99 && hltresults->accept(itrig25))  auxInfo->triggerInfo.triggerIsoMu17v5=1; else auxInfo->triggerInfo.triggerIsoMu17v5=0;
242	–	if (itrig26!=-99 && hltresults->accept(itrig26))  auxInfo->triggerInfo.triggerIsoMu17v6=1; else auxInfo->triggerInfo.triggerIsoMu17v6=0;
243	–
244	–	if (itrig1==-99)  auxInfo->triggerInfo.triggerMu9=-99;
245	–	if (itrig2==-99)  auxInfo->triggerInfo.triggerIsoMu9=-99;
246	–	if (itrig3==-99)  auxInfo->triggerInfo.triggerIsoMu13_3=-99;
247	–	if (itrig4==-99)  auxInfo->triggerInfo.triggerMu11=-99;
248	–	if (itrig5==-99)  auxInfo->triggerInfo.triggerDoubleMu3=-99;
249	–	if (itrig6==-99)  auxInfo->triggerInfo.triggerDoubleMu3_2=-99;
250	–	if (itrig7==-99)  auxInfo->triggerInfo.triggerMu15=-99;
251	–	if (itrig8==-99)  auxInfo->triggerInfo.triggerMu15_1=-99;
252	–
253	–	if (itrig9==-99)  auxInfo->triggerInfo.triggerDoubleElec10=-99;
254	–	if (itrig10==-99)  auxInfo->triggerInfo.triggerDoubleElec15_1=-99;
255	–	if (itrig11==-99)  auxInfo->triggerInfo.triggerDoubleElec17_1=-99;
256	–	if (itrig12==-99) auxInfo->triggerInfo.triggerMet100_1=-99;
257	–
258	–	if (itrig13==-99) auxInfo->triggerInfo.triggerSingleEle1=-99;
259	–	if (itrig14==-99) auxInfo->triggerInfo.triggerSingleEle2=-99;
260	–	if (itrig15==-99) auxInfo->triggerInfo.triggerSingleEle3=-99;
261	–	if (itrig16==-99) auxInfo->triggerInfo.triggerSingleEle4=-99;
262	–
263	–	if(itrig17==-99)  auxInfo->triggerInfo.triggerBtagMu1=-99;
264	–	if(itrig18==-99)  auxInfo->triggerInfo.triggerBtagMu2=-99;
265	–	if(itrig19==-99)  auxInfo->triggerInfo.triggerBtagMu0=-99;
266	–	if(itrig20==-99)  auxInfo->triggerInfo.triggerBtagMu11=-99;
267	–	if(itrig21==-99)  auxInfo->triggerInfo.triggerBtagMuJet1=-99;
268	–	if(itrig22==-99)  auxInfo->triggerInfo.triggerBtagMuJet2=-99;
269	–	if(itrig23==-99)  auxInfo->triggerInfo.triggerBtagMuJet3=-99;
270	–	if(itrig231==-99)  auxInfo->triggerInfo.triggerBtagMuJet4=-99;
271	–
272	–	if(itrig24==-99)  auxInfo->triggerInfo.triggerIsoMu15=-99;
273	–	if(itrig25==-99)  auxInfo->triggerInfo.triggerIsoMu17v5=-99;
274	–	if(itrig26==-99)  auxInfo->triggerInfo.triggerIsoMu17v6=-99;
275	–
276	–	//  MinDRMu=-99.,MCBestMuId=-99,MCBestMuMomId=-99,MCBestMuGMomId=-99;
277	–	//  for(int i=0;i<50;i++) {DeltaRMu[i]=-99;}
278	–
138
139	+	int ntrigs = hltresults->size();
140	+	if (ntrigs==0){std::cerr << "%HLTInfo -- No trigger name given in TriggerResults of the input " << std::endl;}
141
142		BeamSpot vertexBeamSpot;
143		edm::Handle<reco::BeamSpot> recoBeamSpotHandle;
#	Line 294 | Line 155 | HbbAnalyzerNew::produce(edm::Event& iEve
155		Handle<reco::VertexCollection> recVtxs;
156		iEvent.getByLabel("offlinePrimaryVertices", recVtxs);
157
158	+	auxInfo->pvInfo.nVertices = recVtxs->size();
159	+
160		for(size_t i = 0; i < recVtxs->size(); ++ i) {
161		const Vertex &vtx = (*recVtxs)[i];
162		double RecVtxProb=TMath::Prob(vtx.chi2(),vtx.ndof());
#	Line 308 | Line 171 | HbbAnalyzerNew::produce(edm::Event& iEve
171
172		auxInfo->pvInfo.firstPVInPT2 = TVector3(RecVtxFirst.x(), RecVtxFirst.y(), RecVtxFirst.z());
173		auxInfo->pvInfo.firstPVInProb = TVector3(RecVtx.x(), RecVtx.y(), RecVtx.z());
174	<
174	>
175	>	(auxInfo->pvInfo).efirstPVInPT2 = (RecVtxFirst.error());
176	>	(auxInfo->pvInfo).efirstPVInProb = RecVtx.error();
177
178		edm::Handle<double> rhoHandle;
179	<	iEvent.getByLabel(edm::InputTag("kt6PFJets", "rho"),rhoHandle); // configure srcRho = cms.InputTag('kt6PFJets")
179	>	iEvent.getByLabel(edm::InputTag("kt6PFJets", "rho"),rhoHandle);
180		auxInfo->puInfo.rho = *rhoHandle;
181	<
181	>
182	>	edm::Handle<double> rho25Handle;
183	>	iEvent.getByLabel(edm::InputTag("kt6PFJets25", "rho"),rho25Handle);
184	>	auxInfo->puInfo.rho25 = *rho25Handle;
185	>
186	>	edm::Handle<std::vector< PileupSummaryInfo> > puHandle;
187	>
188	>	if (runOnMC_){
189	>	iEvent.getByType(puHandle);
190	>	if (puHandle.isValid()){
191	>
192	>	std::vector< PileupSummaryInfo> pu = (*puHandle);
193	>	for (std::vector<PileupSummaryInfo>::const_iterator it= pu.begin(); it!=pu.end(); ++it){
194	>	int bx = (*it).getBunchCrossing();
195	>	unsigned int num = (*it).getPU_NumInteractions();
196	>	//      std::cout <<" PU PUSHING "<<bx<<" " <<num<<std::endl;
197	>	auxInfo->puInfo.pus[bx]  =num;
198	>	}
199	>	}
200	>	}
201	>
202		//// real start
203
204
#	Line 324 | Line 209 | HbbAnalyzerNew::produce(edm::Event& iEve
209
210		if(runOnMC_){
211
212	<	int Hin=-99,Win=-99,Zin=-99,bin=-99,bbarin=-99;
328	<	iEvent.getByLabel("genParticles", genParticles);
212	>	iEvent.getByLabel("genParticles", genParticles);
213
214		for(size_t i = 0; i < genParticles->size(); ++ i) {
215	<	int Hin=-99,Win=-99,Zin=-99,bin=-99,bbarin=-99;
332	<
215	>
216		const GenParticle & p = (*genParticles)[i];
217		int id = p.pdgId();
218		int st = p.status();
219
220		if(id==25){
221
339	–	/*          int wh=0;
340	–	int nMoth = p.numberOfMothers();
341	–	for(size_t jj = 0; jj < nMoth; ++ jj) {
342	–	const Candidate * mom = p.mother( jj );
343	–	int nmomdau= mom->numberOfDaughters();
344	–	for(size_t j = 0; j < nmomdau; ++ j) {
345	–	const Candidate * Wmomdau = mom->daughter( j );
346	–	if(abs(Wmomdau->pdgId())==24) wh++;
347	–	}
348	–	}
349	–
350	–	if(wh==0) continue;
351	–	*/
222		VHbbEventAuxInfo::ParticleMCInfo htemp;
353	–	Hin=i;
223		htemp.status=st;
224		htemp.charge=p.charge();
225		if(p.mother(0)!=0) htemp.momid=p.mother(0)->pdgId();
226		if(p.mother(0)!=0 && p.mother(0)->mother(0)!=0) htemp.gmomid=p.mother(0)->mother(0)->pdgId();
227		htemp.p4 = GENPTOLOR(p);
228	<
228	>
229		int ndau = p.numberOfDaughters();
230		for(int j = 0; j < ndau; ++ j) {
231		const Candidate * Hdau = p.daughter( j );
#	Line 365 | Line 234 | HbbAnalyzerNew::produce(edm::Event& iEve
234		}
235		(auxInfo->mcH).push_back(htemp);
236		}
237	<
238	<
237	>
238	>
239		if(abs(id)==24){
240	<
372	<	Win=i;
240	>
241		VHbbEventAuxInfo::ParticleMCInfo wtemp;
242		wtemp.status=st;
243		wtemp.charge=p.charge();
244		if(p.mother(0)!=0) wtemp.momid=p.mother(0)->pdgId();
245		if(p.mother(0)!=0 && p.mother(0)->mother(0)!=0) wtemp.gmomid=p.mother(0)->mother(0)->pdgId();
246		wtemp.p4=GENPTOLOR(p);
247	<
247	>
248		int ndau = p.numberOfDaughters();
249		for(int j = 0; j < ndau; ++ j) {
250		const Candidate * Wdau = p.daughter( j );
#	Line 388 | Line 256 | HbbAnalyzerNew::produce(edm::Event& iEve
256
257		if(abs(id)==23){
258
259	<	Zin=i;
259	>
260		VHbbEventAuxInfo::ParticleMCInfo ztemp;
261		ztemp.status=st;
262		ztemp.charge=p.charge();
#	Line 410 | Line 278 | HbbAnalyzerNew::produce(edm::Event& iEve
278
279
280		if(id==5){
281	<	bin=i;
281	>
282		VHbbEventAuxInfo::ParticleMCInfo btemp;
283		btemp.status=st;
284		btemp.charge=p.charge();
285		if(p.mother(0)!=0) btemp.momid=p.mother(0)->pdgId();
286		if(p.mother(0)!=0 && p.mother(0)->mother(0)!=0) btemp.gmomid=p.mother(0)->mother(0)->pdgId();
287	+
288	+	btemp.p4=GENPTOLOR(p);
289	+
290	+	int nHDaubdau = p.numberOfDaughters();
291	+	for(int j = 0; j < nHDaubdau; ++ j) {
292	+	const Candidate * Bdau = p.daughter( j );
293	+	btemp.dauid.push_back(Bdau->pdgId());
294	+	}
295		auxInfo->mcB.push_back(btemp);
296		}
297
298		if(id==-5){
299	<	bbarin=i;
299	>
300		VHbbEventAuxInfo::ParticleMCInfo bbtemp;
301
302		bbtemp.status=st;
303		bbtemp.charge=p.charge();
304		if(p.mother(0)!=0) bbtemp.momid=p.mother(0)->pdgId();
305		if(p.mother(0)!=0 && p.mother(0)->mother(0)!=0) bbtemp.gmomid=p.mother(0)->mother(0)->pdgId();
306	+
307	+	bbtemp.p4=GENPTOLOR(p);
308	+
309	+	int nHDaubdau = p.numberOfDaughters();
310	+	for(int j = 0; j < nHDaubdau; ++ j) {
311	+	const Candidate * Bdau = p.daughter( j );
312	+	bbtemp.dauid.push_back(Bdau->pdgId());
313	+	}
314	+
315	+
316		auxInfo->mcBbar.push_back(bbtemp);
317		}
318
#	Line 436 | Line 322 | HbbAnalyzerNew::produce(edm::Event& iEve
322		ctemp.charge=p.charge();
323		if(p.mother(0)!=0) ctemp.momid=p.mother(0)->pdgId();
324		if(p.mother(0)!=0 && p.mother(0)->mother(0)!=0) ctemp.gmomid=p.mother(0)->mother(0)->pdgId();
325	+
326	+	ctemp.p4=GENPTOLOR(p);
327	+
328	+	int nHDaubdau = p.numberOfDaughters();
329	+	for(int j = 0; j < nHDaubdau; ++ j) {
330	+	const Candidate * Bdau = p.daughter( j );
331	+	ctemp.dauid.push_back(Bdau->pdgId());
332	+	}
333	+
334		auxInfo->mcC.push_back(ctemp);
335	+
336		}
441	–
442	–	if(bin!=-99 && bbarin!=-99){
443	–	const Candidate & bGen = (*genParticles)[bin];
444	–	const Candidate & bbarGen = (*genParticles)[bbarin];
445	–	((auxInfo->mcB).back()).p4=GENPTOLOR(bGen);
446	–	((auxInfo->mcBbar).back()).p4=GENPTOLOR(bbarGen);
447	–
448	–	int nHDaubdau = bGen.numberOfDaughters();
449	–	for(int j = 0; j < nHDaubdau; ++ j) {
450	–	const Candidate * Bdau = bGen.daughter( j );
451	–	((auxInfo->mcB).back()).dauid.push_back(Bdau->pdgId());
452	–	((auxInfo->mcB).back()).dauFourMomentum.push_back(GENPTOLORP(Bdau));
453	–	}
454	–	int nHDaubbardau = bbarGen.numberOfDaughters();
455	–	for(int j = 0; j < nHDaubbardau; ++ j) {
456	–	const Candidate * Bbardau = bbarGen.daughter( j );
457	–	((auxInfo->mcBbar).back()).dauid.push_back(Bbardau->pdgId());
458	–	((auxInfo->mcBbar).back()).dauFourMomentum.push_back(GENPTOLORP(Bbardau));
459	–	}
460	–
461	–	}
337
338		}
339
465	–
340		}   // isMC
341
342		/////// end generator block
#	Line 505 | Line 379 | HbbAnalyzerNew::produce(edm::Event& iEve
379		iEvent.getByLabel(eleLabel_,electronHandle);
380		edm::View<pat::Electron> electrons = *electronHandle;
381
508	–	edm::Handle<edm::View<pat::MET> > metHandle;
509	–	iEvent.getByLabel(metLabel_,metHandle);
510	–	edm::View<pat::MET> mets = *metHandle;
382
383		//   edm::Handle<edm::View<pat::Photon> > phoHandle;
384		//   iEvent.getByLabel(phoLabel_,phoHandle);
#	Line 517 | Line 388 | HbbAnalyzerNew::produce(edm::Event& iEve
388		iEvent.getByLabel(tauLabel_,tauHandle);
389		edm::View<pat::Tau> taus = *tauHandle;
390
520	–	edm::Handle<CandidateView> dimuons;
521	–	iEvent.getByLabel(dimuLabel_,dimuons);
522	–
523	–	edm::Handle<CandidateView> dielectrons;
524	–	iEvent.getByLabel(dielecLabel_,dielectrons);
391
392	+	//BTAGGING SCALE FACTOR FROM DATABASE
393	+	//Combined Secondary Vertex Loose
394	+	edm::ESHandle<BtagPerformance> bTagSF_CSVL_;
395	+	iSetup.get<BTagPerformanceRecord>().get("BTAGCSVL",bTagSF_CSVL_);
396	+	//Combined Secondary Vertex Medium
397	+	edm::ESHandle<BtagPerformance> bTagSF_CSVM_;
398	+	iSetup.get<BTagPerformanceRecord>().get("BTAGCSVM",bTagSF_CSVM_);
399	+	//Combined Secondary Vertex Tight
400	+	edm::ESHandle<BtagPerformance> bTagSF_CSVT_;
401	+	iSetup.get<BTagPerformanceRecord>().get("BTAGCSVT",bTagSF_CSVT_);
402	+
403	+	edm::ESHandle<BtagPerformance> mistagSF_CSVL_;
404	+	iSetup.get<BTagPerformanceRecord>().get("MISTAGCSVL",mistagSF_CSVL_);
405	+	//Combined Secondary Vertex Medium
406	+	edm::ESHandle<BtagPerformance> mistagSF_CSVM_;
407	+	iSetup.get<BTagPerformanceRecord>().get("MISTAGCSVM",mistagSF_CSVM_);
408	+	//Combined Secondary Vertex Tight
409	+	edm::ESHandle<BtagPerformance> mistagSF_CSVT_;
410	+	iSetup.get<BTagPerformanceRecord>().get("MISTAGCSVT",mistagSF_CSVT_);
411	+
412	+	BTagSFContainer btagSFs;
413	+	btagSFs.BTAGSF_CSVL = (bTagSF_CSVL_.product());
414	+	btagSFs.BTAGSF_CSVM = (bTagSF_CSVM_.product());
415	+	btagSFs.BTAGSF_CSVT = (bTagSF_CSVT_.product());
416	+	btagSFs.MISTAGSF_CSVL = (mistagSF_CSVL_.product());
417	+	btagSFs.MISTAGSF_CSVM = (mistagSF_CSVM_.product());
418	+	btagSFs.MISTAGSF_CSVT = (mistagSF_CSVT_.product());
419
420	+	#ifdef ENABLE_SIMPLEJETS1
421		for(edm::View<pat::Jet>::const_iterator jet_iter = simplejets1.begin(); jet_iter!=simplejets1.end(); ++jet_iter){
422		//     if(jet_iter->pt()>50)
423		//       njetscounter++;
424		VHbbEvent::SimpleJet sj;
425	<	sj.flavour = jet_iter->partonFlavour();
425	>	//    std::cout <<" sj1"<<std::endl;
426	>	fillSimpleJet(sj,jet_iter);
427	>	//    if(!runOnMC_)
428
429	<	sj.tche=jet_iter->bDiscriminator("trackCountingHighEffBJetTags");
534	<	sj.tchp=jet_iter->bDiscriminator("trackCountingHighPurBJetTags");
535	<	sj.jp=jet_iter->bDiscriminator("jetProbabilityBJetTags");
536	<	sj.jpb=jet_iter->bDiscriminator("jetBProbabilityBJetTags");
537	<	sj.ssvhe=jet_iter->bDiscriminator("simpleSecondaryVertexHighEffBJetTags");
538	<	sj.csv=jet_iter->bDiscriminator("combinedSecondaryVertexBJetTags");
539	<	sj.csvmva=jet_iter->bDiscriminator("combinedSecondaryVertexMVABJetTags");
540	<	sj.charge=jet_iter->jetCharge();
541	<	sj.ntracks=jet_iter->associatedTracks().size();
542	<	sj.p4=GENPTOLORP(jet_iter);
543	<	sj.chargedTracksFourMomentum=(getChargedTracksMomentum(&*(jet_iter)));
544	<
545	<	//
546	<	// add tVector
547	<	//
548	<	sj.tVector = getTvect(&(*jet_iter));
429	>	setJecUnc(sj,jecUnc);
430
431		Particle::LorentzVector p4Jet = jet_iter->p4();
432
433		if(runOnMC_){
434	<	double minb1DR=9999.;
435	<	for(size_t i = 0; i < genParticles->size(); ++ i) {
436	<	const GenParticle & p = (*genParticles)[i];
437	<	int id = p.pdgId();
438	<	if(abs(id)<=6 || id==21 || id==23 || abs(id)==24){
439	<	double bb1DR=TMath::Sqrt((p.eta()-p4Jet.eta())*(p.eta()-p4Jet.eta())+
440	<	(p.phi()-p4Jet.phi())*(p.phi()-p4Jet.phi()));
441	<	if(bb1DR<minb1DR) {minb1DR=bb1DR; sj.bestMCid=id; if(p.mother()!=0) sj.bestMCmomid=p.mother()->pdgId();}
434	>
435	>	fillScaleFactors(sj, btagSFs);
436	>
437	>	//PAT genJet matching
438	>	//genJet
439	>	const reco::GenJet *gJ = jet_iter->genJet();
440	>	//physical parton for mother info ONLY
441	>	if( (jet_iter->genParton()) ){
442	>	sj.bestMCid = jet_iter->genParton()->pdgId();
443	>	if( (jet_iter->genParton()->mother()) )
444	>	sj.bestMCmomid=jet_iter->genParton()->mother()->pdgId();
445	>	}
446	>	TLorentzVector gJp4;
447	>	if(gJ){
448	>	gJp4.SetPtEtaPhiE(gJ->pt(),gJ->eta(),gJ->phi(),gJ->energy());
449	>	sj.bestMCp4 = gJp4;
450	>	if(verbose_){
451	>	std::clog << "genJet matched Pt = " << gJp4.Pt() << std::endl;
452	>	std::clog << "genJet matched eta = " << gJp4.Eta() << std::endl;
453	>	std::clog << "genJet matched deltaR = " <<gJp4.DeltaR(sj.p4) << std::endl;
454	>	std::clog << "genJet matched mother id = " << sj.bestMCmomid << std::endl;
455		}
456		}
457	<	} //isMC
457	>
458	>	} //isMC
459		hbbInfo->simpleJets.push_back(sj);
460
461		}
462	<
462	>	#endif //ENABLE_SIMPLEJETS1
463	>
464	>	for(edm::View<pat::Jet>::const_iterator jet_iter = simplejets3.begin(); jet_iter!=simplejets3.end(); ++jet_iter){
465	>	//     if(jet_iter->pt()>50)
466	>	//       njetscounter++;
467	>	VHbbEvent::SimpleJet sj;
468	>	//    std::cout <<" sj3"<<std::endl;
469	>	fillSimpleJet(sj,jet_iter);
470	>	//    if(!runOnMC_)
471	>	setJecUnc(sj,jecUnc);
472	>
473	>
474	>	Particle::LorentzVector p4Jet = jet_iter->p4();
475	>
476	>	if(runOnMC_){
477	>
478	>	fillScaleFactors(sj, btagSFs);
479	>
480	>	//PAT genJet matching
481	>	//genJet
482	>	const reco::GenJet *gJ = jet_iter->genJet();
483	>	//physical parton for mother info ONLY
484	>	if( (jet_iter->genParton()) ){
485	>	sj.bestMCid = jet_iter->genParton()->pdgId();
486	>	if( (jet_iter->genParton()->mother()) )
487	>	sj.bestMCmomid=jet_iter->genParton()->mother()->pdgId();
488	>	}
489	>	TLorentzVector gJp4;
490	>	if(gJ){
491	>	gJp4.SetPtEtaPhiE(gJ->pt(),gJ->eta(),gJ->phi(),gJ->energy());
492	>	sj.bestMCp4 = gJp4;
493	>	if(verbose_){
494	>	std::clog << "genJet matched Pt = " << gJp4.Pt() << std::endl;
495	>	std::clog << "genJet matched eta = " << gJp4.Eta() << std::endl;
496	>	std::clog << "genJet matched deltaR = " <<gJp4.DeltaR(sj.p4) << std::endl;
497	>	std::clog << "genJet matched mother id = " << sj.bestMCmomid << std::endl;
498	>	}
499	>	}
500	>
501	>	} //isMC
502	>	hbbInfo->simpleJets3.push_back(sj);
503	>
504	>	}
505	>
506	>	#ifdef ENABLE_SIMPLEJETS4
507	>	for(edm::View<pat::Jet>::const_iterator jet_iter = simplejets4.begin(); jet_iter!=simplejets4.end(); ++jet_iter){
508	>	//     if(jet_iter->pt()>50)
509	>	//       njetscounter++;
510	>	VHbbEvent::SimpleJet sj;
511	>	//    std::cout <<" sj4"<<std::endl;
512	>	fillSimpleJet(sj,jet_iter);
513	>	//    if(!runOnMC_)
514	>	setJecUnc(sj,jecUnc);
515	>
516	>
517	>	Particle::LorentzVector p4Jet = jet_iter->p4();
518	>
519	>	if(runOnMC_){
520	>
521	>	fillScaleFactors(sj, btagSFs);
522	>
523	>	//PAT genJet matching
524	>	//genJet
525	>	const reco::GenJet *gJ = jet_iter->genJet();
526	>	//physical parton for mother info ONLY
527	>	if( (jet_iter->genParton()) ){
528	>	sj.bestMCid = jet_iter->genParton()->pdgId();
529	>	if( (jet_iter->genParton()->mother()) )
530	>	sj.bestMCmomid=jet_iter->genParton()->mother()->pdgId();
531	>	}
532	>	TLorentzVector gJp4;
533	>	if(gJ){
534	>	gJp4.SetPtEtaPhiE(gJ->pt(),gJ->eta(),gJ->phi(),gJ->energy());
535	>	sj.bestMCp4 = gJp4;
536	>	if(verbose_){
537	>	std::clog << "genJet matched Pt = " << gJp4.Pt() << std::endl;
538	>	std::clog << "genJet matched eta = " << gJp4.Eta() << std::endl;
539	>	std::clog << "genJet matched deltaR = " <<gJp4.DeltaR(sj.p4) << std::endl;
540	>	std::clog << "genJet matched mother id = " << sj.bestMCmomid << std::endl;
541	>	}
542	>	}
543	>
544	>	} //isMC
545	>	hbbInfo->simpleJets4.push_back(sj);
546	>
547	>	}
548	>	#endif //ENABLE SIMPLEJETS4
549	>
550
551		for(edm::View<pat::Jet>::const_iterator jet_iter = simplejets2.begin(); jet_iter!=simplejets2.end(); ++jet_iter){
552
553		VHbbEvent::SimpleJet sj;
554	<	sj.flavour = jet_iter->partonFlavour();
554	>	//    std::cout <<" sj2"<<std::endl;
555	>	fillSimpleJet(sj,jet_iter);
556	>	//  if(!runOnMC_)
557	>	setJecUnc(sj,jecUnc);
558	>	/*    sj.flavour = jet_iter->partonFlavour();
559
560
561		sj.tche=jet_iter->bDiscriminator("trackCountingHighEffBJetTags");
#	Line 583 | Line 569 | HbbAnalyzerNew::produce(edm::Event& iEve
569		sj.ntracks=jet_iter->associatedTracks().size();
570		sj.p4=GENPTOLORP(jet_iter);
571		sj.chargedTracksFourMomentum=(getChargedTracksMomentum(&*(jet_iter)));
572	<	sj.tVector = getTvect(&(*jet_iter));
572	>	sj.SF_CSVL=1;
573	>	sj.SF_CSVM=1;
574	>	sj.SF_CSVT=1;
575	>	sj.SF_CSVLerr=0;
576	>	sj.SF_CSVMerr=0;
577	>	sj.SF_CSVTerr=0;
578	>
579	>	//
580	>	// addtaginfo for csv
581	>	//
582
583	+	if (jet_iter->hasTagInfo("SimpleSecondaryVertex")) {
584	+
585	+	const reco::SecondaryVertexTagInfo * tf = jet_iter->tagInfoSecondaryVertex();
586	+	sj.vtxMass = tf->secondaryVertex(0).p4().mass();
587	+	sj.vtxNTracks = tf->secondaryVertex(0).nTracks();
588	+	Measurement1D m = tf->flightDistance(0);
589	+	sj.vtx3dL = m.value();
590	+	sj.vtx3deL = m.error();
591	+	}
592	+
593	+
594	+	//
595	+	// add tVector
596	+	//
597	+	sj.tVector = getTvect(&(*jet_iter));
598	+	*/
599		Particle::LorentzVector p4Jet = jet_iter->p4();
600
601		if(runOnMC_){
602	<	double minb2DR=9999.;
603	<	for(size_t i = 0; i < genParticles->size(); ++ i) {
604	<	const GenParticle & p = (*genParticles)[i];
605	<	int id = p.pdgId();
606	<	if(abs(id)<=6 || id==21 || id==23 || abs(id)==24){
607	<	double bb2DR=TMath::Sqrt((p.eta()-p4Jet.eta())*(p.eta()-p4Jet.eta())+
608	<	(p.phi()-p4Jet.phi())*(p.phi()-p4Jet.phi()));
609	<	if(bb2DR<minb2DR) {minb2DR=bb2DR; sj.bestMCid=id; if(p.mother()!=0) sj.bestMCmomid=p.mother()->pdgId();}
602	>
603	>	//BTV scale factors
604	>	fillScaleFactors(sj, btagSFs);
605	>
606	>	//PAT genJet matching
607	>	//genJet
608	>	const reco::GenJet *gJ = jet_iter->genJet();
609	>	//physical parton for mother info ONLY
610	>	if( (jet_iter->genParton()) ){
611	>	sj.bestMCid = jet_iter->genParton()->pdgId();
612	>	if( (jet_iter->genParton()->mother()) )
613	>	sj.bestMCmomid=jet_iter->genParton()->mother()->pdgId();
614	>	}
615	>	TLorentzVector gJp4;
616	>	if(gJ){
617	>	gJp4.SetPtEtaPhiE(gJ->pt(),gJ->eta(),gJ->phi(),gJ->energy());
618	>	sj.bestMCp4 = gJp4;
619	>	if(verbose_){
620	>	std::clog << "genJet matched Pt = " << gJp4.Pt() << std::endl;
621	>	std::clog << "genJet matched eta = " << gJp4.Eta() << std::endl;
622	>	std::clog << "genJet matched deltaR = " << gJp4.DeltaR(sj.p4) << std::endl;
623	>	std::clog << "genJet matched mother id = " << sj.bestMCmomid << std::endl;
624		}
625		}
626	+
627		}   //isMC
628
629		hbbInfo->simpleJets2.push_back(sj);
#	Line 636 | Line 662 | HbbAnalyzerNew::produce(edm::Event& iEve
662		VHbbEvent::HardJet hj;
663		hj.constituents=constituents.size();
664		hj.p4 =GENPTOLORP(jet_iter);
665	<
665	>
666		for (unsigned int iJC(0); iJC<constituents.size(); ++iJC ){
667		Jet::Constituent icandJet = constituents[iJC];
668
#	Line 669 | Line 695 | HbbAnalyzerNew::produce(edm::Event& iEve
695		<< "," << subjet_iter->bDiscriminator("combinedSecondaryVertexBJetTags") << "\n";}
696
697		VHbbEvent::SimpleJet sj;
698	<
699	<	sj.flavour = subjet_iter->partonFlavour();
698	>	//    std::cout <<" sub jet "<<std::endl;
699	>	fillSimpleJet(sj,subjet_iter);
700	>	//  if(!runOnMC_)
701	>	setJecUnc(sj,jecUnc);
702	>	/*    sj.flavour = subjet_iter->partonFlavour();
703		sj.tVector = getTvect(&(*subjet_iter));
704		sj.tche=subjet_iter->bDiscriminator("trackCountingHighEffBJetTags");
705		sj.tchp=subjet_iter->bDiscriminator("trackCountingHighPurBJetTags");
#	Line 683 | Line 712 | HbbAnalyzerNew::produce(edm::Event& iEve
712		sj.ntracks=subjet_iter->associatedTracks().size();
713		sj.p4=GENPTOLORP(subjet_iter);
714		sj.p4=(getChargedTracksMomentum(&*(subjet_iter)));
715	+
716	+	//
717	+	// addtaginfo for csv
718	+	//
719	+
720	+	if (subjet_iter->hasTagInfo("SimpleSecondaryVertex")) {
721	+
722	+	const reco::SecondaryVertexTagInfo * tf = subjet_iter->tagInfoSecondaryVertex();
723	+	sj.vtxMass = tf->secondaryVertex(0).p4().mass();
724	+	sj.vtxNTracks = tf->secondaryVertex(0).nTracks();
725	+	Measurement1D m = tf->flightDistance(0);
726	+	sj.vtx3dL = m.value();
727	+	sj.vtx3deL = m.error();
728	+	}
729	+	*/
730		hbbInfo->subJets.push_back(sj);
731
732		}
733
734	+	//
735	+	// add charged met
736	+	//
737	+
738	+	edm::Handle<edm::View<reco::MET> > metChargedHandle;
739	+	iEvent.getByLabel("pfMETNoPUCharge",metChargedHandle);
740	+	edm::View<reco::MET> metsCh = *metChargedHandle;
741	+	if(metsCh.size()){
742	+	hbbInfo->metCh.sumEt=(metsCh[0]).sumEt();
743	+	hbbInfo->metCh.metSig=(metsCh[0]).significance();
744	+	hbbInfo->metCh.eLong=(metsCh[0]).e_longitudinal();
745	+	hbbInfo->metCh.p4=GENPTOLOR((metsCh[0]));
746	+	if (verbose_)     std::cout <<" METCharged "<<     hbbInfo->metCh.metSig <<" " <<     hbbInfo->metCh.sumEt<<std::endl;
747	+	}
748
749		//
750		// met is calomet
#	Line 697 | Line 755 | HbbAnalyzerNew::produce(edm::Event& iEve
755		edm::View<pat::MET> metsTC = *metTCHandle;
756		if(metsTC.size()){
757		hbbInfo->tcmet.sumEt=(metsTC[0]).sumEt();
758	<	hbbInfo->tcmet.metSig=(metsTC[0]).mEtSig();
758	>	hbbInfo->tcmet.metSig=(metsTC[0]).significance();
759		hbbInfo->tcmet.eLong=(metsTC[0]).e_longitudinal();
760		hbbInfo->tcmet.p4=GENPTOLOR((metsTC[0]));
761		if (verbose_)     std::cout <<" METTC "<<     hbbInfo->tcmet.metSig <<" " <<     hbbInfo->tcmet.sumEt<<std::endl;
762		}
763
764	+	edm::Handle<edm::View<reco::MET> > pfMETNoPUHandle;
765	+	iEvent.getByLabel("pfMETNoPU",pfMETNoPUHandle);
766	+	edm::View<reco::MET> metspfMETNoPU = *pfMETNoPUHandle;
767	+	if(metspfMETNoPU.size()){
768	+	hbbInfo->metNoPU.sumEt=(metspfMETNoPU[0]).sumEt();
769	+	hbbInfo->metNoPU.metSig=(metspfMETNoPU[0]).significance();
770	+	hbbInfo->metNoPU.eLong=(metspfMETNoPU[0]).e_longitudinal();
771	+	hbbInfo->metNoPU.p4=GENPTOLOR((metspfMETNoPU[0]));
772	+	if (verbose_)     std::cout <<" pfMETNoPU "<<     hbbInfo->metNoPU.metSig <<" " <<     hbbInfo->metNoPU.sumEt<<std::endl;
773	+	}
774	+
775	+	edm::Handle<edm::View<reco::MET> > mHTHandle;
776	+	iEvent.getByLabel("patMETsHT",mHTHandle);
777	+	edm::View<reco::MET> metsHT = *mHTHandle;
778	+	if(metsHT.size()){
779	+	hbbInfo->mht.sumEt=(metsHT[0]).sumEt();
780	+	hbbInfo->mht.metSig=(metsHT[0]).significance();
781	+	hbbInfo->mht.eLong=(metsHT[0]).e_longitudinal();
782	+	hbbInfo->mht.p4=GENPTOLOR((metsHT[0]));
783	+	if (verbose_)     std::cout <<" METHT "<<     hbbInfo->mht.metSig <<" " <<     hbbInfo->mht.sumEt<<std::endl;
784	+	}
785	+
786	+	edm::Handle<edm::View<reco::MET> > metHandle;
787	+	iEvent.getByLabel(metLabel_,metHandle);
788	+	edm::View<reco::MET> mets = *metHandle;
789	+
790		if(mets.size()){
791		hbbInfo->calomet.sumEt=(mets[0]).sumEt();
792	<	hbbInfo->calomet.metSig=(mets[0]).mEtSig();
792	>	hbbInfo->calomet.metSig=(mets[0]).significance();
793		hbbInfo->calomet.eLong=(mets[0]).e_longitudinal();
794		hbbInfo->calomet.p4=GENPTOLOR((mets[0]));
795	<	if (verbose_)     std::cout <<" METTC "<<     hbbInfo->calomet.metSig <<" " <<     hbbInfo->calomet.sumEt<<std::endl;
795	>	if (verbose_)     std::cout <<" METCALO "<<     hbbInfo->calomet.metSig <<" " <<     hbbInfo->calomet.sumEt<<std::endl;
796		}
713	–
797
798		edm::Handle<edm::View<pat::MET> > metPFHandle;
799		iEvent.getByLabel("patMETsPF",metPFHandle);
800		edm::View<pat::MET> metsPF = *metPFHandle;
801	<
801	>
802		if(metsPF.size()){
803		hbbInfo->pfmet.sumEt=(metsPF[0]).sumEt();
804	<	hbbInfo->pfmet.metSig=(metsPF[0]).mEtSig();
804	>	hbbInfo->pfmet.metSig=(metsPF[0]).significance();
805		hbbInfo->pfmet.eLong=(metsPF[0]).e_longitudinal();
806		hbbInfo->pfmet.p4=GENPTOLOR((metsPF[0]));
807	<	if (verbose_)     std::cout <<" METTC "<<     hbbInfo->pfmet.metSig <<" " <<     hbbInfo->pfmet.sumEt<<std::endl;
807	>	if (verbose_)     std::cout <<" METPF "<<     hbbInfo->pfmet.metSig <<" " <<     hbbInfo->pfmet.sumEt<<std::endl;
808		}
809	<
810	<
809	>
810	>
811		if(verbose_){
812	<	std::cout << "METs: calomet "<<mets.size()<<" tcmet "<<metsTC.size()<<" pfmet "<<metsPF.size()<<std::endl;
812	>	std::cout << "METs: calomet "<<mets.size()<<" tcmet"<<metsTC.size()<<" pfmet "<<metsPF.size()<<" MHT" <<metsHT.size()<<std::endl;
813		}
814
815	<	std::cout << " INPUT MUONS "<<muons.size()<<std::endl;
815	>	if(verbose_)
816	>	std::cout << " INPUT MUONS "<<muons.size()<<std::endl;
817
818		for(edm::View<pat::Muon>::const_iterator mu = muons.begin(); mu!=muons.end(); ++mu){
819		VHbbEvent::MuonInfo mf;
#	Line 738 | Line 822 | HbbAnalyzerNew::produce(edm::Event& iEve
822		mf.tIso=mu->trackIso();
823		mf.eIso=mu->ecalIso();
824		mf.hIso=mu->hcalIso();
825	+	mf.pfChaIso=mu->chargedHadronIso();
826	+	mf.pfChaPUIso=mu->userIso(5);
827	+	mf.pfPhoIso=mu->photonIso();
828	+	mf.pfNeuIso=mu->neutralHadronIso();
829		Geom::Phi<double> deltaphi(mu->phi()-atan2(mf.p4.Px(), mf.p4.Py()));
830		double acop = deltaphi.value();
831		mf.acop=acop;
832
833	+	mf.emEnergy = mu->calEnergy().em;
834	+	mf.hadEnergy = mu->calEnergy().had;
835	+
836	+	mf.nMatches = mu->numberOfMatches();
837	+
838		mf.ipDb=mu->dB();
839		mf.ipErrDb=mu->edB();
840	<	if(mu->isGlobalMuon()) mf.cat=1;
841	<	else if(mu->isTrackerMuon()) mf.cat=2;
842	<	else mf.cat=3;
840	>	mf.cat=0;
841	>	if(mu->isGlobalMuon()) mf.cat|=1;
842	>	if(mu->isTrackerMuon()) mf.cat|=2;
843	>	if(mu->isStandAloneMuon()) mf.cat|=4;
844		TrackRef trkMu1Ref = mu->get<TrackRef>();
845		if(trkMu1Ref.isNonnull()){
846		const Track* MuTrk1 = mu->get<TrackRef>().get();
#	Line 757 | Line 851 | HbbAnalyzerNew::produce(edm::Event& iEve
851		TrackRef iTrack1 = mu->innerTrack();
852		const reco::HitPattern& p1 = iTrack1->hitPattern();
853		mf.nPixelHits=p1.pixelLayersWithMeasurement();
854	<	}
854	>
855	>	mf.nValidTracker = p1.numberOfValidTrackerHits();
856	>	mf.nValidPixel = p1.numberOfValidPixelHits();
857	>
858	>
859	>
860	>	}
861		if(mu->isGlobalMuon()){
862		TrackRef gTrack = mu->globalTrack();
863		const reco::HitPattern& q = gTrack->hitPattern();
864		mf.globChi2=gTrack.get()->normalizedChi2();
865		mf.globNHits=q.numberOfValidMuonHits();
866	<	mf. validMuStations = q. muonStationsWithValidHits();
866	>	mf.validMuStations = q.muonStationsWithValidHits();
867		}else{
868		mf.globChi2=-99;
869		mf.globNHits=-99;
870		}
871	+
872	+	//Muon trigger matching
873	+	for (int itrig = 0; itrig != ntrigs; ++itrig){
874	+	std::string trigName=triggerNames_.triggerName(itrig);
875	+	if( (mu->triggerObjectMatchesByPath(trigName,false,false).size() != 0) ){
876	+	mf.hltMatchedBits.push_back(itrig);
877	+	if(verbose_){
878	+	std::clog << "Trigger Matching box" << std::endl;
879	+	std::clog << "+++++++++++++++++++++++++++++++++++++++++++++++++" << std::endl;
880	+	std::clog << "Matching parameters are defined in the cfg" << std::endl;
881	+	std::clog << "Trigger bit = " << itrig << std::endl;
882	+	std::clog << "Trigger name = " << trigName << std::endl;
883	+	std::clog << "Trigger object matched collection size = " << mu->triggerObjectMatchesByPath(trigName,false,false).size() << std::endl;
884	+	std::clog << "Pat Muon pt = " << mf.p4.Pt() << " HLT object matched = " << mu->triggerObjectMatch(0)->p4().Pt() << std::endl;
885	+	std::clog << "+++++++++++++++++++++++++++++++++++++++++++++++++" << std::endl;
886	+	}
887	+	}
888	+	}
889		//
890	+
891		// add stamuon
892
893		//    if (mu->isStandAloneMuon()) {
#	Line 790 | Line 909 | HbbAnalyzerNew::produce(edm::Event& iEve
909		hbbInfo->muInfo.push_back(mf);
910		}
911
912	<	std::cout << " INPUT electrons "<<electrons.size()<<std::endl;
912	>	if(verbose_)
913	>	std::cout << " INPUT electrons "<<electrons.size()<<std::endl;
914		for(edm::View<pat::Electron>::const_iterator elec = electrons.begin(); elec!=electrons.end(); ++elec){
915		VHbbEvent::ElectronInfo ef;
916		ef.p4=GENPTOLORP(elec);
#	Line 801 | Line 921 | HbbAnalyzerNew::produce(edm::Event& iEve
921		ef.tIso=elec->trackIso();
922		ef.eIso=elec->ecalIso();
923		ef.hIso=elec->hcalIso();
924	<	Geom::Phi<double> deltaphi(elec->superCluster()->phi()-atan2(hbbInfo->calomet.p4.Py(),hbbInfo->calomet.p4.Px()));
924	>	ef.pfChaIso=elec->chargedHadronIso();
925	>	ef.pfChaPUIso=elec->userIso(5);
926	>	ef.pfPhoIso=elec->photonIso();
927	>	ef.pfNeuIso=elec->neutralHadronIso();
928	>
929	>	//
930	>	// ip info
931	>	//
932	>
933	>	ef.ipDb=elec->dB();
934	>	ef.ipErrDb=elec->edB();
935	>
936	>
937	>
938	>	Geom::Phi<double> deltaphi(elec->superCluster()->phi()-atan2(hbbInfo->pfmet.p4.Py(),hbbInfo->pfmet.p4.Px()));
939		ef.acop = deltaphi.value();
940		//
941	+	ef.sihih = elec->sigmaIetaIeta();
942	+	ef.Dphi = elec->deltaPhiSuperClusterTrackAtVtx();
943	+	ef.Deta = elec->deltaEtaSuperClusterTrackAtVtx();
944	+	ef.HoE = elec->hadronicOverEm();
945	+	ef.convDist = elec->convDist();
946	+	ef.convDcot = elec->convDcot();
947	+	if(elec->gsfTrack().isNonnull()) ef.innerHits = elec->gsfTrack()->trackerExpectedHitsInner().numberOfHits();
948	+	ef.isEB = elec->isEB();
949	+	ef.isEE = elec->isEE();
950	+	//
951		// fill eleids
952		//
953	<	ef.id95 = elec->electronID("simpleEleId95cIso");
953	>	/*    ef.id95 = elec->electronID("simpleEleId95cIso");
954		ef.id85 = elec->electronID("simpleEleId85cIso");
955		ef.id70 = elec->electronID("simpleEleId70cIso");
956		ef.id95r = elec->electronID("simpleEleId95relIso");
957		ef.id70r = elec->electronID("simpleEleId70relIso");
958		ef.id85r = elec->electronID("simpleEleId85relIso");
959	+	*/
960	+	ef.id95 =elec->electronID("eidVBTFCom95");
961	+	ef.id95r=elec->electronID("eidVBTFRel95");
962	+	ef.id85 =elec->electronID("eidVBTFCom85");
963	+	ef.id85r=elec->electronID("eidVBTFRel85");
964	+	ef.id80 =elec->electronID("eidVBTFCom80");
965	+	ef.id80r=elec->electronID("eidVBTFRel80");
966	+	ef.id70 =elec->electronID("eidVBTFCom70");
967	+	ef.id70r=elec->electronID("eidVBTFRel70");
968	+
969	+	//Electron trigger matching
970	+	for (int itrig = 0; itrig != ntrigs; ++itrig){
971	+	std::string trigName=triggerNames_.triggerName(itrig);
972	+	if( (elec->triggerObjectMatchesByPath(trigName).size() != 0) ){
973	+	ef.hltMatchedBits.push_back(itrig);
974	+	if(verbose_){
975	+	std::clog << "Trigger Matching box" << std::endl;
976	+	std::clog << "+++++++++++++++++++++++++++++++++++++++++++++++++" << std::endl;
977	+	std::clog << "Matching parameters are defined in the cfg" << std::endl;
978	+	std::clog << "Trigger bit = " << itrig << std::endl;
979	+	std::clog << "Trigger name = " << trigName << std::endl;
980	+	std::clog << "Trigger object matched collection size = " << elec->triggerObjectMatchesByPath(trigName).size() << std::endl;
981	+	std::clog << "Pat Electron pt = " << ef.p4.Pt() << " HLT object matched = " << elec->triggerObjectMatch(0)->p4().Pt() << std::endl;
982	+	std::clog << "+++++++++++++++++++++++++++++++++++++++++++++++++" << std::endl;
983	+	}
984	+	}
985	+	}
986
987		if(runOnMC_){
988		const GenParticle* elecMc = elec->genLepton();
#	Line 824 | Line 995 | HbbAnalyzerNew::produce(edm::Event& iEve
995		hbbInfo->eleInfo.push_back(ef);
996		}
997
998	<
999	<	std::cout << " INPUT taus "<<taus.size()<<std::endl;
998	>	if(verbose_)
999	>	std::cout << " INPUT taus "<<taus.size()<<std::endl;
1000		for(edm::View<pat::Tau>::const_iterator tau = taus.begin(); tau!=taus.end(); ++tau){
1001		VHbbEvent::TauInfo tf;
1002		tf.p4=GENPTOLORP(tau);
#	Line 833 | Line 1004 | HbbAnalyzerNew::produce(edm::Event& iEve
1004		tf.tIso=tau->trackIso();
1005		tf.eIso=tau->ecalIso();
1006		tf.hIso=tau->hcalIso();
1007	<	Geom::Phi<double> deltaphi(tau->phi()-atan2(hbbInfo->calomet.p4.Py(),hbbInfo->calomet.p4.Px()));
1007	>	Geom::Phi<double> deltaphi(tau->phi()-atan2(hbbInfo->pfmet.p4.Py(),hbbInfo->pfmet.p4.Px()));
1008		double acop = deltaphi.value();
1009		tf.acop=acop;
1010		tf.idbyIso=tau->tauID("byIsolation");
#	Line 846 | Line 1017 | HbbAnalyzerNew::produce(edm::Event& iEve
1017		hbbInfo->tauInfo.push_back(tf);
1018		}
1019
1020	+	CompareJetPtMuons ptComparatorMu;
1021	+	CompareJetPtElectrons ptComparatorE;
1022	+	CompareJetPtTaus ptComparatorTau;
1023	+
1024	+	std::sort(hbbInfo->muInfo.begin(), hbbInfo->muInfo.end(), ptComparatorMu);
1025	+	std::sort(hbbInfo->eleInfo.begin(), hbbInfo->eleInfo.end(), ptComparatorE);
1026	+	std::sort(hbbInfo->tauInfo.begin(), hbbInfo->tauInfo.end(), ptComparatorTau);
1027
850	–	// dimuons and dielectrons
1028
852	–	for( size_t i = 0; i < dimuons->size(); i++ ) {
853	–	VHbbEvent::DiMuonInfo df;
854	–	const Candidate & dimuonCand = (*dimuons)[ i ];
855	–	df.p4= GENPTOLOR(dimuonCand);
856	–	const Candidate * lep0 = dimuonCand.daughter( 0 );
857	–	const Candidate * lep1 = dimuonCand.daughter( 1 );
858	–	// needed to access specific methods of pat::Muon
859	–	const pat::Muon & muonDau0 = dynamic_cast<const pat::Muon &>(*lep0->masterClone());
860	–	const pat::Muon & muonDau1 = dynamic_cast<const pat::Muon &>(*lep1->masterClone());
1029
862	–	df.daughter1.p4=GENPTOLOR(muonDau0);
863	–	df.daughter2.p4=GENPTOLOR(muonDau1);
864	–
865	–	df.daughter1.tIso= muonDau0.trackIso();
866	–	df.daughter2.tIso= muonDau1.trackIso();
867	–
868	–	df.daughter1.eIso= muonDau0.ecalIso();
869	–	df.daughter2.eIso= muonDau1.ecalIso();
870	–
871	–	df.daughter1.hIso= muonDau0.hcalIso();
872	–	df.daughter2.hIso= muonDau1.hcalIso();
873	–
874	–	df.daughter1.ipDb=muonDau0.dB();
875	–	df.daughter2.ipDb=muonDau1.dB();
876	–
877	–	df.daughter1.ipErrDb=muonDau0.edB();
878	–	df.daughter2.ipErrDb=muonDau1.edB();
879	–
880	–
881	–	if(muonDau0.isGlobalMuon()) df.daughter1.cat =1;
882	–	else if(muonDau0.isTrackerMuon()) df.daughter1.cat=2;
883	–	else df.daughter1.cat=3;
884	–	if(muonDau1.isGlobalMuon()) df.daughter2.cat =1;
885	–	else if(muonDau1.isTrackerMuon()) df.daughter2.cat=2;
886	–	else df.daughter2.cat=3;
887	–
888	–	TrackRef trkMu1Ref = muonDau0.get<TrackRef>();
889	–	TrackRef trkMu2Ref = muonDau1.get<TrackRef>();
890	–
891	–	if(trkMu1Ref.isNonnull() && trkMu2Ref.isNonnull()){
892	–	const Track* MuTrk1 = muonDau0.get<TrackRef>().get();
893	–	const Track* MuTrk2 = muonDau1.get<TrackRef>().get();
894	–	df.daughter1.zPVPt=MuTrk1->dz(RecVtxFirst.position());
895	–	df.daughter1.zPVProb=MuTrk1->dz(RecVtx.position());
896	–	df.daughter2.zPVPt=MuTrk2->dz(RecVtxFirst.position());
897	–	df.daughter2.zPVProb=MuTrk2->dz(RecVtx.position());
898	–
899	–	df.daughter1.nHits = MuTrk1->numberOfValidHits();
900	–	df.daughter2.nHits = MuTrk2->numberOfValidHits();
901	–
902	–	df.daughter1.chi2 = MuTrk1->normalizedChi2();
903	–	df.daughter2.chi2 = MuTrk2->normalizedChi2();
904	–
905	–	TrackRef iTrack1 = muonDau0.innerTrack();
906	–	const reco::HitPattern& p1 = iTrack1->hitPattern();
907	–	TrackRef iTrack2 = muonDau1.innerTrack();
908	–	const reco::HitPattern& p2 = iTrack2->hitPattern();
909	–
910	–	df.daughter1.nPixelHits = p1.pixelLayersWithMeasurement();
911	–	df.daughter2.nPixelHits = p2.pixelLayersWithMeasurement();
912	–
913	–	if(muonDau0.isGlobalMuon()){
914	–	TrackRef gTrack = muonDau0.globalTrack();
915	–	const reco::HitPattern& q = gTrack->hitPattern();
916	–	df.daughter1.globNHits=q.numberOfValidMuonHits();
917	–	df.daughter1.globChi2=gTrack.get()->normalizedChi2();
918	–	df.daughter1.validMuStations = q. muonStationsWithValidHits();
919	–	}
920	–	if(muonDau1.isGlobalMuon()){
921	–	TrackRef gTrack = muonDau1.globalTrack();
922	–	const reco::HitPattern& q = gTrack->hitPattern();
923	–	df.daughter2.globNHits=q.numberOfValidMuonHits();
924	–	df.daughter2.globChi2=gTrack.get()->normalizedChi2();
925	–	df.daughter2.validMuStations = q. muonStationsWithValidHits();
926	–	}
1030
928	–	}
929	–
930	–	hbbInfo->diMuonInfo.push_back(df);
931	–	}
932	–
933	–	for( size_t i = 0; i < dielectrons->size(); i++ ) {
934	–	VHbbEvent::DiElectronInfo df;
935	–	const Candidate & dielecCand = (*dielectrons)[ i ];
936	–
937	–	df.p4=GENPTOLOR(dielecCand);
938	–
939	–	// accessing the daughters of the dimuon candidate
940	–	const Candidate * lep0 = dielecCand.daughter( 0 );
941	–	const Candidate * lep1 = dielecCand.daughter( 1 );
942	–	// needed to access specific methods of pat::Muon
943	–	const pat::Electron & elecDau0 = dynamic_cast<const pat::Electron &>(*lep0->masterClone());
944	–	const pat::Electron & elecDau1 = dynamic_cast<const pat::Electron &>(*lep1->masterClone());
945	–
946	–	df.daughter1.p4 = GENPTOLOR(elecDau0);
947	–	df.daughter2.p4= GENPTOLOR(elecDau1);
948	–
949	–	df.daughter1.tIso = elecDau0.trackIso();
950	–	df.daughter2.tIso = elecDau1.trackIso();
951	–
952	–	df.daughter1.eIso = elecDau0.ecalIso();
953	–	df.daughter2.eIso = elecDau1.ecalIso();
954	–
955	–	df.daughter1.hIso = elecDau0.hcalIso();
956	–	df.daughter2.hIso = elecDau1.hcalIso();
957	–
958	–	// ids
959	–	df.daughter1.id95 = elecDau0.electronID("simpleEleId95cIso");
960	–	df.daughter1.id85 = elecDau0.electronID  ("simpleEleId85cIso");
961	–	df.daughter1.id70 = elecDau0.electronID  ("simpleEleId70cIso");
962	–	df.daughter1.id95r = elecDau0.electronID ("simpleEleId95relIso");
963	–	df.daughter1.id85r = elecDau0.electronID ("simpleEleId85relIso");
964	–	df.daughter1.id70r = elecDau0.electronID ("simpleEleId70relIso");
965	–
966	–
967	–	df.daughter2.id95 = elecDau1.electronID("simpleEleId95cIso");
968	–	df.daughter2.id85 = elecDau1.electronID  ("simpleEleId85cIso");
969	–	df.daughter2.id70 = elecDau1.electronID  ("simpleEleId70cIso");
970	–	df.daughter2.id95r = elecDau1.electronID ("simpleEleId95relIso");
971	–	df.daughter2.id85r = elecDau1.electronID ("simpleEleId85relIso");
972	–	df.daughter2.id70r = elecDau1.electronID ("simpleEleId70relIso");
973	–
974	–	hbbInfo->diElectronInfo.push_back(df);
975	–
976	–	}
1031		if (verbose_){
1032		std::cout <<" Pushing hbbInfo "<<std::endl;
1033		std::cout <<" SimpleJets1 = "<<hbbInfo->simpleJets.size()<<std::endl<<
#	Line 989 | Line 1043 | HbbAnalyzerNew::produce(edm::Event& iEve
1043
1044
1045		iEvent.put(hbbInfo);
1046	+	iEvent.put(auxInfo);
1047	+
1048
1049	+	delete jecUnc;
1050
1051		}
1052
#	Line 1100 | Line 1157 | TLorentzVector HbbAnalyzerNew::getCharge
1157		//re-
1158		}
1159
1160	+
1161	+	//Btagging scale factors
1162	+	void HbbAnalyzerNew::fillScaleFactors(VHbbEvent::SimpleJet& sj, BTagSFContainer iSF){
1163	+
1164	+
1165	+	BinningPointByMap measurePoint;
1166	+	//for a USDG
1167	+	//for CB jets
1168	+	//scale factor 1 for CB jets over 240GeV/c
1169	+	if( TMath::Abs(sj.flavour) == 4 or TMath::Abs(sj.flavour) == 5 ){
1170	+	measurePoint.insert( BinningVariables::JetEt, sj.p4.Et() );
1171	+	measurePoint.insert( BinningVariables::JetAbsEta, fabs(sj.p4.Eta()) );
1172	+	if( iSF.BTAGSF_CSVL->isResultOk(PerformanceResult::BTAGBEFFCORR , measurePoint) ){
1173	+	sj.SF_CSVL = iSF.BTAGSF_CSVL->getResult(PerformanceResult::BTAGBEFFCORR , measurePoint);
1174	+	sj.SF_CSVLerr = iSF.BTAGSF_CSVL->getResult(PerformanceResult::BTAGBERRCORR , measurePoint);
1175	+	if(verbose_){
1176	+	std::clog << "C/B Jet flavour = " << sj.flavour << std::endl;
1177	+	std::clog << "C/B Jet Et = " << sj.p4.Et() << std::endl;
1178	+	std::clog << "C/B Jet eta = " << sj.p4.Eta() << std::endl;
1179	+	std::clog << "C/B CSVL Scale Factor = " << sj.SF_CSVL << std::endl;
1180	+	std::clog << "C/B CSVL Scale Factor error = " << sj.SF_CSVLerr << std::endl;
1181	+	}
1182	+	}
1183	+	if( iSF.BTAGSF_CSVM->isResultOk(PerformanceResult::BTAGBEFFCORR , measurePoint) ){
1184	+	sj.SF_CSVM = iSF.BTAGSF_CSVM->getResult(PerformanceResult::BTAGBEFFCORR , measurePoint);
1185	+	sj.SF_CSVMerr = iSF.BTAGSF_CSVM->getResult(PerformanceResult::BTAGBERRCORR , measurePoint);
1186	+	}
1187	+	if( iSF.BTAGSF_CSVT->isResultOk(PerformanceResult::BTAGBEFFCORR , measurePoint) ){
1188	+	sj.SF_CSVT = iSF.BTAGSF_CSVT->getResult(PerformanceResult::BTAGBEFFCORR , measurePoint);
1189	+	sj.SF_CSVTerr = iSF.BTAGSF_CSVT->getResult(PerformanceResult::BTAGBERRCORR , measurePoint);
1190	+	}
1191	+	else{
1192	+	if(verbose_){
1193	+	std::cerr << "No SF found in the database for this jet" << std::endl;
1194	+	std::clog << "No SF found: Jet flavour = " << sj.flavour << std::endl;
1195	+	std::clog << "No SF found: Jet Et = " << sj.p4.Et() << std::endl;
1196	+	std::clog << "No SF found: Jet eta = " << sj.p4.Eta() << std::endl;
1197	+	}
1198	+	}
1199	+	}
1200	+	else {
1201	+	measurePoint.insert( BinningVariables::JetEt, sj.p4.Et() );
1202	+	measurePoint.insert( BinningVariables::JetAbsEta, fabs(sj.p4.Eta()) );
1203	+	if( iSF.MISTAGSF_CSVL->isResultOk(PerformanceResult::BTAGLEFFCORR , measurePoint) ){
1204	+	sj.SF_CSVL = iSF.MISTAGSF_CSVL->getResult(PerformanceResult::BTAGLEFFCORR , measurePoint);
1205	+	sj.SF_CSVLerr = iSF.MISTAGSF_CSVL->getResult(PerformanceResult::BTAGLERRCORR , measurePoint);
1206	+	if(verbose_){
1207	+	std::clog << "Light Jet flavour = " << sj.flavour << std::endl;
1208	+	std::clog << "Light Jet Et = " << sj.p4.Et() << std::endl;
1209	+	std::clog << "Light Jet eta = " << sj.p4.Eta() << std::endl;
1210	+	std::clog << "Light CSVL Scale Factor = " << sj.SF_CSVL << std::endl;
1211	+	std::clog << "Light CSVL Scale Factor error = " << sj.SF_CSVLerr << std::endl;
1212	+	}
1213	+	}
1214	+	if( iSF.MISTAGSF_CSVM->isResultOk(PerformanceResult::BTAGLEFFCORR , measurePoint) ){
1215	+	sj.SF_CSVM = iSF.MISTAGSF_CSVM->getResult(PerformanceResult::BTAGLEFFCORR , measurePoint);
1216	+	sj.SF_CSVMerr = iSF.MISTAGSF_CSVM->getResult(PerformanceResult::BTAGLERRCORR , measurePoint);
1217	+	}
1218	+	if( iSF.MISTAGSF_CSVT->isResultOk(PerformanceResult::BTAGLEFFCORR , measurePoint) ){
1219	+	sj.SF_CSVT = iSF.MISTAGSF_CSVT->getResult(PerformanceResult::BTAGLEFFCORR , measurePoint);
1220	+	sj.SF_CSVTerr = iSF.MISTAGSF_CSVT->getResult(PerformanceResult::BTAGLERRCORR , measurePoint);
1221	+	}
1222	+	else{
1223	+	if(verbose_){
1224	+	std::cerr << "No SF found in the database for this jet" << std::endl;
1225	+	std::clog << "No SF found: Jet flavour = " << sj.flavour << std::endl;
1226	+	std::clog << "No SF found: Jet Et = " << sj.p4.Et() << std::endl;
1227	+	std::clog << "No SF found: Jet eta = " << sj.p4.Eta() << std::endl;
1228	+	}
1229	+	}
1230	+	}
1231	+
1232	+	}
1233	+
1234	+	void HbbAnalyzerNew::setJecUnc(VHbbEvent::SimpleJet& sj,JetCorrectionUncertainty* jecunc){
1235	+	//
1236	+	// test
1237	+	//
1238	+
1239	+	//  return;
1240	+	double eta = sj.p4.Eta();
1241	+	double pt = sj.p4.Pt();
1242	+
1243	+	jecunc->setJetEta(eta);
1244	+	jecunc->setJetPt(pt); // here you must use the CORRECTED jet pt
1245	+	double unc = jecunc->getUncertainty(true);
1246	+	sj.jecunc= unc;
1247	+	}
1248	+
1249	+
1250	+	void HbbAnalyzerNew ::fillSimpleJet (VHbbEvent::SimpleJet& sj, edm::View<pat::Jet>::const_iterator jet_iter){
1251	+	sj.flavour = jet_iter->partonFlavour();
1252	+
1253	+	sj.tche=jet_iter->bDiscriminator("trackCountingHighEffBJetTags");
1254	+	sj.tchp=jet_iter->bDiscriminator("trackCountingHighPurBJetTags");
1255	+	sj.jp=jet_iter->bDiscriminator("jetProbabilityBJetTags");
1256	+	sj.jpb=jet_iter->bDiscriminator("jetBProbabilityBJetTags");
1257	+	sj.ssvhe=jet_iter->bDiscriminator("simpleSecondaryVertexHighEffBJetTags");
1258	+	sj.csv=jet_iter->bDiscriminator("combinedSecondaryVertexBJetTags");
1259	+	sj.csvmva=jet_iter->bDiscriminator("combinedSecondaryVertexMVABJetTags");
1260	+	sj.charge=jet_iter->jetCharge();
1261	+	sj.ntracks=jet_iter->associatedTracks().size();
1262	+	sj.p4=GENPTOLORP(jet_iter);
1263	+	//    std::cout << " ECCO "<<sj.csv<< " "<< sj.p4.Pt()<<std::endl;
1264	+	sj.chargedTracksFourMomentum=(getChargedTracksMomentum(&*(jet_iter)));
1265	+	sj.SF_CSVL=1;
1266	+	sj.SF_CSVM=1;
1267	+	sj.SF_CSVT=1;
1268	+	sj.SF_CSVLerr=0;
1269	+	sj.SF_CSVMerr=0;
1270	+	sj.SF_CSVTerr=0;
1271	+
1272	+
1273	+	if (jet_iter->isPFJet() == true) {
1274	+
1275	+	sj.chargedHadronEFraction = jet_iter-> chargedHadronEnergyFraction();
1276	+	sj.neutralHadronEFraction = jet_iter-> neutralHadronEnergyFraction ();
1277	+	sj.chargedEmEFraction = jet_iter-> chargedEmEnergyFraction ();
1278	+	sj.neutralEmEFraction = jet_iter-> neutralEmEnergyFraction ();
1279	+	sj.nConstituents = jet_iter->getPFConstituents().size();
1280	+
1281	+	}
1282	+	//
1283	+	// addtaginfo for csv
1284	+	//
1285	+
1286	+	//    if (jet_iter->hasTagInfo("SimpleSecondaryVertex")) {
1287	+
1288	+	const reco::SecondaryVertexTagInfo * tf = jet_iter->tagInfoSecondaryVertex();
1289	+	if (tf){
1290	+	if (tf->nVertices() >0){
1291	+	sj.vtxMass = tf->secondaryVertex(0).p4().mass();
1292	+	sj.vtxNTracks = tf->secondaryVertex(0).nTracks();
1293	+	std::vector<reco::TrackBaseRef >::const_iterator tit =  tf->secondaryVertex(0).tracks_begin();
1294	+	for (; tit<  tf->secondaryVertex(0).tracks_end(); ++tit){
1295	+	sj.vtxTrackIds.push_back(tit->key());
1296	+	}
1297	+	Measurement1D m = tf->flightDistance(0);
1298	+	sj.vtx3dL = m.value();
1299	+	sj.vtx3deL = m.error();
1300	+	}
1301	+	}
1302	+	//
1303	+	// add tVector
1304	+	//
1305	+	sj.tVector = getTvect(&(*jet_iter));
1306	+	}
1307	+
1308	+
1309		//define this as a plug-in
1310		DEFINE_FWK_MODULE(HbbAnalyzerNew);

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