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Comparing UserCode/MitHzz4l/NonMCBackground/src/SelectionEMU.cc (file contents):
Revision 1.5 by dkralph, Tue Jun 12 22:39:31 2012 UTC vs.
Revision 1.15 by dkralph, Sat Jul 21 11:27:54 2012 UTC

#	Line 30 | Line 30
30
31		extern vector<SimpleLepton> failingLeptons;
32		extern vector<SimpleLepton> passingLeptons;
33	+	extern vector<int> muTrigObjs,eleTrigObjs,muTriggers,eleTriggers;
34	+	extern bitset<TRIGGER_BIG_NUMBER> triggerBits;
35
36		//--------------------------------------------------------------------------------------------------
37		EventData apply_HZZ4L_EMU_selection(ControlFlags &ctrl,           // input control
38	<	const mithep::EventHeader *info,     // input event info
39	<	const mithep::Array<mithep::Vertex>       * vtxArr ,
40	<	const mithep::Array<mithep::PFCandidate>  *pfCandidates,
41	<	const mithep::Array<mithep::PileupEnergyDensity>  *puEnergyDensity,
42	<	const mithep::Array<mithep::Electron> *electronArr,    // input electrons
43	<	SelectionStatus (*ElectronPreSelector)( ControlFlags &,
44	<	const mithep::Electron*,
45	<	const mithep::Vertex *),
46	<	SelectionStatus (*ElectronIDSelector)( ControlFlags &,
47	<	const mithep::Electron*,
48	<	const mithep::Vertex *),
49	<	SelectionStatus (*ElectronIsoSelector)( ControlFlags &,
50	<	const mithep::Electron*,
51	<	const mithep::Vertex *,
52	<	const mithep::Array<mithep::PFCandidate> *,
53	<	const mithep::Array<mithep::PileupEnergyDensity> *,
54	<	mithep::ElectronTools::EElectronEffectiveAreaTarget,
53	<	vector<const mithep::PFCandidate*>),
54	<	const mithep::Array<mithep::Muon> *muonArr,    // input muons
55	<	SelectionStatus (*MuonPreSelector)( ControlFlags &,
56	<	const mithep::Muon*,
57	<	const mithep::Vertex *,
58	<	const mithep::Array<mithep::PFCandidate> *),
59	<	SelectionStatus (*MuonIDSelector)( ControlFlags &,
60	<	const mithep::Muon*,
61	<	// const mithep::Vertex &),
62	<	const mithep::Vertex *,
63	<	const mithep::Array<mithep::PFCandidate> *),
64	<	SelectionStatus (*MuonIsoSelector)( ControlFlags &,
65	<	const mithep::Muon*,
38	>	const mithep::EventHeader *info,     // input event info
39	>	mithep::TriggerTable *hltTable,
40	>	mithep::Array<mithep::TriggerObject> *hltObjArr,
41	>	mithep::TriggerObjectsTable *fTrigObjs,
42	>	const mithep::Array<mithep::Vertex>       * vtxArr ,
43	>	const mithep::Array<mithep::PFCandidate>  *pfCandidates,
44	>	const mithep::Array<mithep::PileupEnergyDensity>  *puEnergyDensity,
45	>	const mithep::DecayParticleCol *fConversions,
46	>	const mithep::Array<mithep::Electron> *electronArr,    // input electrons
47	>	SelectionStatus (*ElectronPreSelector)( ControlFlags &,
48	>	const mithep::Electron*,
49	>	const mithep::Vertex *),
50	>	SelectionStatus (*ElectronIDSelector)( ControlFlags &,
51	>	const mithep::Electron*,
52	>	const mithep::Vertex *),
53	>	SelectionStatus (*ElectronIsoSelector)( ControlFlags &,
54	>	const mithep::Electron*,
55		const mithep::Vertex *,
56	<	const mithep::Array<mithep::PFCandidate> *,
56	>	const mithep::Array<mithep::PFCandidate> *,
57		const mithep::Array<mithep::PileupEnergyDensity> *,
58	<	mithep::MuonTools::EMuonEffectiveAreaTarget,
59	<	vector<const mithep::PFCandidate*>)
60	<	)
58	>	mithep::ElectronTools::EElectronEffectiveAreaTarget,
59	>	vector<const mithep::PFCandidate*>),
60	>	const mithep::Array<mithep::Muon> *muonArr,    // input muons
61	>	SelectionStatus (*MuonPreSelector)( ControlFlags &,
62	>	const mithep::Muon*,
63	>	const mithep::Vertex *,
64	>	const mithep::Array<mithep::PFCandidate> *),
65	>	SelectionStatus (*MuonIDSelector)( ControlFlags &,
66	>	const mithep::Muon*,
67	>	// const mithep::Vertex &),
68	>	const mithep::Vertex *,
69	>	const mithep::Array<mithep::PFCandidate> *),
70	>	SelectionStatus (*MuonIsoSelector)( ControlFlags &,
71	>	const mithep::Muon*,
72	>	const mithep::Vertex *,
73	>	const mithep::Array<mithep::PFCandidate> *,
74	>	const mithep::Array<mithep::PileupEnergyDensity> *,
75	>	mithep::MuonTools::EMuonEffectiveAreaTarget,
76	>	vector<const mithep::PFCandidate*>)
77	>	)
78		//--------------------------------------------------------------------------------------------------
79		{
80
#	Line 106 | Line 112 | EventData apply_HZZ4L_EMU_selection(Cont
112		{
113		const mithep::Muon *mu = (mithep::Muon*)((*muonArr)[i]);
114
109	–	SelectionStatus musel;
115
116	<	musel |= (*MuonPreSelector)(ctrl,mu,vtx,pfCandidates);
117	<	if( !(musel.getStatus() & SelectionStatus::PRESELECTION) ) continue;
116	>	SelectionStatus denomSel;
117	>	denomSel |= muonPreSelectionNoD0IP(ctrl,mu,vtx,pfCandidates);
118	>	if( !denomSel.passPre() ) continue;
119
120	+	SelectionStatus musel;
121	+	musel |= (*MuonPreSelector)(ctrl,mu,vtx,pfCandidates);
122		musel |= (*MuonIDSelector)(ctrl,mu,vtx,pfCandidates );
123	<
116	<	if( !(ctrl.doFSR) ) {
117	<	musel |=  (*MuonIsoSelector)(ctrl,mu,vtx,pfCandidates,puEnergyDensity,eraMu,photonsToVeto);
118	<	}
123	>	musel |= (*MuonIsoSelector)(ctrl,mu,vtx,pfCandidates,puEnergyDensity,eraMu,photonsToVeto);
124
125		SimpleLepton tmplep;
126		float pt = mu->Pt();
#	Line 127 | Line 132 | EventData apply_HZZ4L_EMU_selection(Cont
132		tmplep.type    = 13;
133		tmplep.index   = i;
134		tmplep.charge  = mu->Charge();
130	–	tmplep.isoTrk  = mu->IsoR03SumPt();
131	–	tmplep.isoEcal = mu->IsoR03EmEt();
132	–	tmplep.isoHcal = mu->IsoR03HadEt();
135		tmplep.isoPF04 = musel.isoPF04;
136		tmplep.chisoPF04 = musel.chisoPF04;
137		tmplep.gaisoPF04 = musel.gaisoPF04;
138		tmplep.neisoPF04 = musel.neisoPF04;
137	–	// tmplep.isoPF03 = computePFMuonIso(mu,vtx,pfCandidates,0.3);
138	–	// tmplep.isoPF04 = computePFMuonIso(mu,vtx,pfCandidates,0.4);
139		tmplep.ip3dSig = mu->Ip3dPVSignificance();
140		tmplep.is4l    = false;
141		tmplep.isEB    = (fabs(mu->Eta()) < 1.479 ? 1 : 0 );
142		tmplep.isoMVA  = musel.isoMVA;
143	–	tmplep.isTight = musel.tight();
143		tmplep.isLoose = musel.loose();
144	+
145	+	bitset<TRIGGER_BIG_NUMBER> hltMatchBits = fillHLTMatchBits( mu->Eta(), mu->Phi(), hltTable, hltObjArr, fTrigObjs);
146	+	tmplep.isTight = testBits(ctrl,triggerBits,muTriggers,hltMatchBits,muTrigObjs);
147	+
148	+	tmplep.bdtfail = 0;
149	+	if(triggerBits.test(kHLT_IsoMu24_eta2p1))        tmplep.bdtfail |= 1;
150	+	if(hltMatchBits.test(kHLT_IsoMu24_eta2p1_MuObj)) tmplep.bdtfail |= 2;
151	+	if(triggerBits.test(kHLT_IsoMu24))               tmplep.bdtfail |= 4;
152	+	if(hltMatchBits.test(kHLT_IsoMu24_MuObj))        tmplep.bdtfail |= 8;
153	+
154		tmplep.status  = musel;
155		tmplep.fsrRecoveryAttempted = false;
156	<	tmplep.tightCutsApplied   = false;
156	>	tmplep.tightCutsApplied = muon2012CutBasedIDTightVersionWithOldIsoThatWorksOn2011(ctrl,mu,vtx,pfCandidates,puEnergyDensity,eraMu);
157	>	// tmplep.d0      = mu->HasTrackerTrk() ? mu->TrackerTrk()->D0Corrected(*vtx) : 0;
158	>	// tmplep.dz      = mu->HasTrackerTrk() ? mu->TrackerTrk()->DzCorrected(*vtx) : 0;
159	>
160		lepvec.push_back(tmplep);
161		if( ctrl.debug ) cout << endl;
162		}
#	Line 155 | Line 167 | EventData apply_HZZ4L_EMU_selection(Cont
167		{
168		const mithep::Electron *ele = (mithep::Electron*)((*electronArr)[i]);
169
170	<	SelectionStatus elesel;
170	>	SelectionStatus denomSel;
171	>	denomSel |= electronPreSelectionNoD0IP(ctrl,ele,vtx);
172	>	if( !denomSel.passPre() ) continue;
173
174	+	SelectionStatus elesel;
175		elesel |= (*ElectronPreSelector)(ctrl,ele,vtx);
161	–	if( !(elesel.getStatus() & SelectionStatus::PRESELECTION) ) continue;
162	–
176		elesel |= (*ElectronIDSelector)(ctrl,ele,vtx);
177	<
165	<	if( !(ctrl.doFSR) ) {
166	<	elesel |= (*ElectronIsoSelector)(ctrl,ele,vtx,pfCandidates,puEnergyDensity,eraEle,photonsToVeto);
167	<	}
177	>	elesel |= (*ElectronIsoSelector)(ctrl,ele,vtx,pfCandidates,puEnergyDensity,eraEle,photonsToVeto);
178
179		SimpleLepton tmplep;
180		float pt = ele->Pt();
#	Line 176 | Line 186 | EventData apply_HZZ4L_EMU_selection(Cont
186		tmplep.type    = 11;
187		tmplep.index   = i;
188		tmplep.charge  = ele->Charge();
179	–	tmplep.isoTrk  = ele->TrackIsolationDr03();
180	–	tmplep.isoEcal = ele->EcalRecHitIsoDr03();
181	–	tmplep.isoHcal = ele->HcalTowerSumEtDr03();
189		tmplep.isoPF04 = elesel.isoPF04;
190		tmplep.chisoPF04 = elesel.chisoPF04;
191		tmplep.gaisoPF04 = elesel.gaisoPF04;
192		tmplep.neisoPF04 = elesel.neisoPF04;
186	–	// tmplep.isoPF03 = computePFEleIso(ele,vtx,pfCandidates,0.3);
187	–	// tmplep.isoPF04 = computePFEleIso(ele,vtx,pfCandidates,0.4);
193		tmplep.ip3dSig = ele->Ip3dPVSignificance();
194		tmplep.is4l    = false;
195		tmplep.isEB    = ele->IsEB();
196		tmplep.scID    = ele->SCluster()->GetUniqueID();
197	+
198	+	bitset<TRIGGER_BIG_NUMBER> hltMatchBits = fillHLTMatchBits( ele->Eta(), ele->Phi(), hltTable, hltObjArr, fTrigObjs);
199	+	tmplep.isTight = testBits(ctrl,triggerBits,eleTriggers,hltMatchBits,eleTrigObjs);
200	+
201		tmplep.isTight = elesel.tight();
202		tmplep.isLoose = elesel.loose();
203		tmplep.status  = elesel;
204		tmplep.idMVA   = elesel.idMVA;
205		tmplep.isoMVA  = elesel.isoMVA;
206		tmplep.fsrRecoveryAttempted = false;
207	<	SelectionStatus tmpstat = electronTagSelection(ele,vtx,pfCandidates);
208	<	tmplep.tightCutsApplied   = tmpstat.tight();
207	>	tmplep.tightCutsApplied = electron2012CutBasedIDMediumVersionThatWorksOn2011(ctrl,ele,vtx,pfCandidates,fConversions,puEnergyDensity,eraEle);
208	>	// tmplep.d0      = ele->BestTrk()->D0Corrected(*vtx);
209	>	// tmplep.dz      = ele->BestTrk()->DzCorrected(*vtx);
210	>
211		lepvec.push_back(tmplep);
212		if( ctrl.debug ) cout << endl;
213		}
#	Line 215 | Line 226 | EventData apply_HZZ4L_EMU_selection(Cont
226		for (vector<SimpleLepton>::iterator it2=lepvec.begin(); it2 != lepvec.end(); it2++ ) {
227		if ( it2 == it1 )                       continue;
228		if ( abs(it2->type) != 13 )             continue;
229	<	if( !(it2->status.looseIDAndPre()) )    continue;
229	>	// if( !(it2->status.looseIDAndPre()) )    continue;
230		TVector3 mvec = it2->vec.Vect();
231
232		if ( evec.DrEtaPhi(mvec) < 0.05 ) {
#	Line 233 | Line 244 | EventData apply_HZZ4L_EMU_selection(Cont
244		//********************************************************
245		// Step 3: Good Leptons
246		//********************************************************
236	–	vector<double> pt_of_leptons_to_erase;
247		for (int i=0; i<lepvec.size(); i++ ) {
238	–	bool already_pushed=false;
248		if( !(lepvec[i].status.loose()) ) {
249	<	pt_of_leptons_to_erase.push_back(lepvec[i].vec.Pt());
241	<	already_pushed = true;
242	<	failingLeptons.push_back(lepvec[i]); // these should pass preselection
249	>	failingLeptons.push_back(lepvec[i]);
250		} else {
251		passingLeptons.push_back(lepvec[i]);
252		}
246	–	#ifndef SYNC
247	–	if( !already_pushed && fabs(lepvec[i].ip3dSig)>4 )
248	–	pt_of_leptons_to_erase.push_back(lepvec[i].vec.Pt());
249	–	#endif
250	–	}
251	–	for( int i=0; i<pt_of_leptons_to_erase.size(); i++ ) {
252	–	for( vector<SimpleLepton>::iterator it=lepvec.begin(); it != lepvec.end(); it++ ) {
253	–	SimpleLepton flep = *it;
254	–	if( flep.vec.Pt() != pt_of_leptons_to_erase[i] ) continue;
255	–	lepvec.erase(it);
256	–	break;
257	–	}
253		}
254
255		//******************************************************************************
256		// W + (OF SS lepton) Selection
257		//******************************************************************************
258	<	if(ctrl.fakeScheme.Contains("emu-")) {
259	<	if(has_ssof_lepton(ctrl)) {
260	<	ret.status.setStatus(SelectionStatus::EVTPASS);
261	<	ret.Z1leptons.push_back(passingLeptons[0]);
262	<	ret.Z1leptons.push_back(passingLeptons[0]);
263	<	ret.Z2leptons.push_back(passingLeptons[0]);
264	<	ret.Z2leptons.push_back(passingLeptons[0]);
265	<	} else {
271	<	ret.status.setStatus(SelectionStatus::FAIL);
272	<	}
273	<	return ret;
258	>	if(has_ssof_lepton(ctrl)) {
259	>	ret.status.setStatus(SelectionStatus::EVTPASS);
260	>	ret.Z1leptons.push_back(passingLeptons[0]);
261	>	ret.Z1leptons.push_back(passingLeptons[0]);
262	>	ret.Z2leptons.push_back(passingLeptons[0]);
263	>	ret.Z2leptons.push_back(passingLeptons[0]);
264	>	} else {
265	>	ret.status.setStatus(SelectionStatus::FAIL);
266		}
267	+	return ret;
268		}
276	–
277	–	// //----------------------------------------------------------------------------
278	–	// //
279	–	// // Get primary vertices
280	–	// // Assumes primary vertices are ordered by sum-pT^2 (as should be in CMSSW)
281	–	// // NOTE: if no PV is found from fitting tracks, the beamspot is used
282	–	// //
283	–	// //----------------------------------------------------------------------------
284	–	// bool setPV(ControlFlags ctrl,
285	–	//         const mithep::Array<mithep::Vertex> * vtxArr,
286	–	//         const mithep::Vertex* &vtx)
287	–	// //----------------------------------------------------------------------------
288	–	// {
289	–
290	–	//   const mithep::Vertex *bestPV = 0;
291	–	//   float best_sumpt=-1;
292	–
293	–	//   // good PV requirements
294	–	//   const UInt_t   fMinNTracksFit = 0;
295	–	//   const Double_t fMinNdof       = 4;
296	–	//   const Double_t fMaxAbsZ       = 24;
297	–	//   const Double_t fMaxRho        = 2;
298	–
299	–	//   for(int i=0; i<vtxArr->GetEntries(); ++i) {
300	–	//     const mithep::Vertex *pv = (mithep::Vertex*)(vtxArr->At(i));
301	–	//     if( ctrl.debug ) cout << "vertex :: " << i << "\tntrks: " << pv->NTracks() << endl;
302	–
303	–	//     // Select best PV for corrected d0; if no PV passing cuts, the first PV in the collection will be used
304	–	//     if(!pv->IsValid())                                continue;
305	–	//     if(pv->NTracksFit()       < fMinNTracksFit)       continue;
306	–	//     if(pv->Ndof()              < fMinNdof)         continue;
307	–	//     if(fabs(pv->Z()) > fMaxAbsZ)                   continue;
308	–	//     if(pv->Position().Rho()   > fMaxRho)           continue;
309	–
310	–	//     // take the first ...
311	–	//     bestPV = pv;
312	–	//     break;
313	–
314	–	//     // this never reached ...
315	–	//     float tmp_sumpt=0;
316	–	//     for( int t=0; t<pv->NTracks(); t++ )
317	–	//       tmp_sumpt += pv->Trk(t)->Pt();
318	–
319	–	//     if( tmp_sumpt > best_sumpt  ) {
320	–	//       bestPV = pv;
321	–	//       best_sumpt = tmp_sumpt;
322	–	//       if( ctrl.debug) cout << "new PV set, pt : " << best_sumpt << endl;
323	–	//     }
324	–	//   }
325	–
326	–	//   // sync
327	–	//   if(!bestPV)
328	–	//     return false;
329	–	//   else {
330	–	//     vtx = bestPV;
331	–	//     return true;
332	–	//   }
333	–	// };
269		//----------------------------------------------------------------------------------------
270		bool has_ssof_lepton(ControlFlags &ctrl)
271		{
#	Line 361 | Line 296 | bool has_ssof_lepton(ControlFlags &ctrl)
296
297		return has_ssof;
298		}
364	–	// //----------------------------------------------------------------------------------------
365	–	// void getEATargets(ControlFlags &ctrl, mithep::MuonTools::EMuonEffectiveAreaTarget &eraMu, mithep::ElectronTools::EElectronEffectiveAreaTarget &eraEle)
366	–	// {
367	–	//   if( !ctrl.mc && ctrl.era == 2011 ) {
368	–	//     eraMu  = mithep::MuonTools::kMuEAData2011;
369	–	//     eraEle = mithep::ElectronTools::kEleEAData2011;
370	–	//   } else if( !ctrl.mc && ctrl.era == 2012 ) {
371	–	//     eraMu  = mithep::MuonTools::kMuEAData2012;
372	–	//     eraEle = mithep::ElectronTools::kEleEAData2012;
373	–	//   } else if( ctrl.mc && ctrl.era == 2011 ) {
374	–	//     eraMu  = mithep::MuonTools::kMuEAFall11MC;
375	–	//     eraEle = mithep::ElectronTools::kEleEAFall11MC;
376	–	//   } else if( ctrl.mc && ctrl.era == 2012 ) {
377	–	//     eraMu  = mithep::MuonTools::kMuEAData2012;
378	–	//     eraEle = mithep::ElectronTools::kEleEAData2012;
379	–	//   } else {
380	–	//     cerr << "unknown era for effective areas ... quitting." << endl;
381	–	//     exit(1);
382	–	//   }
383	–	// }

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