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

Comparing UserCode/MitHzz4l/Selection/src/Selection.cc (file contents):
Revision 1.2 by dkralph, Wed Sep 14 12:11:57 2011 UTC vs.
Revision 1.13 by khahn, Sun Oct 30 15:12:30 2011 UTC

#	Line 1 | Line 1
1		#include "Selection.h"
2		#include "PassHLT.h"
3	+
4	+	#include "SiMVAElectronSelection.h"
5	+
6		#include "HZZCiCElectronSelection.h"
7	+	#include "HZZLikelihoodElectronSelection.h"
8	+	#include "HZZBDTElectronSelection.h"
9		#include "RunLumiRangeMap.h"
10	+	#include "EfficiencyWeightsInterface.h"
11
12		RunLumiRangeMap rlrm;
13
14	+	// #include "TH2D.h"
15	+	// extern TH2D * h_mu_eff_idiso_2011a;
16	+	// extern TH2D * h_mu_eff_idiso_s11;
17	+	// extern TH2D * h_mu_effdata_trigger_doublemu7_2011a;
18	+	// extern TH2D * h_mu_effdata_trigger_doublemu13_8_leading_2011a;
19	+	// extern TH2D * h_mu_effdata_trigger_doublemu13_8_trailing_2011a;
20	+
21	+	// unsigned getGenChannel(mithep::TGenInfo * ginfo) {
22	+	//   int gchannel=-1;
23	+	//   if( abs(ginfo->id_1_a) == EGenType::kElectron && abs(ginfo->id_1_b) == EGenType::kElectron )  gchannel=0;
24	+	//   else if( abs(ginfo->id_1_a) == EGenType::kMuon && abs(ginfo->id_1_b) == EGenType::kMuon ) gchannel=1;
25	+	//   else if( (abs(ginfo->id_1_a) == EGenType::kElectron && abs(ginfo->id_1_b) == EGenType::kMuon) ||
26	+	//         (abs(ginfo->id_1_a) == EGenType::kMuon && abs(ginfo->id_1_b) == EGenType::kElectron) ) gchannel=2;
27	+
28	+	//   return gchannel;
29	+	// };
30	+
31		void initRunLumiRangeMap() {
32		rlrm.AddJSONFile(std::string("./data/Cert_136033-149442_7TeV_Apr21ReReco_Collisions10_JSON.txt"));
33	<	rlrm.AddJSONFile(std::string("./data/Cert_160404-173244_7TeV_PromptReco_Collisions11_JSON_v2.txt"));
33	>	//  rlrm.AddJSONFile(std::string("./data/Cert_160404-173244_7TeV_PromptReco_Collisions11_JSON_v2.txt"));
34	>	rlrm.AddJSONFile(std::string("./data/Cert_160404-178078_7TeV_PromptReco_Collisions11_JSON.txt"));
35		rlrm.AddJSONFile(std::string("./data/Cert_160404-163869_7TeV_May10ReReco_Collisions11_JSON_v3.txt"));
36		rlrm.AddJSONFile(std::string("./data/Cert_170249-172619_7TeV_ReReco5Aug_Collisions11_JSON.txt"));
37		};
38
39	+	void initRunLumiRangeMap(RunLumiRangeMap &rlrm) {
40	+	cout << "adding JSONS ... "  << endl;
41	+	rlrm.AddJSONFile(std::string("./data/Cert_136033-149442_7TeV_Apr21ReReco_Collisions10_JSON.txt"));
42	+	//  rlrm.AddJSONFile(std::string("./data/Cert_160404-173244_7TeV_PromptReco_Collisions11_JSON_v2.txt"));
43	+	rlrm.AddJSONFile(std::string("./data/Cert_160404-178078_7TeV_PromptReco_Collisions11_JSON.txt"));
44	+	rlrm.AddJSONFile(std::string("./data/Cert_160404-163869_7TeV_May10ReReco_Collisions11_JSON_v3.txt"));
45	+	rlrm.AddJSONFile(std::string("./data/Cert_170249-172619_7TeV_ReReco5Aug_Collisions11_JSON.txt"));
46	+	};
47	+
48	+	// unsigned fails_HZZ4L_selection(ControlFlags &ctrl,           // input control
49	+	//                             mithep::TEventInfo *info,     // input event inof
50	+	//                             TClonesArray *electronArr,    // input electrons
51	+	//                             TClonesArray *muonArr,        // input muons
52	+	//                             double eventweight,           // weight
53	+	//                             TTree * passtuple ) {
54	+
55	+	//   fails_HZZ4L_selection( ctrl, info, electronArr, muonArr, eventweight, passtuple, NULL );
56	+
57	+	// };
58	+
59	+
60	+
61	+	// unsigned fails_HZZ4L_selection(ControlFlags &ctrl,           // input control
62	+	//                             mithep::TEventInfo *info,     // input event inof
63	+	//                             TClonesArray *electronArr,    // input electrons
64	+	//                             TClonesArray *muonArr,        // input muons
65	+	//                             double eventweight,           // weight
66	+	//                             LabVectors  *l ) {
67	+
68	+	//   fails_HZZ4L_selection( ctrl, info, electronArr, muonArr, eventweight, NULL, l );
69	+
70	+	// };
71	+
72	+
73		unsigned fails_HZZ4L_selection(ControlFlags &ctrl,           // input control
74	<	mithep::TEventInfo *info,     // input event inof
74	>	mithep::TGenInfo *ginfo ,     // input gen info
75	>	mithep::TEventInfo *info,     // input event info
76		TClonesArray *electronArr,    // input electrons
77		TClonesArray *muonArr,        // input muons
78		double eventweight,           // weight
79	<	TNtuple * passtuple ) {
79	>	TTree * passtuple ) {
80
81	<	fails_HZZ4L_selection( ctrl, info, electronArr, muonArr, eventweight, passtuple, NULL );
81	>	fails_HZZ4L_selection( ctrl, info, electronArr, muonArr, eventweight, passtuple, NULL, NULL );
82
83		};
84
85		unsigned fails_HZZ4L_selection(ControlFlags &ctrl,           // input control
86	<	mithep::TEventInfo *info,     // input event inof
86	>	mithep::TEventInfo *info,     // input event info
87		TClonesArray *electronArr,    // input electrons
88		TClonesArray *muonArr,        // input muons
89		double eventweight,           // weight
90	<	LabVectors  *l ) {
91	<
92	<	fails_HZZ4L_selection( ctrl, info, electronArr, muonArr, eventweight, NULL, l );
93	<
35	<	};
90	>	TTree * passtuple,
91	>	LabVectors * l ) {
92	>	fails_HZZ4L_selection( ctrl, info, electronArr, muonArr, eventweight, passtuple, l, NULL );
93	>	}
94
95
96		unsigned fails_HZZ4L_selection(ControlFlags &ctrl,           // input control
97	<	mithep::TEventInfo *info,     // input event inof
97	>	mithep::TEventInfo *info,     // input event info
98		TClonesArray *electronArr,    // input electrons
99		TClonesArray *muonArr,        // input muons
100		double eventweight,           // weight
101	<	TNtuple * passtuple,
102	<	LabVectors * l ) {       // output ntuple
101	>	TTree * passtuple,
102	>	LabVectors * l=NULL,
103	>	TClonesArray *jetArr=NULL ) {       // output ntuple
104
105		unsigned evtfail = 0x0;
106	+	unsigned gchannel=0xdeaddead;
107	+
108	+	//   if( ctrl.mc && ginfo != NULL ) {
109	+	//     gchannel = getGenChannel(ginfo);
110	+	//   }
111	+
112	+
113	+	if( ctrl.debug ) {
114	+	cout << "Run: " << info->runNum
115	+	<< "\tEvt: " << info->evtNum
116	+	<< "\tLumi: " << info->lumiSec
117	+	<< endl;
118	+	}
119
120		if( !ctrl.mc ) {
121		// not accounting for overlap atm
122		RunLumiRangeMap::RunLumiPairType rl(info->runNum, info->lumiSec);
123		if( !(rlrm.HasRunLumi(rl)) )  {
124	+	if( ctrl.debug ) cout << "\tfails JSON" << endl;
125		evtfail |= (1<<EVTFAIL_JSON);
126		return evtfail;
127		}
128		}
129
130
131	<	if( ctrl.debug ) {
59	<	cout << "Run: " << info->runNum
60	<	<< "\tEvt: " << info->evtNum
61	<	<< "\tLumi: " << info->lumiSec
62	<	<< endl;
63	<	}
131	>
132
133
134		//********************************************************
#	Line 68 | Line 136 | unsigned fails_HZZ4L_selection(ControlFl
136		//********************************************************
137		if( !ctrl.mc ) {
138		//  if( !(passHLT(info->triggerBits, info->runNum, channel) )  ) {
139	<	if( !(passHLT(info->triggerBits, info->runNum, 999) )  ) {
140	<	evtfail |= (1<<EVTFAIL_TRIGGER);
141	<	return evtfail;
142	<	}
139	>	//     if( !(passHLT(info->triggerBits, info->runNum, 999) )  ) {
140	>	//       evtfail |= (1<<EVTFAIL_TRIGGER);
141	>	//       return evtfail;
142	>	//     }
143		} else {
144		if( !(passHLTMC(info->triggerBits)) ) {
145		evtfail |= (1<<EVTFAIL_TRIGGER);
#	Line 93 | Line 161 | unsigned fails_HZZ4L_selection(ControlFl
161		vector<SimpleLepton> lepvec;
162
163		//
164	<	cout << "\tnMuons: " << muonArr->GetEntries() << endl;
164	>	if( ctrl.debug ) cout << "\tnMuons: " << muonArr->GetEntries() << endl;
165		//----------------------------------------------------
166		for(Int_t i=0; i<muonArr->GetEntries(); i++) {
167		const mithep::TMuon *mu = (mithep::TMuon*)((*muonArr)[i]);
168	<	unsigned muonfail = passMuonSelectionZZ(mu);
168	>	unsigned muonfail;
169	>	if( ctrl.muSele == "ksWW" )
170	>	muonfail = passMuonSelection(mu);
171	>	else
172	>	muonfail = passMuonSelectionZZ(mu);
173		if( ctrl.debug ) {
174		cout << "muon:: pt: " << mu->pt
175		<< "\teta: " << mu->eta
#	Line 116 | Line 188 | unsigned fails_HZZ4L_selection(ControlFl
188		tmplep.isoTrk  = mu->trkIso03;
189		tmplep.isoEcal = mu->emIso03;
190		tmplep.isoHcal = mu->hadIso03;
191	+	tmplep.isoPF03 = mu->pfIso03;
192	+	tmplep.isoPF04 = mu->pfIso04;
193		tmplep.ip3dSig = mu->ip3dSig;
194		tmplep.is4l    = false;
195		tmplep.isEB    = (fabs(mu->eta) < 1.479 ? 1 : 0 );
#	Line 124 | Line 198 | unsigned fails_HZZ4L_selection(ControlFl
198		}
199		}
200
127	–	//
201		if( ctrl.debug ) { cout << "\tnElectron: " << electronArr->GetEntries() << endl; }
202	+
203		//----------------------------------------------------
204		for(Int_t i=0; i<electronArr->GetEntries(); i++) {
205		const mithep::TElectron *ele = (mithep::TElectron*)((*electronArr)[i]);
206
207	+	if( !(isEleFO(ctrl,ele) ) ) continue;
208	+	if( ele->pt < 7 ) continue; //move this to ID
209	+
210		Bool_t isMuonOverlap = kFALSE;
211		for (int k=0; k<lepvec.size(); ++k) {
212		TVector3 tmplep;
213		tmplep.SetPtEtaPhi(ele->pt, ele->eta, ele->phi);
214		if ( lepvec[k].type == 13 && lepvec[k].vec.Vect().DrEtaPhi(tmplep) < 0.1 ) {
215	<	cout << "-----> isMuonOverlap! " << endl;
215	>	if( ctrl.debug ) cout << "-----> isMuonOverlap! " << endl;
216		isMuonOverlap = kTRUE;
217		break;
218		}
219		}
220
221	<	CICStruct tightcuts = getTightCuts();
222	<	unsigned failsCIC = failsCicSelection(ele, tightcuts);
221	>	unsigned FAIL=0, isEleTight=0;
222	>
223	>	unsigned  failsCIC=0;
224	>	CICStruct ciccuts_tight, ciccuts_medium, ciccuts_loose;
225	>	if(ctrl.eleSele=="cic") {
226	>	if( ctrl.eleSeleScheme == "mediumloose" ) {
227	>	ciccuts_medium = getCiCCuts("medium");
228	>	unsigned failsCICMedium = failsCicSelection(ctrl, ele, ciccuts_medium, ctrl.kinematics);
229	>	ciccuts_loose = getCiCCuts("loose");
230	>	unsigned failsCICLoose = failsCicSelection(ctrl, ele, ciccuts_loose, ctrl.kinematics);
231	>	failsCIC = ( failsCICLoose > 0 && failsCICMedium > 0 );
232	>	if( !failsCICMedium ) isEleTight=1;
233	>	}
234	>	else {
235	>	ciccuts_tight = getCiCCuts(ctrl.eleSeleScheme);
236	>	failsCIC = failsCicSelection(ctrl, ele, ciccuts_tight, ctrl.kinematics);
237	>	if( !failsCIC ) isEleTight=1;
238	>	}
239	>	FAIL = failsCIC;
240	>	}
241	>
242	>	LikStruct likcuts;
243	>	unsigned failsLike=0;
244	>	if(ctrl.eleSele=="lik") {
245	>	likcuts = getLikCuts(ctrl.eleSeleScheme);
246	>	failsLike = failsLikelihoodSelection(ele, likcuts, ctrl.kinematics);
247	>	FAIL = failsLike;
248	>	}
249	>	unsigned failsBDT=0;
250	>	if(ctrl.eleSele=="bdt") {
251	>	if( ctrl.eleSeleScheme == "mediumloose" ) {
252	>	unsigned failsBDTMedium = failsBDTSelection(ctrl,"medium",ele);
253	>	unsigned failsBDTLoose  = failsBDTSelection(ctrl,"loose",ele);
254	>	failsBDT = ( failsBDTLoose > 0 && failsBDTMedium > 0 );
255	>	if( !failsBDTMedium ) isEleTight=1;
256	>	} else {
257	>	failsBDT = failsBDTSelection(ctrl,"tight",ele);
258	>	if( !failsBDT ) isEleTight=1;
259	>	}
260	>	FAIL = failsBDT;
261	>	}
262	>
263	>
264		if( ctrl.debug ){
265		cout << "CIC category: " << cicCategory(ele)
266	<	<< "\tfailmask : 0x" << hex << failsCIC  << dec
266	>	<< "\tlikelihood: " << ele->likelihood
267	>	<< "\tFAIL:  0x"     << hex << FAIL      << dec
268	>	<< "\tfailsCIC:  0x" << hex << failsCIC  << dec
269	>	<< "\tfailsLike: 0x" << hex << failsLike << dec
270	>	<< "\tfailsBDT:  0x" << hex << failsBDT << dec
271		<< "\tscEt: " << ele->scEt
272	<	<< "\tscEta: " << ele->scEta
272	>	<< "\tscEta: " << ele->scEta
273	>	<< "\tncluster: " << ele->ncluster
274		<< endl;
275		}
276	<	if ( !failsCIC && !isMuonOverlap ) {
276	>	if ( !FAIL && !isMuonOverlap ) {
277		SimpleLepton tmplep;
278		tmplep.vec.SetPtEtaPhiM( ele->pt,
279		ele->eta,
#	Line 162 | Line 285 | unsigned fails_HZZ4L_selection(ControlFl
285		tmplep.isoTrk  = ele->trkIso03;
286		tmplep.isoEcal = ele->emIso03;
287		tmplep.isoHcal = ele->hadIso03;
288	+	tmplep.isoPF03 = ele->pfIso03;
289	+	tmplep.isoPF04 = ele->pfIso04;
290		tmplep.ip3dSig = ele->ip3dSig;
291		tmplep.is4l    = false;
292	+	tmplep.isTight = isEleTight;
293		tmplep.isEB    = ele->isEB;
294		lepvec.push_back(tmplep);
295		if( ctrl.debug ) { cout << "\telectron passes ... " << endl; }
#	Line 172 | Line 298 | unsigned fails_HZZ4L_selection(ControlFl
298
299		sort( lepvec.begin(), lepvec.end(), SimpleLepton::lep_pt_sort );
300
301	+	for( int i=0; i<lepvec.size(); i++ ) {
302	+	//
303	+	//  check for a matched btagged jet
304	+	//
305	+	lepvec[i].tche = -1;
306	+	lepvec[i].tchp = -1;
307	+	lepvec[i].csv = -1;
308	+	lepvec[i].csvMva = -1;
309	+
310	+	if( jetArr != NULL ) {
311	+	for(int k=0; k<jetArr->GetEntries(); k++) {
312	+	const mithep::TJet *jet = (mithep::TJet*)((*jetArr)[k]);
313	+	TVector3 jvec;
314	+	jvec.SetPtEtaPhi(jet->pt, jet->eta, jet->phi);
315	+	if( jvec.DrEtaPhi( lepvec[i].vec.Vect()) < 0.2 ) {
316	+	lepvec[i].tche = jet->tche;
317	+	lepvec[i].tchp = jet->tchp;
318	+	lepvec[i].csv = jet->csv;
319	+	lepvec[i].csvMva = jet->csvMva;
320	+	}
321	+	}
322	+	}
323	+	}
324	+
325		int nmu=0, nele=0;
326		for( int i=0; i<lepvec.size(); i++ ) {
327		if( abs(lepvec[i].type) == 11 ) nele++;
#	Line 214 | Line 364 | unsigned fails_HZZ4L_selection(ControlFl
364		}
365
366		float tmpZ1Mass = (leptonPlus+leptonMinus).M();
367	<	cout << "Z1 selection, tmpZ1Mass: " << tmpZ1Mass << endl;
367	>	if( ctrl.debug ) cout << "Z1 selection, tmpZ1Mass: " << tmpZ1Mass << endl;
368		if( tmpZ1Mass > 60 ) {
369		if (fabs(tmpZ1Mass - 91.1876) < fabs(BestZ1Mass - 91.1876)) {
370		BestZ1Mass = tmpZ1Mass;
371	<	cout << "Z1 selection, new BestZ1Mass: " << BestZ1Mass
371	>	if( ctrl.debug ) cout << "Z1 selection, new BestZ1Mass: " << BestZ1Mass
372		<< "\tdM: " << fabs(BestZ1Mass - 91.1876)
373		<< endl;
374		if (lepvec[i].charge > 0) {
#	Line 237 | Line 387 | unsigned fails_HZZ4L_selection(ControlFl
387		evtfail |= (1<<EVTFAIL_Z1);
388		return evtfail;
389		}
390	<	cout << "\tgot a Z1 ... run: " << info->runNum << "\tevt: " << info->evtNum  << endl;
391	<	cout << "\tZ1 plusindex: " << Z1LeptonPlusIndex << "\tminusindex: " << Z1LeptonMinusIndex << endl;
390	>	if( ctrl.debug ) cout << "\tgot a Z1 ... run: " << info->runNum << "\tevt: " << info->evtNum  << endl;
391	>	if( ctrl.debug ) cout << "\tZ1 plusindex: " << Z1LeptonPlusIndex << "\tminusindex: " << Z1LeptonMinusIndex << endl;
392		TLorentzVector Z1LeptonPlus  = lepvec[Z1LeptonPlusIndex].vec;
393		TLorentzVector Z1LeptonMinus = lepvec[Z1LeptonMinusIndex].vec;
394		TLorentzVector Z1Candidate   =  Z1LeptonPlus + Z1LeptonMinus;
#	Line 262 | Line 412 | unsigned fails_HZZ4L_selection(ControlFl
412		Int_t Z2LeptonPlusIndex = -1;
413		Int_t Z2LeptonMinusIndex = -1;
414		Double_t BestZ2Mass = -1;
415	<	cout << "looking for a Z2 ... out of " << lepvec.size() << " leptons" <<endl;
415	>	if( ctrl.debug ) cout << "looking for a Z2 ... out of " << lepvec.size() << " leptons" <<endl;
416		for(int i = 0; i < lepvec.size(); ++i) {
417	+	if( abs(lepvec[i].type) == 11 &&
418	+	ctrl.eleSeleScheme == "mediumloose" &&
419	+	!(lepvec[i].isTight) ) continue;
420	+
421		for(int j = i+1; j < lepvec.size(); ++j) {
422	+	if( abs(lepvec[j].type) == 11 &&
423	+	ctrl.eleSeleScheme == "mediumloose" &&
424	+	!(lepvec[j].isTight) ) continue;
425	+
426		//            cout << "i: " << i << "\tj: " << j << endl;
427		if (i == Z1LeptonPlusIndex || i == Z1LeptonMinusIndex) {
428		//            cout << "\ti matches a Z1 index, skipping ..." << endl;
#	Line 298 | Line 456 | unsigned fails_HZZ4L_selection(ControlFl
456		TLorentzVector dilepton = leptonPlus+leptonMinus;
457		TLorentzVector fourLepton = Z1Candidate + dilepton;
458
459	<	cout << "dilepton.M() : " << dilepton.M() << endl;
460	<	cout << "fourLepton.M() : " << fourLepton.M() << endl;
459	>	if( ctrl.debug ) cout << "dilepton.M() : " << dilepton.M() << endl;
460	>	if( ctrl.debug ) cout << "fourLepton.M() : " << fourLepton.M() << endl;
461
462		if (!(dilepton.M() > 12.0)) continue;
463		if (!(fourLepton.M() > 100.0)) continue;
464
465	<
465	>	/*
466		//for 4e and 4mu, require at least 1 of the other opp sign lepton pairs have mass > 12
467		if (fabs(lepvec[i].type) == fabs(lepvec[Z1LeptonPlusIndex].type)) {
468		TLorentzVector pair1 = Z1LeptonPlus+leptonMinus;
469		TLorentzVector pair2 = Z1LeptonMinus+leptonPlus;
470	<	cout << "pair1: " << pair1.M() << "\tpair2: "<< pair2.M() << endl;
470	>	if( ctrl.debug ) cout << "pair1: " << pair1.M() << "\tpair2: "<< pair2.M() << endl;
471		if (!(pair1.M() > 12 || pair2.M() > 12)) continue;
472		}
473	<
473	>	*/
474	>
475		//Disambiguiation is done by choosing the pair with the largest ptMax and largest ptMin
476		if (Z2LeptonPlusIndex < 0) {
477		if (lepvec[i].charge > 0) {
#	Line 368 | Line 527 | unsigned fails_HZZ4L_selection(ControlFl
527		//      cout << "evtfail: " << hex << evtfail << dec << endl;
528		//      continue;
529		}
530	<	cout << "\tgot a Z2 ..." << endl;
531	<	cout << "\tZ2 plusindex: " << Z2LeptonPlusIndex << "\tminusindex: " << Z2LeptonMinusIndex << endl;
530	>	if( ctrl.debug ) cout << "\tgot a Z2 ..." << endl;
531	>	if( ctrl.debug ) cout << "\tZ2 plusindex: " << Z2LeptonPlusIndex
532	>	<< "\tminusindex: " << Z2LeptonMinusIndex << endl;
533		TLorentzVector  Z2LeptonPlus  = lepvec[Z2LeptonPlusIndex].vec;
534		TLorentzVector  Z2LeptonMinus = lepvec[Z2LeptonMinusIndex].vec;
535		TLorentzVector  Z2Candidate   = Z2LeptonPlus+Z2LeptonMinus;
#	Line 390 | Line 550 | unsigned fails_HZZ4L_selection(ControlFl
550		//***************************************************************
551		bool failiso=false;
552
553	<	/*
394	<	int i,j;
395	<	i=Z1LeptonPlusIndex;
396	<	j=Z1LeptonMinusIndex;
397	<	float RIso1 = (lepvec[i].isoTrk+lepvec[i].isoEcal+lepvec[i].isoHcal)/lepvec[i].vec.Pt();
398	<	float RIso2 = (lepvec[j].isoTrk+lepvec[j].isoEcal+lepvec[j].isoHcal)/lepvec[j].vec.Pt();
399	<	float comboIso12 = RIso1 + RIso2;
400	<	i=Z2LeptonPlusIndex;
401	<	j=Z2LeptonMinusIndex;
402	<	float RIso3 = (lepvec[i].isoTrk+lepvec[i].isoEcal+lepvec[i].isoHcal)/lepvec[i].vec.Pt();
403	<	float RIso4 = (lepvec[j].isoTrk+lepvec[j].isoEcal+lepvec[j].isoHcal)/lepvec[j].vec.Pt();
404	<	float comboIso34 = RIso3 + RIso4;
405	<	if( comboIso12 > 0.35 || comboIso34 > 0.35 ) {
406	<	failiso = true;
407	<	}
408	<	*/
553	>	if( ctrl.isoScheme == "pf" ) {
554
555	<	float rho = info->rho;
556	<	for( int i=0; i<lepvec.size(); i++ ) {
557	<	if( !(lepvec[i].is4l) ) continue;
555	>	for( int i=0; i<lepvec.size(); i++ ) {
556	>
557	>	if( !(lepvec[i].is4l) ) continue;
558	>
559	>	if( abs(lepvec[i].type) == 11 ) {
560	>	float reliso = lepvec[i].isoPF04/lepvec[i].vec.Pt();
561	>	if( lepvec[i].isEB && lepvec[i].vec.Pt() > 20 && reliso > PFISO_ELE_LOOSE_EB_HIGHPT ) {
562	>	failiso = true;
563	>	break;
564	>	}
565	>	if( lepvec[i].isEB && lepvec[i].vec.Pt() < 20 && reliso > PFISO_ELE_LOOSE_EB_LOWPT ) {
566	>	failiso = true;
567	>	break;
568	>	}
569	>	if( !(lepvec[i].isEB) && lepvec[i].vec.Pt() > 20 && reliso > PFISO_ELE_LOOSE_EE_HIGHPT ) {
570	>	failiso = true;
571	>	break;
572	>	}
573	>	if( !(lepvec[i].isEB) && lepvec[i].vec.Pt() < 20 && reliso > PFISO_ELE_LOOSE_EE_LOWPT ) {
574	>	failiso = true;
575	>	break;
576	>	}
577	>	}
578	>
579	>	if( abs(lepvec[i].type) == 13 ) {
580	>
581	>	float reliso = lepvec[i].isoPF03/lepvec[i].vec.Pt();
582	>	if( lepvec[i].isEB && lepvec[i].vec.Pt() > 20 && reliso > PFISO_MU_LOOSE_EB_HIGHPT ) {  //0.13
583	>	failiso = true;
584	>	break;
585	>	}
586	>	if( lepvec[i].isEB && lepvec[i].vec.Pt() < 20 && reliso > PFISO_MU_LOOSE_EB_LOWPT ) { //0.06
587	>	failiso = true;
588	>	break;
589	>	}
590	>	if( !(lepvec[i].isEB) && lepvec[i].vec.Pt() > 20 && reliso > PFISO_MU_LOOSE_EE_HIGHPT ) { //0.09
591	>	failiso = true;
592	>	break;
593	>	}
594	>	if( !(lepvec[i].isEB) && lepvec[i].vec.Pt() < 20 && reliso > PFISO_MU_LOOSE_EE_LOWPT ) { //0.05
595	>	failiso = true;
596	>	break;
597	>	}
598	>	}
599	>	}
600	>	} else if ( ctrl.isoScheme == "pairwise" ) {
601	>	float rho = info->rho;
602	>	for( int i=0; i<lepvec.size(); i++ ) {
603	>	if( !(lepvec[i].is4l) ) continue;
604		float effArea_ecal_i, effArea_hcal_i;
605		if( lepvec[i].isEB ) {
606		if( lepvec[i].type == 11 ) {
#	Line 480 | Line 671 | unsigned fails_HZZ4L_selection(ControlFl
671		cout.flush();
672		}
673		if( comboIso > 0.35 ) {
674	<	cout << "combo failing for indices: " << i << "," << j << endl;
674	>	if( ctrl.debug ) cout << "combo failing for indices: " << i << "," << j << endl;
675		failiso = true;
676		//            break;
677		}
678		}
679	+	}
680		}
681	+
682	+
683		if( failiso ) {
684		evtfail |= ( 1<<EVTFAIL_ISOLATION );
685		return evtfail;
#	Line 518 | Line 712 | unsigned fails_HZZ4L_selection(ControlFl
712		//***************************************************************
713		// remaining kinematic cuts
714		//***************************************************************
715	<	if ( Z1Candidate.M() > 120 ||
716	<	Z2Candidate.M() < 20  ||
717	<	Z2Candidate.M() > 120 ||
715	>	double Z2massCut=0;
716	>	if      ( ctrl.kinematics == "loose" ) Z2massCut = 12;
717	>	else if ( ctrl.kinematics == "tight" ) Z2massCut = 20;
718	>	else { cout <<  "error! kinematic tightness not defined!" << endl; assert(0); }
719	>
720	>	if ( Z1Candidate.M() > 120        ||
721	>	Z2Candidate.M() < Z2massCut  ||
722	>	Z2Candidate.M() > 120        ||
723		!(lepvec[Z1LeptonPlusIndex].vec.Pt() > 20.0 || lepvec[Z1LeptonMinusIndex].vec.Pt() > 20.0) ||
724		!(lepvec[Z1LeptonPlusIndex].vec.Pt() > 10.0 && lepvec[Z1LeptonMinusIndex].vec.Pt() > 10.0)
725		) {
#	Line 532 | Line 731 | unsigned fails_HZZ4L_selection(ControlFl
731		//      continue;
732		}
733
734	<	int channel;
734	>	unsigned channel;
735		if( lepvec[Z1LeptonMinusIndex].type == 11 && lepvec[Z2LeptonMinusIndex].type == 11 ) channel=0;
736		if( lepvec[Z1LeptonMinusIndex].type == 13 && lepvec[Z2LeptonMinusIndex].type == 13 ) channel=1;
737		if( (lepvec[Z1LeptonMinusIndex].type == 11 && lepvec[Z2LeptonMinusIndex].type == 13) ||
738		(lepvec[Z1LeptonMinusIndex].type == 13 && lepvec[Z2LeptonMinusIndex].type == 11)) channel=2;
739
740
741	<
741	>	double w_offline=-1, werr_offline=0;
742	>	double w_online=-1, werr_online=0;
743	>
744	>	if( ctrl.mc ) {
745	>
746	>	vector< pair <double,double> > wlegs; // pair here is eff & err
747	>	vector< pair <float,float> > mvec;  // pair here is eta & pt
748	>	vector< pair <float,float> > evec;  // pair here is eta & pt
749	>
750	>	for( int k=0; k<lepvec.size(); k++ ) {
751	>	if( !(lepvec[k].is4l) ) continue;
752	>	if( abs(lepvec[k].type) == 13 ) {
753	>	mvec.push_back( std::pair<float,float> (fabs(lepvec[k].vec.Eta()), lepvec[k].vec.Pt()) );
754	>	wlegs.push_back( muonPerLegOfflineEfficiencyWeight( fabs(lepvec[k].vec.Eta()),
755	>	lepvec[k].vec.Pt() ) );
756	>	} else {
757	>	evec.push_back( std::pair<float,float> (fabs(lepvec[k].vec.Eta()), lepvec[k].vec.Pt()) );
758	>	wlegs.push_back( elePerLegOfflineEfficiencyWeight(  fabs(lepvec[k].vec.Eta()),
759	>	lepvec[k].vec.Pt() ) );
760	>	//              wlegs.push_back( pair<double,double> (1.,0.) );
761	>	}
762	>	}
763	>
764	>	pair<double,double> offpair = getOfflineEfficiencyWeight( wlegs );
765	>	w_offline    = offpair.first;
766	>	werr_offline = offpair.second;
767	>
768	>	pair<double,double> onpair  = getOnlineEfficiencyWeight( mvec, evec );
769	>	w_online    = onpair.first;
770	>	werr_online = onpair.second;
771	>	} // if mc
772	>
773	>
774	>	if( l != NULL ) {
775	>	l->vec4l  = ZZSystem;
776	>	l->vecz1  = Z1Candidate;
777	>	l->vecz2  = Z2Candidate;
778	>	l->vecl1p = lepvec[Z1LeptonPlusIndex].vec;
779	>	l->vecl1m = lepvec[Z1LeptonMinusIndex].vec;
780	>	l->vecl2p = lepvec[Z2LeptonPlusIndex].vec;
781	>	l->vecl2m = lepvec[Z2LeptonMinusIndex].vec;
782	>	}
783		if( passtuple != NULL ) {
784	<	passtuple->Fill( info->runNum,
785	<	info->evtNum,
786	<	info->lumiSec,
787	<	channel,
788	<	Z1Candidate.M(),
789	<	Z2Candidate.M(),
790	<	ZZSystem.M(),
791	<	ZZSystem.Pt(),
792	<	eventweight);
784	>	unsigned run   = info->runNum;
785	>	unsigned evt   = info->evtNum;
786	>	unsigned lumi  = info->lumiSec;
787	>	unsigned chan  = channel;
788	>	double   w     = eventweight;
789	>	float mZ1      = Z1Candidate.M() ;
790	>	float mZ2      = Z2Candidate.M() ;
791	>	float m4l      = ZZSystem.M() ;
792	>	float pt4l     = ZZSystem.Pt() ;
793	>	unsigned tZ1   = abs(lepvec[Z1LeptonMinusIndex].type);
794	>	unsigned tZ2   = abs(lepvec[Z2LeptonMinusIndex].type);
795	>	float l3tche   = lepvec[Z2LeptonMinusIndex].tche;
796	>	float l4tche   = lepvec[Z2LeptonPlusIndex].tche;
797	>	float l3tchp   = lepvec[Z2LeptonMinusIndex].tchp;
798	>	float l4tchp   = lepvec[Z2LeptonPlusIndex].tchp;
799	>	float l3csv    = lepvec[Z2LeptonMinusIndex].csv;
800	>	float l4csv    = lepvec[Z2LeptonPlusIndex].csv;
801	>	float l3csvMva = lepvec[Z2LeptonMinusIndex].csvMva;
802	>	float l4csvMva = lepvec[Z2LeptonPlusIndex].csvMva;
803	>
804	>
805	>	passtuple->SetBranchAddress("channel",  &channel);
806	>	passtuple->SetBranchAddress("run",  &run);
807	>	passtuple->SetBranchAddress("evt",  &evt);
808	>	passtuple->SetBranchAddress("lumi", &lumi);
809	>	passtuple->SetBranchAddress("mZ1",  &mZ1);
810	>	passtuple->SetBranchAddress("mZ2",  &mZ2);
811	>	passtuple->SetBranchAddress("tZ1",  &tZ1);
812	>	passtuple->SetBranchAddress("tZ2",  &tZ2);
813	>	passtuple->SetBranchAddress("m4l",  &m4l);
814	>	passtuple->SetBranchAddress("pt4l", &pt4l);
815	>	passtuple->SetBranchAddress("w",    &w);
816	>	if( ctrl.mc ) {
817	>	passtuple->SetBranchAddress("woff", &w_offline );
818	>	passtuple->SetBranchAddress("werroff", &werr_offline );
819	>	passtuple->SetBranchAddress("won", &w_online );
820	>	passtuple->SetBranchAddress("werron", &werr_online );
821	>	}
822	>	if( ctrl.btag ) {
823	>	passtuple->SetBranchAddress("l3tche",    &l3tche);
824	>	passtuple->SetBranchAddress("l4tche",    &l4tche);
825	>	passtuple->SetBranchAddress("l3tchp",    &l3tchp);
826	>	passtuple->SetBranchAddress("l4tchp",    &l4tchp);
827	>	passtuple->SetBranchAddress("l3csv",     &l3csv);
828	>	passtuple->SetBranchAddress("l4csv",     &l4csv);
829	>	passtuple->SetBranchAddress("l3csvMva",  &l3csvMva);
830	>	passtuple->SetBranchAddress("l4csvMva",  &l4csvMva);
831	>	}
832	>
833	>	if( ctrl.mc )           passtuple->SetBranchAddress("gchannel",  &gchannel);
834	>	passtuple->Fill( );
835	>
836		}
837
838	<	cout  << "run: " << info->runNum
838	>	if( ctrl.debug ) cout  << "run: " << info->runNum
839		<< "\tevt: " << info->evtNum
840		<< "\tZ1channel: " << lepvec[Z1LeptonMinusIndex].type
841		<< "\tZ2channel: " << lepvec[Z2LeptonMinusIndex].type

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