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Comparing UserCode/MitHzz4l/LeptonSelection/src/MuonSelection.cc (file contents):
Revision 1.3 by anlevin, Wed Feb 29 10:10:18 2012 UTC vs.
Revision 1.38 by dkralph, Mon Dec 17 17:12:27 2012 UTC

#	Line 1 | Line 1
1		#include <math.h>
2		#include <iostream>
3
4	–	#include "HiggsAnaDefs.hh"
5	–
4		#include "MuonSelection.h"
5		#include "ParseArgs.h"
6		#include "SelectionStatus.h"
7
8	<	SelectionStatus noPreSelection( ControlFlags &ctrl,  const mithep::TMuon * mu ) {
9	<	SelectionStatus status;
10	<	status.setStatus(SelectionStatus::PRESELECTION);
11	<	if(ctrl.debug) cout << "muon presel returning status : " << status.getStatus() << endl;
12	<	return status;
13	<	}
14	<
15	<	SelectionStatus muonPreSelection( ControlFlags &ctrl,  const mithep::TMuon * mu ) {
16	<	if(ctrl.debug) cout << "inside muonpresel ... " << endl;
17	<	bool ret = isMuFO(mu);
18	<	if(ctrl.debug) cout << "iS fo? ... " << ret << endl;
19	<	ret &= ( fabs(mu->ip3dSig) < 4 );
20	<	if(ctrl.debug) cout << "and pass IP (" << mu->ip3dSig << ") ? ... " << ret << endl;
23	<	ret &= ( mu->pt > 5 );
24	<	if(ctrl.debug) cout << "and >5 GeV ? ... " << ret << endl;
25	<	ret &= ( fabs(mu->eta) < 2.4 );
26	<	if(ctrl.debug) cout << "and < 2.4 eta ? ... " << ret << endl;
27	<
28	<	SelectionStatus status;
29	<	if( ret ) status.setStatus(SelectionStatus::PRESELECTION);
30	<	if(ctrl.debug) cout << "muon presel returning status : " << status.getStatus() << endl;
31	<	return status;
32	<	}
33	<
34	<	bool isMuFO( const mithep::TMuon * mu ) {
35	<	bool isgood=true;
36	<	float reliso = mu->pfIso03/mu->pt;
37	<
38	<	if( mu->pt < 5  )         isgood=false;
39	<	if ( fabs(mu->dz) > 0.2 ) isgood=false;   // needed to remove cosmics in HF sample
40	<
41	<	//
42	<
43	<	// HF seems to not want tkquality, SS does
44	<	if( mu->pt>20 ) {
45	<	if ( !((mu->typeBits & kGlobal) && mu->nSeg>0  ) ) isgood=false; //&& mu->nValidHits>0
46	<	} else {
47	<	if ( !((mu->typeBits & kGlobal) && mu->nSeg>0 ) //&& //&& mu->nValidHits>0
48	<	&& !( (mu->typeBits & kTracker) &&  (mu->qualityBits & kTMOneStationLoose)
49	<	)
50	<	)   isgood=false;
51	<	}
52	<
53	<
54	<	//
55	<	// for HF MC to agree w/ data, cannot put any Tk quality bits
56	<	// but to get to 5% closure in the SS test, we need at least Tk oneStationLoose
57	<
58	<	/*
59	<	&& ( (mu->qualityBits & kTMOneStationLoose) ||
60	<	(mu->qualityBits & kTMLastStationOptimizedBarrelLowPtLoose) ||
61	<	(mu->qualityBits & kTMLastStationOptimizedLowPtLoose)
62	<	)
63	<	*/
64	<
65	<
66	<	// comment for more stats for mu fake shape
67	<	if( mu->pt < 20 ) {
68	<	if( reliso > 3 ) isgood=false;
69	<	} else {
70	<	if( reliso > 5 ) isgood=false;
71	<	}
72	<
73	<	return isgood;
74	<	};
8	>	#include "Track.h"
9	>	#include "MuonTools.h"
10	>	#include "MuonQuality.h"
11	>	#include "MuonIDMVA.h"
12	>
13	>	mithep::MuonIDMVA * muIDMVA;
14	>	mithep::MuonTools muTools;
15	>
16	>	extern vector<bool> PFnoPUflag;
17	>	extern Float_t computePFMuonIso(const mithep::Muon *mu,
18	>	const mithep::Vertex * vtx,
19	>	const mithep::Array<mithep::PFCandidate> * pfCandidates,
20	>	const Double_t dRMax);
21
22	+	bool muonPOG2012CutBasedIDTight(const mithep::Muon *mu, const mithep::Vertex * vtx, const mithep::Array<mithep::PFCandidate> * pfCandidates, const mithep::Array<mithep::PileupEnergyDensity> * puEnergyDensity)
23	+	{
24
25	<	SelectionStatus passSoftMuonSelection( ControlFlags &ctrl, const mithep::TMuon * mu ) {
78	<
79	<	int level=0;
80	<	unsigned failmask=0x0;
25	>	Float_t charged_iso = 0;
26
27	<	if(mu->nTkHits < 11 )
28	<	failmask |= (1<<level);
29	<	level++;
30	<
31	<	if(fabs(mu->d0) > 0.2)
32	<	failmask |= (1<<level);
33	<	level++;
34	<
35	<	if(fabs(mu->dz) > 0.1)
36	<	failmask |= (1<<level);
37	<	level++;
38	<
39	<	if(!(mu->typeBits & kTracker))
40	<	failmask |= (1<<level);
41	<	level++;
42	<
43	<	if(!(mu->qualityBits & kTMLastStationAngTight))
44	<	failmask |= (1<<level);
45	<	level++;
46	<
47	<	Double_t iso = (mu->trkIso03 + mu->emIso03 + mu->hadIso03)/mu->pt;
48	<	if(mu->pt>20 && iso<0.1)
49	<	failmask |= (1<<level);
105	<
106	<	bool passtight  = !(failmask);
107	<	bool passloose  = !(failmask);
108	<	return SelectionStatus( passtight | passloose );
27	>	Float_t sumChargedHadronPt = 0;
28	>	Float_t sumNeutralHadronPt = 0;
29	>	Float_t sumPhotonPt = 0;
30	>	Float_t sumPUPt = 0;
31	>
32	>	for(unsigned k=0; k<pfCandidates->GetEntries(); ++k) {
33	>	const mithep::PFCandidate *pf = (mithep::PFCandidate*)((*pfCandidates)[k]);
34	>	Double_t dr = mithep::MathUtils::DeltaR(mu->Phi(),mu->Eta(), pf->Phi(), pf->Eta());
35	>	if(dr > 0.4) continue;
36	>	if(pf->TrackerTrk() && mu->TrackerTrk() && pf->TrackerTrk() == mu->TrackerTrk()) continue;
37	>
38	>	if(PFnoPUflag[k]){ //pf no pileup
39	>	if(abs(pf->PFType()) == mithep::PFCandidate::eHadron)
40	>	sumChargedHadronPt += pf->Pt();
41	>	else if (pf->Pt() > 0.5 && abs(pf->PFType()) == mithep::PFCandidate::eNeutralHadron)
42	>	sumNeutralHadronPt += pf->Pt();
43	>	else if (pf->Pt() > 0.5 && abs(pf->PFType()) == mithep::PFCandidate::eGamma)
44	>	sumPhotonPt += pf->Pt();
45	>	}
46	>	else {//pf pile up
47	>	if(pf->Charge() != 0)
48	>	sumPUPt += pf->Pt();
49	>	}
50
110	–	}
111	–
112	–
113	–	//unsigned passMuonSelectionZZ( const mithep::TMuon * mu ) {
114	–	SelectionStatus passMuonSelectionZZ( ControlFlags &ctrl, const mithep::TMuon * mu ) {
115	–	int level=0;
116	–	unsigned failmask=0x0;
117	–
118	–	if(mu->pt < 5) {
119	–	failmask |= (1<<level);
51		}
52	+	double iso_sum =  sumChargedHadronPt+ max(0.,sumNeutralHadronPt+sumPhotonPt-0.5*sumPUPt);
53
54	<	level++;
55	<	if(fabs(mu->eta) > 2.4) {
124	<	failmask |= (1<<level);
125	<	}
54	>	bool pass = kTRUE;
55	>	if(!mu->IsGlobalMuon()) pass = kFALSE;
56
57	<	level++;
58	<	if(!(mu->typeBits & kGlobal)) {
129	<	failmask |= (1<<level);
130	<	}
57	>	//there is not necessarily a global track or a tracker track if is global muon is false
58	>	if(!pass) return pass;
59
60	<	level++;
61	<	if(mu->nTkHits          < 10) {
62	<	failmask |= (1<<level);
63	<	}
60	>	if(!mu->IsPFMuon()) pass = kFALSE;
61	>	if(mu->GlobalTrk()->RChi2() > 10) pass= kFALSE;
62	>	if(mu->NValidHits() == 0 ) pass= kFALSE;
63	>	if(mu->NMatches() <= 1) pass = kFALSE;
64	>	if(fabs(mu->TrackerTrk()->D0Corrected(*vtx)) > 0.2) pass = kFALSE;
65	>	if(fabs(mu->TrackerTrk()->DzCorrected(*vtx)) > 0.5) pass = kFALSE;
66	>	if(mu->BestTrk()->NPixelHits() == 0) pass = kFALSE;
67	>	if(mu->NTrkLayersHit() <= 5) pass = kFALSE;
68	>	if(iso_sum/mu->Pt() > 0.12 ) pass = kFALSE;
69
70	+	return pass;
71
138	–	level++;
139	–	if( (mu->trkIso03/mu->pt) > 0.7 ) {
140	–	failmask |= (1<<level);
141	–	}
72
73	<	//  if(muon->nPixHits   < 1)     return false;
74	<	//  if(muon->muNchi2    > 10)    return false;
75	<	//  if(muon->nMatch     < 2)     return false;
76	<	//  if(muon->nValidHits         < 1)     return false;
77	<	//  if(muon->pterr/muon->pt > 0.1)   return false;
78	<	//  if(fabs(muon->dz)       > 0.1)   return false;
73	>	}
74	>	//----------------------------------------------------------------------------------------
75	>	bool muon2012CutBasedIDTightVersionWithOldIsoThatWorksOn2011(ControlFlags &ctrl, const mithep::Muon *mu, const mithep::Vertex * vtx, const mithep::Array<mithep::PFCandidate> * pfCandidates,
76	>	const mithep::Array<mithep::PileupEnergyDensity> * puEnergyDensity,   mithep::MuonTools::EMuonEffectiveAreaTarget EffectiveAreaVersion
77	>	)
78	>	{
79	>
80	>	mithep::MuonTools   muT;
81	>
82	>	Float_t charged_iso = 0;
83	>	Float_t neutral_iso = 0;
84	>	Float_t gamma_iso = 0;
85
86	<	SelectionStatus status;
87	<	if( !failmask ) status.setStatus(SelectionStatus::LOOSEID);
88	<	if( !failmask ) status.setStatus(SelectionStatus::TIGHTID);
89	<	return status;
90	<
91	<
92	<
93	<	};
94	<
95	<
96	<
97	<
98	<	//
99	<	// Kevin's WW selection
100	<	//
101	<	SelectionStatus passMuonSelection( ControlFlags &ctrl, const mithep::TMuon * mu ) {
102	<	int level=0;
103	<	unsigned failmask=0x0;
104	<
105	<
106	<	// 0x1
107	<	if(mu->pt < 5) {
108	<	failmask |= (1<<level);
173	<	}
174	<
175	<	// 0x2
176	<	level++;
177	<	if(fabs(mu->eta) > 2.4) {
178	<	failmask |= (1<<level);
179	<	}
180	<
181	<	// 0x4
182	<	level++;
183	<	if(mu->ptErr/mu->pt > 0.1)   {
184	<	failmask |= (1<<level);
185	<	}
186	<
187	<	// 0x8
188	<	level++;
189	<	if( fabs(mu->dz) > 0.1 )   {
190	<	failmask |= (1<<level);
86	>	for(int k=0; k<pfCandidates->GetEntries(); ++k) {
87	>
88	>	if( !(PFnoPUflag[k]) ) continue;
89	>	const mithep::PFCandidate *pf = (mithep::PFCandidate*)((*pfCandidates)[k]);
90	>
91	>	Double_t dr = mithep::MathUtils::DeltaR(mu->Phi(),mu->Eta(), pf->Phi(), pf->Eta());
92	>	if (dr > 0.4) continue;
93	>
94	>	if (pf->Charge() != 0 && (pf->HasTrackerTrk()||pf->HasGsfTrk()) ) {
95	>
96	>	if (abs(pf->PFType()) == mithep::PFCandidate::eElectron || abs(pf->PFType()) == mithep::PFCandidate::eMuon) continue;
97	>
98	>	charged_iso += pf->Pt();
99	>	}
100	>
101	>	else if (abs(pf->PFType()) == mithep::PFCandidate::eGamma) {
102	>
103	>	gamma_iso += pf->Pt();
104	>	}
105	>
106	>	else {
107	>	neutral_iso += pf->Pt();
108	>	}
109		}
110
111	+	double iso_sum=999;
112	+	double rho;
113	+	if(ctrl.era == 2012) {
114	+	EffectiveAreaVersion  = mithep::MuonTools::kMuEAData2012;
115	+	rho = puEnergyDensity->At(0)->RhoKt6PFJetsCentralNeutral();
116	+
117	+	iso_sum = charged_iso + fmax(0.0,(gamma_iso + neutral_iso
118	+	-rho*muT.MuonEffectiveArea(muT.kMuGammaAndNeutralHadronIso04,
119	+	mu->Eta(),EffectiveAreaVersion)));
120	+	} else if(ctrl.era == 2011) {
121	+	setMuonRhoAndEaVersion(rho,EffectiveAreaVersion,puEnergyDensity);
122	+	iso_sum = charged_iso + fmax(0.0,(gamma_iso + neutral_iso
123	+	-rho*muT.MuonEffectiveArea(muT.kMuGammaAndNeutralHadronIso04,
124	+	mu->Eta(),EffectiveAreaVersion)));
125	+	} else assert(0);
126	+
127	+	bool pass = kTRUE;
128	+	if(!mu->IsGlobalMuon()) pass = kFALSE;
129	+
130	+	//there is not necessarily a global track or a tracker track if is global muon is false
131	+	if(!pass) return pass;
132	+
133	+	if(!mu->IsPFMuon() && ctrl.era==2012)                 pass = kFALSE;
134	+	if(mu->GlobalTrk()->RChi2() > 10)                     pass = kFALSE;
135	+	if(mu->NValidHits() == 0 )                            pass = kFALSE;
136	+	if(mu->NMatches() <= 1)                               pass = kFALSE;
137	+	if(fabs(mu->TrackerTrk()->D0Corrected(*vtx)) > 0.2)   pass = kFALSE;
138	+	if(fabs(mu->TrackerTrk()->DzCorrected(*vtx)) > 0.5)   pass = kFALSE;
139	+	if(mu->BestTrk()->NPixelHits() == 0)                  pass = kFALSE;
140	+	if(mu->NTrkLayersHit() <= 5)                          pass = kFALSE;
141	+	if(iso_sum/mu->Pt() > 0.12 )                          pass = kFALSE;
142	+
143	+	return pass;
144	+
145	+
146	+	}
147	+
148	+	bool trackToPFMuonSelection( const mithep::Track *track, const mithep::MuonCol * muoncol )
149	+	{
150	+	bool pass = false;
151	+	for(UInt_t i=0; i<muoncol->GetEntries(); ++i) {
152	+	const mithep::Muon *mu = muoncol->At(i);
153	+	if(mu->TrackerTrk() == track && (mu->IsGlobalMuon() || mu->IsTrackerMuon()) && mu->IsPFMuon())
154	+	pass = true;
155	+	}
156	+
157	+	return pass;
158	+
159	+	}
160
161	<	Bool_t isGlobal  = (mu->typeBits & kGlobal) && (mu->muNchi2 < 10) && (mu->nMatch > 1) && (mu->nValidHits > 0);
162	<	Bool_t isTracker = (mu->typeBits & kTracker) && (mu->qualityBits & kTMLastStationTight);
161	>	//--------------------------------------------------------------------------------------------------
162	>	SelectionStatus muonDummyVeto(ControlFlags &ctrl,
163	>	const mithep::Muon *muon,
164	>	const mithep::Vertex * vtx)
165	>	//--------------------------------------------------------------------------------------------------
166	>	{
167	>	SelectionStatus status;
168	>	status.setStatus(SelectionStatus::PRESELECTION);
169	>	return status;
170	>	}
171
172	<	// 0x10
173	<	level++;
174	<	if(!isGlobal && !isTracker) {
175	<	failmask |= (1<<level);
176	<	}
172	>	//--------------------------------------------------------------------------------------------------
173	>	SelectionStatus muonCutBasedVeto(ControlFlags &ctrl,
174	>	const mithep::Muon *muon,
175	>	const mithep::Vertex *vtx)
176	>	//--------------------------------------------------------------------------------------------------
177	>	{
178	>	//
179	>	// Loose cut-based ID for isolation veto
180	>	//
181	>	bool ret = true;
182	>
183	>	if(!(muon->IsGlobalMuon() || muon->IsTrackerMuon())) ret = false;
184	>	if( muon->NValidHits() < 11 )                        ret = false;
185	>	if( fabs(muon->Ip3dPVSignificance()) >= 4 )          ret = false;
186
187	<	// 0x20
188	<	level++;
189	<	if( mu->nTkHits < 10 ) {
190	<	failmask |= (1<<level);
207	<	}
187	>	SelectionStatus status;
188	>	if( ret ) status.setStatus(SelectionStatus::PRESELECTION);
189	>	return status;
190	>	}
191
209	–	level++;
210	–	if(mu->nPixHits         < 1) {
211	–	failmask |= (1<<level);
212	–	}
192
193	+	//--------------------------------------------------------------------------------------------------
194	+	SelectionStatus noPreSelection( ControlFlags &ctrl,  const mithep::Muon * mu )
195
196	<	level++;
197	<	if(fabs(mu->d0)>0.02)   {
198	<	failmask |= (1<<level);
199	<	}
196	>	//--------------------------------------------------------------------------------------------------
197	>	{
198	>	SelectionStatus status;
199	>	status.setStatus(SelectionStatus::PRESELECTION);
200	>	if(ctrl.debug) cout << "muon presel returning status : " << status.getStatus() << endl;
201	>	return status;
202	>	}
203	>	//--------------------------------------------------------------------------------------------------
204	>	SelectionStatus muonReferencePreSelection( ControlFlags &ctrl,
205	>	const mithep::Muon * mu,
206	>	const mithep::Vertex * vtx,
207	>	const mithep::Array<mithep::PFCandidate> * pfCandidates )
208	>	//--------------------------------------------------------------------------------------------------
209	>	{
210	>	bool ret = true;
211	>
212	>	// if(ctrl.debug) cout << "inside muonpresel ... " << endl;
213	>	ret &= ( fabs(mu->Ip3dPVSignificance()) < 100 );
214	>	// if(ctrl.debug) cout << "and pass IP (" << mu->Ip3dPVSignificance() << ") ? ... " << ret << endl;
215	>	ret &= ( mu->Pt() >= 5 );
216	>	// if(ctrl.debug) cout << "and >5 GeV (" << mu->Pt() << ") ? ... " << ret << endl;
217	>	ret &= ( fabs(mu->Eta()) <= 2.4 );
218	>	// if(ctrl.debug) cout << "and < 2.4 eta (" << mu->Eta() << ")? ... " << ret << endl;
219	>	ret &= ( (mu->IsTrackerMuon() && ( mu->Quality().QualityMask().Mask() & mithep::MuonQuality::AllArbitrated)) || mu->IsGlobalMuon() );
220	>	// if(ctrl.debug) cout << "is Tracker or Global? ... " << ret << endl;
221	>	ret &= (mu->HasTrackerTrk() &&
222	>	fabs(mu->TrackerTrk()->D0Corrected(*vtx)) < 0.5 &&
223	>	fabs(mu->TrackerTrk()->DzCorrected(*vtx)) < 1.0);
224	>	// if(ctrl.debug) cout << "d0 and dz? ... " << ret << endl;
225	>
226	>	SelectionStatus status;
227	>	if( ret ) status.setStatus(SelectionStatus::PRESELECTION);
228	>	// if(ctrl.debug) cout << "muon presel returning status : " << status.getStatus() << endl;
229	>	return status;
230	>	}
231	>	//--------------------------------------------------------------------------------------------------
232	>	SelectionStatus muonPreSelectionNoD0IP( ControlFlags &ctrl,
233	>	const mithep::Muon * mu,
234	>	const mithep::Vertex * vtx,
235	>	const mithep::Array<mithep::PFCandidate> * pfCandidates )
236	>	//--------------------------------------------------------------------------------------------------
237	>	{
238	>	bool ret = true;
239	>
240	>	ret &= ( mu->Pt() >= 5 );
241	>	ret &= ( fabs(mu->Eta()) <= 2.4 );
242	>	ret &= ( mu->IsTrackerMuon() || mu->IsGlobalMuon() );
243	>	// they put this back in for the h.c.p. sync...
244	>	if( mu->IsTrackerMuon() && mu->HasTrackerTrk() && !mu->IsGlobalMuon() )
245	>	ret &=  ( mu->Quality().QualityMask().Mask() & mithep::MuonQuality::AllArbitrated);
246	>	ret &= (mu->HasTrackerTrk() &&
247	>	fabs(mu->TrackerTrk()->DzCorrected(*vtx)) < 1.0);
248	>
249	>	SelectionStatus status;
250	>	if( ret ) status.setStatus(SelectionStatus::PRESELECTION);
251	>	if(ctrl.debug) cout << "muon presel returning status : " << status.getStatus() << endl;
252	>	return status;
253	>	}
254	>	//--------------------------------------------------------------------------------------------------
255	>	SelectionStatus muonIDMVASelection(ControlFlags &ctrl,
256	>	const mithep::Muon *mu,
257	>	const mithep::Vertex * vtx   )
258	>	//--------------------------------------------------------------------------------------------------
259	>	{
260	>	double global_rchi2 = (mu->IsGlobalMuon()) ? mu->GlobalTrk()->RChi2() : 0.;
261
262	+	//
263	+	// WARNING !!! KH hacked out to sync
264	+	//
265		/*
266	<	if(mu->pt>20) {
267	<	if(fabs(mu->d0)>0.02)   {
268	<	failmask |= (1<<level);
269	<	}
270	<	} else {
271	<	if(fabs(mu->d0)>0.01)  {
272	<	failmask |= (1<<level);
273	<	}
274	<	}
266	>	double mvaval = muIDMVA->MVAValue_ID(mu->Pt(),
267	>	mu->Eta(),
268	>	mu->IsGlobalMuon(),
269	>	mu->IsTrackerMuon(),
270	>	mu->TrackerTrk()->RChi2(),
271	>	global_rchi2,
272	>	(Double_t)(mu->NValidHits()),
273	>	(Double_t)(mu->TrackerTrk()->NHits()),
274	>	(Double_t)(mu->TrackerTrk()->NPixelHits()),
275	>	(Double_t)(mu->NMatches()),
276	>	mu->TrkKink(),
277	>	muTools.GetSegmentCompatability(mu),
278	>	muTools.GetCaloCompatability(mu,true,true),
279	>	mu->HadEnergy(),
280	>	mu->EmEnergy(),
281	>	mu->HadS9Energy(),
282	>	mu->EmS9Energy(),
283	>	(Bool_t)(ctrl.debug) );
284		*/
285	+	double mvaval = 0.0;
286
287		SelectionStatus status;
288	<	if( !failmask ) status.setStatus(SelectionStatus::LOOSEID);
289	<	if( !failmask ) status.setStatus(SelectionStatus::TIGHTID);
290	<	return status;
288	>	bool pass = false;
289	>
290	>	if( mu->IsGlobalMuon() && mu->IsTrackerMuon()
291	>	&& fabs(mu->Eta()) <= 1.5 && mu->Pt() <= 10 && mvaval >= MUON_IDMVA_CUT_BIN0)  pass = true;
292	>	else if( mu->IsGlobalMuon() && mu->IsTrackerMuon()
293	>	&& fabs(mu->Eta()) <= 1.5 && mu->Pt() > 10 && mvaval >= MUON_IDMVA_CUT_BIN1)  pass = true;
294	>	else if( mu->IsGlobalMuon() && mu->IsTrackerMuon()
295	>	&& fabs(mu->Eta()) > 1.5 && mu->Pt() <= 10 && mvaval >= MUON_IDMVA_CUT_BIN2)  pass = true;
296	>	else if( mu->IsGlobalMuon() && mu->IsTrackerMuon()
297	>	&& fabs(mu->Eta()) > 1.5 && mu->Pt() > 10 && mvaval >= MUON_IDMVA_CUT_BIN3)  pass = true;
298	>	else if( !(mu->IsGlobalMuon()) && mu->IsTrackerMuon() && mvaval >= MUON_IDMVA_CUT_BIN4 )  pass = true;
299	>	else if( mu->IsGlobalMuon() && !(mu->IsTrackerMuon()) && mvaval >= MUON_IDMVA_CUT_BIN5 )  pass = true;
300	>
301	>
302	>
303	>	if( pass ) {
304	>	status.orStatus(SelectionStatus::LOOSEID);
305	>	status.orStatus(SelectionStatus::TIGHTID);
306	>	}
307
308	+	return status;
309	+	}
310
311	<	};
311	>	//--------------------------------------------------------------------------------------------------
312	>	void initMuonIDMVA()
313	>	//--------------------------------------------------------------------------------------------------
314	>	{
315	>	muIDMVA = new mithep::MuonIDMVA();
316	>	vector<string> weightFiles;
317	>	weightFiles.push_back("./data/MuonIDMVAWeights/MuonIDMVA_BDTG_barrel_lowpt_V2.weights.xml");
318	>	weightFiles.push_back("./data/MuonIDMVAWeights/MuonIDMVA_BDTG_barrel_highpt_V2.weights.xml");
319	>	weightFiles.push_back("./data/MuonIDMVAWeights/MuonIDMVA_BDTG_endcap_lowpt_V2.weights.xml");
320	>	weightFiles.push_back("./data/MuonIDMVAWeights/MuonIDMVA_BDTG_endcap_highpt_V2.weights.xml");
321	>	weightFiles.push_back("./data/MuonIDMVAWeights/MuonIDMVA_BDTG_tracker_V2.weights.xml");
322	>	weightFiles.push_back("./data/MuonIDMVAWeights/MuonIDMVA_BDTG_global_V2.weights.xml");
323	>	muIDMVA->Initialize( "MuonIDMVA",
324	>	mithep::MuonIDMVA::kIDV0,
325	>	kTRUE, weightFiles);
326	>	}
327
328	<	SelectionStatus passMuonSelectionBackDoor( ControlFlags &ctrl, const mithep::TMuon * mu ) {
329	<	int level=0;
330	<	unsigned failmask=0x0;
328	>	//--------------------------------------------------------------------------------------------------
329	>	SelectionStatus muonIDPFSelection(ControlFlags &ctrl,
330	>	const mithep::Muon *mu,
331	>	const mithep::Vertex * vtx,
332	>	const mithep::Array<mithep::PFCandidate> * pfCandidates )
333	>	//--------------------------------------------------------------------------------------------------
334	>	{
335	>	bool pass = false;
336	>	SelectionStatus status;
337
338	<	if(mu->pt < 5) {
339	<	failmask |= (1<<level);
338	>	// check that it matches to a PF muon
339	>	for( int i=0; i<pfCandidates->GetEntries(); i++ ) {
340	>	if( !(PFnoPUflag[i]) ) continue;
341	>
342	>	const mithep::PFCandidate *pf = (mithep::PFCandidate*)((*pfCandidates)[i]);
343	>	if( (pf->TrackerTrk() == mu->TrackerTrk()) && abs(pf->PFType()) == mithep::PFCandidate::eMuon ) {
344	>	pass = true;
345	>	break;
346	>	}
347		}
348
349	<	level++;
350	<	if(fabs(mu->eta) > 2.5) {
351	<	failmask |= (1<<level);
349	>	if( pass ) {
350	>	status.orStatus(SelectionStatus::LOOSEID);
351	>	status.orStatus(SelectionStatus::TIGHTID);
352		}
353
354	<	level++;
355	<	if(!(mu->typeBits & kGlobal) || !(mu->typeBits & kTracker)) {
356	<	failmask |= (1<<level);
357	<	}
354	>	return status;
355	>	}
356	>	//----------------------------------------------------------------------------------------
357	>	SelectionStatus PassWwMuonSel(const mithep::Muon *mu, const mithep::Vertex *vtx,
358	>	const mithep::Array<mithep::PFCandidate> *pfArr
359	>	)
360	>	{
361	>	bool passID=true;
362	>	bool passIso=true;
363	>
364	>	if (mu->Pt() < 5)
365	>	passID = false;
366	>	if (fabs(mu->Eta()) > 2.4)
367	>	passID = false;
368	>	if (mu->BestTrk()->PtErr()/mu->Pt() > 0.1)
369	>	passID = false;
370	>	if (fabs(mu->BestTrk()->DzCorrected(*vtx)) > 0.1)
371	>	passID = false;
372	>	Bool_t isGlobal  = (mu->IsGlobalMuon()) && (mu->BestTrk()->RChi2() < 10) &&
373	>	(mu->NMatches() > 1) && (mu->NValidHits() > 0);
374	>	Bool_t isTracker = (mu->IsTrackerMuon()) &&
375	>	(mu->Quality().Quality(mithep::MuonQuality::TMLastStationTight));
376	>	if (!isGlobal && !isTracker)
377	>	passID = false;
378	>	int ntrkhits = (mu->HasTrackerTrk()) ? mu->TrackerTrk()->NHits() : 0;
379	>	if (ntrkhits < 10)
380	>	passID = false;
381	>	if (mu->BestTrk()->NPixelHits() < 1)
382	>	passID = false;
383	>	if (fabs(mu->BestTrk()->D0Corrected(*vtx)) > 0.02)
384	>	passID = false;
385	>
386	>	// note: this isn't really ww muon isolation
387	>	float pfiso = computePFMuonIso(mu,vtx,pfArr,0.3);
388
389	<	level++;
390	<	if(mu->nTkHits          <= 10) {
260	<	failmask |= (1<<level);
261	<	}
389	>	if (pfiso > 0.2*mu->Pt())
390	>	passIso = false;
391
263	–	level++;
264	–	if(mu->ip3dSig > 4) {
265	–	failmask |= (1<<level);
266	–	}
267	–
268	–	level++;
269	–	if(mu->muNchi2          >= 10)  {
270	–	failmask |= (1<<level);
271	–	}
272	–
273	–	level++;
274	–	if(mu->nValidHits       < 1)   {
275	–	failmask |= (1<<level);
276	–	}
277	–
278	–	level++;
279	–	if(mu->nMatch   < 2)   {
280	–	failmask |= (1<<level);
281	–	}
282	–
392		SelectionStatus status;
393	<
394	<	if( !failmask ) status.setStatus(SelectionStatus::LOOSEID);
395	<	if( !failmask ) status.setStatus(SelectionStatus::TIGHTID);
396	<
288	<	return status;
393	>	if(passID)  status |= SelectionStatus::TIGHTIDANDPRE;
394	>	if(passIso) status |= SelectionStatus::TIGHTISOANDPRE;
395	>
396	>	return status;
397
398	<	};
398	>	}
399	>	// //--------------------------------------------------------------------------------------------------
400	>	// SelectionStatus muonPreSelectionNoD0DzIP( ControlFlags &ctrl,
401	>	//                                        const mithep::Muon * mu,
402	>	//                                        const mithep::Vertex * vtx,
403	>	//                                        const mithep::Array<mithep::PFCandidate> * pfCandidates )
404	>	// //--------------------------------------------------------------------------------------------------
405	>	// {
406	>	//   bool ret = true;
407	>
408	>	//   if(ctrl.debug) cout << "inside muonpresel ... " << endl;
409	>	//   ret &= ( mu->Pt() >= 5 );
410	>	//   if(ctrl.debug) cout << "and >5 GeV (" << mu->Pt() << ") ? ... " << ret << endl;
411	>	//   ret &= ( fabs(mu->Eta()) <= 2.4 );
412	>	//   if(ctrl.debug) cout << "and < 2.4 eta (" << mu->Eta() << ")? ... " << ret << endl;
413	>	//   ret &= ( mu->IsTrackerMuon() || mu->IsGlobalMuon() );
414	>	//   if(ctrl.debug) cout << "is Tracker or Global? ... " << ret << endl;
415	>
416	>	//   //  if( mu->IsTrackerMuon() && mu->HasTrackerTrk() && !mu->IsGlobalMuon() )
417	>	//   //    ret &=  ( mu->Quality().QualityMask().Mask() & mithep::MuonQuality::AllArbitrated);
418	>	//   //  if(ctrl.debug) cout << "if isTrackerMuon, arbitrated ? ... " << ret << endl;
419	>	//   //  ret &= ( mu->BestTrk()->DzCorrected(vtx) < 0.1);
420	>	//   //  if( ctrl.debug ) cout << "elepresel : ret after dZcorr : " << ret <<  endl;
421	>
422	>
423	>	//   SelectionStatus status;
424	>	//   if( ret ) status.setStatus(SelectionStatus::PRESELECTION);
425	>	//   if(ctrl.debug) cout << "muon presel returning status : " << status.getStatus() << endl;
426	>	//   return status;
427	>	// }

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