NonMCBackground/src/SelectionEMU.cc

//***************************************************************************************************
//
// selection sync'ed with https://twiki.cern.ch/twiki/bin/viewauth/CMS/HiggsZZ4l2012SummerSync
//
//***************************************************************************************************

// system headers
#include <map>
#include <utility>

// mit headers
#include "Vertex.h"

// 4L stuff
#include "SelectionStatus.h" 
#include "EventData.h" 
#include "SimpleLepton.h" 
#include "EfficiencyWeightsInterface.h"
#include "ElectronSelection.h"
#include "MuonSelection.h"
#include "IsolationSelection.h"
#include "SelectionEMU.h"
#include "ReferenceSelection.h"
#include "Selection.h"
#include "CommonDefs.h"
#include "SelectionDefs.h"
#include "FSR.h"
#include "SelectionFuncs.h"


extern vector<SimpleLepton> failingLeptons;
extern vector<SimpleLepton> passingLeptons;
extern vector<int> muTrigObjs,eleTrigObjs,muTriggers,eleTriggers;
extern bitset<TRIGGER_BIG_NUMBER> triggerBits;

//--------------------------------------------------------------------------------------------------
EventData apply_HZZ4L_EMU_selection(ControlFlags &ctrl,           // input control 
                                    const mithep::EventHeader *info,     // input event info
                                    mithep::TriggerTable *hltTable,
                                    mithep::Array<mithep::TriggerObject> *hltObjArr,
                                    mithep::TriggerObjectsTable *fTrigObjs,
                                    const mithep::Array<mithep::Vertex>       * vtxArr ,
                                    const mithep::Array<mithep::PFCandidate>  *pfCandidates,
                                    const mithep::Array<mithep::PileupEnergyDensity>  *puEnergyDensity,
                                    const mithep::DecayParticleCol *fConversions,
                                    const mithep::Array<mithep::Electron> *electronArr,    // input electrons
                                    SelectionStatus (*ElectronPreSelector)( ControlFlags &, 
                                                                            const mithep::Electron*,
                                                                            const mithep::Vertex *),
                                    SelectionStatus (*ElectronIDSelector)( ControlFlags &, 
                                                                           const mithep::Electron*,
                                                                           const mithep::Vertex *), 
                                    SelectionStatus (*ElectronIsoSelector)( ControlFlags &, 
                                                                            const mithep::Electron*, 
                                                                            const mithep::Vertex *, 
                                                                            const mithep::Array<mithep::PFCandidate> *, 
                                                                            const mithep::Array<mithep::PileupEnergyDensity> *, 
                                                                            mithep::ElectronTools::EElectronEffectiveAreaTarget,
                                                                            vector<const mithep::PFCandidate*>),
                                    const mithep::Array<mithep::Muon> *muonArr,    // input muons
                                    SelectionStatus (*MuonPreSelector)( ControlFlags &, 
                                                                        const mithep::Muon*,
                                                                        const mithep::Vertex *,
                                                                        const mithep::Array<mithep::PFCandidate> *),
                                    SelectionStatus (*MuonIDSelector)( ControlFlags &, 
                                                                       const mithep::Muon*, 
                                                                       // const mithep::Vertex &),
                                                                       const mithep::Vertex *,
                                                                       const mithep::Array<mithep::PFCandidate> *),
                                    SelectionStatus (*MuonIsoSelector)( ControlFlags &, 
                                                                        const mithep::Muon*, 
                                                                        const mithep::Vertex *, 
                                                                        const mithep::Array<mithep::PFCandidate> *,
                                                                        const mithep::Array<mithep::PileupEnergyDensity> *, 
                                                                        mithep::MuonTools::EMuonEffectiveAreaTarget,
                                                                        vector<const mithep::PFCandidate*>)
                                    )
//--------------------------------------------------------------------------------------------------
{       

  EventData ret;
  unsigned evtfail = 0x0;
  TRandom3 r;

  failingLeptons.clear();
  passingLeptons.clear();

  mithep::MuonTools::EMuonEffectiveAreaTarget eraMu;
  mithep::ElectronTools::EElectronEffectiveAreaTarget eraEle;
  getEATargets(ctrl,eraMu,eraEle);

  const mithep::Vertex * vtx;
  bool goodVertex = setPV( ctrl, vtxArr, vtx );
  if(goodVertex) {
    ret.status.selectionBits.flip(PASS_SKIM2);
  } else {
    if(ctrl.debug) cout << "found bad vertex" << endl;
    ret.status.setStatus(SelectionStatus::FAIL);
    return ret;
  }

  //***********************************************************
  // Lepton Selection 
  //***********************************************************
  vector<SimpleLepton> lepvec;
  vector<const mithep::PFCandidate*> photonsToVeto;


  if( ctrl.debug ) cout << "\tnMuons: " << muonArr->GetEntries() << endl;
  //----------------------------------------------------
  for(int i=0; i<muonArr->GetEntries(); i++) 
    {
      const mithep::Muon *mu = (mithep::Muon*)((*muonArr)[i]);      
      

      SelectionStatus denomSel;
      denomSel |= muonPreSelectionNoD0IP(ctrl,mu,vtx,pfCandidates);
      if( !denomSel.passPre() ) continue;

      SelectionStatus musel;
      musel |= (*MuonPreSelector)(ctrl,mu,vtx,pfCandidates);
      musel |= (*MuonIDSelector)(ctrl,mu,vtx,pfCandidates );
      musel |= (*MuonIsoSelector)(ctrl,mu,vtx,pfCandidates,puEnergyDensity,eraMu,photonsToVeto);

      SimpleLepton tmplep;
      float pt = mu->Pt();
      tmplep.vec.SetPtEtaPhiM(pt, 
                               mu->Eta(), 
                               mu->Phi(),
                               MUON_MASS);
      
      tmplep.type    = 13;
      tmplep.index   = i;
      tmplep.charge  = mu->Charge();
      tmplep.ip3dSig = mu->Ip3dPVSignificance();
      tmplep.is4l    = false;
      tmplep.isEB    = (fabs(mu->Eta()) < 1.479 ? 1 : 0 ); 
      tmplep.isLoose = musel.loose();

      bitset<TRIGGER_BIG_NUMBER> hltMatchBits = fillHLTMatchBits( mu->Eta(), mu->Phi(), hltTable, hltObjArr, fTrigObjs);
      tmplep.isTight = testBits(ctrl,triggerBits,muTriggers,hltMatchBits,muTrigObjs);

      tmplep.scID = 0;
      if(triggerBits.test(kHLT_IsoMu24_eta2p1))        tmplep.scID |= 1;
      if(hltMatchBits.test(kHLT_IsoMu24_eta2p1_MuObj)) tmplep.scID |= 2;
      if(triggerBits.test(kHLT_IsoMu24))               tmplep.scID |= 4;
      if(hltMatchBits.test(kHLT_IsoMu24_MuObj))        tmplep.scID |= 8;

      tmplep.status  = musel;     
      tmplep.fsrRecoveryAttempted = false;
      tmplep.tightCutsApplied = muon2012CutBasedIDTightVersionWithOldIsoThatWorksOn2011(ctrl,mu,vtx,pfCandidates,puEnergyDensity,eraMu);
      tmplep.d0      = mu->HasTrackerTrk() ? mu->TrackerTrk()->D0Corrected(*vtx) : 0;
      tmplep.dz      = mu->HasTrackerTrk() ? mu->TrackerTrk()->DzCorrected(*vtx) : 0;

      lepvec.push_back(tmplep);
      if( ctrl.debug ) cout << endl;
    }

    if( ctrl.debug ) { cout << "\tnElectron: " << electronArr->GetEntries() << endl; }
    // --------------------------------------------------------------------------------
    for(int i=0; i<electronArr->GetEntries(); i++) 
      {
        const mithep::Electron *ele = (mithep::Electron*)((*electronArr)[i]);

        SelectionStatus denomSel;
        denomSel |= electronPreSelectionNoD0IP(ctrl,ele,vtx);
        if( !denomSel.passPre() ) continue;
        
        SelectionStatus elesel;
        elesel |= (*ElectronPreSelector)(ctrl,ele,vtx);
        elesel |= (*ElectronIDSelector)(ctrl,ele,vtx);
        elesel |= (*ElectronIsoSelector)(ctrl,ele,vtx,pfCandidates,puEnergyDensity,eraEle,photonsToVeto);
        
        SimpleLepton tmplep;
        float pt = ele->Pt();
        tmplep.vec.SetPtEtaPhiM( pt,
                                 ele->Eta(),
                                 ele->Phi(),
                                 ELECTRON_MASS );
        
        tmplep.type    = 11;
        tmplep.index   = i;
        tmplep.charge  = ele->Charge();
        tmplep.ip3dSig = ele->Ip3dPVSignificance();
        tmplep.is4l    = false;
        tmplep.isEB    = ele->IsEB();
        // tmplep.scID    = ele->SCluster()->GetUniqueID();

        bitset<TRIGGER_BIG_NUMBER> hltMatchBits = fillHLTMatchBits( ele->Eta(), ele->Phi(), hltTable, hltObjArr, fTrigObjs);
        tmplep.isTight = testBits(ctrl,triggerBits,eleTriggers,hltMatchBits,eleTrigObjs);

        tmplep.isLoose = elesel.loose();
        tmplep.status  = elesel;
        tmplep.fsrRecoveryAttempted = false;
        tmplep.tightCutsApplied = electron2012CutBasedIDMediumVersionThatWorksOn2011(ctrl,ele,vtx,pfCandidates,fConversions,puEnergyDensity,eraEle);
        tmplep.d0      = ele->BestTrk()->D0Corrected(*vtx);
        tmplep.dz      = ele->BestTrk()->DzCorrected(*vtx);

        lepvec.push_back(tmplep);
        if( ctrl.debug ) cout << endl;
      }

    sort( lepvec.begin(), lepvec.end(), SimpleLepton::lep_pt_sort );

    //********************************************************
    // Step 2: Lepton Cleaning
    //********************************************************
    vector<vector<SimpleLepton>::iterator> electrons_to_erase; 
    for (vector<SimpleLepton>::iterator it1=lepvec.begin(); it1 != lepvec.end(); it1++ ) {
      if ( abs(it1->type) != 11 ) continue;
      TVector3 evec = it1->vec.Vect();
      
      bool erase_this_electron=false;
      for (vector<SimpleLepton>::iterator it2=lepvec.begin(); it2 != lepvec.end(); it2++ ) {
        if ( it2 == it1 )                       continue;
        if ( abs(it2->type) != 13 )             continue;
        // if( !(it2->status.looseIDAndPre()) )    continue;
        TVector3 mvec = it2->vec.Vect();
        
        if ( evec.DrEtaPhi(mvec) < 0.05 ) {
          erase_this_electron=true;
          break;
        }
      }
      if( erase_this_electron )
        electrons_to_erase.push_back(it1);
    }
    for( int i=0; i<electrons_to_erase.size(); i++ ) {
      lepvec.erase(electrons_to_erase[i]);
    }

    //********************************************************
    // Step 3: Good Leptons
    //********************************************************
    for (int i=0; i<lepvec.size(); i++ ) {
      if( !(lepvec[i].status.loose()) ) { 
        failingLeptons.push_back(lepvec[i]);
      } else {
        passingLeptons.push_back(lepvec[i]);
      }
    }

    //******************************************************************************
    // W + (OF SS lepton) Selection
    //******************************************************************************
    if(has_ssof_lepton(ctrl)) {
      ret.status.setStatus(SelectionStatus::EVTPASS);
      ret.Z1leptons.push_back(passingLeptons[0]);
      ret.Z1leptons.push_back(passingLeptons[0]);
      ret.Z2leptons.push_back(passingLeptons[0]);
      ret.Z2leptons.push_back(passingLeptons[0]);
    } else {
      ret.status.setStatus(SelectionStatus::FAIL);
    }
    return ret;
}
//----------------------------------------------------------------------------------------
bool has_ssof_lepton(ControlFlags &ctrl)
{
  bool has_ssof=false;
  for(unsigned iw=0; iw<passingLeptons.size(); iw++) {
    SimpleLepton w_lep = passingLeptons[iw];
    //????????????????????????????????????????????????????????????????????????????????????????
    // this is applied in skim (skim also applies ww muon id)
    // if(abs(w_lep.type) == 11) {
    //   if( !(w_lep.tightCutsApplied) )
    //  continue;
    // }
    //????????????????????????????????????????????????????????????????????????????????????????
    for(unsigned ifake=0; ifake<failingLeptons.size(); ifake++) {
      SimpleLepton fake_lep = failingLeptons[ifake];
      if(abs(fake_lep.type) == abs(w_lep.type)) continue;
      if(fake_lep.charge != w_lep.charge) continue;
      has_ssof = true;
    }
    for(unsigned ipass=0; ipass<passingLeptons.size(); ipass++) {
      if(ipass == iw) continue;
      SimpleLepton pass_lep = passingLeptons[ipass];
      if(abs(pass_lep.type) == abs(w_lep.type)) continue;
      if(pass_lep.charge != w_lep.charge) continue;
      has_ssof = true;
    }
  }

  return has_ssof;
}
Revision:	1.16
Committed:	Tue Oct 23 11:24:27 2012 UTC (12 years, 6 months ago) by dkralph
Content type:	text/plain
Branch:	MAIN
CVS Tags:	compiled, HEAD
Changes since 1.15:	+10 -22 lines
Log Message:	* empty log message *
#	Content
1	//***************************************************************************************************
2	//
3	// selection sync'ed with https://twiki.cern.ch/twiki/bin/viewauth/CMS/HiggsZZ4l2012SummerSync
4	//
5	//***************************************************************************************************
6
7	// system headers
8	#include <map>
9	#include <utility>
10
11	// mit headers
12	#include "Vertex.h"
13
14	// 4L stuff
15	#include "SelectionStatus.h"
16	#include "EventData.h"
17	#include "SimpleLepton.h"
18	#include "EfficiencyWeightsInterface.h"
19	#include "ElectronSelection.h"
20	#include "MuonSelection.h"
21	#include "IsolationSelection.h"
22	#include "SelectionEMU.h"
23	#include "ReferenceSelection.h"
24	#include "Selection.h"
25	#include "CommonDefs.h"
26	#include "SelectionDefs.h"
27	#include "FSR.h"
28	#include "SelectionFuncs.h"
29
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	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> *,
57	const mithep::Array<mithep::PileupEnergyDensity> *,
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
81	EventData ret;
82	unsigned evtfail = 0x0;
83	TRandom3 r;
84
85	failingLeptons.clear();
86	passingLeptons.clear();
87
88	mithep::MuonTools::EMuonEffectiveAreaTarget eraMu;
89	mithep::ElectronTools::EElectronEffectiveAreaTarget eraEle;
90	getEATargets(ctrl,eraMu,eraEle);
91
92	const mithep::Vertex * vtx;
93	bool goodVertex = setPV( ctrl, vtxArr, vtx );
94	if(goodVertex) {
95	ret.status.selectionBits.flip(PASS_SKIM2);
96	} else {
97	if(ctrl.debug) cout << "found bad vertex" << endl;
98	ret.status.setStatus(SelectionStatus::FAIL);
99	return ret;
100	}
101
102	//***********************************************************
103	// Lepton Selection
104	//***********************************************************
105	vector<SimpleLepton> lepvec;
106	vector<const mithep::PFCandidate*> photonsToVeto;
107
108
109	if( ctrl.debug ) cout << "\tnMuons: " << muonArr->GetEntries() << endl;
110	//----------------------------------------------------
111	for(int i=0; i<muonArr->GetEntries(); i++)
112	{
113	const mithep::Muon mu = (mithep::Muon)((*muonArr)[i]);
114
115
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	musel \|= (*MuonIsoSelector)(ctrl,mu,vtx,pfCandidates,puEnergyDensity,eraMu,photonsToVeto);
124
125	SimpleLepton tmplep;
126	float pt = mu->Pt();
127	tmplep.vec.SetPtEtaPhiM(pt,
128	mu->Eta(),
129	mu->Phi(),
130	MUON_MASS);
131
132	tmplep.type = 13;
133	tmplep.index = i;
134	tmplep.charge = mu->Charge();
135	tmplep.ip3dSig = mu->Ip3dPVSignificance();
136	tmplep.is4l = false;
137	tmplep.isEB = (fabs(mu->Eta()) < 1.479 ? 1 : 0 );
138	tmplep.isLoose = musel.loose();
139
140	bitset<TRIGGER_BIG_NUMBER> hltMatchBits = fillHLTMatchBits( mu->Eta(), mu->Phi(), hltTable, hltObjArr, fTrigObjs);
141	tmplep.isTight = testBits(ctrl,triggerBits,muTriggers,hltMatchBits,muTrigObjs);
142
143	tmplep.scID = 0;
144	if(triggerBits.test(kHLT_IsoMu24_eta2p1)) tmplep.scID \|= 1;
145	if(hltMatchBits.test(kHLT_IsoMu24_eta2p1_MuObj)) tmplep.scID \|= 2;
146	if(triggerBits.test(kHLT_IsoMu24)) tmplep.scID \|= 4;
147	if(hltMatchBits.test(kHLT_IsoMu24_MuObj)) tmplep.scID \|= 8;
148
149	tmplep.status = musel;
150	tmplep.fsrRecoveryAttempted = false;
151	tmplep.tightCutsApplied = muon2012CutBasedIDTightVersionWithOldIsoThatWorksOn2011(ctrl,mu,vtx,pfCandidates,puEnergyDensity,eraMu);
152	tmplep.d0 = mu->HasTrackerTrk() ? mu->TrackerTrk()->D0Corrected(*vtx) : 0;
153	tmplep.dz = mu->HasTrackerTrk() ? mu->TrackerTrk()->DzCorrected(*vtx) : 0;
154
155	lepvec.push_back(tmplep);
156	if( ctrl.debug ) cout << endl;
157	}
158
159	if( ctrl.debug ) { cout << "\tnElectron: " << electronArr->GetEntries() << endl; }
160	// --------------------------------------------------------------------------------
161	for(int i=0; i<electronArr->GetEntries(); i++)
162	{
163	const mithep::Electron ele = (mithep::Electron)((*electronArr)[i]);
164
165	SelectionStatus denomSel;
166	denomSel \|= electronPreSelectionNoD0IP(ctrl,ele,vtx);
167	if( !denomSel.passPre() ) continue;
168
169	SelectionStatus elesel;
170	elesel \|= (*ElectronPreSelector)(ctrl,ele,vtx);
171	elesel \|= (*ElectronIDSelector)(ctrl,ele,vtx);
172	elesel \|= (*ElectronIsoSelector)(ctrl,ele,vtx,pfCandidates,puEnergyDensity,eraEle,photonsToVeto);
173
174	SimpleLepton tmplep;
175	float pt = ele->Pt();
176	tmplep.vec.SetPtEtaPhiM( pt,
177	ele->Eta(),
178	ele->Phi(),
179	ELECTRON_MASS );
180
181	tmplep.type = 11;
182	tmplep.index = i;
183	tmplep.charge = ele->Charge();
184	tmplep.ip3dSig = ele->Ip3dPVSignificance();
185	tmplep.is4l = false;
186	tmplep.isEB = ele->IsEB();
187	// tmplep.scID = ele->SCluster()->GetUniqueID();
188
189	bitset<TRIGGER_BIG_NUMBER> hltMatchBits = fillHLTMatchBits( ele->Eta(), ele->Phi(), hltTable, hltObjArr, fTrigObjs);
190	tmplep.isTight = testBits(ctrl,triggerBits,eleTriggers,hltMatchBits,eleTrigObjs);
191
192	tmplep.isLoose = elesel.loose();
193	tmplep.status = elesel;
194	tmplep.fsrRecoveryAttempted = false;
195	tmplep.tightCutsApplied = electron2012CutBasedIDMediumVersionThatWorksOn2011(ctrl,ele,vtx,pfCandidates,fConversions,puEnergyDensity,eraEle);
196	tmplep.d0 = ele->BestTrk()->D0Corrected(*vtx);
197	tmplep.dz = ele->BestTrk()->DzCorrected(*vtx);
198
199	lepvec.push_back(tmplep);
200	if( ctrl.debug ) cout << endl;
201	}
202
203	sort( lepvec.begin(), lepvec.end(), SimpleLepton::lep_pt_sort );
204
205	//********************************************************
206	// Step 2: Lepton Cleaning
207	//********************************************************
208	vector<vector<SimpleLepton>::iterator> electrons_to_erase;
209	for (vector<SimpleLepton>::iterator it1=lepvec.begin(); it1 != lepvec.end(); it1++ ) {
210	if ( abs(it1->type) != 11 ) continue;
211	TVector3 evec = it1->vec.Vect();
212
213	bool erase_this_electron=false;
214	for (vector<SimpleLepton>::iterator it2=lepvec.begin(); it2 != lepvec.end(); it2++ ) {
215	if ( it2 == it1 ) continue;
216	if ( abs(it2->type) != 13 ) continue;
217	// if( !(it2->status.looseIDAndPre()) ) continue;
218	TVector3 mvec = it2->vec.Vect();
219
220	if ( evec.DrEtaPhi(mvec) < 0.05 ) {
221	erase_this_electron=true;
222	break;
223	}
224	}
225	if( erase_this_electron )
226	electrons_to_erase.push_back(it1);
227	}
228	for( int i=0; i<electrons_to_erase.size(); i++ ) {
229	lepvec.erase(electrons_to_erase[i]);
230	}
231
232	//********************************************************
233	// Step 3: Good Leptons
234	//********************************************************
235	for (int i=0; i<lepvec.size(); i++ ) {
236	if( !(lepvec[i].status.loose()) ) {
237	failingLeptons.push_back(lepvec[i]);
238	} else {
239	passingLeptons.push_back(lepvec[i]);
240	}
241	}
242
243	//******************************************************************************
244	// W + (OF SS lepton) Selection
245	//******************************************************************************
246	if(has_ssof_lepton(ctrl)) {
247	ret.status.setStatus(SelectionStatus::EVTPASS);
248	ret.Z1leptons.push_back(passingLeptons[0]);
249	ret.Z1leptons.push_back(passingLeptons[0]);
250	ret.Z2leptons.push_back(passingLeptons[0]);
251	ret.Z2leptons.push_back(passingLeptons[0]);
252	} else {
253	ret.status.setStatus(SelectionStatus::FAIL);
254	}
255	return ret;
256	}
257	//----------------------------------------------------------------------------------------
258	bool has_ssof_lepton(ControlFlags &ctrl)
259	{
260	bool has_ssof=false;
261	for(unsigned iw=0; iw<passingLeptons.size(); iw++) {
262	SimpleLepton w_lep = passingLeptons[iw];
263	//????????????????????????????????????????????????????????????????????????????????????????
264	// this is applied in skim (skim also applies ww muon id)
265	// if(abs(w_lep.type) == 11) {
266	// if( !(w_lep.tightCutsApplied) )
267	// continue;
268	// }
269	//????????????????????????????????????????????????????????????????????????????????????????
270	for(unsigned ifake=0; ifake<failingLeptons.size(); ifake++) {
271	SimpleLepton fake_lep = failingLeptons[ifake];
272	if(abs(fake_lep.type) == abs(w_lep.type)) continue;
273	if(fake_lep.charge != w_lep.charge) continue;
274	has_ssof = true;
275	}
276	for(unsigned ipass=0; ipass<passingLeptons.size(); ipass++) {
277	if(ipass == iw) continue;
278	SimpleLepton pass_lep = passingLeptons[ipass];
279	if(abs(pass_lep.type) == abs(w_lep.type)) continue;
280	if(pass_lep.charge != w_lep.charge) continue;
281	has_ssof = true;
282	}
283	}
284
285	return has_ssof;
286	}