Go to the documentation of this file.00001 #include "TopQuarkAnalysis/TopPairBSM/interface/BoostedTopProducer.h"
00002 #include "PhysicsTools/CandUtils/interface/AddFourMomenta.h"
00003
00004 #include <string>
00005 #include <sstream>
00006 #include <iostream>
00007
00008 using std::string;
00009 using std::cout;
00010 using std::endl;
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00021
00022
00023 BoostedTopProducer::BoostedTopProducer(const edm::ParameterSet& iConfig) :
00024 eleLabel_ (iConfig.getParameter<edm::InputTag> ("electronLabel")),
00025 muoLabel_ (iConfig.getParameter<edm::InputTag> ("muonLabel")),
00026 jetLabel_ (iConfig.getParameter<edm::InputTag> ("jetLabel")),
00027 metLabel_ (iConfig.getParameter<edm::InputTag> ("metLabel")),
00028 solLabel_ (iConfig.getParameter<edm::InputTag> ("solLabel")),
00029 caloIsoCut_ (iConfig.getParameter<double> ("caloIsoCut") ),
00030 mTop_ (iConfig.getParameter<double> ("mTop") )
00031 {
00032
00033 produces<std::vector<reco::CompositeCandidate> > ();
00034 }
00035
00036
00037 BoostedTopProducer::~BoostedTopProducer()
00038 {
00039 }
00040
00041
00042
00043
00044
00045
00046
00047 void
00048 BoostedTopProducer::produce(edm::Event& iEvent, const edm::EventSetup& iSetup)
00049 {
00050
00051 using namespace edm;
00052
00053 bool debug = false;
00054
00055
00056
00057
00058 edm::Handle<std::vector<pat::Muon> > muonHandle;
00059 iEvent.getByLabel(muoLabel_,muonHandle);
00060 std::vector<pat::Muon> const & muons = *muonHandle;
00061
00062 edm::Handle<std::vector<pat::Jet> > jetHandle;
00063 iEvent.getByLabel(jetLabel_,jetHandle);
00064 std::vector<pat::Jet> const & jets = *jetHandle;
00065
00066 edm::Handle<std::vector<pat::Electron> > electronHandle;
00067 iEvent.getByLabel(eleLabel_,electronHandle);
00068 std::vector<pat::Electron> const & electrons = *electronHandle;
00069
00070 edm::Handle<std::vector<pat::MET> > metHandle;
00071 iEvent.getByLabel(metLabel_,metHandle);
00072 std::vector<pat::MET> const & mets = *metHandle;
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00090
00091
00092 bool preselection = true;
00093
00094
00095
00096 double maxWLeptonPt = -1;
00097 reco::Candidate const * Wlepton = 0;
00098
00099
00100
00101
00102 std::vector<pat::Muon>::const_iterator isolatedMuon = muons.end();
00103 std::vector<pat::Muon>::const_iterator muon = muons.end();
00104 bool nIsolatedMuons = 0;
00105 std::vector<pat::Muon>::const_iterator muonIt = muons.begin(),
00106 muonEnd = muons.end();
00107 for (; muonIt != muonEnd; ++muonIt ) {
00108
00109
00110 double pt = muonIt->pt();
00111 if ( pt > maxWLeptonPt ) {
00112 maxWLeptonPt = pt;
00113 muon = muonIt;
00114 }
00115
00116
00117 double caloIso = muonIt->caloIso();
00118 if ( caloIso >= 0 && caloIso < caloIsoCut_ ) {
00119 nIsolatedMuons++;
00120 isolatedMuon = muonIt;
00121 }
00122 }
00123
00124
00125
00126
00127 std::vector<pat::Electron>::const_iterator isolatedElectron = electrons.end();
00128 std::vector<pat::Electron>::const_iterator electron = electrons.end();
00129 bool nIsolatedElectrons = 0;
00130 std::vector<pat::Electron>::const_iterator electronIt = electrons.begin(),
00131 electronEnd = electrons.end();
00132 for (; electronIt != electronEnd; ++electronIt ) {
00133
00134
00135 double pt = electronIt->pt();
00136 if ( pt > maxWLeptonPt ) {
00137 maxWLeptonPt = pt;
00138 electron = electronIt;
00139 }
00140
00141
00142 double caloIso = electronIt->caloIso();
00143 if ( caloIso >= 0 && caloIso < caloIsoCut_ ) {
00144 nIsolatedElectrons++;
00145 isolatedElectron = electronIt;
00146 }
00147 }
00148
00149
00150
00151
00152
00153
00154
00155 bool isMuon = true;
00156 if ( isolatedMuon != muonEnd ) { muon = isolatedMuon; isMuon = true; }
00157 else if ( isolatedElectron != electronEnd ) { electron = isolatedElectron; isMuon = false; }
00158 else {
00159
00160 if ( muon != muonEnd && electron == electronEnd ) isMuon = true;
00161 else if ( muon == muonEnd && electron != electronEnd ) isMuon = false;
00162 else if ( muon != muonEnd && electron != electronEnd ) {
00163 isMuon = muon->pt() > electron->pt();
00164 }
00165 }
00166
00167
00168
00169
00170 int nIsolatedLeptons = nIsolatedMuons + nIsolatedElectrons;
00171 if ( nIsolatedLeptons > 1 ) {
00172 preselection = false;
00173 }
00174
00175
00176
00177
00178 if ( muon == muonEnd && electron == electronEnd ) {
00179 preselection = false;
00180 }
00181
00182
00183
00184
00185 if ( jets.size() < 2 ||
00186 mets.size() == 0 ) {
00187 preselection = false;
00188 }
00189
00190 bool write = false;
00191
00192
00193
00194
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00210
00211
00212
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00216
00217
00218
00219
00220 reco::CompositeCandidate ttbar("ttbar");
00221 AddFourMomenta addFourMomenta;
00222
00223
00224
00225 if ( preselection ) {
00226
00227 if ( debug ) cout << "Preselection is satisfied" << endl;
00228
00229 if ( debug ) cout << "Jets.size() = " << jets.size() << endl;
00230
00231
00232 pat::MET neutrino( mets[0] );
00233
00234
00235
00236
00237
00238 if ( jets.size() >= 4 ) {
00239
00240 if ( debug ) cout << "Getting ttbar semileptonic solution" << endl;
00241
00242
00243 edm::Handle< TtSemiLeptonicEvent > eSol;
00244 iEvent.getByLabel(solLabel_, eSol);
00245
00246
00247 if ( eSol.isValid() ) {
00248 if ( debug ) cout << "Got a nonzero size solution vector" << endl;
00249
00250
00251 ttbar = eSol->eventHypo(TtSemiLeptonicEvent::kMVADisc);
00252 write = true;
00253 }
00254
00255 else {
00256 edm::LogWarning("DataNotFound") << "BoostedTopProducer: Cannot find TtSemiEvtSolution\n";
00257 }
00258 }
00259
00260
00261
00262 else if ( jets.size() == 2 || jets.size() == 3 ) {
00263
00264
00265
00266
00267 reco::CompositeCandidate lepW("lepW");
00268
00269 if ( isMuon ) {
00270 if ( debug ) cout << "Adding muon as daughter" << endl;
00271 lepW.addDaughter( *muon, "muon" );
00272 } else {
00273 if ( debug ) cout << "Adding electron as daughter" << endl;
00274 lepW.addDaughter( *electron, "electron" );
00275 }
00276 if ( debug ) cout << "Adding neutrino as daughter" << endl;
00277 lepW.addDaughter ( neutrino, "neutrino");
00278 addFourMomenta.set( lepW );
00279
00280 bool nuzHasComplex = false;
00281 METzCalculator zcalculator;
00282
00283 zcalculator.SetMET( neutrino );
00284 if ( isMuon )
00285 zcalculator.SetMuon( *muon );
00286 else
00287 zcalculator.SetMuon( *electron );
00288 double neutrinoPz = zcalculator.Calculate(1);
00289 if (zcalculator.IsComplex()) nuzHasComplex = true;
00290
00291 neutrino.setPz( neutrinoPz );
00292
00293 if ( debug ) cout << "Set neutrino pz to " << neutrinoPz << endl;
00294
00295
00296
00297
00298
00299 reco::CompositeCandidate hadt("hadt");
00300 reco::CompositeCandidate lept("lept");
00301 if ( debug ) cout << "Adding lepW as daughter" << endl;
00302 lept.addDaughter( lepW, "lepW" );
00303
00304 std::string hadName("hadJet");
00305 std::string lepName("lepJet");
00306
00307
00308 TLorentzVector p4_W (lepW.px(), lepW.py(), lepW.pz(), lepW.energy() );
00309
00310
00311 std::vector<pat::Jet>::const_iterator jetit = jets.begin(),
00312 jetend = jets.end();
00313 unsigned long ii = 1;
00314 for ( ; jetit != jetend; ++jetit, ++ii ) {
00315
00316 TLorentzVector p4_jet (jetit->px(), jetit->py(), jetit->pz(), jetit->energy() );
00317
00318
00319 double psi = Psi( p4_W, p4_jet, mTop_ );
00320
00321
00322 if ( psi < TMath::Pi() ) {
00323
00324 std::stringstream s;
00325 s << lepName << ii;
00326 if ( debug ) cout << "Adding daughter " << s.str() << endl;
00327 lept.addDaughter( *jetit, s.str() );
00328 }
00329
00330 if ( psi > TMath::Pi() ) {
00331
00332
00333
00334
00335 std::stringstream s;
00336 s << hadName << ii;
00337 if ( debug ) cout << "Adding daughter " << s.str() << endl;
00338 hadt.addDaughter( *jetit, s.str() );
00339
00340 }
00341 }
00342
00343 addFourMomenta.set( lept );
00344 addFourMomenta.set( hadt );
00345
00346 bool lepWHasJet = lept.numberOfDaughters() >= 2;
00347 bool hadWHasJet = hadt.numberOfDaughters() >= 1;
00348 if ( lepWHasJet && hadWHasJet ) {
00349 if ( debug ) cout << "Adding daughters lept and hadt" << endl;
00350 ttbar.addDaughter( lept, "lept");
00351 ttbar.addDaughter( hadt, "hadt");
00352 addFourMomenta.set( ttbar );
00353 write = true;
00354 }
00355
00356
00357 }
00358
00359 }
00360
00361
00362 std::vector<reco::CompositeCandidate> ttbarList;
00363 if ( write ) {
00364 if ( debug ) cout << "Writing out" << endl;
00365 ttbarList.push_back( ttbar );
00366 }
00367 std::auto_ptr<std::vector<reco::CompositeCandidate> > pTtbar ( new std::vector<reco::CompositeCandidate>(ttbarList) );
00368 iEvent.put( pTtbar );
00369
00370
00371 }
00372
00373
00374 void
00375 BoostedTopProducer::beginJob(const edm::EventSetup&)
00376 {
00377 }
00378
00379
00380 void
00381 BoostedTopProducer::endJob() {
00382 }
00383
00384 double
00385 BoostedTopProducer::Psi(TLorentzVector p1, TLorentzVector p2, double mass) {
00386
00387 TLorentzVector ptot = p1 + p2;
00388 Double_t theta1 = TMath::ACos( (p1.Vect().Dot(ptot.Vect()))/(p1.P()*ptot.P()) );
00389 Double_t theta2 = TMath::ACos( (p2.Vect().Dot(ptot.Vect()))/(p2.P()*ptot.P()) );
00390
00391
00392 double th1th2 = theta1 + theta2;
00393 double psi = (p1.P()+p2.P())*TMath::Abs(TMath::Sin(th1th2))/(2.* mass );
00394 if ( th1th2 > (TMath::Pi()/2) )
00395 psi = (p1.P()+p2.P())*( 1. + TMath::Abs(TMath::Cos(th1th2)))/(2.* mass );
00396
00397 return psi;
00398 }
00399
00400
00401 DEFINE_FWK_MODULE(BoostedTopProducer);