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TtFullLepKinSolutionProducer Class Reference

#include <TtFullLepKinSolutionProducer.h>

Inheritance diagram for TtFullLepKinSolutionProducer:
edm::EDProducer edm::ProducerBase edm::EDConsumerBase edm::ProductRegistryHelper

Classes

struct  Compare
 

Public Member Functions

virtual void beginJob ()
 
virtual void endJob ()
 
virtual void produce (edm::Event &evt, const edm::EventSetup &iSetup)
 
 TtFullLepKinSolutionProducer (const edm::ParameterSet &iConfig)
 
 ~TtFullLepKinSolutionProducer ()
 
- Public Member Functions inherited from edm::EDProducer
 EDProducer ()
 
ModuleDescription const & moduleDescription () const
 
virtual ~EDProducer ()
 
- Public Member Functions inherited from edm::ProducerBase
void callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
 
 ProducerBase ()
 
void registerProducts (ProducerBase *, ProductRegistry *, ModuleDescription const &)
 
std::function< void(BranchDescription
const &)> 
registrationCallback () const
 used by the fwk to register list of products More...
 
virtual ~ProducerBase ()
 
- Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfoconsumesInfo () const
 
 EDConsumerBase ()
 
ProductHolderIndexAndSkipBit indexFrom (EDGetToken, BranchType, TypeID const &) const
 
void itemsMayGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const
 
void itemsToGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const
 
std::vector
< ProductHolderIndexAndSkipBit >
const & 
itemsToGetFromEvent () const
 
void labelsForToken (EDGetToken iToken, Labels &oLabels) const
 
void modulesDependentUpon (std::string const &iProcessName, std::string const &iModuleLabel, bool iPrint, std::vector< char const * > &oModuleLabels) const
 
void modulesWhoseProductsAreConsumed (std::vector< ModuleDescription const * > &modules, ProductRegistry const &preg, std::map< std::string, ModuleDescription const * > const &labelsToDesc, std::string const &processName) const
 
bool registeredToConsume (ProductHolderIndex, bool, BranchType) const
 
bool registeredToConsumeMany (TypeID const &, BranchType) const
 
void updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)
 
virtual ~EDConsumerBase ()
 

Private Member Functions

bool HasPositiveCharge (const reco::Candidate *) const
 
bool LepDiffCharge (const reco::Candidate *, const reco::Candidate *) const
 
bool PTComp (const reco::Candidate *, const reco::Candidate *) const
 

Private Attributes

bool eeChannel_
 
edm::EDGetTokenT< std::vector
< pat::Electron > > 
electronsToken_
 
bool emuChannel_
 
std::string jetCorrLevel_
 
edm::EDGetTokenT< std::vector
< pat::Jet > > 
jetsToken_
 
int maxNComb_
 
int maxNJets_
 
edm::EDGetTokenT< std::vector
< pat::MET > > 
metsToken_
 
bool mumuChannel_
 
edm::EDGetTokenT< std::vector
< pat::Muon > > 
muonsToken_
 
std::vector< double > nupars_
 
bool searchWrongCharge_
 
TtFullLepKinSolversolver
 
double tmassbegin_
 
double tmassend_
 
double tmassstep_
 

Additional Inherited Members

- Public Types inherited from edm::EDProducer
typedef EDProducer ModuleType
 
- Public Types inherited from edm::ProducerBase
typedef
ProductRegistryHelper::TypeLabelList 
TypeLabelList
 
- Public Types inherited from edm::EDConsumerBase
typedef ProductLabels Labels
 
- Static Public Member Functions inherited from edm::EDProducer
static const std::string & baseType ()
 
static void fillDescriptions (ConfigurationDescriptions &descriptions)
 
static void prevalidate (ConfigurationDescriptions &descriptions)
 
- Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType > consumes (edm::InputTag const &tag)
 
EDGetToken consumes (const TypeToGet &id, edm::InputTag const &tag)
 
template<BranchType B>
EDGetToken consumes (TypeToGet const &id, edm::InputTag const &tag)
 
ConsumesCollector consumesCollector ()
 Use a ConsumesCollector to gather consumes information from helper functions. More...
 
template<typename ProductType , BranchType B = InEvent>
void consumesMany ()
 
void consumesMany (const TypeToGet &id)
 
template<BranchType B>
void consumesMany (const TypeToGet &id)
 
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType > mayConsume (edm::InputTag const &tag)
 
EDGetToken mayConsume (const TypeToGet &id, edm::InputTag const &tag)
 
template<BranchType B>
EDGetToken mayConsume (const TypeToGet &id, edm::InputTag const &tag)
 

Detailed Description

Definition at line 20 of file TtFullLepKinSolutionProducer.h.

Constructor & Destructor Documentation

TtFullLepKinSolutionProducer::TtFullLepKinSolutionProducer ( const edm::ParameterSet iConfig)
explicit

Definition at line 73 of file TtFullLepKinSolutionProducer.h.

References eeChannel_, electronsToken_, emuChannel_, edm::ParameterSet::getParameter(), jetCorrLevel_, jetsToken_, maxNComb_, maxNJets_, metsToken_, mumuChannel_, muonsToken_, nupars_, searchWrongCharge_, AlCaHLTBitMon_QueryRunRegistry::string, tmassbegin_, tmassend_, and tmassstep_.

74 {
75  // configurables
76  jetsToken_ = consumes<std::vector<pat::Jet> >(iConfig.getParameter<edm::InputTag>("jets"));
77  electronsToken_ = consumes<std::vector<pat::Electron> >(iConfig.getParameter<edm::InputTag>("electrons"));
78  muonsToken_ = consumes<std::vector<pat::Muon> >(iConfig.getParameter<edm::InputTag>("muons"));
79  metsToken_ = consumes<std::vector<pat::MET> >(iConfig.getParameter<edm::InputTag>("mets"));
80  jetCorrLevel_= iConfig.getParameter<std::string> ("jetCorrectionLevel");
81  maxNJets_ = iConfig.getParameter<int> ("maxNJets");
82  maxNComb_ = iConfig.getParameter<int> ("maxNComb");
83  eeChannel_ = iConfig.getParameter<bool>("eeChannel");
84  emuChannel_ = iConfig.getParameter<bool>("emuChannel");
85  mumuChannel_ = iConfig.getParameter<bool>("mumuChannel");
86  searchWrongCharge_ = iConfig.getParameter<bool> ("searchWrongCharge");
87  tmassbegin_ = iConfig.getParameter<double>("tmassbegin");
88  tmassend_ = iConfig.getParameter<double>("tmassend");
89  tmassstep_ = iConfig.getParameter<double>("tmassstep");
90  nupars_ = iConfig.getParameter<std::vector<double> >("neutrino_parameters");
91 
92  // define what will be produced
93  produces<std::vector<std::vector<int> > > (); // vector of the particle inices (b, bbar, e1, e2, mu1, mu2)
94  produces<std::vector<reco::LeafCandidate> >("fullLepNeutrinos");
95  produces<std::vector<reco::LeafCandidate> >("fullLepNeutrinoBars");
96  produces<std::vector<double> >("solWeight"); //weight for a specific kin solution
97  produces<bool>("isWrongCharge"); //true if leptons have the same charge
98 }
T getParameter(std::string const &) const
edm::EDGetTokenT< std::vector< pat::Muon > > muonsToken_
edm::EDGetTokenT< std::vector< pat::MET > > metsToken_
edm::EDGetTokenT< std::vector< pat::Jet > > jetsToken_
edm::EDGetTokenT< std::vector< pat::Electron > > electronsToken_
TtFullLepKinSolutionProducer::~TtFullLepKinSolutionProducer ( )

Definition at line 100 of file TtFullLepKinSolutionProducer.h.

101 {
102 }

Member Function Documentation

void TtFullLepKinSolutionProducer::beginJob ( void  )
virtual
void TtFullLepKinSolutionProducer::endJob ( void  )
virtual

Reimplemented from edm::EDProducer.

Definition at line 109 of file TtFullLepKinSolutionProducer.h.

References solver.

110 {
111  delete solver;
112 }
bool TtFullLepKinSolutionProducer::HasPositiveCharge ( const reco::Candidate l) const
inlineprivate

Definition at line 68 of file TtFullLepKinSolutionProducer.h.

References reco::Candidate::charge().

Referenced by produce().

69 {
70  return (l->charge() > 0);
71 }
virtual int charge() const =0
electric charge
bool TtFullLepKinSolutionProducer::LepDiffCharge ( const reco::Candidate l1,
const reco::Candidate l2 
) const
inlineprivate

Definition at line 63 of file TtFullLepKinSolutionProducer.h.

References reco::Candidate::charge().

Referenced by produce().

64 {
65  return (l1->charge() != l2->charge());
66 }
virtual int charge() const =0
electric charge
void TtFullLepKinSolutionProducer::produce ( edm::Event evt,
const edm::EventSetup iSetup 
)
virtual

Implements edm::EDProducer.

Definition at line 114 of file TtFullLepKinSolutionProducer.h.

References eeChannel_, HI_PhotonSkim_cff::electrons, electronsToken_, emuChannel_, relval_parameters_module::energy, plotBeamSpotDB::first, edm::Event::getByToken(), TtFullLepKinSolver::getNuSolution(), HasPositiveCharge(), i, cuy::ib, jetCorrLevel_, fwrapper::jets, jetsToken_, LepDiffCharge(), maxNComb_, maxNJets_, metsToken_, mumuChannel_, patZpeak::muons, muonsToken_, TtFullLepKinSolver::NeutrinoSolution::neutrino, TtFullLepKinSolver::NeutrinoSolution::neutrinoBar, PTComp(), edm::Event::put(), searchWrongCharge_, edm::second(), TtFullLepKinSolver::SetConstraints(), reco::Candidate::size, solver, and TtFullLepKinSolver::NeutrinoSolution::weight.

115 {
116  //create vectors fo runsorted output
117  std::vector<std::vector<int> > idcsV;
118  std::vector<reco::LeafCandidate> nusV;
119  std::vector<reco::LeafCandidate> nuBarsV;
120  std::vector<std::pair<double, int> > weightsV;
121 
122  //create pointer for products
123  std::auto_ptr<std::vector<std::vector<int> > > pIdcs(new std::vector<std::vector<int> >);
124  std::auto_ptr<std::vector<reco::LeafCandidate> > pNus(new std::vector<reco::LeafCandidate>);
125  std::auto_ptr<std::vector<reco::LeafCandidate> > pNuBars(new std::vector<reco::LeafCandidate>);
126  std::auto_ptr<std::vector<double> > pWeight(new std::vector<double>);
127  std::auto_ptr<bool> pWrongCharge(new bool);
128 
130  evt.getByToken(jetsToken_, jets);
132  evt.getByToken(electronsToken_, electrons);
134  evt.getByToken(muonsToken_, muons);
136  evt.getByToken(metsToken_, mets);
137 
138  int selMuon1 = -1, selMuon2 = -1;
139  int selElectron1 = -1, selElectron2 = -1;
140  bool ee = false;
141  bool emu = false;
142  bool mumu = false;
143  bool isWrongCharge = false;
144  bool jetsFound = false;
145  bool METFound = false;
146  bool electronsFound = false;
147  bool electronMuonFound = false;
148  bool muonsFound = false;
149 
150  //select Jets (TopJet vector is sorted on ET)
151  if(jets->size()>=2) { jetsFound = true; }
152 
153  //select MET (TopMET vector is sorted on ET)
154  if(mets->size()>=1) { METFound = true; }
155 
156  // If we have electrons and muons available,
157  // build a solutions with electrons and muons.
158  if(muons->size() + electrons->size() >=2) {
159  // select leptons
160  if(electrons->size() == 0) mumu = true;
161  else if(muons->size() == 0) ee = true;
162  else if(electrons->size() == 1) {
163  if(muons->size() == 1) emu = true;
164  else if(PTComp(&(*electrons)[0], &(*muons)[1])) emu = true;
165  else mumu = true;
166  }
167  else if(electrons->size() > 1) {
168  if(PTComp(&(*electrons)[1], &(*muons)[0])) ee = true;
169  else if(muons->size() == 1) emu = true;
170  else if(PTComp(&(*electrons)[0], &(*muons)[1])) emu = true;
171  else mumu = true;
172  }
173  if(ee && eeChannel_) {
174  if(LepDiffCharge(&(*electrons)[0], &(*electrons)[1]) || searchWrongCharge_) {
175  if(HasPositiveCharge(&(*electrons)[0]) || !LepDiffCharge(&(*electrons)[0], &(*electrons)[1])) {
176  selElectron1 = 0;
177  selElectron2 = 1;
178  }
179  else{
180  selElectron1 = 1;
181  selElectron2 = 0;
182  }
183  electronsFound = true;
184  if(!LepDiffCharge(&(*electrons)[0], &(*electrons)[1])) isWrongCharge = true;
185  }
186  }
187  else if(emu && emuChannel_) {
188  if(LepDiffCharge(&(*electrons)[0], &(*muons)[0]) || searchWrongCharge_) {
189  selElectron1 = 0;
190  selMuon1 = 0;
191  electronMuonFound = true;
192  if(!LepDiffCharge(&(*electrons)[0], &(*muons)[0])) isWrongCharge = true;
193  }
194  }
195  else if(mumu && mumuChannel_) {
196  if(LepDiffCharge(&(*muons)[0], &(*muons)[1]) || searchWrongCharge_) {
197  if(HasPositiveCharge(&(*muons)[0]) || !LepDiffCharge(&(*muons)[0], &(*muons)[1])) {
198  selMuon1 = 0;
199  selMuon2 = 1;
200  }
201  else {
202  selMuon1 = 1;
203  selMuon2 = 0;
204  }
205  muonsFound = true;
206  if(!LepDiffCharge(&(*muons)[0], &(*muons)[1])) isWrongCharge = true;
207  }
208  }
209  }
210 
211  *pWrongCharge = isWrongCharge;
212 
213  // Check that the above work makes sense
214  if(int(ee)+int(emu)+int(mumu)>1) {
215  edm::LogWarning("TtFullLepKinSolutionProducer") << "Lepton selection criteria uncorrectly defined";
216  }
217 
218  // Check if the leptons for the required Channel are available
219  bool correctLeptons = ((electronsFound && eeChannel_) || (muonsFound && mumuChannel_) || (electronMuonFound && emuChannel_) );
220  // Check for equally charged leptons if for wrong charge combinations is searched
221  if(isWrongCharge) correctLeptons *= searchWrongCharge_;
222 
223  if(correctLeptons && METFound && jetsFound) {
224 
225  // run over all jets if input parameter maxNJets is -1 or
226  // adapt maxNJets if number of present jets is smaller than selected
227  // number of jets
228  int stop=maxNJets_;
229  if(jets->size()<static_cast<unsigned int>(stop) || stop<0) stop=jets->size();
230 
231  // counter for number of found kinematic solutions
232  int nSol=0;
233 
234  // consider all permutations
235  for (int ib = 0; ib<stop; ib++) {
236  // second loop of the permutations
237  for (int ibbar = 0; ibbar<stop; ibbar++) {
238  // avoid the diagonal: b and bbar must be distinct jets
239  if(ib==ibbar) continue;
240 
241  std::vector<int> idcs;
242 
243  // push back the indices of the jets
244  idcs.push_back(ib);
245  idcs.push_back(ibbar);
246 
247  TLorentzVector LV_l1;
248  TLorentzVector LV_l2;
249  TLorentzVector LV_b = TLorentzVector((*jets)[ib].correctedJet(jetCorrLevel_, "bottom").px(),
250  (*jets)[ib].correctedJet(jetCorrLevel_, "bottom").py(),
251  (*jets)[ib].correctedJet(jetCorrLevel_, "bottom").pz(),
252  (*jets)[ib].correctedJet(jetCorrLevel_, "bottom").energy() );
253  TLorentzVector LV_bbar = TLorentzVector((*jets)[ibbar].correctedJet(jetCorrLevel_, "bottom").px(),
254  (*jets)[ibbar].correctedJet(jetCorrLevel_, "bottom").py(),
255  (*jets)[ibbar].correctedJet(jetCorrLevel_, "bottom").pz(),
256  (*jets)[ibbar].correctedJet(jetCorrLevel_, "bottom").energy());
257 
258  double xconstraint = 0, yconstraint = 0;
259 
260  if (ee) {
261  idcs.push_back(selElectron1);
262  LV_l1.SetXYZT((*electrons)[selElectron1].px(),
263  (*electrons)[selElectron1].py(),
264  (*electrons)[selElectron1].pz(),
265  (*electrons)[selElectron1].energy());
266  xconstraint += (*electrons)[selElectron1].px();
267  yconstraint += (*electrons)[selElectron1].py();
268 
269  idcs.push_back(selElectron2);
270  LV_l2.SetXYZT((*electrons)[selElectron2].px(),
271  (*electrons)[selElectron2].py(),
272  (*electrons)[selElectron2].pz(),
273  (*electrons)[selElectron2].energy());
274  xconstraint += (*electrons)[selElectron2].px();
275  yconstraint += (*electrons)[selElectron2].py();
276 
277  idcs.push_back(-1);
278  idcs.push_back(-1);
279  }
280 
281  else if (emu) {
282  if(!isWrongCharge){
283  if(HasPositiveCharge(&(*electrons)[selElectron1])){
284  idcs.push_back(selElectron1);
285  LV_l1.SetXYZT((*electrons)[selElectron1].px(),
286  (*electrons)[selElectron1].py(),
287  (*electrons)[selElectron1].pz(),
288  (*electrons)[selElectron1].energy());
289  xconstraint += (*electrons)[selElectron1].px();
290  yconstraint += (*electrons)[selElectron1].py();
291 
292  idcs.push_back(-1);
293  idcs.push_back(-1);
294 
295  idcs.push_back(selMuon1);
296  LV_l2.SetXYZT((*muons)[selMuon1].px(),
297  (*muons)[selMuon1].py(),
298  (*muons)[selMuon1].pz(),
299  (*muons)[selMuon1].energy());
300  xconstraint += (*muons)[selMuon1].px();
301  yconstraint += (*muons)[selMuon1].py();
302  }
303  else{
304  idcs.push_back(-1);
305 
306  idcs.push_back(selMuon1);
307  LV_l1.SetXYZT((*muons)[selMuon1].px(),
308  (*muons)[selMuon1].py(),
309  (*muons)[selMuon1].pz(),
310  (*muons)[selMuon1].energy());
311  xconstraint += (*muons)[selMuon1].px();
312  yconstraint += (*muons)[selMuon1].py();
313 
314  idcs.push_back(selElectron1);
315  LV_l2.SetXYZT((*electrons)[selElectron1].px(),
316  (*electrons)[selElectron1].py(),
317  (*electrons)[selElectron1].pz(),
318  (*electrons)[selElectron1].energy());
319  xconstraint += (*electrons)[selElectron1].px();
320  yconstraint += (*electrons)[selElectron1].py();
321 
322  idcs.push_back(-1);
323  }
324  }
325  else{ // means "if wrong charge"
326  if(HasPositiveCharge(&(*electrons)[selElectron1])){ // both leps positive
327  idcs.push_back(selElectron1);
328  LV_l1.SetXYZT((*electrons)[selElectron1].px(),
329  (*electrons)[selElectron1].py(),
330  (*electrons)[selElectron1].pz(),
331  (*electrons)[selElectron1].energy());
332  xconstraint += (*electrons)[selElectron1].px();
333  yconstraint += (*electrons)[selElectron1].py();
334 
335  idcs.push_back(-1);
336 
337  idcs.push_back(selMuon1);
338  LV_l2.SetXYZT((*muons)[selMuon1].px(),
339  (*muons)[selMuon1].py(),
340  (*muons)[selMuon1].pz(),
341  (*muons)[selMuon1].energy());
342  xconstraint += (*muons)[selMuon1].px();
343  yconstraint += (*muons)[selMuon1].py();
344 
345  idcs.push_back(-1);
346  }
347  else{ // both leps negative
348  idcs.push_back(-1);
349 
350  idcs.push_back(selElectron1);
351  LV_l2.SetXYZT((*electrons)[selElectron1].px(),
352  (*electrons)[selElectron1].py(),
353  (*electrons)[selElectron1].pz(),
354  (*electrons)[selElectron1].energy());
355  xconstraint += (*electrons)[selElectron1].px();
356  yconstraint += (*electrons)[selElectron1].py();
357 
358  idcs.push_back(-1);
359 
360  idcs.push_back(selMuon1);
361  LV_l1.SetXYZT((*muons)[selMuon1].px(),
362  (*muons)[selMuon1].py(),
363  (*muons)[selMuon1].pz(),
364  (*muons)[selMuon1].energy());
365  xconstraint += (*muons)[selMuon1].px();
366  yconstraint += (*muons)[selMuon1].py();
367  }
368  }
369  }
370 
371  else if (mumu) {
372  idcs.push_back(-1);
373  idcs.push_back(-1);
374 
375  idcs.push_back(selMuon1);
376  LV_l1.SetXYZT((*muons)[selMuon1].px(),
377  (*muons)[selMuon1].py(),
378  (*muons)[selMuon1].pz(),
379  (*muons)[selMuon1].energy());
380  xconstraint += (*muons)[selMuon1].px();
381  yconstraint += (*muons)[selMuon1].py();
382 
383  idcs.push_back(selMuon2);
384  LV_l2.SetXYZT((*muons)[selMuon2].px(),
385  (*muons)[selMuon2].py(),
386  (*muons)[selMuon2].pz(),
387  (*muons)[selMuon2].energy());
388  xconstraint += (*muons)[selMuon2].px();
389  yconstraint += (*muons)[selMuon2].py();
390  }
391 
392  xconstraint += (*jets)[ib].px() + (*jets)[ibbar].px() + (*mets)[0].px();
393  yconstraint += (*jets)[ib].py() + (*jets)[ibbar].py() + (*mets)[0].py();
394 
395  // calculate neutrino momenta and eventweight
396  solver->SetConstraints(xconstraint, yconstraint);
397  TtFullLepKinSolver::NeutrinoSolution nuSol= solver->getNuSolution( LV_l1, LV_l2 , LV_b, LV_bbar);
398 
399  // add solution to the vectors of solutions if solution exists
400  if(nuSol.weight>0){
401  // add the leptons and jets indices to the vector of combinations
402  idcsV.push_back(idcs);
403 
404  // add the neutrinos
405  nusV.push_back(nuSol.neutrino);
406  nuBarsV.push_back(nuSol.neutrinoBar);
407 
408  // add the solution weight
409  weightsV.push_back(std::make_pair(nuSol.weight, nSol));
410 
411  nSol++;
412  }
413  }
414  }
415  }
416 
417  if(weightsV.size()==0){
418  //create dmummy vector
419  std::vector<int> idcs;
420  for(int i=0; i<6; ++i)
421  idcs.push_back(-1);
422 
423  idcsV.push_back(idcs);
424  weightsV.push_back(std::make_pair(-1,0));
426  nusV.push_back(nu);
427  reco::LeafCandidate nuBar;
428  nuBarsV.push_back(nuBar);
429  }
430 
431  // check if all vectors have correct length
432  int weightL = weightsV.size();
433  int nuL = nusV.size();
434  int nuBarL = nuBarsV.size();
435  int idxL = idcsV.size();
436 
437  if(weightL!=nuL || weightL!=nuBarL || weightL!=idxL){
438  edm::LogWarning("TtFullLepKinSolutionProducer") << "Output vectors are of different length:"
439  << "\n weight: " << weightL
440  << "\n nu: " << nuL
441  << "\n nubar: " << nuBarL
442  << "\n idcs: " << idxL;
443  }
444 
445  // sort vectors by weight in decreasing order
446  if(weightsV.size()>1){
447  sort(weightsV.begin(), weightsV.end(), Compare());
448  }
449 
450  // determine the number of solutions which is written in the event
451  int stop=weightL;
452  if(maxNComb_>0 && maxNComb_<stop) stop=maxNComb_;
453 
454  for(int i=0; i<stop; ++i){
455  pWeight->push_back(weightsV[i].first);
456  pNus ->push_back(nusV[weightsV[i].second]);
457  pNuBars->push_back(nuBarsV[weightsV[i].second]);
458  pIdcs ->push_back(idcsV[weightsV[i].second]);
459  }
460 
461  // put the results in the event
462  evt.put(pIdcs);
463  evt.put(pNus, "fullLepNeutrinos");
464  evt.put(pNuBars, "fullLepNeutrinoBars");
465  evt.put(pWeight, "solWeight");
466  evt.put(pWrongCharge, "isWrongCharge");
467 }
edm::EDGetTokenT< std::vector< pat::Muon > > muonsToken_
int i
Definition: DBlmapReader.cc:9
bool LepDiffCharge(const reco::Candidate *, const reco::Candidate *) const
NeutrinoSolution getNuSolution(const TLorentzVector &LV_l, const TLorentzVector &LV_l_, const TLorentzVector &LV_b, const TLorentzVector &LV_b_)
int ib
Definition: cuy.py:660
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:462
bool HasPositiveCharge(const reco::Candidate *) const
void SetConstraints(const double xx=0, const double yy=0)
U second(std::pair< T, U > const &p)
bool PTComp(const reco::Candidate *, const reco::Candidate *) const
OrphanHandle< PROD > put(std::auto_ptr< PROD > product)
Put a new product.
Definition: Event.h:121
vector< PseudoJet > jets
edm::EDGetTokenT< std::vector< pat::MET > > metsToken_
edm::EDGetTokenT< std::vector< pat::Jet > > jetsToken_
edm::EDGetTokenT< std::vector< pat::Electron > > electronsToken_
tuple muons
Definition: patZpeak.py:38
bool TtFullLepKinSolutionProducer::PTComp ( const reco::Candidate l1,
const reco::Candidate l2 
) const
inlineprivate

Definition at line 58 of file TtFullLepKinSolutionProducer.h.

References reco::Candidate::pt().

Referenced by produce().

59 {
60  return (l1->pt() > l2->pt());
61 }
virtual double pt() const =0
transverse momentum

Member Data Documentation

bool TtFullLepKinSolutionProducer::eeChannel_
private

Definition at line 51 of file TtFullLepKinSolutionProducer.h.

Referenced by produce(), and TtFullLepKinSolutionProducer().

edm::EDGetTokenT<std::vector<pat::Electron> > TtFullLepKinSolutionProducer::electronsToken_
private

Definition at line 45 of file TtFullLepKinSolutionProducer.h.

Referenced by produce(), and TtFullLepKinSolutionProducer().

bool TtFullLepKinSolutionProducer::emuChannel_
private

Definition at line 51 of file TtFullLepKinSolutionProducer.h.

Referenced by produce(), and TtFullLepKinSolutionProducer().

std::string TtFullLepKinSolutionProducer::jetCorrLevel_
private

Definition at line 49 of file TtFullLepKinSolutionProducer.h.

Referenced by produce(), and TtFullLepKinSolutionProducer().

edm::EDGetTokenT<std::vector<pat::Jet> > TtFullLepKinSolutionProducer::jetsToken_
private

Definition at line 44 of file TtFullLepKinSolutionProducer.h.

Referenced by produce(), and TtFullLepKinSolutionProducer().

int TtFullLepKinSolutionProducer::maxNComb_
private

Definition at line 50 of file TtFullLepKinSolutionProducer.h.

Referenced by produce(), and TtFullLepKinSolutionProducer().

int TtFullLepKinSolutionProducer::maxNJets_
private

Definition at line 50 of file TtFullLepKinSolutionProducer.h.

Referenced by produce(), and TtFullLepKinSolutionProducer().

edm::EDGetTokenT<std::vector<pat::MET> > TtFullLepKinSolutionProducer::metsToken_
private

Definition at line 47 of file TtFullLepKinSolutionProducer.h.

Referenced by produce(), and TtFullLepKinSolutionProducer().

bool TtFullLepKinSolutionProducer::mumuChannel_
private

Definition at line 51 of file TtFullLepKinSolutionProducer.h.

Referenced by produce(), and TtFullLepKinSolutionProducer().

edm::EDGetTokenT<std::vector<pat::Muon> > TtFullLepKinSolutionProducer::muonsToken_
private

Definition at line 46 of file TtFullLepKinSolutionProducer.h.

Referenced by produce(), and TtFullLepKinSolutionProducer().

std::vector<double> TtFullLepKinSolutionProducer::nupars_
private

Definition at line 53 of file TtFullLepKinSolutionProducer.h.

Referenced by beginJob(), and TtFullLepKinSolutionProducer().

bool TtFullLepKinSolutionProducer::searchWrongCharge_
private

Definition at line 51 of file TtFullLepKinSolutionProducer.h.

Referenced by produce(), and TtFullLepKinSolutionProducer().

TtFullLepKinSolver* TtFullLepKinSolutionProducer::solver
private

Definition at line 55 of file TtFullLepKinSolutionProducer.h.

Referenced by beginJob(), endJob(), and produce().

double TtFullLepKinSolutionProducer::tmassbegin_
private

Definition at line 52 of file TtFullLepKinSolutionProducer.h.

Referenced by beginJob(), and TtFullLepKinSolutionProducer().

double TtFullLepKinSolutionProducer::tmassend_
private

Definition at line 52 of file TtFullLepKinSolutionProducer.h.

Referenced by beginJob(), and TtFullLepKinSolutionProducer().

double TtFullLepKinSolutionProducer::tmassstep_
private

Definition at line 52 of file TtFullLepKinSolutionProducer.h.

Referenced by beginJob(), and TtFullLepKinSolutionProducer().