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PATPhotonProducer.cc
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1 //
2 //
3 
9 
15 
18 
22 
24 
25 #include "TVector2.h"
27 
28 
29 #include <memory>
30 
31 using namespace pat;
32 
34  isolator_(iConfig.exists("userIsolation") ? iConfig.getParameter<edm::ParameterSet>("userIsolation") : edm::ParameterSet(), consumesCollector(), false) ,
35  useUserData_(iConfig.exists("userData"))
36 {
37  // initialize the configurables
38  photonToken_ = consumes<edm::View<reco::Photon> >(iConfig.getParameter<edm::InputTag>("photonSource"));
39  electronToken_ = consumes<reco::GsfElectronCollection>(iConfig.getParameter<edm::InputTag>("electronSource"));
40 hConversionsToken_ = consumes<reco::ConversionCollection>(iConfig.getParameter<edm::InputTag>("conversionSource"));
41  beamLineToken_ = consumes<reco::BeamSpot>(iConfig.getParameter<edm::InputTag>("beamLineSrc"));
42  embedSuperCluster_ = iConfig.getParameter<bool>("embedSuperCluster");
43  embedSeedCluster_ = iConfig.getParameter<bool>( "embedSeedCluster" );
44  embedBasicClusters_ = iConfig.getParameter<bool>( "embedBasicClusters" );
45  embedPreshowerClusters_ = iConfig.getParameter<bool>( "embedPreshowerClusters" );
46  embedRecHits_ = iConfig.getParameter<bool>( "embedRecHits" );
47  reducedBarrelRecHitCollection_ = iConfig.getParameter<edm::InputTag>("reducedBarrelRecHitCollection");
48  reducedBarrelRecHitCollectionToken_ = mayConsume<EcalRecHitCollection>(reducedBarrelRecHitCollection_);
49  reducedEndcapRecHitCollection_ = iConfig.getParameter<edm::InputTag>("reducedEndcapRecHitCollection");
50  reducedEndcapRecHitCollectionToken_ = mayConsume<EcalRecHitCollection>(reducedEndcapRecHitCollection_);
51  // MC matching configurables
52  addGenMatch_ = iConfig.getParameter<bool>( "addGenMatch" );
53  if (addGenMatch_) {
54  embedGenMatch_ = iConfig.getParameter<bool>( "embedGenMatch" );
55  if (iConfig.existsAs<edm::InputTag>("genParticleMatch")) {
56  genMatchTokens_.push_back(consumes<edm::Association<reco::GenParticleCollection> >(iConfig.getParameter<edm::InputTag>( "genParticleMatch" )));
57  }
58  else {
59  genMatchTokens_ = edm::vector_transform(iConfig.getParameter<std::vector<edm::InputTag> >( "genParticleMatch" ), [this](edm::InputTag const & tag){return consumes<edm::Association<reco::GenParticleCollection> >(tag);});
60  }
61  }
62  // Efficiency configurables
63  addEfficiencies_ = iConfig.getParameter<bool>("addEfficiencies");
64  if (addEfficiencies_) {
65  efficiencyLoader_ = pat::helper::EfficiencyLoader(iConfig.getParameter<edm::ParameterSet>("efficiencies"), consumesCollector());
66  }
67  // PFCluster Isolation maps
68  addPuppiIsolation_ = iConfig.getParameter<bool>("addPuppiIsolation");
69  if (addPuppiIsolation_){
70  PUPPIIsolation_charged_hadrons_ = consumes<edm::ValueMap<float> >(iConfig.getParameter<edm::InputTag>("puppiIsolationChargedHadrons"));
71  PUPPIIsolation_neutral_hadrons_ = consumes<edm::ValueMap<float> >(iConfig.getParameter<edm::InputTag>("puppiIsolationNeutralHadrons"));
72  PUPPIIsolation_photons_ = consumes<edm::ValueMap<float> >(iConfig.getParameter<edm::InputTag>("puppiIsolationPhotons"));
73  }
74  addPFClusterIso_ = iConfig.getParameter<bool>("addPFClusterIso");
75  if (addPFClusterIso_)
76  {
77  ecalPFClusterIsoT_ = consumes<edm::ValueMap<float> >(iConfig.getParameter<edm::InputTag>("ecalPFClusterIsoMap"));
78  auto hcPFC = iConfig.getParameter<edm::InputTag>("hcalPFClusterIsoMap");
79  if (not hcPFC.label().empty())
80  hcalPFClusterIsoT_ = consumes<edm::ValueMap<float> >(hcPFC);
81  }
82 
83  // photon ID configurables
84  addPhotonID_ = iConfig.getParameter<bool>( "addPhotonID" );
85  if (addPhotonID_) {
86  // it might be a single photon ID
87  if (iConfig.existsAs<edm::InputTag>("photonIDSource")) {
88  photIDSrcs_.push_back(NameTag("", iConfig.getParameter<edm::InputTag>("photonIDSource")));
89  }
90  // or there might be many of them
91  if (iConfig.existsAs<edm::ParameterSet>("photonIDSources")) {
92  // please don't configure me twice
93  if (!photIDSrcs_.empty()){
94  throw cms::Exception("Configuration") << "PATPhotonProducer: you can't specify both 'photonIDSource' and 'photonIDSources'\n";
95  }
96  // read the different photon ID names
97  edm::ParameterSet idps = iConfig.getParameter<edm::ParameterSet>("photonIDSources");
98  std::vector<std::string> names = idps.getParameterNamesForType<edm::InputTag>();
99  for (std::vector<std::string>::const_iterator it = names.begin(), ed = names.end(); it != ed; ++it) {
100  photIDSrcs_.push_back(NameTag(*it, idps.getParameter<edm::InputTag>(*it)));
101  }
102  }
103  // but in any case at least once
104  if (photIDSrcs_.empty()) throw cms::Exception("Configuration") <<
105  "PATPhotonProducer: id addPhotonID is true, you must specify either:\n" <<
106  "\tInputTag photonIDSource = <someTag>\n" << "or\n" <<
107  "\tPSet photonIDSources = { \n" <<
108  "\t\tInputTag <someName> = <someTag> // as many as you want \n " <<
109  "\t}\n";
110  }
111  photIDTokens_ = edm::vector_transform(photIDSrcs_, [this](NameTag const & tag){return mayConsume<edm::ValueMap<Bool_t> >(tag.second);});
112  // Resolution configurables
113  addResolutions_ = iConfig.getParameter<bool>("addResolutions");
114  if (addResolutions_) {
116  }
117  // Check to see if the user wants to add user data
118  if ( useUserData_ ) {
119  userDataHelper_ = PATUserDataHelper<Photon>(iConfig.getParameter<edm::ParameterSet>("userData"), consumesCollector());
120  }
121  // produces vector of photons
122  produces<std::vector<Photon> >();
123 
124  // read isoDeposit labels, for direct embedding
125  readIsolationLabels(iConfig, "isoDeposits", isoDepositLabels_, isoDepositTokens_);
126  // read isolation value labels, for direct embedding
128 
129  saveRegressionData_ = iConfig.getParameter<bool>("saveRegressionData");
130 }
131 
133 }
134 
136 {
137  // switch off embedding (in unschedules mode)
138  if (iEvent.isRealData()){
139  addGenMatch_ = false;
140  embedGenMatch_ = false;
141  }
142 
143  edm::ESHandle<CaloTopology> theCaloTopology;
144  iSetup.get<CaloTopologyRecord>().get(theCaloTopology);
145  ecalTopology_ = & (*theCaloTopology);
146 
147  edm::ESHandle<CaloGeometry> theCaloGeometry;
148  iSetup.get<CaloGeometryRecord>().get(theCaloGeometry);
149  ecalGeometry_ = & (*theCaloGeometry);
150 
151  // Get the vector of Photon's from the event
153  iEvent.getByToken(photonToken_, photons);
154 
155  // for conversion veto selection
157  iEvent.getByToken(hConversionsToken_, hConversions);
158 
159  // Get the collection of electrons from the event
161  iEvent.getByToken(electronToken_, hElectrons);
162 
163  // Get the beamspot
164  edm::Handle<reco::BeamSpot> beamSpotHandle;
165  iEvent.getByToken(beamLineToken_, beamSpotHandle);
166 
168 
169  // prepare the MC matching
170  std::vector<edm::Handle<edm::Association<reco::GenParticleCollection> > >genMatches(genMatchTokens_.size());
171  if (addGenMatch_) {
172  for (size_t j = 0, nd = genMatchTokens_.size(); j < nd; ++j) {
173  iEvent.getByToken(genMatchTokens_[j], genMatches[j]);
174  }
175  }
176 
177  if (isolator_.enabled()) isolator_.beginEvent(iEvent,iSetup);
178 
180  if (resolutionLoader_.enabled()) resolutionLoader_.newEvent(iEvent, iSetup);
181 
183  for (size_t j = 0, nd = isoDepositTokens_.size(); j < nd; ++j) {
184  iEvent.getByToken(isoDepositTokens_[j], deposits[j]);
185  }
186 
188  for (size_t j = 0; j<isolationValueTokens_.size(); ++j) {
190  }
191 
192 
193  // prepare ID extraction
194  std::vector<edm::Handle<edm::ValueMap<Bool_t> > > idhandles;
195  std::vector<pat::Photon::IdPair> ids;
196  if (addPhotonID_) {
197  idhandles.resize(photIDSrcs_.size());
198  ids.resize(photIDSrcs_.size());
199  for (size_t i = 0; i < photIDSrcs_.size(); ++i) {
200  iEvent.getByToken(photIDTokens_[i], idhandles[i]);
201  ids[i].first = photIDSrcs_[i].first;
202  }
203  }
204 
205  //value maps for puppi isolation
206  edm::Handle<edm::ValueMap<float>> PUPPIIsolation_charged_hadrons;
207  edm::Handle<edm::ValueMap<float>> PUPPIIsolation_neutral_hadrons;
208  edm::Handle<edm::ValueMap<float>> PUPPIIsolation_photons;
209  if (addPuppiIsolation_){
210  iEvent.getByToken(PUPPIIsolation_charged_hadrons_, PUPPIIsolation_charged_hadrons);
211  iEvent.getByToken(PUPPIIsolation_neutral_hadrons_, PUPPIIsolation_neutral_hadrons);
212  iEvent.getByToken(PUPPIIsolation_photons_, PUPPIIsolation_photons);
213  }
214 
215  // loop over photons
216  std::vector<Photon> * PATPhotons = new std::vector<Photon>();
217  for (edm::View<reco::Photon>::const_iterator itPhoton = photons->begin(); itPhoton != photons->end(); itPhoton++) {
218  // construct the Photon from the ref -> save ref to original object
219  unsigned int idx = itPhoton - photons->begin();
220  edm::RefToBase<reco::Photon> photonRef = photons->refAt(idx);
221  edm::Ptr<reco::Photon> photonPtr = photons->ptrAt(idx);
222  Photon aPhoton(photonRef);
223  auto phoPtr = photons -> ptrAt(idx);
224  if (embedSuperCluster_) aPhoton.embedSuperCluster();
225  if (embedSeedCluster_) aPhoton.embedSeedCluster();
228 
229  std::vector<DetId> selectedCells;
230  bool barrel = itPhoton->isEB();
231  //loop over sub clusters
232  if (embedBasicClusters_) {
233  for (reco::CaloCluster_iterator clusIt = itPhoton->superCluster()->clustersBegin(); clusIt!=itPhoton->superCluster()->clustersEnd(); ++clusIt) {
234  //get seed (max energy xtal)
235  DetId seed = lazyTools.getMaximum(**clusIt).first;
236  //get all xtals in 5x5 window around the seed
237  std::vector<DetId> dets5x5 = (barrel) ? ecalTopology_->getSubdetectorTopology(DetId::Ecal,EcalBarrel)->getWindow(seed,5,5):
239  selectedCells.insert(selectedCells.end(), dets5x5.begin(), dets5x5.end());
240 
241  //get all xtals belonging to cluster
242  for (const std::pair<DetId, float> &hit : (*clusIt)->hitsAndFractions()) {
243  selectedCells.push_back(hit.first);
244  }
245  }
246  }
247 
248  //remove duplicates
249  std::sort(selectedCells.begin(),selectedCells.end());
250  std::unique(selectedCells.begin(),selectedCells.end());
251 
252  // Retrieve the corresponding RecHits
253 
254 
255  edm::Handle< EcalRecHitCollection > recHitsEBHandle;
256  iEvent.getByToken(reducedBarrelRecHitCollectionToken_,recHitsEBHandle);
257  edm::Handle< EcalRecHitCollection > recHitsEEHandle;
258  iEvent.getByToken(reducedEndcapRecHitCollectionToken_,recHitsEEHandle);
259 
260 
261  //orginal code would throw an exception via the handle not being valid but now it'll just have a null pointer error
262  //should have little effect, if its not barrel or endcap, something very bad has happened elsewhere anyways
263  const EcalRecHitCollection *recHits = nullptr;
264  if(photonRef->superCluster()->seed()->hitsAndFractions().at(0).first.subdetId()==EcalBarrel ) recHits = recHitsEBHandle.product();
265  else if( photonRef->superCluster()->seed()->hitsAndFractions().at(0).first.subdetId()==EcalEndcap ) recHits = recHitsEEHandle.product();
266 
267 
268  EcalRecHitCollection selectedRecHits;
269 
270 
271  unsigned nSelectedCells = selectedCells.size();
272  for (unsigned icell = 0 ; icell < nSelectedCells ; ++icell) {
273  EcalRecHitCollection::const_iterator it = recHits->find( selectedCells[icell] );
274  if ( it != recHits->end() ) {
275  selectedRecHits.push_back(*it);
276  }
277  }
278  selectedRecHits.sort();
279  if (embedRecHits_) aPhoton.embedRecHits(& selectedRecHits);
280 
281  // store the match to the generated final state muons
282  if (addGenMatch_) {
283  for(size_t i = 0, n = genMatches.size(); i < n; ++i) {
284  reco::GenParticleRef genPhoton = (*genMatches[i])[photonRef];
285  aPhoton.addGenParticleRef(genPhoton);
286  }
287  if (embedGenMatch_) aPhoton.embedGenParticle();
288  }
289 
290  if (efficiencyLoader_.enabled()) {
291  efficiencyLoader_.setEfficiencies( aPhoton, photonRef );
292  }
293 
294  if (resolutionLoader_.enabled()) {
296  }
297 
298  // here comes the extra functionality
299  if (isolator_.enabled()) {
300  isolator_.fill(*photons, idx, isolatorTmpStorage_);
301  typedef pat::helper::MultiIsolator::IsolationValuePairs IsolationValuePairs;
302  // better to loop backwards, so the vector is resized less times
303  for (IsolationValuePairs::const_reverse_iterator it = isolatorTmpStorage_.rbegin(), ed = isolatorTmpStorage_.rend(); it != ed; ++it) {
304  aPhoton.setIsolation(it->first, it->second);
305  }
306  }
307 
308  for (size_t j = 0, nd = deposits.size(); j < nd; ++j) {
309  aPhoton.setIsoDeposit(isoDepositLabels_[j].first, (*deposits[j])[photonRef]);
310  }
311 
312  for (size_t j = 0; j<isolationValues.size(); ++j) {
313  aPhoton.setIsolation(isolationValueLabels_[j].first,(*isolationValues[j])[photonRef]);
314  }
315 
316  // add photon ID info
317  if (addPhotonID_) {
318  for (size_t i = 0; i < photIDSrcs_.size(); ++i) {
319  ids[i].second = (*idhandles[i])[photonRef];
320  }
321  aPhoton.setPhotonIDs(ids);
322  }
323 
324  if ( useUserData_ ) {
325  userDataHelper_.add( aPhoton, iEvent, iSetup );
326  }
327 
328 
329  // set conversion veto selection
330  bool passelectronveto = false;
331  if( hConversions.isValid()){
332  // this is recommended method
333  passelectronveto = !ConversionTools::hasMatchedPromptElectron(photonRef->superCluster(), *hElectrons, *hConversions, beamSpotHandle->position());
334  }
335  aPhoton.setPassElectronVeto( passelectronveto );
336 
337 
338  // set electron veto using pixel seed (not recommended but many analysis groups are still using since it is powerful method to remove electrons)
339  aPhoton.setHasPixelSeed( photonRef->hasPixelSeed() );
340 
341  // set seed energy
342  aPhoton.setSeedEnergy( photonRef->superCluster()->seed()->energy() );
343 
344  // set input variables for regression energy correction
345  if (saveRegressionData_) {
346  EcalRegressionData ecalRegData;
347  ecalRegData.fill(*(photonRef->superCluster()),
348  recHitsEBHandle.product(),recHitsEEHandle.product(),
350 
351  aPhoton.setEMax( ecalRegData.eMax() );
352  aPhoton.setE2nd( ecalRegData.e2nd() );
353  aPhoton.setE3x3( ecalRegData.e3x3() );
354  aPhoton.setETop( ecalRegData.eTop() );
355  aPhoton.setEBottom( ecalRegData.eBottom() );
356  aPhoton.setELeft( ecalRegData.eLeft() );
357  aPhoton.setERight( ecalRegData.eRight() );
358  aPhoton.setSee( ecalRegData.sigmaIEtaIEta() );
359  aPhoton.setSep( ecalRegData.sigmaIEtaIPhi()*ecalRegData.sigmaIEtaIEta()*ecalRegData.sigmaIPhiIPhi() ); //there is a conflict on what sigmaIEtaIPhi actually is, regression and ID have it differently, this may change in later releases
360  aPhoton.setSpp( ecalRegData.sigmaIPhiIPhi() );
361 
362  aPhoton.setMaxDR( ecalRegData.maxSubClusDR() );
363  aPhoton.setMaxDRDPhi( ecalRegData.maxSubClusDRDPhi() );
364  aPhoton.setMaxDRDEta( ecalRegData.maxSubClusDRDEta() );
365  aPhoton.setMaxDRRawEnergy( ecalRegData.maxSubClusDRRawEnergy() );
375 
376  aPhoton.setCryPhi( ecalRegData.seedCrysPhiOrY() );
377  aPhoton.setCryEta( ecalRegData.seedCrysEtaOrX() );
378  aPhoton.setIEta( ecalRegData.seedCrysIEtaOrIX() );
379  aPhoton.setIPhi( ecalRegData.seedCrysIPhiOrIY() );
380  } else {
381  aPhoton.setEMax(0);
382  aPhoton.setE2nd(0);
383  aPhoton.setE3x3(0);
384  aPhoton.setETop(0);
385  aPhoton.setEBottom(0);
386  aPhoton.setELeft(0);
387  aPhoton.setERight(0);
388  aPhoton.setSee(0);
389  aPhoton.setSep(0);
390  aPhoton.setSpp(0);
391 
392  aPhoton.setMaxDR(0);
393  aPhoton.setMaxDRDPhi(0);
394  aPhoton.setMaxDRDEta(0);
395  aPhoton.setMaxDRRawEnergy(0);
396  aPhoton.setSubClusRawE1(0);
397  aPhoton.setSubClusRawE2(0);
398  aPhoton.setSubClusRawE3(0);
399  aPhoton.setSubClusDPhi1(0);
400  aPhoton.setSubClusDPhi2(0);
401  aPhoton.setSubClusDPhi3(0);
402  aPhoton.setSubClusDEta1(0);
403  aPhoton.setSubClusDEta2(0);
404  aPhoton.setSubClusDEta3(0);
405 
406  aPhoton.setCryPhi(0);
407  aPhoton.setCryEta(0);
408  aPhoton.setIEta(0);
409  aPhoton.setIPhi(0);
410  }
411 
412  if (addPuppiIsolation_)aPhoton.setIsolationPUPPI((*PUPPIIsolation_charged_hadrons)[phoPtr], (*PUPPIIsolation_neutral_hadrons)[phoPtr], (*PUPPIIsolation_photons)[phoPtr]);
413  else aPhoton.setIsolationPUPPI(-999., -999.,-999.);
414 
415  // Get PFCluster Isolation
416  if (addPFClusterIso_) {
418  edm::Handle<edm::ValueMap<float> > ecalPFClusterIsoMapH;
419  iEvent.getByToken(ecalPFClusterIsoT_, ecalPFClusterIsoMapH);
420  newPFIsol.sumEcalClusterEt = (*ecalPFClusterIsoMapH)[photonRef];
421  edm::Handle<edm::ValueMap<float> > hcalPFClusterIsoMapH;
423  iEvent.getByToken(hcalPFClusterIsoT_, hcalPFClusterIsoMapH);
424  newPFIsol.sumHcalClusterEt = (*hcalPFClusterIsoMapH)[photonRef];
425  }
426  else{
427  newPFIsol.sumHcalClusterEt = -999.;
428  }
429  aPhoton.setPflowIsolationVariables(newPFIsol);
430  }
431 
432  // add the Photon to the vector of Photons
433  PATPhotons->push_back(aPhoton);
434  }
435 
436  // sort Photons in ET
437  std::sort(PATPhotons->begin(), PATPhotons->end(), eTComparator_);
438 
439  // put genEvt object in Event
440  std::unique_ptr<std::vector<Photon> > myPhotons(PATPhotons);
441  iEvent.put(std::move(myPhotons));
443 
444 }
445 
446 // ParameterSet description for module
448 {
450  iDesc.setComment("PAT photon producer module");
451 
452  // input source
453  iDesc.add<edm::InputTag>("photonSource", edm::InputTag("no default"))->setComment("input collection");
454  iDesc.add<edm::InputTag>("electronSource", edm::InputTag("no default"))->setComment("input collection");
455  iDesc.add<edm::InputTag>("conversionSource", edm::InputTag("allConversions"))->setComment("input collection");
456 
457  iDesc.add<edm::InputTag>("reducedBarrelRecHitCollection", edm::InputTag("reducedEcalRecHitsEB"));
458  iDesc.add<edm::InputTag>("reducedEndcapRecHitCollection", edm::InputTag("reducedEcalRecHitsEE"));
459 
460  iDesc.ifValue(edm::ParameterDescription<bool>("addPFClusterIso", false, true),
461  true >> (edm::ParameterDescription<edm::InputTag>("ecalPFClusterIsoMap", edm::InputTag("photonEcalPFClusterIsolationProducer"), true) and
462  edm::ParameterDescription<edm::InputTag>("hcalPFClusterIsoMap", edm::InputTag("photonHcalPFClusterIsolationProducer"),true)) or
463  false >> (edm::ParameterDescription<edm::InputTag>("ecalPFClusterIsoMap", edm::InputTag(""), true) and
464  edm::ParameterDescription<edm::InputTag>("hcalPFClusterIsoMap", edm::InputTag(""),true)));
465 
466  iDesc.ifValue(edm::ParameterDescription<bool>("addPuppiIsolation", false, true),
467  true >> (edm::ParameterDescription<edm::InputTag>("puppiIsolationChargedHadrons", edm::InputTag("egmPhotonPUPPIIsolation","h+-DR030-"), true) and
468  edm::ParameterDescription<edm::InputTag>("puppiIsolationNeutralHadrons", edm::InputTag("egmPhotonPUPPIIsolation","h0-DR030-"), true) and
469  edm::ParameterDescription<edm::InputTag>("puppiIsolationPhotons", edm::InputTag("egmPhotonPUPPIIsolation","gamma-DR030-"), true)) or
470  false >> edm::EmptyGroupDescription());
471 
472  iDesc.add<bool>("embedSuperCluster", true)->setComment("embed external super cluster");
473  iDesc.add<bool>("embedSeedCluster", true)->setComment("embed external seed cluster");
474  iDesc.add<bool>("embedBasicClusters", true)->setComment("embed external basic clusters");
475  iDesc.add<bool>("embedPreshowerClusters", true)->setComment("embed external preshower clusters");
476  iDesc.add<bool>("embedRecHits", true)->setComment("embed external RecHits");
477 
478  // MC matching configurables
479  iDesc.add<bool>("addGenMatch", true)->setComment("add MC matching");
480  iDesc.add<bool>("embedGenMatch", false)->setComment("embed MC matched MC information");
481  std::vector<edm::InputTag> emptySourceVector;
482  iDesc.addNode( edm::ParameterDescription<edm::InputTag>("genParticleMatch", edm::InputTag(), true) xor
483  edm::ParameterDescription<std::vector<edm::InputTag> >("genParticleMatch", emptySourceVector, true)
484  )->setComment("input with MC match information");
485 
487 
488  // photon ID configurables
489  iDesc.add<bool>("addPhotonID",true)->setComment("add photon ID variables");
490  edm::ParameterSetDescription photonIDSourcesPSet;
491  photonIDSourcesPSet.setAllowAnything();
492  iDesc.addNode( edm::ParameterDescription<edm::InputTag>("photonIDSource", edm::InputTag(), true) xor
493  edm::ParameterDescription<edm::ParameterSetDescription>("photonIDSources", photonIDSourcesPSet, true)
494  )->setComment("input with photon ID variables");
495 
496  // IsoDeposit configurables
497  edm::ParameterSetDescription isoDepositsPSet;
498  isoDepositsPSet.addOptional<edm::InputTag>("tracker");
499  isoDepositsPSet.addOptional<edm::InputTag>("ecal");
500  isoDepositsPSet.addOptional<edm::InputTag>("hcal");
501  isoDepositsPSet.addOptional<edm::InputTag>("pfAllParticles");
502  isoDepositsPSet.addOptional<edm::InputTag>("pfChargedHadrons");
503  isoDepositsPSet.addOptional<edm::InputTag>("pfChargedAll");
504  isoDepositsPSet.addOptional<edm::InputTag>("pfPUChargedHadrons");
505  isoDepositsPSet.addOptional<edm::InputTag>("pfNeutralHadrons");
506  isoDepositsPSet.addOptional<edm::InputTag>("pfPhotons");
507  isoDepositsPSet.addOptional<std::vector<edm::InputTag> >("user");
508  iDesc.addOptional("isoDeposits", isoDepositsPSet);
509 
510  // isolation values configurables
511  edm::ParameterSetDescription isolationValuesPSet;
512  isolationValuesPSet.addOptional<edm::InputTag>("tracker");
513  isolationValuesPSet.addOptional<edm::InputTag>("ecal");
514  isolationValuesPSet.addOptional<edm::InputTag>("hcal");
515  isolationValuesPSet.addOptional<edm::InputTag>("pfAllParticles");
516  isolationValuesPSet.addOptional<edm::InputTag>("pfChargedHadrons");
517  isolationValuesPSet.addOptional<edm::InputTag>("pfChargedAll");
518  isolationValuesPSet.addOptional<edm::InputTag>("pfPUChargedHadrons");
519  isolationValuesPSet.addOptional<edm::InputTag>("pfNeutralHadrons");
520  isolationValuesPSet.addOptional<edm::InputTag>("pfPhotons");
521  isolationValuesPSet.addOptional<std::vector<edm::InputTag> >("user");
522  iDesc.addOptional("isolationValues", isolationValuesPSet);
523 
524  // Efficiency configurables
525  edm::ParameterSetDescription efficienciesPSet;
526  efficienciesPSet.setAllowAnything(); // TODO: the pat helper needs to implement a description.
527  iDesc.add("efficiencies", efficienciesPSet);
528  iDesc.add<bool>("addEfficiencies", false);
529 
530  // Check to see if the user wants to add user data
531  edm::ParameterSetDescription userDataPSet;
533  iDesc.addOptional("userData", userDataPSet);
534 
535  edm::ParameterSetDescription isolationPSet;
536  isolationPSet.setAllowAnything(); // TODO: the pat helper needs to implement a description.
537  iDesc.add("userIsolation", isolationPSet);
538 
539  iDesc.addNode( edm::ParameterDescription<edm::InputTag>("beamLineSrc", edm::InputTag(), true)
540  )->setComment("input with high level selection");
541 
542  iDesc.add<bool>("saveRegressionData", true)->setComment("save regression input variables");
543 
544  descriptions.add("PATPhotonProducer", iDesc);
545 
546 }
547 
549 
virtual void produce(edm::Event &iEvent, const edm::EventSetup &iSetup) override
bool enabled() const
&#39;true&#39; if this there is at least one efficiency configured
float sigmaIPhiIPhi() const
void setPflowIsolationVariables(const PflowIsolationVariables &pfisol)
Set Particle Flow Isolation variables.
Definition: Photon.h:510
T getParameter(std::string const &) const
void setSpp(float s)
Definition: Photon.h:265
void setComment(std::string const &value)
Assists in assimilating all pat::UserData into pat objects.
void newEvent(const edm::Event &event)
To be called for each new event, reads in the ValueMaps for efficiencies.
const std::vector< float > & subClusRawEnergy() const
void setIEta(float i)
Definition: Photon.h:307
pat::PATUserDataHelper< pat::Photon > userDataHelper_
OrphanHandle< PROD > put(std::unique_ptr< PROD > product)
Put a new product.
Definition: Event.h:137
float maxSubClusDRRawEnergy() const
ParameterDescriptionBase * addOptional(U const &iLabel, T const &value)
float maxSubClusDRDEta() const
Definition: Photon.py:1
edm::EDGetTokenT< EcalRecHitCollection > reducedEndcapRecHitCollectionToken_
bool existsAs(std::string const &parameterName, bool trackiness=true) const
checks if a parameter exists as a given type
Definition: ParameterSet.h:185
void setSubClusDPhi3(float s)
Definition: Photon.h:290
std::pair< std::string, edm::InputTag > NameTag
void setE2nd(float e)
Definition: Photon.h:250
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:579
void setAllowAnything()
allow any parameter label/value pairs
void setSee(float s)
Definition: Photon.h:263
std::vector< edm::Handle< edm::ValueMap< double > > > IsolationValueMaps
std::vector< edm::EDGetTokenT< edm::ValueMap< Bool_t > > > photIDTokens_
void fill(const reco::SuperCluster &superClus, const EcalRecHitCollection *ebRecHits, const EcalRecHitCollection *eeRecHits, const CaloGeometry *geom, const CaloTopology *topology, const reco::VertexCollection *vertices)
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
void setMaxDRRawEnergy(float m)
Definition: Photon.h:276
static bool hasMatchedPromptElectron(const reco::SuperClusterRef &sc, const reco::GsfElectronCollection &eleCol, const reco::ConversionCollection &convCol, const math::XYZPoint &beamspot, bool allowCkfMatch=true, float lxyMin=2.0, float probMin=1e-6, unsigned int nHitsBeforeVtxMax=0)
edm::EDGetTokenT< reco::BeamSpot > beamLineToken_
void embedSeedCluster()
method to store the electron&#39;s seedcluster internally
edm::EDGetTokenT< edm::View< reco::Photon > > photonToken_
std::vector< EcalRecHit >::const_iterator const_iterator
void setSubClusDPhi2(float s)
Definition: Photon.h:288
float eLeft() const
edm::EDGetTokenT< edm::ValueMap< float > > ecalPFClusterIsoT_
void push_back(T const &t)
float seedCrysPhiOrY() const
ParameterDescriptionNode * addNode(ParameterDescriptionNode const &node)
std::vector< edm::EDGetTokenT< edm::Association< reco::GenParticleCollection > > > genMatchTokens_
void embedRecHits(const EcalRecHitCollection *rechits)
method to store the RecHits internally - can be called from the PATElectronProducer ...
void setIsolationPUPPI(float chargedhadrons_, float neutralhadrons_, float photons_)
Sets PUPPI isolation.
Definition: Photon.h:194
pat::helper::KinResolutionsLoader resolutionLoader_
float sigmaIEtaIEta() const
edm::EDGetTokenT< edm::ValueMap< float > > hcalPFClusterIsoT_
GreaterByEt< Photon > eTComparator_
const CaloGeometry * ecalGeometry_
float sigmaIEtaIPhi() const
auto vector_transform(std::vector< InputType > const &input, Function predicate) -> std::vector< typename std::remove_cv< typename std::remove_reference< decltype(predicate(input.front()))>::type >::type >
Definition: transform.h:11
reco::SuperClusterRef superCluster() const override
Ref to SuperCluster.
void setIPhi(float i)
Definition: Photon.h:305
void setResolutions(pat::PATObject< T > &obj) const
Sets the efficiencies for this object, using the reference to the original objects.
bool isRealData() const
Definition: EventBase.h:64
const std::string names[nVars_]
edm::InputTag reducedEndcapRecHitCollection_
bool enabled() const
&#39;true&#39; if this there is at least one efficiency configured
Definition: HeavyIon.h:7
static void fillDescription(edm::ParameterSetDescription &iDesc)
std::vector< std::string > getParameterNamesForType(bool trackiness=true) const
Definition: ParameterSet.h:193
bool enabled() const
True if it has a non null configuration.
Definition: MultiIsolator.h:50
IsolationLabels isoDepositLabels_
void setIsolation(IsolationKeys key, float value)
Definition: Photon.h:173
void setComment(std::string const &value)
pat::helper::MultiIsolator::IsolationValuePairs isolatorTmpStorage_
void setELeft(float e)
Definition: Photon.h:258
void setIsoDeposit(IsolationKeys key, const IsoDeposit &dep)
Sets the IsoDeposit associated with some key; if it is already existent, it is overwritten.
Definition: Photon.h:221
int iEvent
Definition: GenABIO.cc:230
void setEMax(float e)
Definition: Photon.h:248
void beginEvent(const edm::Event &event, const edm::EventSetup &eventSetup)
const CaloTopology * ecalTopology_
void setERight(float e)
Definition: Photon.h:260
float seedCrysIPhiOrIY() const
IsolationLabels isolationValueLabels_
void setMaxDRDEta(float m)
Definition: Photon.h:274
std::vector< edm::EDGetTokenT< edm::ValueMap< IsoDeposit > > > isoDepositTokens_
void embedGenParticle()
Definition: PATObject.h:694
pat::helper::EfficiencyLoader efficiencyLoader_
void newEvent(const edm::Event &event, const edm::EventSetup &setup)
To be called for each new event, reads in the EventSetup object.
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e< void, edm::EventID const &, edm::Timestamp const & > We also list in braces which AR_WATCH_USING_METHOD_ is used for those or
Definition: Activities.doc:12
float maxSubClusDR() const
def unique(seq, keepstr=True)
Definition: tier0.py:25
void setPhotonIDs(const std::vector< IdPair > &ids)
Definition: Photon.h:110
ParameterDescriptionNode * ifValue(ParameterDescription< T > const &switchParameter, std::unique_ptr< ParameterDescriptionCases< T > > cases)
float seedCrysIEtaOrIX() const
void embedBasicClusters()
method to store the electron&#39;s basic clusters
edm::EDGetTokenT< edm::ValueMap< float > > PUPPIIsolation_photons_
static void fillDescriptions(edm::ConfigurationDescriptions &descriptions)
void setPassElectronVeto(bool flag)
Definition: Photon.h:238
void setETop(float e)
Definition: Photon.h:254
float maxSubClusDRDPhi() const
void setSeedEnergy(float e)
Definition: Photon.h:245
void setSubClusDPhi1(float s)
Definition: Photon.h:286
ParameterDescriptionBase * add(U const &iLabel, T const &value)
std::vector< NameTag > photIDSrcs_
bool isValid() const
Definition: HandleBase.h:74
void setSubClusDEta1(float s)
Definition: Photon.h:293
std::vector< edm::Handle< edm::ValueMap< IsoDeposit > > > IsoDepositMaps
pat::helper::MultiIsolator isolator_
float seedCrysEtaOrX() const
void embedPreshowerClusters()
method to store the electron&#39;s preshower clusters
void setCryEta(float c)
Definition: Photon.h:302
const_iterator end() const
void readIsolationLabels(const edm::ParameterSet &iConfig, const char *psetName, IsolationLabels &labels, std::vector< edm::EDGetTokenT< edm::ValueMap< T > > > &tokens)
void embedSuperCluster()
method to store the photon&#39;s supercluster internally
Definition: DetId.h:18
void addGenParticleRef(const reco::GenParticleRef &ref)
Definition: PATObject.h:678
void setCryPhi(float c)
Definition: Photon.h:300
virtual std::vector< DetId > getWindow(const DetId &id, const int &northSouthSize, const int &eastWestSize) const
void setHasPixelSeed(bool flag)
Definition: Photon.h:241
edm::EDGetTokenT< edm::ValueMap< float > > PUPPIIsolation_charged_hadrons_
T const * product() const
Definition: Handle.h:81
static void fillDescription(edm::ParameterSetDescription &iDesc)
Method for documentation and validation of PSet.
void setSubClusDEta2(float s)
Definition: Photon.h:295
void setMaxDR(float m)
Definition: Photon.h:270
bool hasPixelSeed() const
Bool flagging photons having a non-zero size vector of Ref to electornPixel seeds.
Definition: Photon.h:76
void setEfficiencies(pat::PATObject< T > &obj, const R &originalRef) const
Sets the efficiencies for this object, using the reference to the original objects.
void setSubClusRawE2(float s)
Definition: Photon.h:281
void add(std::string const &label, ParameterSetDescription const &psetDescription)
const CaloSubdetectorTopology * getSubdetectorTopology(const DetId &id) const
access the subdetector Topology for the given subdetector directly
Definition: CaloTopology.cc:25
const std::vector< float > & subClusDEta() const
void setEBottom(float e)
Definition: Photon.h:256
std::vector< std::pair< pat::IsolationKeys, float > > IsolationValuePairs
Definition: MultiIsolator.h:16
void setMaxDRDPhi(float m)
Definition: Photon.h:272
iterator find(key_type k)
const std::vector< float > & subClusDPhi() const
HLT enums.
boost::indirect_iterator< typename seq_t::const_iterator > const_iterator
Definition: View.h:86
void setSubClusDEta3(float s)
Definition: Photon.h:297
size_type size() const
edm::EDGetTokenT< edm::ValueMap< float > > PUPPIIsolation_neutral_hadrons_
float eRight() const
T get() const
Definition: EventSetup.h:68
void setSubClusRawE1(float s)
Definition: Photon.h:279
PATPhotonProducer(const edm::ParameterSet &iConfig)
bool isUninitialized() const
Definition: EDGetToken.h:73
const Point & position() const
position
Definition: BeamSpot.h:62
void setSubClusRawE3(float s)
Definition: Photon.h:283
edm::EDGetTokenT< EcalRecHitCollection > reducedBarrelRecHitCollectionToken_
const PflowIsolationVariables & getPflowIsolationVariables() const
Get Particle Flow Isolation variables block.
Definition: Photon.h:507
std::vector< edm::EDGetTokenT< edm::ValueMap< double > > > isolationValueTokens_
edm::InputTag reducedBarrelRecHitCollection_
def move(src, dest)
Definition: eostools.py:511
void setE3x3(float e)
Definition: Photon.h:252
float eBottom() const
edm::EDGetTokenT< reco::ConversionCollection > hConversionsToken_
void setSep(float s)
Definition: Photon.h:267
void fill(const edm::View< T > &coll, int idx, IsolationValuePairs &isolations) const
Definition: MultiIsolator.h:82
Produces the pat::Photon.
edm::EDGetTokenT< reco::GsfElectronCollection > electronToken_