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GenToInputProducer.cc
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1 
11 
12 // system include files
13 #include <boost/shared_ptr.hpp>
14 
15 // user include files
16 
27 
28 //#include <vector>
30 
36 
41 
42 #include "TMath.h"
43 
44 using namespace std;
45 using namespace edm;
46 
47 #ifndef M_PI
48 #define M_PI 3.14159265358979323846
49 #endif
50 
51 namespace l1t {
52 
53 //
54 // class declaration
55 //
56 
57  class GenToInputProducer : public EDProducer {
58  public:
59  explicit GenToInputProducer(const ParameterSet&);
61 
62  static void fillDescriptions(ConfigurationDescriptions& descriptions);
63 
64  private:
65  virtual void produce(Event&, EventSetup const&);
66  virtual void beginJob();
67  virtual void endJob();
68  virtual void beginRun(Run const&iR, EventSetup const&iE);
69  virtual void endRun(Run const& iR, EventSetup const& iE);
70 
71  int convertPhiToHW(double iphi, int steps);
72  int convertEtaToHW(double ieta, double minEta, double maxEta, int steps);
73  int convertPtToHW(double ipt, int maxPt, double step);
74 
75  // ----------member data ---------------------------
76  unsigned long long m_paramsCacheId; // Cache-ID from current parameters, to check if needs to be updated.
77  //boost::shared_ptr<const CaloParams> m_dbpars; // Database parameters for the trigger, to be updated as needed.
78  //boost::shared_ptr<const FirmwareVersion> m_fwv;
79  //boost::shared_ptr<FirmwareVersion> m_fwv; //not const during testing.
80 
81  // BX parameters
82  int bxFirst_;
83  int bxLast_;
84 
89 
94 
95  // Control how to end the job
98  int eventCnt_;
99 
100  // Tokens
104 
105  int counter_;
106 
107  std::vector<l1t::Muon> muonVec_bxm2;
108  std::vector<l1t::Muon> muonVec_bxm1;
109  std::vector<l1t::Muon> muonVec_bx0;
110  std::vector<l1t::Muon> muonVec_bxp1;
111 
112  std::vector<l1t::EGamma> egammaVec_bxm2;
113  std::vector<l1t::EGamma> egammaVec_bxm1;
114  std::vector<l1t::EGamma> egammaVec_bx0;
115  std::vector<l1t::EGamma> egammaVec_bxp1;
116 
117  std::vector<l1t::Tau> tauVec_bxm2;
118  std::vector<l1t::Tau> tauVec_bxm1;
119  std::vector<l1t::Tau> tauVec_bx0;
120  std::vector<l1t::Tau> tauVec_bxp1;
121 
122  std::vector<l1t::Jet> jetVec_bxm2;
123  std::vector<l1t::Jet> jetVec_bxm1;
124  std::vector<l1t::Jet> jetVec_bx0;
125  std::vector<l1t::Jet> jetVec_bxp1;
126 
127  std::vector<l1t::EtSum> etsumVec_bxm2;
128  std::vector<l1t::EtSum> etsumVec_bxm1;
129  std::vector<l1t::EtSum> etsumVec_bx0;
130  std::vector<l1t::EtSum> etsumVec_bxp1;
131 
132  };
133 
134  //
135  // constructors and destructor
136  //
137  GenToInputProducer::GenToInputProducer(const ParameterSet& iConfig)
138  {
139  // register what you produce
140  produces<BXVector<l1t::EGamma>>();
141  produces<BXVector<l1t::Muon>>();
142  produces<BXVector<l1t::Tau>>();
143  produces<BXVector<l1t::Jet>>();
144  produces<BXVector<l1t::EtSum>>();
145 
146  // Setup parameters
147  bxFirst_ = iConfig.getParameter<int>("bxFirst");
148  bxLast_ = iConfig.getParameter<int>("bxLast");
149 
150  maxNumMuCands_ = iConfig.getParameter<int>("maxMuCand");
151  maxNumJetCands_ = iConfig.getParameter<int>("maxJetCand");
152  maxNumEGCands_ = iConfig.getParameter<int>("maxEGCand");
153  maxNumTauCands_ = iConfig.getParameter<int>("maxTauCand");
154 
155  jetEtThreshold_ = iConfig.getParameter<double>("jetEtThreshold");
156  tauEtThreshold_ = iConfig.getParameter<double>("tauEtThreshold");
157  egEtThreshold_ = iConfig.getParameter<double>("egEtThreshold");
158  muEtThreshold_ = iConfig.getParameter<double>("muEtThreshold");
159 
160 
161  emptyBxTrailer_ = iConfig.getParameter<int>("emptyBxTrailer");
162  emptyBxEvt_ = iConfig.getParameter<int>("emptyBxEvt");
163 
164 
165  genParticlesToken = consumes <reco::GenParticleCollection> (std::string("genParticles"));
166  genJetsToken = consumes <reco::GenJetCollection> (std::string("ak5GenJets"));
167  genMetToken = consumes <reco::GenMETCollection> (std::string("genMetCalo"));
168 
169 
170  // set cache id to zero, will be set at first beginRun:
171  m_paramsCacheId = 0;
172  eventCnt_ = 0;
173  }
174 
175 
176  GenToInputProducer::~GenToInputProducer()
177  {
178  }
179 
180 
181 
182 //
183 // member functions
184 //
185 
186 // ------------ method called to produce the data ------------
187 void
188 GenToInputProducer::produce(Event& iEvent, const EventSetup& iSetup)
189 {
190 
191  eventCnt_++;
192 
193  LogDebug("l1t|Global") << "GenToInputProducer::produce function called...\n";
194 
195  // Setup vectors
196  std::vector<l1t::Muon> muonVec;
197  std::vector<l1t::EGamma> egammaVec;
198  std::vector<l1t::Tau> tauVec;
199  std::vector<l1t::Jet> jetVec;
200  std::vector<l1t::EtSum> etsumVec;
201 
202  // Set the range of BX....TO DO...move to Params or determine from param set.
203  int bxFirst = bxFirst_;
204  int bxLast = bxLast_;
205 
206 
207  // Default values objects
208  double MaxLepPt_ = 255;
209  double MaxJetPt_ = 1023;
210  double MaxEt_ = 2047;
211 
212  double MaxCaloEta_ = 5.0;
213  double MaxMuonEta_ = 2.45;
214 
215  double PhiStepCalo_ = 144;
216  double PhiStepMuon_ = 576;
217 
218  // eta scale
219  double EtaStepCalo_ = 230;
220  double EtaStepMuon_ = 450;
221 
222  // Et scale (in GeV)
223  double PtStep_ = 0.5;
224 
225 
226  //outputs
227  std::auto_ptr<l1t::EGammaBxCollection> egammas (new l1t::EGammaBxCollection(0, bxFirst, bxLast));
228  std::auto_ptr<l1t::MuonBxCollection> muons (new l1t::MuonBxCollection(0, bxFirst, bxLast));
229  std::auto_ptr<l1t::TauBxCollection> taus (new l1t::TauBxCollection(0, bxFirst, bxLast));
230  std::auto_ptr<l1t::JetBxCollection> jets (new l1t::JetBxCollection(0, bxFirst, bxLast));
231  std::auto_ptr<l1t::EtSumBxCollection> etsums (new l1t::EtSumBxCollection(0, bxFirst, bxLast));
232 
233  std::vector<int> mu_cands_index;
234  std::vector<int> eg_cands_index;
235  std::vector<int> tau_cands_index;
237  // Make sure that you can get genParticles
238  if( iEvent.getByToken(genParticlesToken, genParticles) ){
239 
240  for( size_t k = 0; k < genParticles->size(); k++ ){
241  const reco::Candidate & mcParticle = (*genParticles)[k];
242 
243  int status = mcParticle.status();
244  int pdgId = mcParticle.pdgId();
245  double pt = mcParticle.pt();
246 
247  // Only use status 1 particles (Tau's need to be allowed through..take status 2 taus)
248  if( status!=1 && !(abs(pdgId)==15 && status==2) ) continue;
249 
250  int absId = abs(pdgId);
251 
252  if( absId==11 && pt>=egEtThreshold_ ) eg_cands_index.push_back(k);
253  else if( absId==13 && pt>=muEtThreshold_ ) mu_cands_index.push_back(k);
254  else if( absId==15 && pt>=tauEtThreshold_ ) tau_cands_index.push_back(k);
255  }
256  }
257  else {
258  LogTrace("l1t|Global") << ">>> GenParticles collection not found!" << std::endl;
259  }
260 
261 
262 
263  // Muon Collection
264  int numMuCands = int( mu_cands_index.size() );
265  Int_t idxMu[numMuCands];
266  double muPtSorted[numMuCands];
267  for( int iMu=0; iMu<numMuCands; iMu++ ) muPtSorted[iMu] = genParticles->at(mu_cands_index[iMu]).pt();
268 
269  TMath::Sort(numMuCands,muPtSorted,idxMu);
270  for( int iMu=0; iMu<numMuCands; iMu++ ){
271 
272  if( iMu>=maxNumMuCands_ ) continue;
273 
274  const reco::Candidate & mcParticle = (*genParticles)[mu_cands_index[idxMu[iMu]]];
275 
276  int pt = convertPtToHW( mcParticle.pt(), MaxLepPt_, PtStep_ );
277  int eta = convertEtaToHW( mcParticle.eta(), -MaxMuonEta_, MaxMuonEta_, EtaStepMuon_);
278  int phi = convertPhiToHW( mcParticle.phi(), PhiStepMuon_ );
279  int qual = 4;
280  int iso = 1;
281  int charge = ( mcParticle.charge()>0 ) ? 1 : 0;
282  int chargeValid = 1;
283  int mip = 1;
284  int tag = 1;
285 
286  // Eta outside of acceptance
287  if( eta>=9999 ) continue;
288 
289  ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<double> > *p4 = new ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<double> >();
290 
291  l1t::Muon mu(*p4, pt, eta, phi, qual, charge, chargeValid, iso, mip, tag);
292  muonVec.push_back(mu);
293  }
294 
295 
296  // EG Collection
297  int numEgCands = int( eg_cands_index.size() );
298  Int_t idxEg[numEgCands];
299  double egPtSorted[numEgCands];
300  for( int iEg=0; iEg<numEgCands; iEg++ ) egPtSorted[iEg] = genParticles->at(eg_cands_index[iEg]).pt();
301 
302  TMath::Sort(numEgCands,egPtSorted,idxEg);
303  for( int iEg=0; iEg<numEgCands; iEg++ ){
304 
305  if( iEg>=maxNumEGCands_ ) continue;
306 
307  const reco::Candidate & mcParticle = (*genParticles)[eg_cands_index[idxEg[iEg]]];
308 
309  int pt = convertPtToHW( mcParticle.pt(), MaxLepPt_, PtStep_ );
310  int eta = convertEtaToHW( mcParticle.eta(), -MaxCaloEta_, MaxCaloEta_, EtaStepCalo_ );
311  int phi = convertPhiToHW( mcParticle.phi(), PhiStepCalo_ );
312  int qual = 1;
313  int iso = 1;
314 
315  // Eta outside of acceptance
316  if( eta>=9999 ) continue;
317 
318  ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<double> > *p4 = new ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<double> >();
319 
320  l1t::EGamma eg(*p4, pt, eta, phi, qual, iso);
321  egammaVec.push_back(eg);
322  }
323 
324 
325 
326  // Tau Collection
327  int numTauCands = int( tau_cands_index.size() );
328  Int_t idxTau[numTauCands];
329  double tauPtSorted[numTauCands];
330  for( int iTau=0; iTau<numTauCands; iTau++ ) tauPtSorted[iTau] = genParticles->at(tau_cands_index[iTau]).pt();
331 
332  TMath::Sort(numTauCands,tauPtSorted,idxTau);
333  for( int iTau=0; iTau<numTauCands; iTau++ ){
334 
335  if( iTau>=maxNumTauCands_ ) continue;
336 
337  const reco::Candidate & mcParticle = (*genParticles)[tau_cands_index[idxTau[iTau]]];
338 
339  int pt = convertPtToHW( mcParticle.pt(), MaxLepPt_, PtStep_ );
340  int eta = convertEtaToHW( mcParticle.eta(), -MaxCaloEta_, MaxCaloEta_, EtaStepCalo_);
341  int phi = convertPhiToHW( mcParticle.phi(), PhiStepCalo_ );
342  int qual = 1;
343  int iso = 1;
344 
345  // Eta outside of acceptance
346  if( eta>=9999 ) continue;
347 
348  ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<double> > *p4 = new ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<double> >();
349 
350  l1t::Tau tau(*p4, pt, eta, phi, qual, iso);
351  tauVec.push_back(tau);
352  }
353 
354 
355  // Temporary hack to increase number of EGs and taus
356  int maxOtherEGs = 4;
357  int maxOtherTaus = 8;
358  int numCurrentEGs = int( egammaVec.size() );
359  int numCurrentTaus = int( tauVec.size() );
360 
361  int numExtraEGs=0, numExtraTaus=0;
362  // end hack
363 
364  // Use to sum the energy of the objects in the event for ETT and HTT
365  // sum all jets
366  double sumEt = 0;
367 
368  int nJet = 0;
370  // Make sure that you can get genJets
371  if( iEvent.getByToken(genJetsToken, genJets) ){ // Jet Collection
372  for(reco::GenJetCollection::const_iterator genJet = genJets->begin(); genJet!=genJets->end(); ++genJet ){
373 
374  //Keep running sum of total Et
375  sumEt += genJet->et();
376 
377  // Apply pt and eta cut?
378  if( genJet->pt()<jetEtThreshold_ ) continue;
379 
380  //
381  if( nJet>=maxNumJetCands_ ) continue;
382  ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<double> > *p4 = new ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<double> >();
383 
384  int pt = convertPtToHW( genJet->et(), MaxJetPt_, PtStep_ );
385  int eta = convertEtaToHW( genJet->eta(), -MaxCaloEta_, MaxCaloEta_, EtaStepCalo_ );
386  int phi = convertPhiToHW( genJet->phi(), PhiStepCalo_ );
387 
388  // Eta outside of acceptance
389  if( eta>=9999 ) continue;
390 
391  int qual = 0;
392 
393  l1t::Jet jet(*p4, pt, eta, phi, qual);
394  jetVec.push_back(jet);
395 
396  nJet++;
397 
398  // Temporary hack to increase number of EGs and taus
399  if( (numExtraEGs+numCurrentEGs)<maxNumEGCands_ && numExtraEGs<maxOtherEGs ){
400  numExtraEGs++;
401 
402  int EGpt = convertPtToHW( genJet->et(), MaxLepPt_, PtStep_ );
403  int EGeta = convertEtaToHW( genJet->eta(), -MaxCaloEta_, MaxCaloEta_, EtaStepCalo_ );
404  int EGphi = convertPhiToHW( genJet->phi(), PhiStepCalo_ );
405 
406  int EGqual = 1;
407  int EGiso = 1;
408 
409  l1t::EGamma eg(*p4, EGpt, EGeta, EGphi, EGqual, EGiso);
410  egammaVec.push_back(eg);
411  }
412 
413  if( (numExtraTaus+numCurrentTaus)<maxNumTauCands_ && numExtraTaus<maxOtherTaus ){
414  numExtraTaus++;
415 
416  int Taupt = convertPtToHW( genJet->et(), MaxLepPt_, PtStep_ );
417  int Taueta = convertEtaToHW( genJet->eta(), -MaxCaloEta_, MaxCaloEta_, EtaStepCalo_ );
418  int Tauphi = convertPhiToHW( genJet->phi(), PhiStepCalo_ );
419  int Tauqual = 1;
420  int Tauiso = 1;
421 
422  l1t::Tau tau(*p4, Taupt, Taueta, Tauphi, Tauqual, Tauiso);
423  tauVec.push_back(tau);
424  }
425  // end hack
426  }
427  }
428  else {
429  LogTrace("l1t|Global") << ">>> GenJets collection not found!" << std::endl;
430  }
431 
432 
434  // Make sure that you can get genMET
435  if( iEvent.getByToken(genMetToken, genMet) ){
436  int pt = convertPtToHW( genMet->front().pt(), MaxEt_, PtStep_ );
437  int phi = convertPhiToHW( genMet->front().phi(), PhiStepCalo_ );
438 
439  ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<double> > *p4 = new ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<double> >();
440 
441  // Missing Et
442  l1t::EtSum etmiss(*p4, l1t::EtSum::EtSumType::kMissingEt,pt, 0,phi, 0);
443  etsumVec.push_back(etmiss);
444 
445  // Make Missing Ht slightly smaller and rotated (These are all fake inputs anyway...not supposed to be realistic)
446  pt = convertPtToHW( genMet->front().pt()*0.9, MaxEt_, PtStep_ );
447  phi = convertPhiToHW( genMet->front().phi()+ 3.14/5., PhiStepCalo_ );
448 
449  l1t::EtSum htmiss(*p4, l1t::EtSum::EtSumType::kMissingHt,pt, 0,phi, 0);
450  etsumVec.push_back(htmiss);
451 
452 
453  }
454  else {
455  LogTrace("l1t|Global") << ">>> GenMet collection not found!" << std::endl;
456  }
457 
458 
459 // Put the total Et into EtSums (Make HTT slightly smaller to tell them apart....not supposed to be realistic)
460  int pt = convertPtToHW( sumEt, 2047, PtStep_ );
461  ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<double> > *p4 = new ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<double> >();
462  l1t::EtSum etTotal(*p4, l1t::EtSum::EtSumType::kTotalEt,pt, 0, 0, 0);
463  etsumVec.push_back(etTotal);
464 
465  pt = convertPtToHW( sumEt*0.9, 2047, PtStep_ );
466  l1t::EtSum htTotal(*p4, l1t::EtSum::EtSumType::kTotalHt,pt, 0, 0, 0);
467  etsumVec.push_back(htTotal);
468 
469 
470  // Insert all the bx into the L1 Collections
471  printf("Event %i EmptyBxEvt %i emptyBxTrailer %i diff %i \n",eventCnt_,emptyBxEvt_,emptyBxTrailer_,(emptyBxEvt_ - eventCnt_));
472 
473  // Fill Muons
474  for( int iMu=0; iMu<int(muonVec_bxm2.size()); iMu++ ){
475  muons->push_back(-2, muonVec_bxm2[iMu]);
476  }
477  for( int iMu=0; iMu<int(muonVec_bxm1.size()); iMu++ ){
478  muons->push_back(-1, muonVec_bxm1[iMu]);
479  }
480  for( int iMu=0; iMu<int(muonVec_bx0.size()); iMu++ ){
481  muons->push_back(0, muonVec_bx0[iMu]);
482  }
483  for( int iMu=0; iMu<int(muonVec_bxp1.size()); iMu++ ){
484  muons->push_back(1, muonVec_bxp1[iMu]);
485  }
486  if(emptyBxTrailer_<=(emptyBxEvt_ - eventCnt_)) {
487  for( int iMu=0; iMu<int(muonVec.size()); iMu++ ){
488  muons->push_back(2, muonVec[iMu]);
489  }
490  } else {
491  // this event is part of empty trailer...clear out data
492  muonVec.clear();
493  }
494 
495  // Fill Egammas
496  for( int iEG=0; iEG<int(egammaVec_bxm2.size()); iEG++ ){
497  egammas->push_back(-2, egammaVec_bxm2[iEG]);
498  }
499  for( int iEG=0; iEG<int(egammaVec_bxm1.size()); iEG++ ){
500  egammas->push_back(-1, egammaVec_bxm1[iEG]);
501  }
502  for( int iEG=0; iEG<int(egammaVec_bx0.size()); iEG++ ){
503  egammas->push_back(0, egammaVec_bx0[iEG]);
504  }
505  for( int iEG=0; iEG<int(egammaVec_bxp1.size()); iEG++ ){
506  egammas->push_back(1, egammaVec_bxp1[iEG]);
507  }
508  if(emptyBxTrailer_<=(emptyBxEvt_ - eventCnt_)) {
509  for( int iEG=0; iEG<int(egammaVec.size()); iEG++ ){
510  egammas->push_back(2, egammaVec[iEG]);
511  }
512  } else {
513  // this event is part of empty trailer...clear out data
514  egammaVec.clear();
515  }
516 
517  // Fill Taus
518  for( int iTau=0; iTau<int(tauVec_bxm2.size()); iTau++ ){
519  taus->push_back(-2, tauVec_bxm2[iTau]);
520  }
521  for( int iTau=0; iTau<int(tauVec_bxm1.size()); iTau++ ){
522  taus->push_back(-1, tauVec_bxm1[iTau]);
523  }
524  for( int iTau=0; iTau<int(tauVec_bx0.size()); iTau++ ){
525  taus->push_back(0, tauVec_bx0[iTau]);
526  }
527  for( int iTau=0; iTau<int(tauVec_bxp1.size()); iTau++ ){
528  taus->push_back(1, tauVec_bxp1[iTau]);
529  }
530  if(emptyBxTrailer_<=(emptyBxEvt_ - eventCnt_)) {
531  for( int iTau=0; iTau<int(tauVec.size()); iTau++ ){
532  taus->push_back(2, tauVec[iTau]);
533  }
534  } else {
535  // this event is part of empty trailer...clear out data
536  tauVec.clear();
537  }
538 
539  // Fill Jets
540  for( int iJet=0; iJet<int(jetVec_bxm2.size()); iJet++ ){
541  jets->push_back(-2, jetVec_bxm2[iJet]);
542  }
543  for( int iJet=0; iJet<int(jetVec_bxm1.size()); iJet++ ){
544  jets->push_back(-1, jetVec_bxm1[iJet]);
545  }
546  for( int iJet=0; iJet<int(jetVec_bx0.size()); iJet++ ){
547  jets->push_back(0, jetVec_bx0[iJet]);
548  }
549  for( int iJet=0; iJet<int(jetVec_bxp1.size()); iJet++ ){
550  jets->push_back(1, jetVec_bxp1[iJet]);
551  }
552  if(emptyBxTrailer_<=(emptyBxEvt_ - eventCnt_)) {
553  for( int iJet=0; iJet<int(jetVec.size()); iJet++ ){
554  jets->push_back(2, jetVec[iJet]);
555  }
556  } else {
557  // this event is part of empty trailer...clear out data
558  jetVec.clear();
559  }
560 
561  // Fill Etsums
562  for( int iETsum=0; iETsum<int(etsumVec_bxm2.size()); iETsum++ ){
563  etsums->push_back(-2, etsumVec_bxm2[iETsum]);
564  }
565  for( int iETsum=0; iETsum<int(etsumVec_bxm1.size()); iETsum++ ){
566  etsums->push_back(-1, etsumVec_bxm1[iETsum]);
567  }
568  for( int iETsum=0; iETsum<int(etsumVec_bx0.size()); iETsum++ ){
569  etsums->push_back(0, etsumVec_bx0[iETsum]);
570  }
571  for( int iETsum=0; iETsum<int(etsumVec_bxp1.size()); iETsum++ ){
572  etsums->push_back(1, etsumVec_bxp1[iETsum]);
573  }
574  if(emptyBxTrailer_<=(emptyBxEvt_ - eventCnt_)) {
575  for( int iETsum=0; iETsum<int(etsumVec.size()); iETsum++ ){
576  etsums->push_back(2, etsumVec[iETsum]);
577  }
578  } else {
579  // this event is part of empty trailer...clear out data
580  etsumVec.clear();
581  }
582 
583 
584  iEvent.put(egammas);
585  iEvent.put(muons);
586  iEvent.put(taus);
587  iEvent.put(jets);
588  iEvent.put(etsums);
589 
590  // Now shift the bx data by one to prepare for next event.
591  muonVec_bxm2 = muonVec_bxm1;
592  egammaVec_bxm2 = egammaVec_bxm1;
593  tauVec_bxm2 = tauVec_bxm1;
594  jetVec_bxm2 = jetVec_bxm1;
595  etsumVec_bxm2 = etsumVec_bxm1;
596 
597  muonVec_bxm1 = muonVec_bx0;
598  egammaVec_bxm1 = egammaVec_bx0;
599  tauVec_bxm1 = tauVec_bx0;
600  jetVec_bxm1 = jetVec_bx0;
601  etsumVec_bxm1 = etsumVec_bx0;
602 
603  muonVec_bx0 = muonVec_bxp1;
604  egammaVec_bx0 = egammaVec_bxp1;
605  tauVec_bx0 = tauVec_bxp1;
606  jetVec_bx0 = jetVec_bxp1;
607  etsumVec_bx0 = etsumVec_bxp1;
608 
609  muonVec_bxp1 = muonVec;
610  egammaVec_bxp1 = egammaVec;
611  tauVec_bxp1 = tauVec;
612  jetVec_bxp1 = jetVec;
613  etsumVec_bxp1 = etsumVec;
614 
615 }
616 
617 // ------------ method called once each job just before starting event loop ------------
618 void
620 {
621 }
622 
623 // ------------ method called once each job just after ending the event loop ------------
624 void
625 GenToInputProducer::endJob() {
626 }
627 
628 // ------------ method called when starting to processes a run ------------
629 
630 void GenToInputProducer::beginRun(Run const&iR, EventSetup const&iE){
631 
632  LogDebug("l1t|Global") << "GenToInputProducer::beginRun function called...\n";
633 
634  counter_ = 0;
635 }
636 
637 // ------------ method called when ending the processing of a run ------------
638 void GenToInputProducer::endRun(Run const& iR, EventSetup const& iE){
639 
640 }
641 
642 
643 // ------------ methods to convert from physical to HW values ------------
644 int GenToInputProducer::convertPhiToHW(double iphi, int steps){
645 
646  double phiMax = 2 * M_PI;
647  if( iphi < 0 ) iphi += 2*M_PI;
648  if( iphi > phiMax) iphi -= phiMax;
649 
650  int hwPhi = int( (iphi/phiMax)*steps + 0.00001 );
651  return hwPhi;
652 }
653 
654 int GenToInputProducer::convertEtaToHW(double ieta, double minEta, double maxEta, int steps){
655 
656  double binWidth = (maxEta - minEta)/steps;
657 
658  //if we are outside the limits, set error
659  if(ieta < minEta) return 99999;//ieta = minEta+binWidth/2.;
660  if(ieta > maxEta) return 99999;//ieta = maxEta-binWidth/2.;
661 
662  int binNum = (int)(ieta/binWidth);
663  if(ieta<0.) binNum--;
664 
665 // unsigned int hwEta = binNum & bitMask;
666 // Remove masking for BXVectors...only assume in raw data
667 
668  return binNum;
669 }
670 
671 int GenToInputProducer::convertPtToHW(double ipt, int maxPt, double step){
672 
673  int hwPt = int( ipt/step + 0.0001 );
674  // if above max Pt, set to largest value
675  if( hwPt > maxPt ) hwPt = maxPt;
676 
677  return hwPt;
678 }
679 
680 
681 // ------------ method fills 'descriptions' with the allowed parameters for the module ------------
682 void
683 GenToInputProducer::fillDescriptions(ConfigurationDescriptions& descriptions) {
684  //The following says we do not know what parameters are allowed so do no validation
685  // Please change this to state exactly what you do use, even if it is no parameters
687  desc.setUnknown();
688  descriptions.addDefault(desc);
689 }
690 
691 } // namespace
692 
693 //define this as a plug-in
#define LogDebug(id)
double MaxEt_
T getParameter(std::string const &) const
std::vector< l1t::EtSum > etsumVec_bxm1
std::vector< l1t::Muon > muonVec_bxm1
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:446
std::vector< l1t::EtSum > etsumVec_bx0
virtual float eta() const =0
momentum pseudorapidity
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
std::vector< l1t::Muon > muonVec_bxp1
virtual int status() const =0
status word
Definition: Tau.h:13
std::vector< l1t::Tau > tauVec_bx0
std::vector< l1t::Tau > tauVec_bxp1
std::vector< l1t::Tau > tauVec_bxm2
std::vector< l1t::Muon > muonVec_bxm2
virtual float phi() const =0
momentum azimuthal angle
std::vector< l1t::EtSum > etsumVec_bxp1
double maxEta
T eta() const
double MaxMuonEta_
void beginJob()
Definition: Breakpoints.cc:15
std::vector< l1t::EGamma > egammaVec_bxm1
Definition: Jet.h:13
double MaxJetPt_
virtual float pt() const =0
transverse momentum
double PhiStepCalo_
double EtaStepMuon_
int iEvent
Definition: GenABIO.cc:230
unsigned long long m_paramsCacheId
void addDefault(ParameterSetDescription const &psetDescription)
std::vector< l1t::EGamma > egammaVec_bxm2
std::vector< l1t::EGamma > egammaVec_bxp1
OrphanHandle< PROD > put(std::auto_ptr< PROD > product)
Put a new product.
Definition: Event.h:113
edm::EDGetTokenT< reco::GenJetCollection > genJetsToken
double p4[4]
Definition: TauolaWrapper.h:92
std::vector< l1t::Muon > muonVec_bx0
vector< PseudoJet > jets
std::vector< l1t::Tau > tauVec_bxm1
std::vector< l1t::Jet > jetVec_bxm1
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
double PtStep_
double MaxCaloEta_
double PhiStepMuon_
virtual int charge() const =0
electric charge
const int mu
Definition: Constants.h:22
std::vector< l1t::Jet > jetVec_bxp1
std::vector< l1t::EGamma > egammaVec_bx0
#define LogTrace(id)
Definition: Muon.h:12
int k[5][pyjets_maxn]
virtual int pdgId() const =0
PDG identifier.
#define M_PI
double MaxLepPt_
TLorentzVector genMet(const HepMC::GenEvent *all, double etamin=-9999., double etamax=9999.)
edm::EDGetTokenT< reco::GenMETCollection > genMetToken
tuple muons
Definition: patZpeak.py:38
edm::EDGetTokenT< reco::GenParticleCollection > genParticlesToken
tuple status
Definition: ntuplemaker.py:245
std::vector< l1t::Jet > jetVec_bxm2
std::vector< l1t::EtSum > etsumVec_bxm2
std::vector< l1t::Jet > jetVec_bx0
Definition: Run.h:41
Definition: DDAxes.h:10
double EtaStepCalo_