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BPHWriteSpecificDecay.cc
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49 #include <algorithm>
50 #include <set>
51 #include <string>
52 #include <iostream>
53 using namespace std;
54 
55 #define SET_PAR(TYPE, NAME, PSET) (NAME = PSET.getParameter<TYPE>(#NAME))
56 // SET_PAR(string,xyz,ps);
57 // is equivalent to
58 // ( xyz = ps.getParameter< string >( "xyx" ) )
59 
61  usePV = (!SET_PAR(string, pVertexLabel, ps).empty());
62  usePM = (!SET_PAR(string, patMuonLabel, ps).empty());
63  useCC = (!SET_PAR(string, ccCandsLabel, ps).empty());
64  usePF = (!SET_PAR(string, pfCandsLabel, ps).empty());
65  usePC = (!SET_PAR(string, pcCandsLabel, ps).empty());
66  useGP = (!SET_PAR(string, gpCandsLabel, ps).empty());
67  useK0 = (!SET_PAR(string, k0CandsLabel, ps).empty());
68  useL0 = (!SET_PAR(string, l0CandsLabel, ps).empty());
69  useKS = (!SET_PAR(string, kSCandsLabel, ps).empty());
70  useLS = (!SET_PAR(string, lSCandsLabel, ps).empty());
71  SET_PAR(string, oniaName, ps);
72  SET_PAR(string, sdName, ps);
73  SET_PAR(string, ssName, ps);
74  SET_PAR(string, buName, ps);
75  SET_PAR(string, bpName, ps);
76  SET_PAR(string, bdName, ps);
77  SET_PAR(string, bsName, ps);
78  SET_PAR(string, k0Name, ps);
79  SET_PAR(string, l0Name, ps);
80  SET_PAR(string, b0Name, ps);
81  SET_PAR(string, lbName, ps);
82  SET_PAR(string, bcName, ps);
83  SET_PAR(string, psi2SName, ps);
84  SET_PAR(string, x3872Name, ps);
85 
86  SET_PAR(bool, writeMomentum, ps);
87  SET_PAR(bool, writeVertex, ps);
88 
89  rMap["Onia"] = Onia;
90  rMap["PhiMuMu"] = Pmm;
91  rMap["Psi1"] = Psi1;
92  rMap["Psi2"] = Psi2;
93  rMap["Ups"] = Ups;
94  rMap["Ups1"] = Ups1;
95  rMap["Ups2"] = Ups2;
96  rMap["Ups3"] = Ups3;
97  rMap["Kx0"] = Kx0;
98  rMap["PhiKK"] = Pkk;
99  rMap["Bu"] = Bu;
100  rMap["Bp"] = Bp;
101  rMap["Bd"] = Bd;
102  rMap["Bs"] = Bs;
103  rMap["K0s"] = K0s;
104  rMap["Lambda0"] = Lambda0;
105  rMap["B0"] = B0;
106  rMap["Lambdab"] = Lambdab;
107  rMap["Bc"] = Bc;
108  rMap["Psi2S"] = Psi2S;
109  rMap["X3872"] = X3872;
110 
111  pMap["ptMin"] = ptMin;
112  pMap["etaMax"] = etaMax;
113  pMap["mJPsiMin"] = mPsiMin;
114  pMap["mJPsiMax"] = mPsiMax;
115  pMap["mKx0Min"] = mKx0Min;
116  pMap["mKx0Max"] = mKx0Max;
117  pMap["mPhiMin"] = mPhiMin;
118  pMap["mPhiMax"] = mPhiMax;
119  pMap["mK0sMin"] = mK0sMin;
120  pMap["mK0sMax"] = mK0sMax;
121  pMap["mLambda0Min"] = mLambda0Min;
122  pMap["mLambda0Max"] = mLambda0Max;
123  pMap["massMin"] = massMin;
124  pMap["massMax"] = massMax;
125  pMap["probMin"] = probMin;
126  pMap["massFitMin"] = mFitMin;
127  pMap["massFitMax"] = mFitMax;
128  pMap["constrMass"] = constrMass;
129  pMap["constrSigma"] = constrSigma;
130 
131  fMap["requireJPsi"] = requireJPsi;
132  fMap["constrMJPsi"] = constrMJPsi;
133  fMap["constrMPsi2"] = constrMPsi2;
134 
135  fMap["writeCandidate"] = writeCandidate;
136 
137  recoOnia = recoKx0 = writeKx0 = recoPkk = writePkk = recoBu = writeBu = recoBp = writeBp = recoBd = writeBd = recoBs =
138  writeBs = recoK0s = writeK0s = recoLambda0 = writeLambda0 = recoB0 = writeB0 = recoLambdab = writeLambdab =
139  recoBc = writeBc = recoPsi2S = writePsi2S = recoX3872 = writeX3872 = false;
140 
141  writeOnia = true;
142  const vector<edm::ParameterSet> recoSelect = ps.getParameter<vector<edm::ParameterSet> >("recoSelect");
143  int iSel;
144  int nSel = recoSelect.size();
145  for (iSel = 0; iSel < nSel; ++iSel)
146  setRecoParameters(recoSelect[iSel]);
147  if (!recoOnia)
148  writeOnia = false;
149 
150  if (recoBu)
151  recoOnia = true;
152  if (recoBd)
153  recoOnia = recoKx0 = true;
154  if (recoBs)
155  recoOnia = recoPkk = true;
156  if (recoB0)
157  recoOnia = recoK0s = true;
158  if (recoLambdab)
159  recoOnia = recoLambda0 = true;
160  if (recoBc)
161  recoOnia = true;
162  if (recoPsi2S)
163  recoOnia = true;
164  if (recoX3872)
165  recoOnia = true;
166  if (writeBu)
167  writeOnia = true;
168  if (writeBd)
169  writeOnia = writeKx0 = true;
170  if (writeBs)
171  writeOnia = writePkk = true;
172  if (writeB0)
173  writeOnia = writeK0s = true;
174  if (writeLambdab)
175  writeOnia = writeLambda0 = true;
176  if (writeBc)
177  writeOnia = true;
178  if (writePsi2S)
179  writeOnia = true;
180  if (writeX3872)
181  writeOnia = true;
182  if (recoBp && !recoPsi2S && !recoX3872)
183  recoPsi2S = true;
184  if (writeBp && !writePsi2S && !writeX3872)
185  writePsi2S = true;
186  allKx0 = (parMap[Kx0][requireJPsi] < 0);
187  allPkk = (parMap[Pkk][requireJPsi] < 0);
188  allK0s = (parMap[K0s][requireJPsi] < 0);
189  allLambda0 = (parMap[Lambda0][requireJPsi] < 0);
190 
191  esConsume<MagneticField, IdealMagneticFieldRecord>(magFieldToken);
192  esConsume<TransientTrackBuilder, TransientTrackRecord>(ttBToken, "TransientTrackBuilder");
193  if (usePV)
194  consume<vector<reco::Vertex> >(pVertexToken, pVertexLabel);
195  if (usePM)
196  consume<pat::MuonCollection>(patMuonToken, patMuonLabel);
197  if (useCC)
198  consume<vector<pat::CompositeCandidate> >(ccCandsToken, ccCandsLabel);
199  if (usePF)
200  consume<vector<reco::PFCandidate> >(pfCandsToken, pfCandsLabel);
201  if (usePC)
202  consume<vector<BPHTrackReference::candidate> >(pcCandsToken, pcCandsLabel);
203  if (useGP)
204  consume<vector<pat::GenericParticle> >(gpCandsToken, gpCandsLabel);
205  if (useK0)
206  consume<vector<reco::VertexCompositeCandidate> >(k0CandsToken, k0CandsLabel);
207  if (useL0)
208  consume<vector<reco::VertexCompositeCandidate> >(l0CandsToken, l0CandsLabel);
209  if (useKS)
210  consume<vector<reco::VertexCompositePtrCandidate> >(kSCandsToken, kSCandsLabel);
211  if (useLS)
212  consume<vector<reco::VertexCompositePtrCandidate> >(lSCandsToken, lSCandsLabel);
213 
214  if (writeOnia)
215  produces<pat::CompositeCandidateCollection>(oniaName);
216  if (writeKx0)
217  produces<pat::CompositeCandidateCollection>(sdName);
218  if (writePkk)
219  produces<pat::CompositeCandidateCollection>(ssName);
220  if (writeBu)
221  produces<pat::CompositeCandidateCollection>(buName);
222  if (writeBp)
223  produces<pat::CompositeCandidateCollection>(bpName);
224  if (writeBd)
225  produces<pat::CompositeCandidateCollection>(bdName);
226  if (writeBs)
227  produces<pat::CompositeCandidateCollection>(bsName);
228  if (writeK0s)
229  produces<pat::CompositeCandidateCollection>(k0Name);
230  if (writeLambda0)
231  produces<pat::CompositeCandidateCollection>(l0Name);
232  if (writeB0)
233  produces<pat::CompositeCandidateCollection>(b0Name);
234  if (writeLambdab)
235  produces<pat::CompositeCandidateCollection>(lbName);
236  if (writeBc)
237  produces<pat::CompositeCandidateCollection>(bcName);
238  if (writePsi2S)
239  produces<pat::CompositeCandidateCollection>(psi2SName);
240  if (writeX3872)
241  produces<pat::CompositeCandidateCollection>(x3872Name);
242 }
243 
246  desc.add<string>("pVertexLabel", "");
247  desc.add<string>("patMuonLabel", "");
248  desc.add<string>("ccCandsLabel", "");
249  desc.add<string>("pfCandsLabel", "");
250  desc.add<string>("pcCandsLabel", "");
251  desc.add<string>("gpCandsLabel", "");
252  desc.add<string>("k0CandsLabel", "");
253  desc.add<string>("l0CandsLabel", "");
254  desc.add<string>("kSCandsLabel", "");
255  desc.add<string>("lSCandsLabel", "");
256  desc.add<string>("oniaName", "oniaCand");
257  desc.add<string>("sdName", "kx0Cand");
258  desc.add<string>("ssName", "phiCand");
259  desc.add<string>("buName", "buFitted");
260  desc.add<string>("bpName", "bpFitted");
261  desc.add<string>("bdName", "bdFitted");
262  desc.add<string>("bsName", "bsFitted");
263  desc.add<string>("k0Name", "k0Fitted");
264  desc.add<string>("l0Name", "l0Fitted");
265  desc.add<string>("b0Name", "b0Fitted");
266  desc.add<string>("lbName", "lbFitted");
267  desc.add<string>("bcName", "bcFitted");
268  desc.add<string>("psi2SName", "psi2SFitted");
269  desc.add<string>("x3872Name", "x3872Fitted");
270  desc.add<bool>("writeVertex", true);
271  desc.add<bool>("writeMomentum", true);
273  dpar.add<string>("name");
274  dpar.add<double>("ptMin", -2.0e35);
275  dpar.add<double>("etaMax", -2.0e35);
276  dpar.add<double>("mJPsiMin", -2.0e35);
277  dpar.add<double>("mJPsiMax", -2.0e35);
278  dpar.add<double>("mKx0Min", -2.0e35);
279  dpar.add<double>("mKx0Max", -2.0e35);
280  dpar.add<double>("mPhiMin", -2.0e35);
281  dpar.add<double>("mPhiMax", -2.0e35);
282  dpar.add<double>("mK0sMin", -2.0e35);
283  dpar.add<double>("mK0sMax", -2.0e35);
284  dpar.add<double>("mLambda0Min", -2.0e35);
285  dpar.add<double>("mLambda0Max", -2.0e35);
286  dpar.add<double>("massMin", -2.0e35);
287  dpar.add<double>("massMax", -2.0e35);
288  dpar.add<double>("probMin", -2.0e35);
289  dpar.add<double>("massFitMin", -2.0e35);
290  dpar.add<double>("massFitMax", -2.0e35);
291  dpar.add<double>("constrMass", -2.0e35);
292  dpar.add<double>("constrSigma", -2.0e35);
293  dpar.add<bool>("requireJPsi", true);
294  dpar.add<bool>("constrMJPsi", true);
295  dpar.add<bool>("constrMPsi2", true);
296  dpar.add<bool>("writeCandidate", true);
297  vector<edm::ParameterSet> rpar;
298  desc.addVPSet("recoSelect", dpar, rpar);
299  descriptions.add("bphWriteSpecificDecay", desc);
300  return;
301 }
302 
305  fill(ev, ew);
306  if (writeOnia)
307  write(ev, lFull, oniaName);
308  if (writeKx0)
309  write(ev, lSd, sdName);
310  if (writePkk)
311  write(ev, lSs, ssName);
312  if (writeBu)
313  write(ev, lBu, buName);
314  if (writeBp)
315  write(ev, lBp, bpName);
316  if (writeBd)
317  write(ev, lBd, bdName);
318  if (writeBs)
319  write(ev, lBs, bsName);
320  if (writeK0s)
321  write(ev, lK0, k0Name);
322  if (writeLambda0)
323  write(ev, lL0, l0Name);
324  if (writeB0)
325  write(ev, lB0, b0Name);
326  if (writeLambdab)
327  write(ev, lLb, lbName);
328  if (writeBc)
329  write(ev, lBc, bcName);
330  if (writePsi2S)
331  write(ev, lPsi2S, psi2SName);
332  if (writeX3872)
333  write(ev, lX3872, x3872Name);
334  return;
335 }
336 
338  lFull.clear();
339  lJPsi.clear();
340  lSd.clear();
341  lSs.clear();
342  lBu.clear();
343  lBp.clear();
344  lBd.clear();
345  lBs.clear();
346  lK0.clear();
347  lL0.clear();
348  lB0.clear();
349  lLb.clear();
350  lBc.clear();
351  lPsi2S.clear();
352  lX3872.clear();
353  jPsiOMap.clear();
354  daughMap.clear();
355  pvRefMap.clear();
356  ccRefMap.clear();
357 
358  // get magnetic field
359  // data are got through "BPHESTokenWrapper" interface to allow
360  // uniform access in different CMSSW versions
362  magFieldToken.get(*es.get(), magneticField);
363 
364  // get object collections
365  // collections are got through "BPHTokenWrapper" interface to allow
366  // uniform access in different CMSSW versions
367 
369  pVertexToken.get(ev, pVertices);
370  int npv = pVertices->size();
371 
372  int nrc = 0;
373 
374  // get reco::PFCandidate collection (in full AOD )
376  if (usePF) {
377  pfCandsToken.get(ev, pfCands);
378  nrc = pfCands->size();
379  }
380 
381  // get pat::PackedCandidate collection (in MiniAOD)
382  // pat::PackedCandidate is not defined in CMSSW_5XY, so a
383  // typedef (BPHTrackReference::candidate) is used, actually referring
384  // to pat::PackedCandidate only for CMSSW versions where it's defined
386  if (usePC) {
387  pcCandsToken.get(ev, pcCands);
388  nrc = pcCands->size();
389  }
390 
391  // get pat::GenericParticle collection (in skimmed data)
393  if (useGP) {
394  gpCandsToken.get(ev, gpCands);
395  nrc = gpCands->size();
396  }
397 
398  // get pat::Muon collection (in full AOD and MiniAOD)
400  if (usePM) {
401  patMuonToken.get(ev, patMuon);
402  }
403 
404  // get K0 reco::VertexCompositeCandidate collection (in full AOD)
406  if (useK0) {
407  k0CandsToken.get(ev, k0Cand);
408  }
409 
410  // get Lambda0 reco::VertexCompositeCandidate collection (in full AOD)
412  if (useL0) {
413  l0CandsToken.get(ev, l0Cand);
414  }
415 
416  // get K0 reco::VertexCompositePtrCandidate collection (in MiniAOD)
418  if (useKS) {
419  kSCandsToken.get(ev, kSCand);
420  }
421 
422  // get Lambda0 reco::VertexCompositePtrCandidate collection (in MiniAOD)
424  if (useLS) {
425  lSCandsToken.get(ev, lSCand);
426  }
427 
428  // get muons from pat::CompositeCandidate objects describing onia;
429  // muons from all composite objects are copied to an unique std::vector
430  vector<const reco::Candidate*> muDaugs;
431  set<const pat::Muon*> muonSet;
432  typedef multimap<const reco::Candidate*, const pat::CompositeCandidate*> mu_cc_map;
433  mu_cc_map muCCMap;
434  if (useCC) {
436  ccCandsToken.get(ev, ccCands);
437  int n = ccCands->size();
438  muDaugs.clear();
439  muDaugs.reserve(n);
440  muonSet.clear();
441  set<const pat::Muon*>::const_iterator iter;
442  set<const pat::Muon*>::const_iterator iend;
443  int i;
444  for (i = 0; i < n; ++i) {
445  const pat::CompositeCandidate& cc = ccCands->at(i);
446  int j;
447  int m = cc.numberOfDaughters();
448  for (j = 0; j < m; ++j) {
449  const reco::Candidate* dp = cc.daughter(j);
450  const pat::Muon* mp = dynamic_cast<const pat::Muon*>(dp);
451  iter = muonSet.begin();
452  iend = muonSet.end();
453  bool add = (mp != nullptr) && (muonSet.find(mp) == iend);
454  while (add && (iter != iend)) {
455  if (BPHRecoBuilder::sameTrack(mp, *iter++, 1.0e-5))
456  add = false;
457  }
458  if (add)
459  muonSet.insert(mp);
460  // associate muon to the CompositeCandidate containing it
461  muCCMap.insert(pair<const reco::Candidate*, const pat::CompositeCandidate*>(dp, &cc));
462  }
463  }
464  iter = muonSet.begin();
465  iend = muonSet.end();
466  while (iter != iend)
467  muDaugs.push_back(*iter++);
468  }
469 
470  map<recoType, map<parType, double> >::const_iterator rIter = parMap.begin();
471  map<recoType, map<parType, double> >::const_iterator rIend = parMap.end();
472 
473  // reconstruct quarkonia
474 
475  BPHOniaToMuMuBuilder* onia = nullptr;
476  if (recoOnia) {
477  if (usePM)
478  onia = new BPHOniaToMuMuBuilder(
479  es, BPHRecoBuilder::createCollection(patMuon, "ingmcf"), BPHRecoBuilder::createCollection(patMuon, "ingmcf"));
480  else if (useCC)
481  onia = new BPHOniaToMuMuBuilder(
482  es, BPHRecoBuilder::createCollection(muDaugs, "ingmcf"), BPHRecoBuilder::createCollection(muDaugs, "ingmcf"));
483  }
484 
485  if (onia != nullptr) {
486  while (rIter != rIend) {
487  const map<recoType, map<parType, double> >::value_type& rEntry = *rIter++;
488  recoType rType = rEntry.first;
489  const map<parType, double>& pMap = rEntry.second;
491  switch (rType) {
492  case Pmm:
494  break;
495  case Psi1:
497  break;
498  case Psi2:
500  break;
501  case Ups:
503  break;
504  case Ups1:
506  break;
507  case Ups2:
509  break;
510  case Ups3:
512  break;
513  default:
514  continue;
515  }
516  map<parType, double>::const_iterator pIter = pMap.begin();
517  map<parType, double>::const_iterator pIend = pMap.end();
518  while (pIter != pIend) {
519  const map<parType, double>::value_type& pEntry = *pIter++;
520  parType id = pEntry.first;
521  double pv = pEntry.second;
522  switch (id) {
523  case ptMin:
524  onia->setPtMin(type, pv);
525  break;
526  case etaMax:
527  onia->setEtaMax(type, pv);
528  break;
529  case massMin:
530  onia->setMassMin(type, pv);
531  break;
532  case massMax:
533  onia->setMassMax(type, pv);
534  break;
535  case probMin:
536  onia->setProbMin(type, pv);
537  break;
538  case constrMass:
539  onia->setConstr(type, pv, onia->getConstrSigma(type));
540  break;
541  case constrSigma:
542  onia->setConstr(type, onia->getConstrMass(type), pv);
543  break;
544  default:
545  break;
546  }
547  }
548  }
549  lFull = onia->build();
550  }
551 
552  // associate onia to primary vertex
553 
554  int iFull;
555  int nFull = lFull.size();
556  map<const BPHRecoCandidate*, const reco::Vertex*> oniaVtxMap;
557 
558  typedef mu_cc_map::const_iterator mu_cc_iter;
559  for (iFull = 0; iFull < nFull; ++iFull) {
560  const reco::Vertex* pVtx = nullptr;
561  int pvId = 0;
562  const BPHPlusMinusCandidate* ptr = lFull[iFull].get();
563  const std::vector<const reco::Candidate*>& daugs = ptr->daughters();
564 
565  // try to recover primary vertex association in skim data:
566  // get the CompositeCandidate containing both muons
567  pair<mu_cc_iter, mu_cc_iter> cc0 = muCCMap.equal_range(ptr->originalReco(daugs[0]));
568  pair<mu_cc_iter, mu_cc_iter> cc1 = muCCMap.equal_range(ptr->originalReco(daugs[1]));
569  mu_cc_iter iter0 = cc0.first;
570  mu_cc_iter iend0 = cc0.second;
571  mu_cc_iter iter1 = cc1.first;
572  mu_cc_iter iend1 = cc1.second;
573  while ((iter0 != iend0) && (pVtx == nullptr)) {
574  const pat::CompositeCandidate* ccp = iter0++->second;
575  while (iter1 != iend1) {
576  if (ccp != iter1++->second)
577  continue;
578  pVtx = ccp->userData<reco::Vertex>("PVwithmuons");
579  const reco::Vertex* sVtx = nullptr;
580  const reco::Vertex::Point& pPos = pVtx->position();
581  float dMin = 999999.;
582  int ipv;
583  for (ipv = 0; ipv < npv; ++ipv) {
584  const reco::Vertex* tVtx = &pVertices->at(ipv);
585  const reco::Vertex::Point& tPos = tVtx->position();
586  float dist = pow(pPos.x() - tPos.x(), 2) + pow(pPos.y() - tPos.y(), 2) + pow(pPos.z() - tPos.z(), 2);
587  if (dist < dMin) {
588  dMin = dist;
589  sVtx = tVtx;
590  pvId = ipv;
591  }
592  }
593  pVtx = sVtx;
594  break;
595  }
596  }
597 
598  // if not found, as for other type of input data,
599  // try to get the nearest primary vertex in z direction
600  if (pVtx == nullptr) {
601  const reco::Vertex::Point& sVtp = ptr->vertex().position();
602  GlobalPoint cPos(sVtp.x(), sVtp.y(), sVtp.z());
603  const pat::CompositeCandidate& sCC = ptr->composite();
604  GlobalVector cDir(sCC.px(), sCC.py(), sCC.pz());
605  GlobalPoint bPos(0.0, 0.0, 0.0);
606  GlobalVector bDir(0.0, 0.0, 1.0);
608  bool state = ttmd.calculate(GlobalTrajectoryParameters(cPos, cDir, TrackCharge(0), &(*magneticField)),
610  float minDz = 999999.;
611  float extrapZ = (state ? ttmd.points().first.z() : -9e20);
612  int ipv;
613  for (ipv = 0; ipv < npv; ++ipv) {
614  const reco::Vertex& tVtx = pVertices->at(ipv);
615  float deltaZ = fabs(extrapZ - tVtx.position().z());
616  if (deltaZ < minDz) {
617  minDz = deltaZ;
618  pVtx = &tVtx;
619  pvId = ipv;
620  }
621  }
622  }
623 
624  oniaVtxMap[ptr] = pVtx;
625  pvRefMap[ptr] = vertex_ref(pVertices, pvId);
626  }
627  pVertexToken.get(ev, pVertices);
628 
629  // get JPsi subsample and associate JPsi candidate to original
630  // generic onia candidate
631  if (nFull)
632  lJPsi = onia->getList(BPHOniaToMuMuBuilder::Psi1);
633 
634  bool jPsiFound = !lJPsi.empty();
635  delete onia;
636 
637  if (!nrc)
638  return;
639 
640  int ij;
641  int io;
642  int nj = lJPsi.size();
643  int no = lFull.size();
644  for (ij = 0; ij < nj; ++ij) {
645  const BPHRecoCandidate* jp = lJPsi[ij].get();
646  for (io = 0; io < no; ++io) {
647  const BPHRecoCandidate* oc = lFull[io].get();
648  if ((jp->originalReco(jp->getDaug("MuPos")) == oc->originalReco(oc->getDaug("MuPos"))) &&
649  (jp->originalReco(jp->getDaug("MuNeg")) == oc->originalReco(oc->getDaug("MuNeg")))) {
650  jPsiOMap[jp] = oc;
651  break;
652  }
653  }
654  }
655 
656  // build and dump Bu
657 
658  BPHBuToJPsiKBuilder* bu = nullptr;
659  if (recoBu && jPsiFound) {
660  if (usePF)
661  bu = new BPHBuToJPsiKBuilder(es, lJPsi, BPHRecoBuilder::createCollection(pfCands, "f"));
662  else if (usePC)
663  bu = new BPHBuToJPsiKBuilder(es, lJPsi, BPHRecoBuilder::createCollection(pcCands, "p"));
664  else if (useGP)
665  bu = new BPHBuToJPsiKBuilder(es, lJPsi, BPHRecoBuilder::createCollection(gpCands, "h"));
666  }
667 
668  if (bu != nullptr) {
669  rIter = parMap.find(Bu);
670  if (rIter != rIend) {
671  const map<parType, double>& pMap = rIter->second;
672  map<parType, double>::const_iterator pIter = pMap.begin();
673  map<parType, double>::const_iterator pIend = pMap.end();
674  while (pIter != pIend) {
675  const map<parType, double>::value_type& pEntry = *pIter++;
676  parType id = pEntry.first;
677  double pv = pEntry.second;
678  switch (id) {
679  case ptMin:
680  bu->setKPtMin(pv);
681  break;
682  case etaMax:
683  bu->setKEtaMax(pv);
684  break;
685  case mPsiMin:
686  bu->setJPsiMassMin(pv);
687  break;
688  case mPsiMax:
689  bu->setJPsiMassMax(pv);
690  break;
691  case massMin:
692  bu->setMassMin(pv);
693  break;
694  case massMax:
695  bu->setMassMax(pv);
696  break;
697  case probMin:
698  bu->setProbMin(pv);
699  break;
700  case mFitMin:
701  bu->setMassFitMin(pv);
702  break;
703  case mFitMax:
704  bu->setMassFitMax(pv);
705  break;
706  case constrMJPsi:
707  bu->setConstr(pv > 0);
708  break;
709  case writeCandidate:
710  writeBu = (pv > 0);
711  break;
712  default:
713  break;
714  }
715  }
716  }
717  lBu = bu->build();
718  delete bu;
719  }
720 
721  // build and dump Kx0
722 
723  vector<BPHPlusMinusConstCandPtr> lKx0;
724  BPHKx0ToKPiBuilder* kx0 = nullptr;
725  if (recoKx0 && (jPsiFound || allKx0)) {
726  if (usePF)
727  kx0 = new BPHKx0ToKPiBuilder(
728  es, BPHRecoBuilder::createCollection(pfCands, "f"), BPHRecoBuilder::createCollection(pfCands, "f"));
729  else if (usePC)
730  kx0 = new BPHKx0ToKPiBuilder(
731  es, BPHRecoBuilder::createCollection(pcCands, "p"), BPHRecoBuilder::createCollection(pcCands, "p"));
732  else if (useGP)
733  kx0 = new BPHKx0ToKPiBuilder(
734  es, BPHRecoBuilder::createCollection(gpCands, "h"), BPHRecoBuilder::createCollection(gpCands, "h"));
735  }
736 
737  set<BPHRecoConstCandPtr> sKx0;
738 
739  if (kx0 != nullptr) {
740  rIter = parMap.find(Kx0);
741  if (rIter != rIend) {
742  const map<parType, double>& pMap = rIter->second;
743  map<parType, double>::const_iterator pIter = pMap.begin();
744  map<parType, double>::const_iterator pIend = pMap.end();
745  while (pIter != pIend) {
746  const map<parType, double>::value_type& pEntry = *pIter++;
747  parType id = pEntry.first;
748  double pv = pEntry.second;
749  switch (id) {
750  case ptMin:
751  kx0->setPtMin(pv);
752  break;
753  case etaMax:
754  kx0->setEtaMax(pv);
755  break;
756  case massMin:
757  kx0->setMassMin(pv);
758  break;
759  case massMax:
760  kx0->setMassMax(pv);
761  break;
762  case probMin:
763  kx0->setProbMin(pv);
764  break;
765  case writeCandidate:
766  writeKx0 = (pv > 0);
767  break;
768  default:
769  break;
770  }
771  }
772  }
773  lKx0 = kx0->build();
774  if (allKx0)
775  sKx0.insert(lKx0.begin(), lKx0.end());
776  delete kx0;
777  }
778 
779  bool kx0Found = !lKx0.empty();
780 
781  // build and dump Bd -> JPsi Kx0
782 
783  if (recoBd && jPsiFound && kx0Found) {
784  BPHBdToJPsiKxBuilder* bd = new BPHBdToJPsiKxBuilder(es, lJPsi, lKx0);
785  rIter = parMap.find(Bd);
786  if (rIter != rIend) {
787  const map<parType, double>& pMap = rIter->second;
788  map<parType, double>::const_iterator pIter = pMap.begin();
789  map<parType, double>::const_iterator pIend = pMap.end();
790  while (pIter != pIend) {
791  const map<parType, double>::value_type& pEntry = *pIter++;
792  parType id = pEntry.first;
793  double pv = pEntry.second;
794  switch (id) {
795  case mPsiMin:
796  bd->setJPsiMassMin(pv);
797  break;
798  case mPsiMax:
799  bd->setJPsiMassMax(pv);
800  break;
801  case mKx0Min:
802  bd->setKxMassMin(pv);
803  break;
804  case mKx0Max:
805  bd->setKxMassMax(pv);
806  break;
807  case massMin:
808  bd->setMassMin(pv);
809  break;
810  case massMax:
811  bd->setMassMax(pv);
812  break;
813  case probMin:
814  bd->setProbMin(pv);
815  break;
816  case mFitMin:
817  bd->setMassFitMin(pv);
818  break;
819  case mFitMax:
820  bd->setMassFitMax(pv);
821  break;
822  case constrMJPsi:
823  bd->setConstr(pv > 0);
824  break;
825  case writeCandidate:
826  writeBd = (pv > 0);
827  break;
828  default:
829  break;
830  }
831  }
832  }
833 
834  lBd = bd->build();
835  delete bd;
836 
837  int iBd;
838  int nBd = lBd.size();
839  for (iBd = 0; iBd < nBd; ++iBd)
840  sKx0.insert(lBd[iBd]->getComp("Kx0"));
841  }
842  set<BPHRecoConstCandPtr>::const_iterator kx0_iter = sKx0.begin();
843  set<BPHRecoConstCandPtr>::const_iterator kx0_iend = sKx0.end();
844  lSd.reserve(sKx0.size());
845  while (kx0_iter != kx0_iend)
846  lSd.push_back(*kx0_iter++);
847 
848  // build and dump Phi
849 
850  vector<BPHPlusMinusConstCandPtr> lPhi;
851  BPHPhiToKKBuilder* phi = nullptr;
852  if (recoPkk && (jPsiFound || allPkk)) {
853  if (usePF)
854  phi = new BPHPhiToKKBuilder(
855  es, BPHRecoBuilder::createCollection(pfCands, "f"), BPHRecoBuilder::createCollection(pfCands, "f"));
856  else if (usePC)
857  phi = new BPHPhiToKKBuilder(
858  es, BPHRecoBuilder::createCollection(pcCands, "p"), BPHRecoBuilder::createCollection(pcCands, "p"));
859  else if (useGP)
860  phi = new BPHPhiToKKBuilder(
861  es, BPHRecoBuilder::createCollection(gpCands, "h"), BPHRecoBuilder::createCollection(gpCands, "h"));
862  }
863 
864  set<BPHRecoConstCandPtr> sPhi;
865 
866  if (phi != nullptr) {
867  rIter = parMap.find(Pkk);
868  if (rIter != rIend) {
869  const map<parType, double>& pMap = rIter->second;
870  map<parType, double>::const_iterator pIter = pMap.begin();
871  map<parType, double>::const_iterator pIend = pMap.end();
872  while (pIter != pIend) {
873  const map<parType, double>::value_type& pEntry = *pIter++;
874  parType id = pEntry.first;
875  double pv = pEntry.second;
876  switch (id) {
877  case ptMin:
878  phi->setPtMin(pv);
879  break;
880  case etaMax:
881  phi->setEtaMax(pv);
882  break;
883  case massMin:
884  phi->setMassMin(pv);
885  break;
886  case massMax:
887  phi->setMassMax(pv);
888  break;
889  case probMin:
890  phi->setProbMin(pv);
891  break;
892  case writeCandidate:
893  writePkk = (pv > 0);
894  break;
895  default:
896  break;
897  }
898  }
899  }
900  lPhi = phi->build();
901  if (allPkk)
902  sPhi.insert(lPhi.begin(), lPhi.end());
903  delete phi;
904  }
905 
906  bool phiFound = !lPhi.empty();
907 
908  // build and dump Bs
909 
910  if (recoBs && jPsiFound && phiFound) {
911  BPHBsToJPsiPhiBuilder* bs = new BPHBsToJPsiPhiBuilder(es, lJPsi, lPhi);
912  rIter = parMap.find(Bs);
913  if (rIter != rIend) {
914  const map<parType, double>& pMap = rIter->second;
915  map<parType, double>::const_iterator pIter = pMap.begin();
916  map<parType, double>::const_iterator pIend = pMap.end();
917  while (pIter != pIend) {
918  const map<parType, double>::value_type& pEntry = *pIter++;
919  parType id = pEntry.first;
920  double pv = pEntry.second;
921  switch (id) {
922  case mPsiMin:
923  bs->setJPsiMassMin(pv);
924  break;
925  case mPsiMax:
926  bs->setJPsiMassMax(pv);
927  break;
928  case mPhiMin:
929  bs->setPhiMassMin(pv);
930  break;
931  case mPhiMax:
932  bs->setPhiMassMax(pv);
933  break;
934  case massMin:
935  bs->setMassMin(pv);
936  break;
937  case massMax:
938  bs->setMassMax(pv);
939  break;
940  case probMin:
941  bs->setProbMin(pv);
942  break;
943  case mFitMin:
944  bs->setMassFitMin(pv);
945  break;
946  case mFitMax:
947  bs->setMassFitMax(pv);
948  break;
949  case constrMJPsi:
950  bs->setConstr(pv > 0);
951  break;
952  case writeCandidate:
953  writeBs = (pv > 0);
954  break;
955  default:
956  break;
957  }
958  }
959  }
960 
961  lBs = bs->build();
962  delete bs;
963 
964  int iBs;
965  int nBs = lBs.size();
966  for (iBs = 0; iBs < nBs; ++iBs)
967  sPhi.insert(lBs[iBs]->getComp("Phi"));
968  }
969  set<BPHRecoConstCandPtr>::const_iterator phi_iter = sPhi.begin();
970  set<BPHRecoConstCandPtr>::const_iterator phi_iend = sPhi.end();
971  lSs.reserve(sPhi.size());
972  while (phi_iter != phi_iend)
973  lSs.push_back(*phi_iter++);
974 
975  // build K0
976 
977  BPHK0sToPiPiBuilder* k0s = nullptr;
978  if (recoK0s && (jPsiFound || allK0s)) {
979  if (useK0)
980  k0s = new BPHK0sToPiPiBuilder(es, k0Cand.product(), "cfp");
981  else if (useKS)
982  k0s = new BPHK0sToPiPiBuilder(es, kSCand.product(), "cfp");
983  }
984  if (k0s != nullptr) {
985  rIter = parMap.find(K0s);
986  if (rIter != rIend) {
987  const map<parType, double>& pMap = rIter->second;
988  map<parType, double>::const_iterator pIter = pMap.begin();
989  map<parType, double>::const_iterator pIend = pMap.end();
990  while (pIter != pIend) {
991  const map<parType, double>::value_type& pEntry = *pIter++;
992  parType id = pEntry.first;
993  double pv = pEntry.second;
994  switch (id) {
995  case ptMin:
996  k0s->setPtMin(pv);
997  break;
998  case etaMax:
999  k0s->setEtaMax(pv);
1000  break;
1001  case massMin:
1002  k0s->setMassMin(pv);
1003  break;
1004  case massMax:
1005  k0s->setMassMax(pv);
1006  break;
1007  case probMin:
1008  k0s->setProbMin(pv);
1009  break;
1010  case writeCandidate:
1011  writeK0s = (pv > 0);
1012  break;
1013  default:
1014  break;
1015  }
1016  }
1017  }
1018  lK0 = k0s->build();
1019  delete k0s;
1020  }
1021 
1022  bool k0Found = !lK0.empty();
1023 
1024  // build Lambda0
1025 
1026  BPHLambda0ToPPiBuilder* l0s = nullptr;
1027  if (recoLambda0 && (jPsiFound || allLambda0)) {
1028  if (useL0)
1029  l0s = new BPHLambda0ToPPiBuilder(es, l0Cand.product(), "cfp");
1030  else if (useLS)
1031  l0s = new BPHLambda0ToPPiBuilder(es, lSCand.product(), "cfp");
1032  }
1033  if (l0s != nullptr) {
1034  rIter = parMap.find(Lambda0);
1035  if (rIter != rIend) {
1036  const map<parType, double>& pMap = rIter->second;
1037  map<parType, double>::const_iterator pIter = pMap.begin();
1038  map<parType, double>::const_iterator pIend = pMap.end();
1039  while (pIter != pIend) {
1040  const map<parType, double>::value_type& pEntry = *pIter++;
1041  parType id = pEntry.first;
1042  double pv = pEntry.second;
1043  switch (id) {
1044  case ptMin:
1045  l0s->setPtMin(pv);
1046  break;
1047  case etaMax:
1048  l0s->setEtaMax(pv);
1049  break;
1050  case massMin:
1051  l0s->setMassMin(pv);
1052  break;
1053  case massMax:
1054  l0s->setMassMax(pv);
1055  break;
1056  case probMin:
1057  l0s->setProbMin(pv);
1058  break;
1059  case writeCandidate:
1060  writeLambda0 = (pv > 0);
1061  break;
1062  default:
1063  break;
1064  }
1065  }
1066  }
1067  lL0 = l0s->build();
1068  delete l0s;
1069  }
1070 
1071  bool l0Found = !lL0.empty();
1072 
1073  // build and dump Bd -> JPsi K0s
1074 
1075  if (recoB0 && jPsiFound && k0Found) {
1076  BPHBdToJPsiKsBuilder* b0 = new BPHBdToJPsiKsBuilder(es, lJPsi, lK0);
1077  rIter = parMap.find(B0);
1078  if (rIter != rIend) {
1079  const map<parType, double>& pMap = rIter->second;
1080  map<parType, double>::const_iterator pIter = pMap.begin();
1081  map<parType, double>::const_iterator pIend = pMap.end();
1082  while (pIter != pIend) {
1083  const map<parType, double>::value_type& pEntry = *pIter++;
1084  parType id = pEntry.first;
1085  double pv = pEntry.second;
1086  switch (id) {
1087  case mPsiMin:
1088  b0->setJPsiMassMin(pv);
1089  break;
1090  case mPsiMax:
1091  b0->setJPsiMassMax(pv);
1092  break;
1093  case mK0sMin:
1094  b0->setK0MassMin(pv);
1095  break;
1096  case mK0sMax:
1097  b0->setK0MassMax(pv);
1098  break;
1099  case massMin:
1100  b0->setMassMin(pv);
1101  break;
1102  case massMax:
1103  b0->setMassMax(pv);
1104  break;
1105  case probMin:
1106  b0->setProbMin(pv);
1107  break;
1108  case mFitMin:
1109  b0->setMassFitMin(pv);
1110  break;
1111  case mFitMax:
1112  b0->setMassFitMax(pv);
1113  break;
1114  case constrMJPsi:
1115  b0->setConstr(pv > 0);
1116  break;
1117  case writeCandidate:
1118  writeB0 = (pv > 0);
1119  break;
1120  default:
1121  break;
1122  }
1123  }
1124  }
1125 
1126  lB0 = b0->build();
1127  const map<const BPHRecoCandidate*, const BPHRecoCandidate*>& b0Map = b0->daughMap();
1128  daughMap.insert(b0Map.begin(), b0Map.end());
1129  delete b0;
1130  }
1131 
1132  // build and dump Lambdab -> JPsi Lambda0
1133 
1134  if (recoLambdab && jPsiFound && l0Found) {
1135  BPHLbToJPsiL0Builder* lb = new BPHLbToJPsiL0Builder(es, lJPsi, lL0);
1136  rIter = parMap.find(Lambdab);
1137  if (rIter != rIend) {
1138  const map<parType, double>& pMap = rIter->second;
1139  map<parType, double>::const_iterator pIter = pMap.begin();
1140  map<parType, double>::const_iterator pIend = pMap.end();
1141  while (pIter != pIend) {
1142  const map<parType, double>::value_type& pEntry = *pIter++;
1143  parType id = pEntry.first;
1144  double pv = pEntry.second;
1145  switch (id) {
1146  case mPsiMin:
1147  lb->setJPsiMassMin(pv);
1148  break;
1149  case mPsiMax:
1150  lb->setJPsiMassMax(pv);
1151  break;
1152  case mLambda0Min:
1153  lb->setLambda0MassMin(pv);
1154  break;
1155  case mLambda0Max:
1156  lb->setLambda0MassMax(pv);
1157  break;
1158  case massMin:
1159  lb->setMassMin(pv);
1160  break;
1161  case massMax:
1162  lb->setMassMax(pv);
1163  break;
1164  case probMin:
1165  lb->setProbMin(pv);
1166  break;
1167  case mFitMin:
1168  lb->setMassFitMin(pv);
1169  break;
1170  case mFitMax:
1171  lb->setMassFitMax(pv);
1172  break;
1173  case constrMJPsi:
1174  lb->setConstr(pv > 0);
1175  break;
1176  case writeCandidate:
1177  writeLambdab = (pv > 0);
1178  break;
1179  default:
1180  break;
1181  }
1182  }
1183  }
1184 
1185  lLb = lb->build();
1186  const map<const BPHRecoCandidate*, const BPHRecoCandidate*>& ldMap = lb->daughMap();
1187  daughMap.insert(ldMap.begin(), ldMap.end());
1188  delete lb;
1189  }
1190 
1191  // build and dump Bc
1192 
1193  BPHBcToJPsiPiBuilder* bc = nullptr;
1194  if (recoBc && jPsiFound) {
1195  if (usePF)
1196  bc = new BPHBcToJPsiPiBuilder(es, lJPsi, BPHRecoBuilder::createCollection(pfCands, "f"));
1197  else if (usePC)
1198  bc = new BPHBcToJPsiPiBuilder(es, lJPsi, BPHRecoBuilder::createCollection(pcCands, "p"));
1199  else if (useGP)
1200  bc = new BPHBcToJPsiPiBuilder(es, lJPsi, BPHRecoBuilder::createCollection(gpCands, "h"));
1201  }
1202 
1203  if (bc != nullptr) {
1204  rIter = parMap.find(Bc);
1205  if (rIter != rIend) {
1206  const map<parType, double>& pMap = rIter->second;
1207  map<parType, double>::const_iterator pIter = pMap.begin();
1208  map<parType, double>::const_iterator pIend = pMap.end();
1209  while (pIter != pIend) {
1210  const map<parType, double>::value_type& pEntry = *pIter++;
1211  parType id = pEntry.first;
1212  double pv = pEntry.second;
1213  switch (id) {
1214  case ptMin:
1215  bc->setPiPtMin(pv);
1216  break;
1217  case etaMax:
1218  bc->setPiEtaMax(pv);
1219  break;
1220  case mPsiMin:
1221  bc->setJPsiMassMin(pv);
1222  break;
1223  case mPsiMax:
1224  bc->setJPsiMassMax(pv);
1225  break;
1226  case massMin:
1227  bc->setMassMin(pv);
1228  break;
1229  case massMax:
1230  bc->setMassMax(pv);
1231  break;
1232  case probMin:
1233  bc->setProbMin(pv);
1234  break;
1235  case mFitMin:
1236  bc->setMassFitMin(pv);
1237  break;
1238  case mFitMax:
1239  bc->setMassFitMax(pv);
1240  break;
1241  case constrMJPsi:
1242  bc->setConstr(pv > 0);
1243  break;
1244  case writeCandidate:
1245  writeBc = (pv > 0);
1246  break;
1247  default:
1248  break;
1249  }
1250  }
1251  }
1252  lBc = bc->build();
1253  delete bc;
1254  }
1255 
1256  // build and dump Psi2S
1257 
1258  BPHPsi2SToJPsiPiPiBuilder* psi2S = nullptr;
1259  if (recoPsi2S && jPsiFound) {
1260  if (usePF)
1261  psi2S = new BPHPsi2SToJPsiPiPiBuilder(
1262  es, lJPsi, BPHRecoBuilder::createCollection(pfCands, "f"), BPHRecoBuilder::createCollection(pfCands, "f"));
1263  else if (usePC)
1264  psi2S = new BPHPsi2SToJPsiPiPiBuilder(
1265  es, lJPsi, BPHRecoBuilder::createCollection(pcCands, "p"), BPHRecoBuilder::createCollection(pcCands, "p"));
1266  else if (useGP)
1267  psi2S = new BPHPsi2SToJPsiPiPiBuilder(
1268  es, lJPsi, BPHRecoBuilder::createCollection(gpCands, "h"), BPHRecoBuilder::createCollection(gpCands, "h"));
1269  }
1270 
1271  if (psi2S != nullptr) {
1272  rIter = parMap.find(Psi2S);
1273  if (rIter != rIend) {
1274  const map<parType, double>& pMap = rIter->second;
1275  map<parType, double>::const_iterator pIter = pMap.begin();
1276  map<parType, double>::const_iterator pIend = pMap.end();
1277  while (pIter != pIend) {
1278  const map<parType, double>::value_type& pEntry = *pIter++;
1279  parType id = pEntry.first;
1280  double pv = pEntry.second;
1281  switch (id) {
1282  case ptMin:
1283  psi2S->setPiPtMin(pv);
1284  break;
1285  case etaMax:
1286  psi2S->setPiEtaMax(pv);
1287  break;
1288  case mPsiMin:
1289  psi2S->setJPsiMassMin(pv);
1290  break;
1291  case mPsiMax:
1292  psi2S->setJPsiMassMax(pv);
1293  break;
1294  case massMin:
1295  psi2S->setMassMin(pv);
1296  break;
1297  case massMax:
1298  psi2S->setMassMax(pv);
1299  break;
1300  case probMin:
1301  psi2S->setProbMin(pv);
1302  break;
1303  case mFitMin:
1304  psi2S->setMassFitMin(pv);
1305  break;
1306  case mFitMax:
1307  psi2S->setMassFitMax(pv);
1308  break;
1309  case constrMJPsi:
1310  psi2S->setConstr(pv > 0);
1311  break;
1312  case writeCandidate:
1313  writePsi2S = (pv > 0);
1314  break;
1315  default:
1316  break;
1317  }
1318  }
1319  }
1320  lPsi2S = psi2S->build();
1321  delete psi2S;
1322  }
1323 
1324  // build and dump X3872
1325 
1326  BPHX3872ToJPsiPiPiBuilder* x3872 = nullptr;
1327  if (recoX3872 && jPsiFound) {
1328  if (usePF)
1329  x3872 = new BPHX3872ToJPsiPiPiBuilder(
1330  es, lJPsi, BPHRecoBuilder::createCollection(pfCands, "f"), BPHRecoBuilder::createCollection(pfCands, "f"));
1331  else if (usePC)
1332  x3872 = new BPHX3872ToJPsiPiPiBuilder(
1333  es, lJPsi, BPHRecoBuilder::createCollection(pcCands, "p"), BPHRecoBuilder::createCollection(pcCands, "p"));
1334  else if (useGP)
1335  x3872 = new BPHX3872ToJPsiPiPiBuilder(
1336  es, lJPsi, BPHRecoBuilder::createCollection(gpCands, "h"), BPHRecoBuilder::createCollection(gpCands, "h"));
1337  }
1338 
1339  if (x3872 != nullptr) {
1340  rIter = parMap.find(X3872);
1341  if (rIter != rIend) {
1342  const map<parType, double>& pMap = rIter->second;
1343  map<parType, double>::const_iterator pIter = pMap.begin();
1344  map<parType, double>::const_iterator pIend = pMap.end();
1345  while (pIter != pIend) {
1346  const map<parType, double>::value_type& pEntry = *pIter++;
1347  parType id = pEntry.first;
1348  double pv = pEntry.second;
1349  switch (id) {
1350  case ptMin:
1351  x3872->setPiPtMin(pv);
1352  break;
1353  case etaMax:
1354  x3872->setPiEtaMax(pv);
1355  break;
1356  case mPsiMin:
1357  x3872->setJPsiMassMin(pv);
1358  break;
1359  case mPsiMax:
1360  x3872->setJPsiMassMax(pv);
1361  break;
1362  case massMin:
1363  x3872->setMassMin(pv);
1364  break;
1365  case massMax:
1366  x3872->setMassMax(pv);
1367  break;
1368  case probMin:
1369  x3872->setProbMin(pv);
1370  break;
1371  case mFitMin:
1372  x3872->setMassFitMin(pv);
1373  break;
1374  case mFitMax:
1375  x3872->setMassFitMax(pv);
1376  break;
1377  case constrMJPsi:
1378  x3872->setConstr(pv > 0);
1379  break;
1380  case writeCandidate:
1381  writeX3872 = (pv > 0);
1382  break;
1383  default:
1384  break;
1385  }
1386  }
1387  }
1388  lX3872 = x3872->build();
1389  delete x3872;
1390  }
1391 
1392  // merge Psi2S and X3872
1393  class ResTrkTrkCompare {
1394  public:
1395  bool operator()(const BPHRecoConstCandPtr& l, const BPHRecoConstCandPtr& r) const {
1396  vector<const reco::Track*> tl = l->tracks();
1397  vector<const reco::Track*> tr = r->tracks();
1398  if (tl.size() < tr.size())
1399  return true;
1400  sort(tl.begin(), tl.end());
1401  sort(tr.begin(), tr.end());
1402  int n = tr.size();
1403  int i;
1404  for (i = 0; i < n; ++i) {
1405  if (tl[i] < tr[i])
1406  return true;
1407  if (tl[i] > tr[i])
1408  return false;
1409  }
1410  return false;
1411  }
1412  } rttc;
1413  set<BPHRecoConstCandPtr, ResTrkTrkCompare> sjpPiPi(rttc);
1414  sjpPiPi.insert(lPsi2S.begin(), lPsi2S.end());
1415  sjpPiPi.insert(lX3872.begin(), lX3872.end());
1416  vector<BPHRecoConstCandPtr> ljpPiPi;
1417  ljpPiPi.insert(ljpPiPi.end(), sjpPiPi.begin(), sjpPiPi.end());
1418  bool jpPiPiFound = !ljpPiPi.empty();
1419 
1420  // build and dump Bp
1421 
1422  BPHBuToPsi2SKBuilder* bp = nullptr;
1423  if (recoBp && jpPiPiFound) {
1424  if (usePF)
1425  bp = new BPHBuToPsi2SKBuilder(es, ljpPiPi, BPHRecoBuilder::createCollection(pfCands, "f"));
1426  else if (usePC)
1427  bp = new BPHBuToPsi2SKBuilder(es, ljpPiPi, BPHRecoBuilder::createCollection(pcCands, "p"));
1428  else if (useGP)
1429  bp = new BPHBuToPsi2SKBuilder(es, ljpPiPi, BPHRecoBuilder::createCollection(gpCands, "h"));
1430  }
1431 
1432  if (bp != nullptr) {
1433  class BPHBuToPsi2SSelect : public BPHMassFitSelect {
1434  public:
1435  BPHBuToPsi2SSelect()
1437  ~BPHBuToPsi2SSelect() override = default;
1438  bool accept(const BPHKinematicFit& cand) const override {
1439  const_cast<BPHRecoCandidate*>(cand.getComp("Psi2S").get())
1440  ->setIndependentFit("JPsi", true, BPHParticleMasses::jPsiMass, BPHParticleMasses::jPsiMWidth);
1442  }
1443  };
1444  bool mcJPsi = false;
1445  bool mcPsi2 = true;
1446  rIter = parMap.find(Bp);
1447  if (rIter != rIend) {
1448  const map<parType, double>& pMap = rIter->second;
1449  map<parType, double>::const_iterator pIter = pMap.begin();
1450  map<parType, double>::const_iterator pIend = pMap.end();
1451  while (pIter != pIend) {
1452  const map<parType, double>::value_type& pEntry = *pIter++;
1453  parType id = pEntry.first;
1454  double pv = pEntry.second;
1455  switch (id) {
1456  case ptMin:
1457  bp->setKPtMin(pv);
1458  break;
1459  case etaMax:
1460  bp->setKEtaMax(pv);
1461  break;
1462  case mPsiMin:
1463  bp->setPsi2SMassMin(pv);
1464  break;
1465  case mPsiMax:
1466  bp->setPsi2SMassMax(pv);
1467  break;
1468  case massMin:
1469  bp->setMassMin(pv);
1470  break;
1471  case massMax:
1472  bp->setMassMax(pv);
1473  break;
1474  case probMin:
1475  bp->setProbMin(pv);
1476  break;
1477  case mFitMin:
1478  bp->setMassFitMin(pv);
1479  break;
1480  case mFitMax:
1481  bp->setMassFitMax(pv);
1482  break;
1483  case constrMJPsi:
1484  mcJPsi = (pv > 0);
1485  break;
1486  case constrMPsi2:
1487  mcPsi2 = (pv > 0);
1488  break;
1489  case writeCandidate:
1490  writeBp = (pv > 0);
1491  break;
1492  default:
1493  break;
1494  }
1495  }
1496  }
1497  if (mcJPsi)
1498  bp->setMassFitSelect(mcPsi2 ? new BPHBuToPsi2SSelect
1499  : new BPHMassFitSelect("Psi2S/JPsi",
1502  bp->getMassFitMin(),
1503  bp->getMassFitMax()));
1504  else
1505  bp->setConstr(mcPsi2);
1506  lBp = bp->build();
1507  const map<const BPHRecoCandidate*, const BPHRecoCandidate*>& bpMap = bp->daughMap();
1508  daughMap.insert(bpMap.begin(), bpMap.end());
1509  delete bp;
1510  }
1511 
1512  return;
1513 }
1514 
1516  const string& name = ps.getParameter<string>("name");
1517  bool writeCandidate = ps.getParameter<bool>("writeCandidate");
1518  switch (rMap[name]) {
1519  case Onia:
1520  recoOnia = true;
1521  writeOnia = writeCandidate;
1522  break;
1523  case Pmm:
1524  case Psi1:
1525  case Psi2:
1526  case Ups:
1527  case Ups1:
1528  case Ups2:
1529  case Ups3:
1530  recoOnia = true;
1531  break;
1532  case Kx0:
1533  recoKx0 = true;
1534  allKx0 = false;
1535  writeKx0 = writeCandidate;
1536  break;
1537  case Pkk:
1538  recoPkk = true;
1539  allPkk = false;
1540  writePkk = writeCandidate;
1541  break;
1542  case Bu:
1543  recoBu = true;
1544  writeBu = writeCandidate;
1545  break;
1546  case Bp:
1547  recoBp = true;
1548  writeBp = writeCandidate;
1549  break;
1550  case Bd:
1551  recoBd = true;
1552  writeBd = writeCandidate;
1553  break;
1554  case Bs:
1555  recoBs = true;
1556  writeBs = writeCandidate;
1557  break;
1558  case K0s:
1559  recoK0s = true;
1560  allK0s = false;
1561  writeK0s = writeCandidate;
1562  break;
1563  case Lambda0:
1564  recoLambda0 = true;
1565  allLambda0 = false;
1566  writeLambda0 = writeCandidate;
1567  break;
1568  case B0:
1569  recoB0 = true;
1570  writeB0 = writeCandidate;
1571  break;
1572  case Lambdab:
1573  recoLambdab = true;
1574  writeLambdab = writeCandidate;
1575  break;
1576  case Bc:
1577  recoBc = true;
1578  writeBc = writeCandidate;
1579  break;
1580  case Psi2S:
1581  recoPsi2S = true;
1582  writePsi2S = writeCandidate;
1583  break;
1584  case X3872:
1585  recoX3872 = true;
1586  writeX3872 = writeCandidate;
1587  break;
1588  }
1589 
1590  map<string, parType>::const_iterator pIter = pMap.begin();
1591  map<string, parType>::const_iterator pIend = pMap.end();
1592  while (pIter != pIend) {
1593  const map<string, parType>::value_type& entry = *pIter++;
1594  const string& pn = entry.first;
1595  parType id = entry.second;
1596  double pv = ps.getParameter<double>(pn);
1597  if (pv > -1.0e35)
1598  edm::LogVerbatim("Configuration") << "BPHWriteSpecificDecay::setRecoParameters: set " << pn << " for " << name
1599  << " : " << (parMap[rMap[name]][id] = pv);
1600  }
1601 
1602  map<string, parType>::const_iterator fIter = fMap.begin();
1603  map<string, parType>::const_iterator fIend = fMap.end();
1604  while (fIter != fIend) {
1605  const map<string, parType>::value_type& entry = *fIter++;
1606  const string& fn = entry.first;
1607  parType id = entry.second;
1608  double pv = (ps.getParameter<bool>(fn) ? 1 : -1);
1609  if (pv > -1.0e35)
1610  edm::LogVerbatim("Configuration") << "BPHWriteSpecificDecay::setRecoParameters: set " << fn << " for " << name
1611  << " : " << (parMap[rMap[name]][id] = pv);
1612  }
1613 
1614  return;
1615 }
1616 
1618  const BPHRecoCandidate& cand,
1619  std::string& modes,
1620  bool& count) {
1622  if (count)
1623  modes += "#";
1624  modes += (name + entry.first + ":" + cand.getTMode(entry.second));
1625  count = true;
1626  }
1628  addTrackModes(entry.first + "/", *entry.second, modes, count);
1629  }
1630  return;
1631 }
1632 
1634  const BPHRecoCandidate& cand,
1637  cc.addUserData(name + entry.first, string(1, cand.getTMode(entry.second)), true);
1639  addTrackModes(name + entry.first + "/", *entry.second, cc);
1640  return;
1641 }
1642 
1644 
virtual const reco::Candidate * originalReco(const reco::Candidate *daug) const
get the original particle from the clone
Analysis-level particle class.
Log< level::Info, true > LogVerbatim
static bool sameTrack(const reco::Candidate *lCand, const reco::Candidate *rCand, double minPDifference)
T getParameter(std::string const &) const
Definition: ParameterSet.h:303
void setMassMax(oniaType type, double m)
BPHGenericPtr< const BPHRecoCandidate >::type BPHRecoConstCandPtr
static const double jPsiMWidth
const Point & position() const
position
Definition: Vertex.h:127
uint32_t cc[maxCellsPerHit]
Definition: gpuFishbone.h:49
void setJPsiMassMin(double m)
T const * product() const
Definition: Handle.h:70
constexpr float ptMin
void setKPtMin(double pt)
set cuts
void setKEtaMax(double eta)
virtual std::vector< prod_ptr > build()
build candidates
static const double jPsiMass
void setPtMin(double pt)
bool accept(const edm::Event &event, const edm::TriggerResults &triggerTable, const std::string &triggerPath)
Definition: TopDQMHelpers.h:31
static void fillDescriptions(edm::ConfigurationDescriptions &descriptions)
#define SET_PAR(TYPE, NAME, PSET)
const pat::CompositeCandidate & composite() const override
get a composite by the simple sum of simple particles
void setLambda0MassMin(double m)
void setJPsiMassMax(double m)
void setProbMin(oniaType type, double p)
bool calculate(const TrajectoryStateOnSurface &sta, const TrajectoryStateOnSurface &stb) override
void setMassFitSelect(BPHMassFitSelect *mfs)
static BPHGenericCollection * createCollection(const edm::Handle< T > &collection, const std::string &list="cfhpmig")
U second(std::pair< T, U > const &p)
deep_tau::DeepTauBase::BasicDiscriminator bd
Definition: DeepTauId.cc:808
double getConstrSigma(oniaType type) const
int TrackCharge
Definition: TrackCharge.h:4
virtual const reco::Candidate * getDaug(const std::string &name) const
BPHWriteSpecificDecay(const edm::ParameterSet &ps)
std::vector< BPHPlusMinusConstCandPtr > getList(oniaType type, BPHRecoSelect *dSel=nullptr, BPHMomentumSelect *mSel=nullptr, BPHVertexSelect *vSel=nullptr, BPHFitSelect *kSel=nullptr)
void setEtaMax(double eta)
def pv(vc)
Definition: MetAnalyzer.py:7
void setJPsiMassMin(double m)
set cuts
math::XYZPoint Point
point in the space
Definition: Vertex.h:40
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:16
std::pair< GlobalPoint, GlobalPoint > points() const override
ParameterDescriptionBase * add(U const &iLabel, T const &value)
double getConstrMass(oniaType type) const
const T * userData(const std::string &key) const
Returns user-defined data. Returns NULL if the data is not present, or not of type T...
Definition: PATObject.h:322
virtual const reco::Vertex & vertex(VertexFitter< 5 > *fitter=nullptr, const reco::BeamSpot *bs=nullptr, const GlobalPoint *priorPos=nullptr, const GlobalError *priorError=nullptr) const
get reconstructed vertex
void setPsi2SMassMax(double m)
void setLambda0MassMax(double m)
void setKEtaMax(double eta)
static const double psi2Mass
virtual void fill(edm::Event &ev, const BPHEventSetupWrapper &es)
void setPiEtaMax(double eta)
void add(std::string const &label, ParameterSetDescription const &psetDescription)
void setPiPtMin(double pt)
set cuts
void add(std::map< std::string, TH1 *> &h, TH1 *hist)
const edm::EventSetup * get() const
void setJPsiMassMin(double m)
void setConstr(oniaType type, double mass, double sigma)
void setEtaMax(oniaType type, double eta)
virtual const std::vector< const reco::Candidate * > & daughters() const
const std::map< const BPHRecoCandidate *, const BPHRecoCandidate * > & daughMap() const
get original daughters map
static constexpr float b0
void setKPtMin(double pt)
set cuts
void setMassMin(oniaType type, double m)
const std::map< const BPHRecoCandidate *, const BPHRecoCandidate * > & daughMap() const
get original daughters map
bool accept(const BPHKinematicFit &cand) const override
select particle
void produce(edm::Event &ev, const edm::EventSetup &es) override
static void addTrackModes(const std::string &name, const BPHRecoCandidate &cand, std::string &modes, bool &count)
Analysis-level muon class.
Definition: Muon.h:51
void setRecoParameters(const edm::ParameterSet &ps)
void setJPsiMassMax(double m)
void setPsi2SMassMin(double m)
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:29
static const double psi2MWidth
void setPtMin(oniaType type, double pt)
set cuts
void setJPsiMassMax(double m)
const_iterator begin() const
first daughter const_iterator
Definition: Candidate.h:143
void setPiPtMin(double pt)
set cuts