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CSCStubMatcher.cc
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3 #include <algorithm>
4 
5 using namespace std;
6 
8  useGEMs_ = pSet.getParameter<bool>("useGEMs");
9 
10  const auto& cscCLCT = pSet.getParameter<edm::ParameterSet>("cscCLCT");
11  minBXCLCT_ = cscCLCT.getParameter<int>("minBX");
12  maxBXCLCT_ = cscCLCT.getParameter<int>("maxBX");
13  verboseCLCT_ = cscCLCT.getParameter<int>("verbose");
14  minNHitsChamberCLCT_ = cscCLCT.getParameter<int>("minNHitsChamber");
15 
16  const auto& cscALCT = pSet.getParameter<edm::ParameterSet>("cscALCT");
17  minBXALCT_ = cscALCT.getParameter<int>("minBX");
18  maxBXALCT_ = cscALCT.getParameter<int>("maxBX");
19  verboseALCT_ = cscALCT.getParameter<int>("verbose");
20  minNHitsChamberALCT_ = cscALCT.getParameter<int>("minNHitsChamber");
21 
22  const auto& cscLCT = pSet.getParameter<edm::ParameterSet>("cscLCT");
23  minBXLCT_ = cscLCT.getParameter<int>("minBX");
24  maxBXLCT_ = cscLCT.getParameter<int>("maxBX");
25  matchTypeTightLCT_ = cscLCT.getParameter<bool>("matchTypeTight");
26  verboseLCT_ = cscLCT.getParameter<int>("verbose");
27  minNHitsChamberLCT_ = cscLCT.getParameter<int>("minNHitsChamber");
28  addGhostLCTs_ = cscLCT.getParameter<bool>("addGhosts");
29 
30  const auto& cscMPLCT = pSet.getParameter<edm::ParameterSet>("cscMPLCT");
31  minBXMPLCT_ = cscMPLCT.getParameter<int>("minBX");
32  maxBXMPLCT_ = cscMPLCT.getParameter<int>("maxBX");
33  verboseMPLCT_ = cscMPLCT.getParameter<int>("verbose");
34  minNHitsChamberMPLCT_ = cscMPLCT.getParameter<int>("minNHitsChamber");
35 
36  if (useGEMs_)
37  gemDigiMatcher_.reset(new GEMDigiMatcher(pSet, std::move(iC)));
38  cscDigiMatcher_.reset(new CSCDigiMatcher(pSet, std::move(iC)));
39 
40  clctInputTag_ = cscCLCT.getParameter<edm::InputTag>("inputTag");
41  alctInputTag_ = cscALCT.getParameter<edm::InputTag>("inputTag");
42  lctInputTag_ = cscLCT.getParameter<edm::InputTag>("inputTag");
43  mplctInputTag_ = cscMPLCT.getParameter<edm::InputTag>("inputTag");
44 
45  clctToken_ = iC.consumes<CSCCLCTDigiCollection>(clctInputTag_);
46  alctToken_ = iC.consumes<CSCALCTDigiCollection>(alctInputTag_);
47  lctToken_ = iC.consumes<CSCCorrelatedLCTDigiCollection>(lctInputTag_);
48  mplctToken_ = iC.consumes<CSCCorrelatedLCTDigiCollection>(mplctInputTag_);
49 
50  geomToken_ = iC.esConsumes<CSCGeometry, MuonGeometryRecord>();
51 }
52 
54  if (useGEMs_)
55  gemDigiMatcher_->init(iEvent, iSetup);
56  cscDigiMatcher_->init(iEvent, iSetup);
57 
58  iEvent.getByToken(clctToken_, clctsH_);
59  iEvent.getByToken(alctToken_, alctsH_);
60  iEvent.getByToken(lctToken_, lctsH_);
61  iEvent.getByToken(mplctToken_, mplctsH_);
62 
63  cscGeometry_ = &iSetup.getData(geomToken_);
64 }
65 
66 // do the matching
67 void CSCStubMatcher::match(const SimTrack& t, const SimVertex& v) {
68  // match simhits first
69  if (useGEMs_)
70  gemDigiMatcher_->match(t, v);
71  cscDigiMatcher_->match(t, v);
72 
73  const CSCCLCTDigiCollection& clcts = *clctsH_.product();
74  const CSCALCTDigiCollection& alcts = *alctsH_.product();
75  const CSCCorrelatedLCTDigiCollection& lcts = *lctsH_.product();
76  const CSCCorrelatedLCTDigiCollection& mplcts = *mplctsH_.product();
77 
78  // clear collections
79  clear();
80 
81  if (!alctsH_.isValid()) {
82  edm::LogError("CSCStubMatcher") << "Cannot get ALCTs with label " << alctInputTag_.encode();
83  } else {
84  matchALCTsToSimTrack(alcts);
85  }
86 
87  if (!clctsH_.isValid()) {
88  edm::LogError("CSCStubMatcher") << "Cannot get CLCTs with label " << clctInputTag_.encode();
89  } else {
90  matchCLCTsToSimTrack(clcts);
91  }
92 
93  if (!lctsH_.isValid()) {
94  edm::LogError("CSCStubMatcher") << "Cannot get LCTs with label " << lctInputTag_.encode();
95  } else {
96  matchLCTsToSimTrack(lcts);
97  }
98 
99  if (!mplctsH_.isValid()) {
100  edm::LogError("CSCStubMatcher") << "Cannot get MPLCTs with label " << mplctInputTag_.encode();
101  } else {
102  matchMPLCTsToSimTrack(mplcts);
103  }
104 }
105 
107  const auto& cathode_ids = cscDigiMatcher_->chamberIdsStrip(0);
108 
109  for (const auto& id : cathode_ids) {
110  CSCDetId ch_id(id);
111  if (verboseCLCT_) {
112  edm::LogInfo("CSCStubMatcher") << "To check CSC chamber " << ch_id;
113  }
114 
115  int ring = ch_id.ring();
116 
117  // do not consider CSCs with too few hits
118  if (cscDigiMatcher_->nLayersWithStripInChamber(ch_id) < minNHitsChamberCLCT_)
119  continue;
120 
121  // get the comparator digis in this chamber
122  std::vector<CSCComparatorDigiContainer> comps;
123  for (int ilayer = CSCDetId::minLayerId(); ilayer <= CSCDetId::maxLayerId(); ilayer++) {
124  CSCDetId layerid(ch_id.endcap(), ch_id.station(), ring, ch_id.chamber(), ilayer);
125  comps.push_back(cscDigiMatcher_->comparatorDigisInDetId(layerid));
126  }
127 
128  // print out the digis
129  if (verboseCLCT_) {
130  edm::LogInfo("CSCStubMatcher") << "clct: comparators " << ch_id;
131  int layer = 0;
132  for (const auto& p : comps) {
133  layer++;
134  for (const auto& q : p) {
135  edm::LogInfo("CSCStubMatcher") << "L" << layer << " " << q << " " << q.getHalfStrip() << " ";
136  }
137  }
138  }
139 
140  //use ME1b id to get CLCTs
141  const bool isME1a(ch_id.station() == 1 and ch_id.ring() == 4);
142  if (isME1a)
143  ring = 1;
144  CSCDetId ch_id2(ch_id.endcap(), ch_id.station(), ring, ch_id.chamber(), 0);
145  auto id2 = ch_id2.rawId(); // CLCTs should be sorted into the det of the CLCTs.
146 
147  const auto& clcts_in_det = clcts.get(ch_id2);
148 
149  for (auto c = clcts_in_det.first; c != clcts_in_det.second; ++c) {
150  if (verboseCLCT_)
151  edm::LogInfo("CSCStubMatcher") << "clct " << ch_id2 << " " << *c;
152 
153  if (!c->isValid())
154  continue;
155 
156  // check that the BX for this stub wasn't too early or too late
157  if (c->getBX() < minBXCLCT_ || c->getBX() > maxBXCLCT_)
158  continue;
159 
160  // store all CLCTs in this chamber
161  chamber_to_clcts_all_[id2].push_back(*c);
162 
163  // check that at least 3 comparator digis were matched!
164  int nMatches = 0;
165  int layer = 0;
166  for (const auto& p : comps) {
167  layer++;
168  for (const auto& q : p) {
169  if (verboseCLCT_)
170  edm::LogInfo("CSCStubMatcher") << "L" << layer << " " << q << " " << q.getHalfStrip() << " " << std::endl;
171  for (const auto& clctComp : (*c).getHits()[layer - 1]) {
172  if (clctComp == 65535)
173  continue;
174  if (verboseCLCT_) {
175  edm::LogInfo("CSCStubMatcher") << "\t" << clctComp << " ";
176  }
177  if (q.getHalfStrip() == clctComp or (isME1a and q.getHalfStrip() + 128 == clctComp)) {
178  nMatches++;
179  if (verboseCLCT_) {
180  edm::LogInfo("CSCStubMatcher") << "\t\tnMatches " << nMatches << std::endl;
181  }
182  }
183  }
184  }
185  }
186 
187  // require at least 3 good matches
188  if (nMatches < 3)
189  continue;
190 
191  if (verboseCLCT_)
192  edm::LogInfo("CSCStubMatcher") << "clctGOOD";
193 
194  // store matching CLCTs in this chamber
195  if (std::find(chamber_to_clcts_[id2].begin(), chamber_to_clcts_[id2].end(), *c) == chamber_to_clcts_[id2].end()) {
196  chamber_to_clcts_[id2].push_back(*c);
197  }
198  }
199  if (chamber_to_clcts_[id2].size() > 2) {
200  edm::LogInfo("CSCStubMatcher") << "WARNING!!! too many CLCTs " << chamber_to_clcts_[id2].size() << " in "
201  << ch_id2;
202  for (auto& c : chamber_to_clcts_[id2])
203  edm::LogInfo("CSCStubMatcher") << " " << c;
204  }
205  }
206 }
207 
209  const auto& anode_ids = cscDigiMatcher_->chamberIdsWire(0);
210  int n_minLayers = 0;
211  for (const auto& id : anode_ids) {
212  if (cscDigiMatcher_->nLayersWithWireInChamber(id) >= minNHitsChamberALCT_)
213  ++n_minLayers;
214  CSCDetId ch_id(id);
215 
216  // fill 1 WG wide gaps
217  const auto& digi_wgs = cscDigiMatcher_->wiregroupsInChamber(id, 1);
218  if (verboseALCT_) {
219  cout << "alct: digi_wgs " << ch_id << " ";
220  copy(digi_wgs.begin(), digi_wgs.end(), ostream_iterator<int>(cout, " "));
221  cout << endl;
222  }
223 
224  int ring = ch_id.ring();
225  if (ring == 4)
226  ring = 1; //use ME1b id to get ALCTs
227  CSCDetId ch_id2(ch_id.endcap(), ch_id.station(), ring, ch_id.chamber(), 0);
228  auto id2 = ch_id2.rawId(); // ALCTs should be sorted into the det of the ALCTs.
229 
230  const auto& alcts_in_det = alcts.get(ch_id2);
231  for (auto a = alcts_in_det.first; a != alcts_in_det.second; ++a) {
232  if (!a->isValid())
233  continue;
234 
235  if (verboseALCT_)
236  edm::LogInfo("CSCStubMatcher") << "alct " << ch_id << " " << *a;
237 
238  // check that the BX for stub wasn't too early or too late
239  if (a->getBX() < minBXALCT_ || a->getBX() > maxBXALCT_)
240  continue;
241 
242  int wg = a->getKeyWG() + 1; // as ALCT wiregroups numbers start from 0
243 
244  // store all ALCTs in this chamber
245  chamber_to_alcts_all_[id2].push_back(*a);
246 
247  // match by wiregroup with the digis
248  if (digi_wgs.find(wg) == digi_wgs.end()) {
249  continue;
250  }
251  if (verboseALCT_)
252  edm::LogInfo("CSCStubMatcher") << "alctGOOD";
253 
254  // store matching ALCTs in this chamber
255  if (std::find(chamber_to_alcts_[id2].begin(), chamber_to_alcts_[id2].end(), *a) == chamber_to_alcts_[id2].end()) {
256  chamber_to_alcts_[id2].push_back(*a);
257  }
258  }
259  if (chamber_to_alcts_[id2].size() > 2) {
260  edm::LogInfo("CSCStubMatcher") << "WARNING!!! too many ALCTs " << chamber_to_alcts_[id2].size() << " in "
261  << ch_id;
262  for (auto& a : chamber_to_alcts_[id2])
263  edm::LogInfo("CSCStubMatcher") << " " << a;
264  }
265  }
266 }
267 
269  // only look for stubs in chambers that already have CLCT and ALCT
270  const auto& cathode_ids = chamberIdsAllCLCT(0);
271  const auto& anode_ids = chamberIdsAllALCT(0);
272 
273  std::set<int> cathode_and_anode_ids;
274  std::set_union(cathode_ids.begin(),
275  cathode_ids.end(),
276  anode_ids.begin(),
277  anode_ids.end(),
278  std::inserter(cathode_and_anode_ids, cathode_and_anode_ids.end()));
279 
280  for (const auto& id : cathode_and_anode_ids) {
281  int iLct = -1;
282 
283  CSCDetId ch_id(id);
284 
285  //use ME1b id to get LCTs
286  int ring = ch_id.ring();
287  if (ring == 4)
288  ring = 1;
289  CSCDetId ch_id2(ch_id.endcap(), ch_id.station(), ring, ch_id.chamber(), 0);
290  auto id2 = ch_id2.rawId(); // LCTs should be sorted into the det of the LCTs.
291 
292  const auto& lcts_in_det = lcts.get(ch_id2);
293 
294  std::map<int, CSCCorrelatedLCTDigiContainer> bx_to_lcts;
295 
296  // collect all valid LCTs in a handy container
298  for (auto lct = lcts_in_det.first; lct != lcts_in_det.second; ++lct) {
299  if (!lct->isValid())
300  continue;
301  lcts_tmp.push_back(*lct);
302  int bx = lct->getBX();
303  bx_to_lcts[bx].push_back(*lct);
304 
305  // Add ghost LCTs when there are two in bx
306  // and the two don't share half-strip or wiregroup
307  if (bx_to_lcts[bx].size() == 2 and addGhostLCTs_) {
308  auto lct11 = bx_to_lcts[bx][0];
309  auto lct22 = bx_to_lcts[bx][1];
310  addGhostLCTs(lct11, lct22, lcts_tmp);
311  }
312  }
313 
314  for (const auto& lct : lcts_tmp) {
315  iLct++;
316 
317  bool lct_clct_match(false);
318  bool lct_alct_match(false);
319  bool lct_gem1_match(false);
320  bool lct_gem2_match(false);
321 
322  if (verboseLCT_) {
323  edm::LogInfo("CSCStubMatcher") << ch_id << " " << ch_id2;
324  edm::LogInfo("CSCStubMatcher") << lct;
325  edm::LogInfo("CSCStubMatcher") << "getCLCT " << lct.getCLCT() << "\ngetALCT " << lct.getALCT() << "\ngetGEM1 "
326  << lct.getGEM1() << "\ngetGEM2 " << lct.getGEM2();
327  }
328  // Check if matched to an CLCT
329  for (const auto& p : clctsInChamber(id)) {
330  if (p == lct.getCLCT()) {
331  lct_clct_match = true;
332  if (verboseLCT_)
333  edm::LogInfo("CSCStubMatcher") << "\t...lct_clct_match";
334  break;
335  }
336  }
337 
338  // Check if matched to an ALCT
339  for (const auto& p : alctsInChamber(id)) {
340  if (p == lct.getALCT()) {
341  lct_alct_match = true;
342  if (verboseLCT_)
343  edm::LogInfo("CSCStubMatcher") << "\t...lct_alct_match";
344  break;
345  }
346  }
347 
348  if (useGEMs_) {
349  // fixME here: double check the timing of GEMPad
350  if (ch_id.ring() == 1 and (ch_id.station() == 1 or ch_id.station() == 2)) {
351  // Check if matched to an GEM pad L1
352  const GEMDetId gemDetIdL1(ch_id.zendcap(), 1, ch_id.station(), 1, ch_id.chamber(), 0);
353  for (const auto& p : gemDigiMatcher_->padsInChamber(gemDetIdL1.rawId())) {
354  if (p == lct.getGEM1()) {
355  lct_gem1_match = true;
356  if (verboseLCT_)
357  edm::LogInfo("CSCStubMatcher") << "\t...lct_gem1_match";
358  break;
359  }
360  }
361 
362  // Check if matched to an GEM pad L2
363  const GEMDetId gemDetIdL2(ch_id.zendcap(), 1, ch_id.station(), 2, ch_id.chamber(), 0);
364  for (const auto& p : gemDigiMatcher_->padsInChamber(gemDetIdL2.rawId())) {
365  if (p == lct.getGEM2()) {
366  lct_gem2_match = true;
367  if (verboseLCT_)
368  edm::LogInfo("CSCStubMatcher") << "\t...lct_gem2_match";
369  break;
370  }
371  }
372  }
373  }
374 
375  const bool alct_clct = lct_clct_match and lct_alct_match;
376  const bool alct_gem = lct_alct_match and lct_gem1_match and lct_gem2_match;
377  const bool clct_gem = lct_clct_match and lct_gem1_match and lct_gem2_match;
378 
379  bool lct_tight_matched = alct_clct or alct_gem or clct_gem;
380  bool lct_loose_matched = lct_clct_match or lct_alct_match;
381  bool lct_matched = matchTypeTightLCT_ ? lct_tight_matched : lct_loose_matched;
382 
383  if (lct_matched) {
384  if (verboseLCT_)
385  edm::LogInfo("CSCStubMatcher") << "...was matched";
386  if (std::find(chamber_to_lcts_[id2].begin(), chamber_to_lcts_[id2].end(), lct) == chamber_to_lcts_[id2].end()) {
387  chamber_to_lcts_[id2].emplace_back(lct);
388  }
389  }
390  } // lct loop over
391  }
392 }
393 
395  // match simtrack to MPC LCT by looking only in chambers
396  // that already have LCTs matched to this simtrack
397  const auto& lcts_ids = chamberIdsLCT(0);
398 
399  // loop on the detids
400  for (const auto& id : lcts_ids) {
401  const auto& mplcts_in_det = mplcts.get(id);
402 
403  // loop on the MPC LCTs in this detid
404  for (auto lct = mplcts_in_det.first; lct != mplcts_in_det.second; ++lct) {
405  if (!lct->isValid())
406  continue;
407 
408  chamber_to_mplcts_all_[id].emplace_back(*lct);
409 
410  // check if this stub corresponds with a previously matched stub
411  for (const auto& sim_stub : lctsInChamber(id)) {
412  if (sim_stub == *lct) {
413  if (std::find(chamber_to_mplcts_[id].begin(), chamber_to_mplcts_[id].end(), *lct) ==
414  chamber_to_mplcts_[id].end()) {
415  chamber_to_mplcts_[id].emplace_back(*lct);
416  }
417  }
418  }
419  }
420  }
421 }
422 
423 std::set<unsigned int> CSCStubMatcher::chamberIdsAllCLCT(int csc_type) const {
424  return selectDetIds(chamber_to_clcts_all_, csc_type);
425 }
426 
427 std::set<unsigned int> CSCStubMatcher::chamberIdsAllALCT(int csc_type) const {
428  return selectDetIds(chamber_to_alcts_all_, csc_type);
429 }
430 
431 std::set<unsigned int> CSCStubMatcher::chamberIdsAllLCT(int csc_type) const {
432  return selectDetIds(chamber_to_lcts_all_, csc_type);
433 }
434 
435 std::set<unsigned int> CSCStubMatcher::chamberIdsAllMPLCT(int csc_type) const {
436  return selectDetIds(chamber_to_mplcts_all_, csc_type);
437 }
438 
439 std::set<unsigned int> CSCStubMatcher::chamberIdsCLCT(int csc_type) const {
440  return selectDetIds(chamber_to_clcts_, csc_type);
441 }
442 
443 std::set<unsigned int> CSCStubMatcher::chamberIdsALCT(int csc_type) const {
444  return selectDetIds(chamber_to_alcts_, csc_type);
445 }
446 
447 std::set<unsigned int> CSCStubMatcher::chamberIdsLCT(int csc_type) const {
448  return selectDetIds(chamber_to_lcts_, csc_type);
449 }
450 
451 std::set<unsigned int> CSCStubMatcher::chamberIdsMPLCT(int csc_type) const {
452  return selectDetIds(chamber_to_mplcts_, csc_type);
453 }
454 
455 const CSCCLCTDigiContainer& CSCStubMatcher::allCLCTsInChamber(unsigned int detid) const {
456  if (chamber_to_clcts_all_.find(detid) == chamber_to_clcts_all_.end())
457  return no_clcts_;
458  return chamber_to_clcts_all_.at(detid);
459 }
460 
461 const CSCALCTDigiContainer& CSCStubMatcher::allALCTsInChamber(unsigned int detid) const {
462  if (chamber_to_alcts_all_.find(detid) == chamber_to_alcts_all_.end())
463  return no_alcts_;
464  return chamber_to_alcts_all_.at(detid);
465 }
466 
468  if (chamber_to_lcts_all_.find(detid) == chamber_to_lcts_all_.end())
469  return no_lcts_;
470  return chamber_to_lcts_all_.at(detid);
471 }
472 
474  if (chamber_to_mplcts_all_.find(detid) == chamber_to_mplcts_all_.end())
475  return no_mplcts_;
476  return chamber_to_mplcts_all_.at(detid);
477 }
478 
479 const CSCCLCTDigiContainer& CSCStubMatcher::clctsInChamber(unsigned int detid) const {
480  if (chamber_to_clcts_.find(detid) == chamber_to_clcts_.end())
481  return no_clcts_;
482  return chamber_to_clcts_.at(detid);
483 }
484 
485 const CSCALCTDigiContainer& CSCStubMatcher::alctsInChamber(unsigned int detid) const {
486  if (chamber_to_alcts_.find(detid) == chamber_to_alcts_.end())
487  return no_alcts_;
488  return chamber_to_alcts_.at(detid);
489 }
490 
492  if (chamber_to_lcts_.find(detid) == chamber_to_lcts_.end())
493  return no_lcts_;
494  return chamber_to_lcts_.at(detid);
495 }
496 
498  if (chamber_to_mplcts_.find(detid) == chamber_to_mplcts_.end())
499  return no_mplcts_;
500  return chamber_to_mplcts_.at(detid);
501 }
502 
504  //sort stubs based on quality
505  const auto& input(clctsInChamber(detid));
506  int bestQ = 0;
507  int index = -1;
508  for (unsigned int i = 0; i < input.size(); ++i) {
509  int quality = input[i].getQuality();
510  if (quality > bestQ) {
511  bestQ = quality;
512  index = i;
513  }
514  }
515  if (index != -1)
516  return input[index];
517  return CSCCLCTDigi();
518 }
519 
521  //sort stubs based on quality
522  const auto& input(alctsInChamber(detid));
523  int bestQ = 0;
524  int index = -1;
525  for (unsigned int i = 0; i < input.size(); ++i) {
526  int quality = input[i].getQuality();
527  if (quality > bestQ) {
528  bestQ = quality;
529  index = i;
530  }
531  }
532  if (index != -1)
533  return input[index];
534  return CSCALCTDigi();
535 }
536 
538  //sort stubs based on quality
539  const auto& input(lctsInChamber(detid));
540  int bestQ = 0;
541  int index = -1;
542  for (unsigned int i = 0; i < input.size(); ++i) {
543  int quality = input[i].getQuality();
544  if (quality > bestQ) {
545  bestQ = quality;
546  index = i;
547  }
548  }
549  if (index != -1)
550  return input[index];
551  return CSCCorrelatedLCTDigi();
552 }
553 
554 float CSCStubMatcher::zpositionOfLayer(unsigned int detid, int layer) const {
555  const auto& id = CSCDetId(detid);
556  const auto& chamber(cscGeometry_->chamber(id));
557  return fabs(chamber->layer(layer)->centerOfStrip(20).z());
558 }
559 
560 int CSCStubMatcher::nChambersWithCLCT(int min_quality) const {
561  int result = 0;
562  const auto& chamber_ids = chamberIdsCLCT();
563  for (const auto& id : chamber_ids) {
564  int nStubChamber = 0;
565  const auto& clcts = clctsInChamber(id);
566  for (const auto& clct : clcts) {
567  if (!clct.isValid())
568  continue;
569  if (clct.getQuality() >= min_quality) {
570  nStubChamber++;
571  }
572  }
573  if (nStubChamber > 0) {
574  ++result;
575  }
576  }
577  return result;
578 }
579 
580 int CSCStubMatcher::nChambersWithALCT(int min_quality) const {
581  int result = 0;
582  const auto& chamber_ids = chamberIdsALCT();
583  for (const auto& id : chamber_ids) {
584  int nStubChamber = 0;
585  const auto& alcts = alctsInChamber(id);
586  for (const auto& alct : alcts) {
587  if (!alct.isValid())
588  continue;
589  if (alct.getQuality() >= min_quality) {
590  nStubChamber++;
591  }
592  }
593  if (nStubChamber > 0) {
594  ++result;
595  }
596  }
597  return result;
598 }
599 
600 int CSCStubMatcher::nChambersWithLCT(int min_quality) const {
601  int result = 0;
602  const auto& chamber_ids = chamberIdsLCT();
603  for (const auto& id : chamber_ids) {
604  int nStubChamber = 0;
605  const auto& lcts = lctsInChamber(id);
606  for (const auto& lct : lcts) {
607  if (!lct.isValid())
608  continue;
609  if (lct.getQuality() >= min_quality) {
610  nStubChamber++;
611  }
612  }
613  if (nStubChamber > 0) {
614  ++result;
615  }
616  }
617  return result;
618 }
619 
620 int CSCStubMatcher::nChambersWithMPLCT(int min_quality) const {
621  int result = 0;
622  const auto& chamber_ids = chamberIdsMPLCT();
623  for (const auto& id : chamber_ids) {
624  int nStubChamber = 0;
625  const auto& mplcts = mplctsInChamber(id);
626  for (const auto& mplct : mplcts) {
627  if (!mplct.isValid())
628  continue;
629  if (mplct.getQuality() >= min_quality) {
630  nStubChamber++;
631  }
632  }
633  if (nStubChamber > 0) {
634  ++result;
635  }
636  }
637  return result;
638 }
639 
640 bool CSCStubMatcher::lctInChamber(const CSCDetId& id, const CSCCorrelatedLCTDigi& lct) const {
641  for (const auto& stub : lctsInChamber(id.rawId())) {
642  if (stub == lct)
643  return true;
644  }
645  return false;
646 }
647 
649  CSCDetId cscId(rawId);
650  CSCDetId keyId(cscId.endcap(), cscId.station(), cscId.ring(), cscId.chamber(), CSCConstants::KEY_CLCT_LAYER);
651  float fractional_strip = lct.getFractionalStrip();
652  // case ME1/1
653  if (cscId.station() == 1 and (cscId.ring() == 4 || cscId.ring() == 1)) {
654  int ring = 1; // Default to ME1/b
656  ring = 4; // Change to ME1/a if the HalfStrip Number exceeds the range of ME1/b
657  fractional_strip -= CSCConstants::NUM_STRIPS_ME1B;
658  }
659  CSCDetId cscId_(cscId.endcap(), cscId.station(), ring, cscId.chamber(), cscId.layer());
660  cscId = cscId_;
661  }
662  // regular cases
663  const auto& chamber = cscGeometry_->chamber(cscId);
664  const auto& layer_geo = chamber->layer(CSCConstants::KEY_CLCT_LAYER)->geometry();
665  // LCT::getKeyWG() also starts from 0
666  float wire = layer_geo->middleWireOfGroup(lct.getKeyWG() + 1);
667  const LocalPoint& csc_intersect = layer_geo->intersectionOfStripAndWire(fractional_strip, wire);
668  const GlobalPoint& csc_gp = cscGeometry_->idToDet(keyId)->surface().toGlobal(csc_intersect);
669  return csc_gp;
670 }
671 
673  chamber_to_clcts_all_.clear();
674  chamber_to_alcts_all_.clear();
675  chamber_to_lcts_all_.clear();
676  chamber_to_mplcts_all_.clear();
677 
678  chamber_to_clcts_.clear();
679  chamber_to_alcts_.clear();
680  chamber_to_lcts_.clear();
681  chamber_to_mplcts_.clear();
682 }
683 
685  const CSCCorrelatedLCTDigi& lct22,
686  CSCCorrelatedLCTDigiContainer& lcts_tmp) const {
687  int wg1 = lct11.getKeyWG();
688  int wg2 = lct22.getKeyWG();
689  int hs1 = lct11.getStrip();
690  int hs2 = lct22.getStrip();
691 
692  if (!(wg1 == wg2 || hs1 == hs2)) {
693  // flip the ALCTs
694  CSCCorrelatedLCTDigi lct12 = lct11;
695  lct12.setWireGroup(wg2);
696  lct12.setALCT(lct22.getALCT());
697  lct12.setCLCT(lct11.getCLCT());
698  lcts_tmp.push_back(lct12);
699 
700  CSCCorrelatedLCTDigi lct21 = lct22;
701  lct21.setWireGroup(wg1);
702  lct21.setALCT(lct11.getALCT());
703  lct21.setCLCT(lct22.getCLCT());
704  lcts_tmp.push_back(lct21);
705  }
706 }
size
Write out results.
std::set< unsigned int > chamberIdsAllALCT(int csc_type=MuonHitHelper::CSC_ALL) const
std::vector< CSCCLCTDigi > CSCCLCTDigiContainer
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
void setALCT(const CSCALCTDigi &alct)
const CSCCLCTDigiContainer & allCLCTsInChamber(unsigned int) const
all stubs (not necessarily matching) from a particular crossed chamber
int nChambersWithALCT(int min_quality=0) const
short int zendcap() const
Definition: CSCDetId.h:91
T const & getData(const ESGetToken< T, R > &iToken) const noexcept(false)
Definition: EventSetup.h:119
bool lctInChamber(const CSCDetId &id, const CSCCorrelatedLCTDigi &lct) const
int nChambersWithLCT(int min_quality=0) const
std::set< unsigned int > chamberIdsMPLCT(int csc_type=MuonHitHelper::CSC_ALL) const
int nChambersWithCLCT(int min_quality=0) const
How many CSC chambers with matching stubs of some minimal quality did this SimTrack hit...
const CSCALCTDigiContainer & allALCTsInChamber(unsigned int) const
CSCStubMatcher(edm::ParameterSet const &iPS, edm::ConsumesCollector &&iC)
std::set< unsigned int > chamberIdsAllLCT(int csc_type=MuonHitHelper::CSC_ALL) const
std::set< unsigned int > chamberIdsALCT(int csc_type=MuonHitHelper::CSC_ALL) const
void matchMPLCTsToSimTrack(const CSCCorrelatedLCTDigiCollection &)
std::set< unsigned int > chamberIdsAllCLCT(int csc_type=MuonHitHelper::CSC_ALL) const
crossed chamber detIds with not necessarily matching stubs
GlobalPoint getGlobalPosition(unsigned int rawId, const CSCCorrelatedLCTDigi &lct) const
const CSCCorrelatedLCTDigiContainer & allMPLCTsInChamber(unsigned int) const
std::vector< CSCCorrelatedLCTDigi > CSCCorrelatedLCTDigiContainer
CSCCorrelatedLCTDigi bestLctInChamber(unsigned int) const
int layer() const
Definition: CSCDetId.h:56
Log< level::Error, false > LogError
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:19
float zpositionOfLayer(unsigned int detid, int layer) const
static std::string const input
Definition: EdmProvDump.cc:50
string quality
int nChambersWithMPLCT(int min_quality=0) const
std::vector< CSCALCTDigi > CSCALCTDigiContainer
int iEvent
Definition: GenABIO.cc:224
void setWireGroup(const uint16_t wiregroup)
set wiregroup number
CSCCLCTDigi bestClctInChamber(unsigned int) const
best matching from a particular crossed chamber
std::set< unsigned int > chamberIdsLCT(int csc_type=MuonHitHelper::CSC_ALL) const
const CSCCLCTDigiContainer & clctsInChamber(unsigned int) const
all matching from a particular crossed chamber
void matchLCTsToSimTrack(const CSCCorrelatedLCTDigiCollection &)
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
const CSCALCTDigiContainer & alctsInChamber(unsigned int) const
int chamber() const
Definition: CSCDetId.h:62
const CSCCorrelatedLCTDigiContainer & mplctsInChamber(unsigned int) const
Log< level::Info, false > LogInfo
void matchALCTsToSimTrack(const CSCALCTDigiCollection &)
uint16_t getStrip(uint16_t n=2) const
return the key halfstrip from 0,159
const CSCCLCTDigi & getCLCT() const
static int minLayerId()
Definition: CSCDetId.h:242
int station() const
Definition: CSCDetId.h:79
void matchCLCTsToSimTrack(const CSCCLCTDigiCollection &)
int endcap() const
Definition: CSCDetId.h:85
float getFractionalStrip(uint16_t n=2) const
return the fractional strip
const CSCCorrelatedLCTDigiContainer & lctsInChamber(unsigned int) const
uint16_t getKeyWG() const
return the key wire group. counts from 0.
CSCALCTDigi bestAlctInChamber(unsigned int) const
std::set< unsigned int > chamberIdsAllMPLCT(int csc_type=MuonHitHelper::CSC_ALL) const
double a
Definition: hdecay.h:119
std::set< unsigned int > chamberIdsCLCT(int csc_type=MuonHitHelper::CSC_ALL) const
chamber detIds with matching stubs
void match(const SimTrack &t, const SimVertex &v)
do the matching
void clear(EGIsoObj &c)
Definition: egamma.h:82
int ring() const
Definition: CSCDetId.h:68
void setCLCT(const CSCCLCTDigi &clct)
const CSCALCTDigi & getALCT() const
const CSCCorrelatedLCTDigiContainer & allLCTsInChamber(unsigned int) const
static int maxLayerId()
Definition: CSCDetId.h:243
def move(src, dest)
Definition: eostools.py:511
void init(const edm::Event &e, const edm::EventSetup &eventSetup)
initialize the event
void addGhostLCTs(const CSCCorrelatedLCTDigi &lct11, const CSCCorrelatedLCTDigi &lct22, CSCCorrelatedLCTDigiContainer &lctcontainer) const