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MixingModule.cc
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1 // File: MixingModule.cc
2 // Description: see MixingModule.h
3 // Author: Ursula Berthon, LLR Palaiseau, Bill Tanenbaum
4 //
5 //--------------------------------------------
6 
7 #include <functional>
8 #include <memory>
9 
10 #include "MixingModule.h"
11 #include "MixingWorker.h"
12 #include "Adjuster.h"
13 
37 
38 namespace edm {
39 
40  // Constructor
42  : BMixingModule(ps_mix, globalConf),
43  inputTagPlayback_(),
44  mixProdStep2_(ps_mix.getParameter<bool>("mixProdStep2")),
45  mixProdStep1_(ps_mix.getParameter<bool>("mixProdStep1")),
46  digiAccumulators_() {
48  LogInfo("MixingModule") << " The MixingModule was run in the Standard mode.";
49  if (mixProdStep1_)
50  LogInfo("MixingModule") << " The MixingModule was run in the Step1 mode. It produces a mixed secondary source.";
51  if (mixProdStep2_)
52  LogInfo("MixingModule") << " The MixingModule was run in the Step2 mode. It uses a mixed secondary source.";
53 
54  useCurrentProcessOnly_ = false;
55  if (ps_mix.exists("useCurrentProcessOnly")) {
56  useCurrentProcessOnly_ = ps_mix.getParameter<bool>("useCurrentProcessOnly");
57  LogInfo("MixingModule") << " using given Parameter 'useCurrentProcessOnly' =" << useCurrentProcessOnly_;
58  }
59  std::string labelPlayback;
60  if (ps_mix.exists("LabelPlayback")) {
61  labelPlayback = ps_mix.getParameter<std::string>("LabelPlayback");
62  }
63  if (labelPlayback.empty()) {
64  labelPlayback = ps_mix.getParameter<std::string>("@module_label");
65  }
66  if (playback_) {
68  consumes<CrossingFramePlaybackInfoNew>(inputTagPlayback_);
69  }
70  wrapLongTimes_ = false;
71  if (ps_mix.exists("WrapLongTimes")) {
72  wrapLongTimes_ = ps_mix.getParameter<bool>("WrapLongTimes");
73  }
74 
75  skipSignal_ = false;
76  if (ps_mix.exists("skipSignal")) {
77  skipSignal_ = ps_mix.getParameter<bool>("skipSignal");
78  }
79 
80  ParameterSet ps = ps_mix.getParameter<ParameterSet>("mixObjects");
81  std::vector<std::string> names = ps.getParameterNames();
82  for (std::vector<std::string>::iterator it = names.begin(); it != names.end(); ++it) {
84  if (!pset.exists("type"))
85  continue; //to allow replacement by empty pset
86  std::string object = pset.getParameter<std::string>("type");
87  std::vector<InputTag> tags = pset.getParameter<std::vector<InputTag> >("input");
88 
89  //if (!mixProdStep2_) {
90 
91  InputTag tagCF = InputTag();
92  std::string labelCF = " ";
93 
94  if (object == "SimTrack") {
95  InputTag tag;
96  if (!tags.empty())
97  tag = tags[0];
99 
100  branchesActivate(TypeID(typeid(std::vector<SimTrack>)).friendlyClassName(), std::string(""), tag, label);
101  adjustersObjects_.push_back(new Adjuster<std::vector<SimTrack> >(tag, consumesCollector(), wrapLongTimes_));
102  bool makeCrossingFrame = pset.getUntrackedParameter<bool>("makeCrossingFrame", false);
103  if (makeCrossingFrame) {
105  minBunch_, maxBunch_, bunchSpace_, std::string(""), label, labelCF, maxNbSources_, tag, tagCF));
106  produces<CrossingFrame<SimTrack> >(label);
107  }
108  consumes<std::vector<SimTrack> >(tag);
109 
110  LogInfo("MixingModule") << "Will mix " << object << "s with InputTag= " << tag.encode() << ", label will be "
111  << label;
112  // std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;
113 
114  } else if (object == "RecoTrack") {
115  InputTag tag;
116  if (!tags.empty())
117  tag = tags[0];
119 
120  branchesActivate(TypeID(typeid(std::vector<reco::Track>)).friendlyClassName(), std::string(""), tag, label);
122  TypeID(typeid(std::vector<reco::TrackExtra>)).friendlyClassName(), std::string(""), tag, label);
125  std::string(""),
126  tag,
127  label);
128  adjustersObjects_.push_back(
129  new Adjuster<edm::OwnVector<TrackingRecHit> >(tag, consumesCollector(), wrapLongTimes_));
130  // note: no crossing frame is foreseen to be used for this object type
131 
132  LogInfo("MixingModule") << "Will mix " << object << "s with InputTag= " << tag.encode() << ", label will be "
133  << label;
134  //std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;
135 
136  } else if (object == "SimVertex") {
137  InputTag tag;
138  if (!tags.empty())
139  tag = tags[0];
141 
142  branchesActivate(TypeID(typeid(std::vector<SimVertex>)).friendlyClassName(), std::string(""), tag, label);
143  adjustersObjects_.push_back(new Adjuster<std::vector<SimVertex> >(tag, consumesCollector(), wrapLongTimes_));
144  bool makeCrossingFrame = pset.getUntrackedParameter<bool>("makeCrossingFrame", false);
145  if (makeCrossingFrame) {
147  minBunch_, maxBunch_, bunchSpace_, std::string(""), label, labelCF, maxNbSources_, tag, tagCF));
148  produces<CrossingFrame<SimVertex> >(label);
149  }
150  consumes<std::vector<SimVertex> >(tag);
151 
152  LogInfo("MixingModule") << "Will mix " << object << "s with InputTag " << tag.encode() << ", label will be "
153  << label;
154  // std::cout <<"Will mix "<<object<<"s with InputTag "<<tag.encode()<<", label will be "<<label<<std::endl;
155 
156  } else if (object == "HepMCProduct") {
157  InputTag tag;
158  if (!tags.empty())
159  tag = tags[0];
161 
162  branchesActivate(TypeID(typeid(HepMCProduct)).friendlyClassName(), std::string(""), tag, label);
163  bool makeCrossingFrame = pset.getUntrackedParameter<bool>("makeCrossingFrame", false);
164  if (makeCrossingFrame) {
166  minBunch_, maxBunch_, bunchSpace_, std::string(""), label, labelCF, maxNbSources_, tag, tagCF, tags));
167  produces<CrossingFrame<HepMCProduct> >(label);
168  }
169  consumes<HepMCProduct>(tag);
170 
171  LogInfo("MixingModule") << "Will mix " << object << "s with InputTag= " << tag.encode() << ", label will be "
172  << label;
173  // std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;
174  for (size_t i = 1; i < tags.size(); ++i) {
175  InputTag fallbackTag = tags[i];
176  std::string fallbackLabel;
178  TypeID(typeid(HepMCProduct)).friendlyClassName(), std::string(""), fallbackTag, fallbackLabel);
179  mayConsume<HepMCProduct>(fallbackTag);
180  }
181 
182  } else if (object == "PCaloHit") {
183  std::vector<std::string> subdets = pset.getParameter<std::vector<std::string> >("subdets");
184  std::vector<std::string> crossingFrames =
185  pset.getUntrackedParameter<std::vector<std::string> >("crossingFrames", std::vector<std::string>());
187  for (unsigned int ii = 0; ii < subdets.size(); ++ii) {
188  InputTag tag;
189  if (tags.size() == 1)
190  tag = tags[0];
191  else if (tags.size() > 1)
192  tag = tags[ii];
194 
195  branchesActivate(TypeID(typeid(std::vector<PCaloHit>)).friendlyClassName(), subdets[ii], tag, label);
196  adjustersObjects_.push_back(new Adjuster<std::vector<PCaloHit> >(tag, consumesCollector(), wrapLongTimes_));
197  if (binary_search_all(crossingFrames, tag.instance())) {
199  minBunch_, maxBunch_, bunchSpace_, subdets[ii], label, labelCF, maxNbSources_, tag, tagCF));
200  produces<CrossingFrame<PCaloHit> >(label);
201  consumes<std::vector<PCaloHit> >(tag);
202  }
203 
204  LogInfo("MixingModule") << "Will mix " << object << "s with InputTag= " << tag.encode() << ", label will be "
205  << label;
206  // std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;
207  }
208 
209  } else if (object == "PSimHit") {
210  std::vector<std::string> subdets = pset.getParameter<std::vector<std::string> >("subdets");
211  std::vector<std::string> crossingFrames =
212  pset.getUntrackedParameter<std::vector<std::string> >("crossingFrames", std::vector<std::string>());
214  std::vector<std::string> pcrossingFrames =
215  pset.getUntrackedParameter<std::vector<std::string> >("pcrossingFrames", std::vector<std::string>());
217  for (unsigned int ii = 0; ii < subdets.size(); ++ii) {
218  InputTag tag;
219  if (tags.size() == 1)
220  tag = tags[0];
221  else if (tags.size() > 1)
222  tag = tags[ii];
224 
225  branchesActivate(TypeID(typeid(std::vector<PSimHit>)).friendlyClassName(), subdets[ii], tag, label);
226  adjustersObjects_.push_back(new Adjuster<std::vector<PSimHit> >(tag, consumesCollector(), wrapLongTimes_));
227  if (binary_search_all(crossingFrames, tag.instance())) {
228  bool makePCrossingFrame = binary_search_all(pcrossingFrames, tag.instance());
230  maxBunch_,
231  bunchSpace_,
232  subdets[ii],
233  label,
234  labelCF,
236  tag,
237  tagCF,
238  makePCrossingFrame));
239  produces<CrossingFrame<PSimHit> >(label);
240  if (makePCrossingFrame) {
241  produces<PCrossingFrame<PSimHit> >(label);
242  }
243  consumes<std::vector<PSimHit> >(tag);
244  }
245 
246  LogInfo("MixingModule") << "Will mix " << object << "s with InputTag= " << tag.encode() << ", label will be "
247  << label;
248  // std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;
249  }
250  } else {
251  LogWarning("MixingModule")
252  << "You have asked to mix an unknown type of object(" << object
253  << ").\n If you want to include it in mixing, please contact the authors of the MixingModule!";
254  }
255  //} //if for mixProdStep2
256  } //while over the mixObjects parameters
257 
259  for (unsigned int branch = 0; branch < wantedBranches_.size(); ++branch)
260  LogDebug("MixingModule") << "Will keep branch " << wantedBranches_[branch] << " for mixing ";
261 
263 
264  produces<PileupMixingContent>();
265 
266  produces<CrossingFramePlaybackInfoNew>();
267 
268  edm::ConsumesCollector iC(consumesCollector());
269  if (globalConf->configFromDB_) {
270  configToken_ = esConsumes<edm::Transition::BeginLuminosityBlock>();
271  }
272  // Create and configure digitizers
273  createDigiAccumulators(ps_mix, iC);
274  }
275 
277  ParameterSet const& digiPSet = mixingPSet.getParameterSet("digitizers");
278  std::vector<std::string> digiNames = digiPSet.getParameterNames();
279  for (auto const& digiName : digiNames) {
280  ParameterSet const& pset = digiPSet.getParameterSet(digiName);
281  if (pset.existsAs<edm::InputTag>("HepMCProductLabel")) {
282  consumes<HepMCProduct>(pset.getParameter<edm::InputTag>("HepMCProductLabel"));
283  }
284  std::unique_ptr<DigiAccumulatorMixMod> accumulator = std::unique_ptr<DigiAccumulatorMixMod>(
285  DigiAccumulatorMixModFactory::get()->makeDigiAccumulator(pset, producesCollector(), iC));
286  // Create appropriate DigiAccumulator
287  if (accumulator.get() != nullptr) {
288  digiAccumulators_.push_back(accumulator.release());
289  }
290  }
291  }
292 
294  //change the basic parameters.
295  auto const& config = setup.getData(configToken_);
296  minBunch_ = config.minBunch();
297  maxBunch_ = config.maxBunch();
298  bunchSpace_ = config.bunchSpace();
299  //propagate to change the workers
300  for (unsigned int ii = 0; ii < workersObjects_.size(); ++ii) {
302  }
303  }
304 
306  const std::string& subdet,
307  InputTag& tag,
308  std::string& label) {
309  label = tag.label() + tag.instance();
310  wantedBranches_.push_back(friendlyName + '_' + tag.label() + '_' + tag.instance());
311 
312  //if useCurrentProcessOnly, we have to change the input tag
315  tag = InputTag(tag.label(), tag.instance(), processName);
316  }
317  }
318 
320  if (adjusters_.empty()) {
321  for (auto const& adjuster : adjustersObjects_) {
322  if (skipSignal_ or adjuster->checkSignal(e)) {
323  adjusters_.push_back(adjuster);
324  }
325  }
326  }
327  if (workers_.empty()) {
328  for (auto const& worker : workersObjects_) {
329  if (skipSignal_ or worker->checkSignal(e)) {
330  workers_.push_back(worker);
331  }
332  }
333  }
334  }
335 
337  //create playback info
339  //and CrossingFrames
340  for (unsigned int ii = 0; ii < workers_.size(); ++ii) {
341  workers_[ii]->createnewEDProduct();
342  }
343  }
344 
345  // Virtual destructor needed.
347  for (auto& worker : workersObjects_) {
348  delete worker;
349  }
350 
351  for (auto& adjuster : adjustersObjects_) {
352  delete adjuster;
353  }
354 
355  for (auto& digiAccumulator : digiAccumulators_) {
356  delete digiAccumulator;
357  }
358  }
359 
361  if (skipSignal_) {
362  return;
363  }
364 
365  LogDebug("MixingModule") << "===============> adding signals for " << e.id();
366 
368  // fill in signal part of CrossingFrame
369  for (unsigned int ii = 0; ii < workers_.size(); ++ii) {
370  workers_[ii]->addSignals(e);
371  }
372  }
373 
374  bool MixingModule::pileAllWorkers(EventPrincipal const& eventPrincipal,
375  ModuleCallingContext const* mcc,
376  int bunchCrossing,
377  int eventId,
378  int& vertexOffset,
379  const edm::EventSetup& setup,
380  StreamID const& streamID) {
381  InternalContext internalContext(eventPrincipal.id(), mcc);
382  ParentContext parentContext(&internalContext);
383  ModuleCallingContext moduleCallingContext(&moduleDescription());
384  ModuleContextSentry moduleContextSentry(&moduleCallingContext, parentContext);
385 
387 
388  for (auto const& adjuster : adjusters_) {
389  adjuster->doOffset(bunchSpace_, bunchCrossing, eventPrincipal, &moduleCallingContext, eventId, vertexOffset);
390  }
391  PileUpEventPrincipal pep(eventPrincipal, &moduleCallingContext, bunchCrossing);
392 
393  accumulateEvent(pep, setup, streamID);
394 
395  for (auto const& worker : workers_) {
396  LogDebug("MixingModule") << " merging Event: id " << eventPrincipal.id();
397  // std::cout <<"PILEALLWORKERS merging Event: id " << eventPrincipal.id() << std::endl;
398 
399  worker->addPileups(eventPrincipal, &moduleCallingContext, eventId);
400  }
401 
402  return true;
403  }
404 
406  using namespace std::placeholders;
407 
408  // Don't allocate because PileUp will do it for us.
409  std::vector<edm::SecondaryEventIDAndFileInfo> recordEventID;
410  std::vector<size_t> sizes;
411  sizes.reserve(maxNbSources_ * (maxBunch_ + 1 - minBunch_));
412  size_t playbackCounter = 0U;
414  edm::Handle<CrossingFramePlaybackInfoExtended> oldFormatPlaybackInfo_H;
415  bool oldFormatPlayback = false;
416  if (playback_) {
417  bool got = e.getByLabel(inputTagPlayback_, playbackInfo_H);
418  if (!got) {
419  bool gotOld = e.getByLabel(inputTagPlayback_, oldFormatPlaybackInfo_H);
420  if (!gotOld) {
421  throw cms::Exception("MixingProductNotFound")
422  << " No "
423  "CrossingFramePlaybackInfoNew on the input file, but playback "
424  "option set!!!!! Please change the input file if you really want "
425  "playback!!!!!!"
426  << std::endl;
427  }
428  oldFormatPlayback = true;
429  }
430  }
431 
432  // source[0] is "real" pileup. Check to see that this is what we are doing.
433 
434  std::vector<int> PileupList;
435  PileupList.clear();
436  TrueNumInteractions_.clear();
437 
438  std::shared_ptr<PileUp> source0 = inputSources_[0];
439 
440  if ((source0 && source0->doPileUp(0)) && !playback_) {
441  // if((!inputSources_[0] || !inputSources_[0]->doPileUp()) && !playback_ )
442 
443  // Pre-calculate all pileup distributions before we go fishing for events
444 
445  source0->CalculatePileup(minBunch_, maxBunch_, PileupList, TrueNumInteractions_, e.streamID());
446  }
447 
448  // pre-populate Pileup information
449  // necessary for luminosity-dependent effects during hit accumulation
450 
451  std::vector<int> numInteractionList;
452  std::vector<int> bunchCrossingList;
453  std::vector<float> TrueInteractionList;
454  std::vector<edm::EventID> eventInfoList; // will be empty if we pre-populate, but it's not used in digitizers
455 
456  if (!playback_) {
457  //Makin' a list: Basically, we don't care about the "other" sources at this point.
458  for (int bunchCrossing = minBunch_; bunchCrossing <= maxBunch_; ++bunchCrossing) {
459  bunchCrossingList.push_back(bunchCrossing);
460  if (!inputSources_[0] || !inputSources_[0]->doPileUp(0)) {
461  numInteractionList.push_back(0);
462  TrueInteractionList.push_back(0);
463  } else {
464  numInteractionList.push_back(PileupList[bunchCrossing - minBunch_]);
465  TrueInteractionList.push_back((TrueNumInteractions_)[bunchCrossing - minBunch_]);
466  }
467  }
468  } else { // have to read PU information from playback info
469  for (int bunchIdx = minBunch_; bunchIdx <= maxBunch_; ++bunchIdx) {
470  bunchCrossingList.push_back(bunchIdx);
471  for (size_t readSrcIdx = 0; readSrcIdx < maxNbSources_; ++readSrcIdx) {
472  if (oldFormatPlayback) {
473  std::vector<edm::EventID> const& playEventID =
474  oldFormatPlaybackInfo_H->getStartEventId(readSrcIdx, bunchIdx);
475  size_t numberOfEvents = playEventID.size();
476  if (readSrcIdx == 0) {
477  PileupList.push_back(numberOfEvents);
478  TrueNumInteractions_.push_back(numberOfEvents);
479  numInteractionList.push_back(numberOfEvents);
480  TrueInteractionList.push_back(numberOfEvents);
481  }
482  } else {
483  size_t numberOfEvents = playbackInfo_H->getNumberOfEvents(bunchIdx, readSrcIdx);
484  if (readSrcIdx == 0) {
485  PileupList.push_back(numberOfEvents);
486  TrueNumInteractions_.push_back(numberOfEvents);
487  numInteractionList.push_back(numberOfEvents);
488  TrueInteractionList.push_back(numberOfEvents);
489  }
490  }
491  }
492  }
493  }
494 
495  for (Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end();
496  accItr != accEnd;
497  ++accItr) {
498  (*accItr)->StorePileupInformation(
499  bunchCrossingList, numInteractionList, TrueInteractionList, eventInfoList, bunchSpace_);
500  }
501 
502  // for (int bunchIdx = minBunch_; bunchIdx <= maxBunch_; ++bunchIdx) {
503  // std::cout << " bunch ID, Pileup, True " << bunchIdx << " " << PileupList[bunchIdx-minBunch_] << " " << TrueNumInteractions_[bunchIdx-minBunch_] << std::endl;
504  //}
505 
506  for (int bunchIdx = minBunch_; bunchIdx <= maxBunch_; ++bunchIdx) {
507  for (size_t setBcrIdx = 0; setBcrIdx < workers_.size(); ++setBcrIdx) {
508  workers_[setBcrIdx]->setBcrOffset();
509  }
510  for (Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end();
511  accItr != accEnd;
512  ++accItr) {
513  (*accItr)->initializeBunchCrossing(e, setup, bunchIdx);
514  }
515 
516  for (size_t readSrcIdx = 0; readSrcIdx < maxNbSources_; ++readSrcIdx) {
517  std::shared_ptr<PileUp> source = inputSources_[readSrcIdx]; // this looks like we create
518  // new PileUp objects for each
519  // source for each event?
520  // Why?
521  for (size_t setSrcIdx = 0; setSrcIdx < workers_.size(); ++setSrcIdx) {
522  workers_[setSrcIdx]->setSourceOffset(readSrcIdx);
523  }
524 
525  if (!source || !source->doPileUp(bunchIdx)) {
526  sizes.push_back(0U);
527  if (playback_ && !oldFormatPlayback) {
528  playbackCounter += playbackInfo_H->getNumberOfEvents(bunchIdx, readSrcIdx);
529  }
530  continue;
531  }
532 
533  // int eventId = 0;
534  int vertexOffset = 0;
535 
536  ModuleCallingContext const* mcc = e.moduleCallingContext();
537  if (!playback_) {
538  // non-minbias pileup only gets one event for now. Fix later if desired.
539  int numberOfEvents = (readSrcIdx == 0 ? PileupList[bunchIdx - minBunch_] : 1);
540  sizes.push_back(numberOfEvents);
541  inputSources_[readSrcIdx]->readPileUp(e.id(),
542  recordEventID,
543  std::bind(&MixingModule::pileAllWorkers,
544  std::ref(*this),
545  _1,
546  mcc,
547  bunchIdx,
548  _2,
549  vertexOffset,
550  std::ref(setup),
551  e.streamID()),
552  numberOfEvents,
553  e.streamID());
554  } else if (oldFormatPlayback) {
555  std::vector<edm::EventID> const& playEventID = oldFormatPlaybackInfo_H->getStartEventId(readSrcIdx, bunchIdx);
556  size_t numberOfEvents = playEventID.size();
557  if (readSrcIdx == 0) {
558  PileupList.push_back(numberOfEvents);
559  TrueNumInteractions_.push_back(numberOfEvents);
560  }
561  sizes.push_back(numberOfEvents);
562  std::vector<EventID>::const_iterator begin = playEventID.begin();
563  std::vector<EventID>::const_iterator end = playEventID.end();
564  inputSources_[readSrcIdx]->playOldFormatPileUp(begin,
565  end,
566  recordEventID,
567  std::bind(&MixingModule::pileAllWorkers,
568  std::ref(*this),
569  _1,
570  mcc,
571  bunchIdx,
572  _2,
573  vertexOffset,
574  std::ref(setup),
575  e.streamID()));
576  } else {
577  size_t numberOfEvents = playbackInfo_H->getNumberOfEvents(bunchIdx, readSrcIdx);
578  if (readSrcIdx == 0) {
579  PileupList.push_back(numberOfEvents);
580  TrueNumInteractions_.push_back(numberOfEvents);
581  }
582  sizes.push_back(numberOfEvents);
583  std::vector<SecondaryEventIDAndFileInfo>::const_iterator begin = playbackInfo_H->getEventId(playbackCounter);
584  playbackCounter += numberOfEvents;
585  std::vector<SecondaryEventIDAndFileInfo>::const_iterator end = playbackInfo_H->getEventId(playbackCounter);
586  inputSources_[readSrcIdx]->playPileUp(begin,
587  end,
588  recordEventID,
589  std::bind(&MixingModule::pileAllWorkers,
590  std::ref(*this),
591  _1,
592  mcc,
593  bunchIdx,
594  _2,
595  vertexOffset,
596  std::ref(setup),
597  e.streamID()));
598  }
599  }
600  for (Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end();
601  accItr != accEnd;
602  ++accItr) {
603  (*accItr)->finalizeBunchCrossing(e, setup, bunchIdx);
604  }
605  }
606 
607  // Save playback information
608  for (auto const item : recordEventID) {
609  eventInfoList.emplace_back(item.eventID());
610  }
611 
612  // setInfo swaps recordEventID, so recordEventID is useless (empty) after the call.
613  playbackInfo_->setInfo(recordEventID, sizes);
614 
615  // Keep track of pileup accounting...
616 
617  std::unique_ptr<PileupMixingContent> PileupMixing_;
618 
619  PileupMixing_ = std::make_unique<PileupMixingContent>(
620  bunchCrossingList, numInteractionList, TrueInteractionList, eventInfoList, bunchSpace_);
621 
622  e.put(std::move(PileupMixing_));
623 
624  // we have to do the ToF transformation for PSimHits once all pileup has been added
625  for (unsigned int ii = 0; ii < workers_.size(); ++ii) {
626  workers_[ii]->setTof();
627  workers_[ii]->put(e);
628  }
629  }
630 
632  if (playbackInfo_) {
633  std::unique_ptr<CrossingFramePlaybackInfoNew> pOut(playbackInfo_);
634  e.put(std::move(pOut));
635  }
636  }
637 
639  for (Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end();
640  accItr != accEnd;
641  ++accItr) {
642  (*accItr)->beginRun(run, setup);
643  }
645  }
646 
648  for (Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end();
649  accItr != accEnd;
650  ++accItr) {
651  (*accItr)->endRun(run, setup);
652  }
654  }
655 
657  for (Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end();
658  accItr != accEnd;
659  ++accItr) {
660  (*accItr)->beginLuminosityBlock(lumi, setup);
661  }
663  }
664 
666  for (Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end();
667  accItr != accEnd;
668  ++accItr) {
669  (*accItr)->endLuminosityBlock(lumi, setup);
670  }
672  }
673 
675  for (Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end();
676  accItr != accEnd;
677  ++accItr) {
678  (*accItr)->initializeEvent(event, setup);
679  }
680  }
681 
683  for (Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end();
684  accItr != accEnd;
685  ++accItr) {
686  (*accItr)->accumulate(event, setup);
687  }
688  }
689 
691  edm::EventSetup const& setup,
692  edm::StreamID const& streamID) {
693  for (Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end();
694  accItr != accEnd;
695  ++accItr) {
696  (*accItr)->accumulate(event, setup, streamID);
697  }
698  }
699 
701  for (Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end();
702  accItr != accEnd;
703  ++accItr) {
704  (*accItr)->finalizeEvent(event, setup);
705  }
706  }
707 } // namespace edm
void setInfo(std::vector< edm::SecondaryEventIDAndFileInfo > &eventInfo, std::vector< size_t > &sizes)
void beginRun(const edm::Run &r, const edm::EventSetup &setup) override
T getParameter(std::string const &) const
Definition: ParameterSet.h:303
void beginLuminosityBlock(LuminosityBlock const &l1, EventSetup const &c) override
static std::string const source("source")
edm::ESGetToken< MixingModuleConfig, MixingRcd > configToken_
Definition: MixingModule.h:103
~MixingModule() override
void createDigiAccumulators(const edm::ParameterSet &mixingPSet, edm::ConsumesCollector &iC)
bool exists(std::string const &parameterName) const
checks if a parameter exists
ParameterSet const & getParameterSet(std::string const &) const
void addSignals(const edm::Event &e, const edm::EventSetup &es) override
std::vector< AdjusterBase * > adjustersObjects_
Definition: MixingModule.h:105
Definition: config.py:1
std::vector< edm::EventID > getStartEventId(const unsigned int s, const int bcr) const
std::vector< AdjusterBase * > adjusters_
Definition: MixingModule.h:104
const std::string names[nVars_]
void endRun(const edm::Run &r, const edm::EventSetup &setup) override
void put(edm::Event &e, const edm::EventSetup &es) override
std::vector< MixingWorkerBase * > workers_
Definition: MixingModule.h:106
char const * label
void reload(const edm::EventSetup &) override
std::string friendlyName(std::string const &iFullName)
void endLuminosityBlock(LuminosityBlock const &l1, EventSetup const &c) override
void checkSignal(const edm::Event &e) override
Accumulators digiAccumulators_
Definition: MixingModule.h:114
void initializeEvent(Event const &event, EventSetup const &setup) override
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
static const std::string kSkipCurrentProcess
Definition: InputTag.h:53
MixingModule(const edm::ParameterSet &ps, MixingCache::Config const *globalConf)
Definition: MixingModule.cc:41
static const unsigned int maxNbSources_
std::vector< float > TrueNumInteractions_
void beginRun(Run const &r1, EventSetup const &c) override
size_t getNumberOfEvents(int bunchIdx, size_t sourceNumber) const
CrossingFramePlaybackInfoNew * playbackInfo_
Definition: MixingModule.h:101
def getProcessName(pdgGen, requiredNumberOfGeneratedObjects)
ii
Definition: cuy.py:589
virtual void branchesActivate(const std::string &friendlyName, const std::string &subdet, InputTag &tag, std::string &label)
Log< level::Info, false > LogInfo
std::unique_ptr< DigiAccumulatorMixMod > makeDigiAccumulator(ParameterSet const &, ProducesCollector, ConsumesCollector &) const
bool pileAllWorkers(EventPrincipal const &ep, ModuleCallingContext const *, int bcr, int id, int &offset, const edm::EventSetup &setup, edm::StreamID const &)
std::vector< edm::SecondaryEventIDAndFileInfo >::const_iterator getEventId(size_t offset) const
void sort_all(RandomAccessSequence &s)
wrappers for std::sort
Definition: Algorithms.h:92
std::vector< std::string > wantedBranches_
Definition: MixingModule.h:108
InputTag inputTagPlayback_
Definition: MixingModule.h:98
HLT enums.
void accumulateEvent(Event const &event, EventSetup const &setup)
void createnewEDProduct() override
std::vector< std::shared_ptr< PileUp > > inputSources_
std::vector< MixingWorkerBase * > workersObjects_
Definition: MixingModule.h:107
bool binary_search_all(ForwardSequence const &s, Datum const &d)
wrappers for std::binary_search
Definition: Algorithms.h:58
void dropUnwantedBranches(std::vector< std::string > const &wantedBranches)
void finalizeEvent(Event &event, EventSetup const &setup) override
Log< level::Warning, false > LogWarning
void beginLuminosityBlock(const edm::LuminosityBlock &l, const edm::EventSetup &setup) override
EventID const & id() const
static const std::string subdets[7]
Definition: TrackUtils.cc:60
void setupPileUpEvent(const edm::EventSetup &setup)
std::vector< std::string > getParameterNames() const
static DigiAccumulatorMixModFactory const * get()
void endLuminosityBlock(const edm::LuminosityBlock &l, const edm::EventSetup &setup) override
void doPileUp(edm::Event &e, const edm::EventSetup &es) override
def move(src, dest)
Definition: eostools.py:511
Definition: event.py:1
Definition: Run.h:45
#define LogDebug(id)
void endRun(Run const &r1, EventSetup const &c) override