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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_()
47  {
48  if (!mixProdStep1_ && !mixProdStep2_) LogInfo("MixingModule") << " The MixingModule was run in the Standard mode.";
49  if (mixProdStep1_) LogInfo("MixingModule") << " The MixingModule was run in the Step1 mode. It produces a mixed secondary source.";
50  if (mixProdStep2_) LogInfo("MixingModule") << " The MixingModule was run in the Step2 mode. It uses a mixed secondary source.";
51 
53  if (ps_mix.exists("useCurrentProcessOnly")) {
54  useCurrentProcessOnly_=ps_mix.getParameter<bool>("useCurrentProcessOnly");
55  LogInfo("MixingModule") <<" using given Parameter 'useCurrentProcessOnly' ="<<useCurrentProcessOnly_;
56  }
57  std::string labelPlayback;
58  if (ps_mix.exists("LabelPlayback")) {
59  labelPlayback = ps_mix.getParameter<std::string>("LabelPlayback");
60  }
61  if (labelPlayback.empty()) {
62  labelPlayback = ps_mix.getParameter<std::string>("@module_label");
63  }
64  if (playback_) {
66  consumes<CrossingFramePlaybackInfoNew>(inputTagPlayback_);
67  }
68  wrapLongTimes_ = false;
69  if (ps_mix.exists("WrapLongTimes")) {
70  wrapLongTimes_ = ps_mix.getParameter<bool>("WrapLongTimes");
71  }
72 
73 
74  ParameterSet ps=ps_mix.getParameter<ParameterSet>("mixObjects");
75  std::vector<std::string> names = ps.getParameterNames();
76  for(std::vector<std::string>::iterator it=names.begin();it!= names.end();++it) {
77  ParameterSet pset=ps.getParameter<ParameterSet>((*it));
78  if (!pset.exists("type")) continue; //to allow replacement by empty pset
79  std::string object = pset.getParameter<std::string>("type");
80  std::vector<InputTag> tags=pset.getParameter<std::vector<InputTag> >("input");
81 
82  //if (!mixProdStep2_) {
83 
84  InputTag tagCF = InputTag();
85  std::string labelCF = " ";
86 
87  if (object=="SimTrack") {
88  InputTag tag;
89  if (!tags.empty()) tag=tags[0];
91 
92  branchesActivate(TypeID(typeid(std::vector<SimTrack>)).friendlyClassName(),std::string(""),tag,label);
93  adjustersObjects_.push_back(new Adjuster<std::vector<SimTrack> >(tag, consumesCollector(),wrapLongTimes_));
94  bool makeCrossingFrame = pset.getUntrackedParameter<bool>("makeCrossingFrame", false);
95  if(makeCrossingFrame) {
97  produces<CrossingFrame<SimTrack> >(label);
98  }
99  consumes<std::vector<SimTrack> >(tag);
100 
101  LogInfo("MixingModule") <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label;
102  // std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;
103 
104  } else if (object=="RecoTrack") {
105  InputTag tag;
106  if (!tags.empty()) tag=tags[0];
108 
109  branchesActivate(TypeID(typeid(std::vector<reco::Track>)).friendlyClassName(),std::string(""),tag,label);
110  branchesActivate(TypeID(typeid(std::vector<reco::TrackExtra>)).friendlyClassName(),std::string(""),tag,label);
112  adjustersObjects_.push_back(new Adjuster<edm::OwnVector<TrackingRecHit> >(tag, consumesCollector(),wrapLongTimes_));
113  // note: no crossing frame is foreseen to be used for this object type
114 
115  LogInfo("MixingModule") <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label;
116  //std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;
117 
118  } else if (object=="SimVertex") {
119  InputTag tag;
120  if (!tags.empty()) tag=tags[0];
122 
123  branchesActivate(TypeID(typeid(std::vector<SimVertex>)).friendlyClassName(),std::string(""),tag,label);
124  adjustersObjects_.push_back(new Adjuster<std::vector<SimVertex> >(tag, consumesCollector(),wrapLongTimes_));
125  bool makeCrossingFrame = pset.getUntrackedParameter<bool>("makeCrossingFrame", false);
126  if(makeCrossingFrame) {
128  produces<CrossingFrame<SimVertex> >(label);
129  }
130  consumes<std::vector<SimVertex> >(tag);
131 
132  LogInfo("MixingModule") <<"Will mix "<<object<<"s with InputTag "<<tag.encode()<<", label will be "<<label;
133  // std::cout <<"Will mix "<<object<<"s with InputTag "<<tag.encode()<<", label will be "<<label<<std::endl;
134 
135  } else if (object=="HepMCProduct") {
136  InputTag tag;
137  if (!tags.empty()) tag=tags[0];
139 
140  branchesActivate(TypeID(typeid(HepMCProduct)).friendlyClassName(),std::string(""),tag,label);
141  bool makeCrossingFrame = pset.getUntrackedParameter<bool>("makeCrossingFrame", false);
142  if(makeCrossingFrame) {
143  workersObjects_.push_back(new MixingWorker<HepMCProduct>(minBunch_,maxBunch_,bunchSpace_,std::string(""),label,labelCF,maxNbSources_,tag,tagCF,tags));
144  produces<CrossingFrame<HepMCProduct> >(label);
145  }
146  consumes<HepMCProduct>(tag);
147 
148  LogInfo("MixingModule") <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label;
149  // std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;
150  for(size_t i = 1; i < tags.size(); ++i) {
151  InputTag fallbackTag = tags[i];
152  std::string fallbackLabel;
153  branchesActivate(TypeID(typeid(HepMCProduct)).friendlyClassName(),std::string(""),fallbackTag,fallbackLabel);
154  mayConsume<HepMCProduct>(fallbackTag);
155  }
156 
157  } else if (object=="PCaloHit") {
158  std::vector<std::string> subdets=pset.getParameter<std::vector<std::string> >("subdets");
159  std::vector<std::string> crossingFrames=pset.getUntrackedParameter<std::vector<std::string> >("crossingFrames", std::vector<std::string>());
160  sort_all(crossingFrames);
161  for (unsigned int ii=0;ii<subdets.size();++ii) {
162  InputTag tag;
163  if (tags.size()==1) tag=tags[0];
164  else if(tags.size()>1) tag=tags[ii];
166 
167  branchesActivate(TypeID(typeid(std::vector<PCaloHit>)).friendlyClassName(),subdets[ii],tag,label);
168  adjustersObjects_.push_back(new Adjuster<std::vector<PCaloHit> >(tag, consumesCollector(),wrapLongTimes_));
169  if(binary_search_all(crossingFrames, tag.instance())) {
170  workersObjects_.push_back(new MixingWorker<PCaloHit>(minBunch_,maxBunch_,bunchSpace_,subdets[ii],label,labelCF,maxNbSources_,tag,tagCF));
171  produces<CrossingFrame<PCaloHit> >(label);
172  consumes<std::vector<PCaloHit> >(tag);
173  }
174 
175  LogInfo("MixingModule") <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label;
176  // std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;
177 
178  }
179 
180  } else if (object=="PSimHit") {
181  std::vector<std::string> subdets=pset.getParameter<std::vector<std::string> >("subdets");
182  std::vector<std::string> crossingFrames=pset.getUntrackedParameter<std::vector<std::string> >("crossingFrames", std::vector<std::string>());
183  sort_all(crossingFrames);
184  for (unsigned int ii=0;ii<subdets.size();++ii) {
185  InputTag tag;
186  if (tags.size()==1) tag=tags[0];
187  else if(tags.size()>1) tag=tags[ii];
189 
190  branchesActivate(TypeID(typeid(std::vector<PSimHit>)).friendlyClassName(),subdets[ii],tag,label);
191  adjustersObjects_.push_back(new Adjuster<std::vector<PSimHit> >(tag, consumesCollector(),wrapLongTimes_));
192  if(binary_search_all(crossingFrames, tag.instance())) {
193  workersObjects_.push_back(new MixingWorker<PSimHit>(minBunch_,maxBunch_,bunchSpace_,subdets[ii],label,labelCF,maxNbSources_,tag,tagCF));
194  produces<CrossingFrame<PSimHit> >(label);
195  consumes<std::vector<PSimHit> >(tag);
196  }
197 
198  LogInfo("MixingModule") <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label;
199  // std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;
200  }
201  } else {
202  LogWarning("MixingModule") <<"You have asked to mix an unknown type of object("<<object<<").\n If you want to include it in mixing, please contact the authors of the MixingModule!";
203  }
204  //} //if for mixProdStep2
205  }//while over the mixObjects parameters
206 
208  for (unsigned int branch=0;branch<wantedBranches_.size();++branch) LogDebug("MixingModule")<<"Will keep branch "<<wantedBranches_[branch]<<" for mixing ";
209 
211 
212  produces<PileupMixingContent>();
213 
214  produces<CrossingFramePlaybackInfoNew>();
215 
217  // Create and configure digitizers
218  createDigiAccumulators(ps_mix, iC);
219  }
220 
221 
223  ParameterSet const& digiPSet = mixingPSet.getParameterSet("digitizers");
224  std::vector<std::string> digiNames = digiPSet.getParameterNames();
225  for(auto const& digiName : digiNames) {
226  ParameterSet const& pset = digiPSet.getParameterSet(digiName);
227  if(pset.existsAs<edm::InputTag>("HepMCProductLabel")) {
228  consumes<HepMCProduct>(pset.getParameter<edm::InputTag>("HepMCProductLabel"));
229  }
230  std::unique_ptr<DigiAccumulatorMixMod> accumulator = std::unique_ptr<DigiAccumulatorMixMod>(DigiAccumulatorMixModFactory::get()->makeDigiAccumulator(pset, *this, iC));
231  // Create appropriate DigiAccumulator
232  if(accumulator.get() != nullptr) {
233  digiAccumulators_.push_back(accumulator.release());
234  }
235  }
236  }
237 
239  //change the basic parameters.
241  setup.get<MixingRcd>().get(config);
242  minBunch_=config->minBunch();
243  maxBunch_=config->maxBunch();
244  bunchSpace_=config->bunchSpace();
245  //propagate to change the workers
246  for (unsigned int ii=0;ii<workersObjects_.size();++ii){
247  workersObjects_[ii]->reload(setup);
248  }
249  }
250 
252 
253  label=tag.label()+tag.instance();
254  wantedBranches_.push_back(friendlyName + '_' +
255  tag.label() + '_' +
256  tag.instance());
257 
258  //if useCurrentProcessOnly, we have to change the input tag
261  tag = InputTag(tag.label(),tag.instance(),processName);
262  }
263  }
264 
266  if (adjusters_.empty()){
267  for (auto const& adjuster : adjustersObjects_) {
268  if (adjuster->checkSignal(e)){
269  adjusters_.push_back(adjuster);
270  }
271  }
272  }
273  if (workers_.empty()){
274  for (auto const& worker : workersObjects_) {
275  if (worker->checkSignal(e)){
276  workers_.push_back(worker);
277  }
278  }
279  }
280  }
281 
283  //create playback info
285  //and CrossingFrames
286  for (unsigned int ii=0;ii<workers_.size();++ii){
287  workers_[ii]->createnewEDProduct();
288  }
289  }
290 
291  // Virtual destructor needed.
293  for (auto& worker : workersObjects_) {
294  delete worker;
295  }
296 
297  for (auto& adjuster : adjustersObjects_) {
298  delete adjuster;
299  }
300 
301  for (auto& digiAccumulator : digiAccumulators_) {
302  delete digiAccumulator;
303  }
304  }
305 
307 
308  LogDebug("MixingModule")<<"===============> adding signals for "<<e.id();
309 
310  accumulateEvent(e, setup);
311  // fill in signal part of CrossingFrame
312  for (unsigned int ii=0;ii<workers_.size();++ii) {
313  workers_[ii]->addSignals(e);
314  }
315  }
316 
317  void MixingModule::pileAllWorkers(EventPrincipal const& eventPrincipal,
318  ModuleCallingContext const* mcc,
319  int bunchCrossing, int eventId,
320  int& vertexOffset,
321  const edm::EventSetup& setup,
322  StreamID const& streamID) {
323 
324 
325  InternalContext internalContext(eventPrincipal.id(), mcc);
326  ParentContext parentContext(&internalContext);
327  ModuleCallingContext moduleCallingContext(&moduleDescription());
328  ModuleContextSentry moduleContextSentry(&moduleCallingContext, parentContext);
329 
330  for (auto const& adjuster : adjusters_) {
331  adjuster->doOffset(bunchSpace_, bunchCrossing, eventPrincipal, &moduleCallingContext, eventId, vertexOffset);
332  }
333  PileUpEventPrincipal pep(eventPrincipal, &moduleCallingContext, bunchCrossing);
334 
335  accumulateEvent(pep, setup, streamID);
336 
337  for (auto const& worker : workers_) {
338  LogDebug("MixingModule") <<" merging Event: id " << eventPrincipal.id();
339  // std::cout <<"PILEALLWORKERS merging Event: id " << eventPrincipal.id() << std::endl;
340 
341  worker->addPileups(eventPrincipal, &moduleCallingContext, eventId);
342  }
343  }
344 
346  using namespace std::placeholders;
347 
348  // Don't allocate because PileUp will do it for us.
349  std::vector<edm::SecondaryEventIDAndFileInfo> recordEventID;
350  std::vector<size_t> sizes;
351  sizes.reserve(maxNbSources_*(maxBunch_ + 1 - minBunch_));
352  size_t playbackCounter = 0U;
354  edm::Handle<CrossingFramePlaybackInfoExtended> oldFormatPlaybackInfo_H;
355  bool oldFormatPlayback = false;
356  if (playback_) {
357  bool got = e.getByLabel(inputTagPlayback_, playbackInfo_H);
358  if (!got) {
359  bool gotOld = e.getByLabel(inputTagPlayback_, oldFormatPlaybackInfo_H);
360  if (!gotOld) {
361  throw cms::Exception("MixingProductNotFound") << " No "
362  "CrossingFramePlaybackInfoNew on the input file, but playback "
363  "option set!!!!! Please change the input file if you really want "
364  "playback!!!!!!" << std::endl;
365  }
366  oldFormatPlayback = true;
367  }
368  }
369 
370  // source[0] is "real" pileup. Check to see that this is what we are doing.
371 
372  std::vector<int> PileupList;
373  PileupList.clear();
374  TrueNumInteractions_.clear();
375 
376  std::shared_ptr<PileUp> source0 = inputSources_[0];
377 
378  if((source0 && source0->doPileUp(0) ) && !playback_) {
379  // if((!inputSources_[0] || !inputSources_[0]->doPileUp()) && !playback_ )
380 
381  // Pre-calculate all pileup distributions before we go fishing for events
382 
383  source0->CalculatePileup(minBunch_, maxBunch_, PileupList, TrueNumInteractions_, e.streamID());
384 
385  }
386 
387  // pre-populate Pileup information
388  // necessary for luminosity-dependent effects during hit accumulation
389 
390  std::vector<int> numInteractionList;
391  std::vector<int> bunchCrossingList;
392  std::vector<float> TrueInteractionList;
393  std::vector<edm::EventID> eventInfoList; // will be empty if we pre-populate, but it's not used in digitizers
394 
395  if(!playback_) {
396 
397  //Makin' a list: Basically, we don't care about the "other" sources at this point.
398  for (int bunchCrossing=minBunch_;bunchCrossing<=maxBunch_;++bunchCrossing) {
399  bunchCrossingList.push_back(bunchCrossing);
400  if(!inputSources_[0] || !inputSources_[0]->doPileUp(0)) {
401  numInteractionList.push_back(0);
402  TrueInteractionList.push_back(0);
403  }
404  else {
405  numInteractionList.push_back(PileupList[bunchCrossing-minBunch_]);
406  TrueInteractionList.push_back((TrueNumInteractions_)[bunchCrossing-minBunch_]);
407  }
408  }
409  }
410  else{ // have to read PU information from playback info
411  for (int bunchIdx = minBunch_; bunchIdx <= maxBunch_; ++bunchIdx) {
412  bunchCrossingList.push_back(bunchIdx);
413  for (size_t readSrcIdx=0; readSrcIdx<maxNbSources_; ++readSrcIdx) {
414 
415  if(oldFormatPlayback) {
416  std::vector<edm::EventID> const& playEventID = oldFormatPlaybackInfo_H->getStartEventId(readSrcIdx, bunchIdx);
417  size_t numberOfEvents = playEventID.size();
418  if(readSrcIdx == 0) {
419  PileupList.push_back(numberOfEvents);
420  TrueNumInteractions_.push_back(numberOfEvents);
421  numInteractionList.push_back(numberOfEvents);
422  TrueInteractionList.push_back(numberOfEvents);
423  }
424  } else {
425  size_t numberOfEvents = playbackInfo_H->getNumberOfEvents(bunchIdx, readSrcIdx);
426  if(readSrcIdx == 0) {
427  PileupList.push_back(numberOfEvents);
428  TrueNumInteractions_.push_back(numberOfEvents);
429  numInteractionList.push_back(numberOfEvents);
430  TrueInteractionList.push_back(numberOfEvents);
431  }
432  }
433  }
434  }
435  }
436 
437  for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
438  (*accItr)->StorePileupInformation( bunchCrossingList,
439  numInteractionList,
440  TrueInteractionList,
441  eventInfoList,
442  bunchSpace_);
443  }
444 
445 
446  // for (int bunchIdx = minBunch_; bunchIdx <= maxBunch_; ++bunchIdx) {
447  // std::cout << " bunch ID, Pileup, True " << bunchIdx << " " << PileupList[bunchIdx-minBunch_] << " " << TrueNumInteractions_[bunchIdx-minBunch_] << std::endl;
448  //}
449 
450  for (int bunchIdx = minBunch_; bunchIdx <= maxBunch_; ++bunchIdx) {
451  for (size_t setBcrIdx=0; setBcrIdx<workers_.size(); ++setBcrIdx) {
452  workers_[setBcrIdx]->setBcrOffset();
453  }
454  for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
455  (*accItr)->initializeBunchCrossing(e, setup, bunchIdx);
456  }
457 
458  for (size_t readSrcIdx=0; readSrcIdx<maxNbSources_; ++readSrcIdx) {
459  std::shared_ptr<PileUp> source = inputSources_[readSrcIdx]; // this looks like we create
460  // new PileUp objects for each
461  // source for each event?
462  // Why?
463  for (size_t setSrcIdx=0; setSrcIdx<workers_.size(); ++setSrcIdx) {
464  workers_[setSrcIdx]->setSourceOffset(readSrcIdx);
465  }
466 
467  if (!source || !source->doPileUp(bunchIdx)) {
468  sizes.push_back(0U);
469  if(playback_ && !oldFormatPlayback) {
470  playbackCounter += playbackInfo_H->getNumberOfEvents(bunchIdx, readSrcIdx);
471  }
472  continue;
473  }
474 
475  // int eventId = 0;
476  int vertexOffset = 0;
477 
479  if (!playback_) {
480  // non-minbias pileup only gets one event for now. Fix later if desired.
481  int numberOfEvents = (readSrcIdx == 0 ? PileupList[bunchIdx - minBunch_] : 1);
482  sizes.push_back(numberOfEvents);
483  inputSources_[readSrcIdx]->readPileUp(e.id(), recordEventID,
484  std::bind(&MixingModule::pileAllWorkers, std::ref(*this), _1, mcc, bunchIdx,
485  _2, vertexOffset, std::ref(setup), e.streamID()), numberOfEvents, e.streamID());
486  } else if(oldFormatPlayback) {
487  std::vector<edm::EventID> const& playEventID = oldFormatPlaybackInfo_H->getStartEventId(readSrcIdx, bunchIdx);
488  size_t numberOfEvents = playEventID.size();
489  if(readSrcIdx == 0) {
490  PileupList.push_back(numberOfEvents);
491  TrueNumInteractions_.push_back(numberOfEvents);
492  }
493  sizes.push_back(numberOfEvents);
494  std::vector<EventID>::const_iterator begin = playEventID.begin();
495  std::vector<EventID>::const_iterator end = playEventID.end();
496  inputSources_[readSrcIdx]->playOldFormatPileUp(
497  begin, end, recordEventID,
498  std::bind(&MixingModule::pileAllWorkers, std::ref(*this), _1, mcc, bunchIdx,
499  _2, vertexOffset, std::ref(setup), e.streamID()));
500  } else {
501  size_t numberOfEvents = playbackInfo_H->getNumberOfEvents(bunchIdx, readSrcIdx);
502  if(readSrcIdx == 0) {
503  PileupList.push_back(numberOfEvents);
504  TrueNumInteractions_.push_back(numberOfEvents);
505  }
506  sizes.push_back(numberOfEvents);
507  std::vector<SecondaryEventIDAndFileInfo>::const_iterator begin = playbackInfo_H->getEventId(playbackCounter);
508  playbackCounter += numberOfEvents;
509  std::vector<SecondaryEventIDAndFileInfo>::const_iterator end = playbackInfo_H->getEventId(playbackCounter);
510  inputSources_[readSrcIdx]->playPileUp(
511  begin, end, recordEventID,
512  std::bind(&MixingModule::pileAllWorkers, std::ref(*this), _1, mcc, bunchIdx,
513  _2, vertexOffset, std::ref(setup), e.streamID()));
514  }
515  }
516  for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
517  (*accItr)->finalizeBunchCrossing(e, setup, bunchIdx);
518  }
519  }
520 
521  // Save playback information
522  for (auto const item : recordEventID) {
523  eventInfoList.emplace_back(item.eventID());
524  }
525 
526  // setInfo swaps recordEventID, so recordEventID is useless (empty) after the call.
527  playbackInfo_->setInfo(recordEventID, sizes);
528 
529  // Keep track of pileup accounting...
530 
531 
532  std::unique_ptr<PileupMixingContent> PileupMixing_;
533 
534  PileupMixing_ = std::unique_ptr<PileupMixingContent>(new PileupMixingContent(bunchCrossingList,
535  numInteractionList,
536  TrueInteractionList,
537  eventInfoList,
538  bunchSpace_));
539 
540  e.put(std::move(PileupMixing_));
541 
542  // we have to do the ToF transformation for PSimHits once all pileup has been added
543  for (unsigned int ii=0;ii<workers_.size();++ii) {
544  workers_[ii]->setTof();
545  workers_[ii]->put(e);
546  }
547  }
548 
550 
551  if (playbackInfo_) {
552  std::unique_ptr<CrossingFramePlaybackInfoNew> pOut(playbackInfo_);
553  e.put(std::move(pOut));
554  }
555  }
556 
558  for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
559  (*accItr)->beginRun(run, setup);
560  }
561  BMixingModule::beginRun( run, setup);
562  }
563 
565  for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
566  (*accItr)->endRun(run, setup);
567  }
568  BMixingModule::endRun( run, setup);
569  }
570 
572  for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
573  (*accItr)->beginLuminosityBlock(lumi, setup);
574  }
576  }
577 
579  for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
580  (*accItr)->endLuminosityBlock(lumi, setup);
581  }
583  }
584 
585  void
587  for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
588  (*accItr)->initializeEvent(event, setup);
589  }
590  }
591 
592  void
594  for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
595  (*accItr)->accumulate(event, setup);
596  }
597  }
598 
599  void
601  for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
602  (*accItr)->accumulate(event, setup, streamID);
603  }
604  }
605 
606  void
608  for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
609  (*accItr)->finalizeEvent(event, setup);
610  }
611  }
612 }//edm
#define LogDebug(id)
void setInfo(std::vector< edm::SecondaryEventIDAndFileInfo > &eventInfo, std::vector< size_t > &sizes)
std::vector< edm::SecondaryEventIDAndFileInfo >::const_iterator getEventId(size_t offset) const
T getParameter(std::string const &) const
T getUntrackedParameter(std::string const &, T const &) const
void beginRun(const edm::Run &r, const edm::EventSetup &setup) override
void beginLuminosityBlock(LuminosityBlock const &l1, EventSetup const &c) override
OrphanHandle< PROD > put(std::unique_ptr< PROD > product)
Put a new product.
Definition: Event.h:127
bool existsAs(std::string const &parameterName, bool trackiness=true) const
checks if a parameter exists as a given type
Definition: ParameterSet.h:186
const int & bunchSpace() const
static std::string const source("source")
static const HistoName names[]
std::vector< edm::EventID > getStartEventId(const unsigned int s, const int bcr) const
~MixingModule() override
void createDigiAccumulators(const edm::ParameterSet &mixingPSet, edm::ConsumesCollector &iC)
std::vector< float > TrueNumInteractions_
EventID const & id() const
bool exists(std::string const &parameterName) const
checks if a parameter exists
def setup(process, global_tag, zero_tesla=False)
Definition: GeneralSetup.py:1
void addSignals(const edm::Event &e, const edm::EventSetup &es) override
std::string encode() const
Definition: InputTag.cc:166
void endRun(const edm::Run &r, const edm::EventSetup &setup) override
void put(edm::Event &e, const edm::EventSetup &es) override
const int & maxBunch() const
config
Definition: looper.py:287
ModuleCallingContext const * moduleCallingContext() const
Definition: Event.h:249
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
std::vector< MixingWorkerBase * > workers_
Definition: MixingModule.h:97
Accumulators digiAccumulators_
Definition: MixingModule.h:104
ConsumesCollector consumesCollector()
Use a ConsumesCollector to gather consumes information from helper functions.
void initializeEvent(Event const &event, EventSetup const &setup) override
static const std::string kSkipCurrentProcess
Definition: InputTag.h:50
MixingModule(const edm::ParameterSet &ps, MixingCache::Config const *globalConf)
Definition: MixingModule.cc:41
std::vector< AdjusterBase * > adjusters_
Definition: MixingModule.h:95
size_t getNumberOfEvents(int bunchIdx, size_t sourceNumber) const
static const unsigned int maxNbSources_
#define end
Definition: vmac.h:37
std::vector< MixingWorkerBase * > workersObjects_
Definition: MixingModule.h:98
void beginRun(Run const &r1, EventSetup const &c) override
std::vector< std::string > getParameterNames() const
CrossingFramePlaybackInfoNew * playbackInfo_
Definition: MixingModule.h:93
bool getByLabel(InputTag const &tag, Handle< PROD > &result) const
Definition: Event.h:464
std::unique_ptr< DigiAccumulatorMixMod > makeDigiAccumulator(ParameterSet const &, stream::EDProducerBase &, ConsumesCollector &) const
def getProcessName(pdgGen, requiredNumberOfGeneratedObjects)
ii
Definition: cuy.py:588
ModuleDescription const & moduleDescription() const
virtual void branchesActivate(const std::string &friendlyName, const std::string &subdet, InputTag &tag, std::string &label)
void sort_all(RandomAccessSequence &s)
wrappers for std::sort
Definition: Algorithms.h:120
ParameterSet const & getParameterSet(std::string const &) const
const T & get() const
Definition: EventSetup.h:55
std::vector< std::string > wantedBranches_
Definition: MixingModule.h:99
std::vector< AdjusterBase * > adjustersObjects_
Definition: MixingModule.h:96
InputTag inputTagPlayback_
Definition: MixingModule.h:90
std::string const & label() const
Definition: InputTag.h:36
edm::EventID id() const
Definition: EventBase.h:60
#define begin
Definition: vmac.h:30
HLT enums.
void accumulateEvent(Event const &event, EventSetup const &setup)
void createnewEDProduct() override
std::vector< std::shared_ptr< PileUp > > inputSources_
StreamID streamID() const
Definition: Event.h:86
const int & minBunch() const
bool binary_search_all(ForwardSequence const &s, Datum const &d)
wrappers for std::binary_search
Definition: Algorithms.h:76
void dropUnwantedBranches(std::vector< std::string > const &wantedBranches)
void finalizeEvent(Event &event, EventSetup const &setup) override
void beginLuminosityBlock(const edm::LuminosityBlock &l, const edm::EventSetup &setup) override
static DigiAccumulatorMixModFactory const * get()
static const std::string subdets[7]
Definition: TrackUtils.cc:66
std::string const & instance() const
Definition: InputTag.h:37
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:510
Definition: event.py:1
Definition: Run.h:43
void pileAllWorkers(EventPrincipal const &ep, ModuleCallingContext const *, int bcr, int id, int &offset, const edm::EventSetup &setup, edm::StreamID const &)
void endRun(Run const &r1, EventSetup const &c) override