CMS 3D CMS Logo

AlignmentProducerBase.cc
Go to the documentation of this file.
2 
14 
16 
21 
25 
32 
33 
34 //------------------------------------------------------------------------------
36  doTracker_{config.getUntrackedParameter<bool>("doTracker")},
37  doMuon_{config.getUntrackedParameter<bool>("doMuon")},
38  useExtras_{config.getUntrackedParameter<bool>("useExtras")},
39  tjTkAssociationMapTag_{config.getParameter<edm::InputTag>("tjTkAssociationMapTag")},
40  beamSpotTag_{config.getParameter<edm::InputTag>("beamSpotTag")},
41  tkLasBeamTag_{config.getParameter<edm::InputTag>("tkLasBeamTag")},
42  clusterValueMapTag_{config.getParameter<edm::InputTag>("hitPrescaleMapTag")},
44  {align::makeUniqueRunRanges(config.getParameter<edm::VParameterSet>("RunRangeSelection"),
46  config_{config},
47  stNFixAlignables_{config.getParameter<int>("nFixAlignables")},
48  stRandomShift_{config.getParameter<double>("randomShift")},
49  stRandomRotation_{config.getParameter<double>("randomRotation")},
50  applyDbAlignment_{config.getUntrackedParameter<bool>("applyDbAlignment")},
51  checkDbAlignmentValidity_{config.getUntrackedParameter<bool>("checkDbAlignmentValidity")},
52  doMisalignmentScenario_{config.getParameter<bool>("doMisalignmentScenario")},
53  saveToDB_{config.getParameter<bool>("saveToDB")},
54  saveApeToDB_{config.getParameter<bool>("saveApeToDB")},
55  saveDeformationsToDB_{config.getParameter<bool>("saveDeformationsToDB")},
56  useSurvey_{config.getParameter<bool>("useSurvey")},
57  enableAlignableUpdates_{config.getParameter<bool>("enableAlignableUpdates")}
58 {
59  edm::LogInfo("Alignment") << "@SUB=AlignmentProducerBase::AlignmentProducerBase";
60 
61  const auto& algoConfig = config_.getParameterSet("algoConfig");
62  if (hasParameter<bool>(config_, "runAtPCL")) {
63  // configured in main config?
64  runAtPCL_ = config_.getParameter<bool>("runAtPCL");
65 
66  if (hasParameter<bool>(algoConfig, "runAtPCL") &&
67  (runAtPCL_ != algoConfig.getParameter<bool>("runAtPCL"))) {
68  throw cms::Exception("BadConfig")
69  << "Inconsistent settings for 'runAtPCL' in configuration of the "
70  << "alignment producer and the alignment algorithm.";
71  }
72 
73  } else if (hasParameter<bool>(algoConfig, "runAtPCL")) {
74  // configured in algo config?
75  runAtPCL_ = algoConfig.getParameter<bool>("runAtPCL");
76 
77  } else {
78  // assume 'false' if it was not configured
79  runAtPCL_ = false;
80  }
81 
85 }
86 
87 
88 
89 //------------------------------------------------------------------------------
91 {
92  for (auto& iCal: calibrations_) delete iCal;
93 
95  delete alignableExtras_;
96  delete alignableTracker_;
97  delete alignableMuon_;
98 }
99 
100 
101 //------------------------------------------------------------------------------
102 void
104 {
105  if (isDuringLoop_) return;
106 
107  edm::LogInfo("Alignment")
108  << "@SUB=AlignmentProducerBase::startProcessing"
109  << "Begin";
110 
111  if (!isAlgoInitialized_) {
112  throw cms::Exception("LogicError")
113  << "@SUB=AlignmentProducerBase::startProcessing\n"
114  << "Trying to start event processing before initializing the alignment "
115  << "algorithm.";
116  }
117 
118  nevent_ = 0;
119 
120  alignmentAlgo_->startNewLoop();
121 
122  // FIXME: Should this be done in algorithm::startNewLoop()??
123  for (const auto& iCal: calibrations_) iCal->startNewLoop();
124  for (const auto& monitor: monitors_) monitor->startingNewLoop();
125 
127  isDuringLoop_ = true;
128 }
129 
130 
131 //------------------------------------------------------------------------------
132 void
134 {
135  if (!isDuringLoop_) return;
136 
137  edm::LogInfo("Alignment")
138  << "@SUB=AlignmentProducerBase::terminateProcessing"
139  << "Terminating algorithm.";
140  if (setup) {
141  alignmentAlgo_->terminate(*setup);
142  } else {
143  alignmentAlgo_->terminate();
144  }
145 
146  // FIXME: Should this be done in algorithm::terminate()??
147  for (const auto& iCal:calibrations_) iCal->endOfLoop();
148  for (const auto& monitor: monitors_) monitor->endOfLoop();
149 
150  isDuringLoop_ = false;
151 }
152 
153 
154 //------------------------------------------------------------------------------
155 bool
157  const edm::EventSetup& setup)
158 {
159  if (setupChanged(setup)) {
160  edm::LogInfo("Alignment")
161  << "@SUB=AlignmentProducerBase::processEvent"
162  << "EventSetup-Record changed.";
163 
164  // updatable alignables are currently not used at PCL, but event setup
165  // changes require a complete re-initialization
166  if (runAtPCL_) {
167  initAlignmentAlgorithm(setup, /* update = */ false);
168  } else if (enableAlignableUpdates_) {
169  initAlignmentAlgorithm(setup, /* update = */ true);
170  }
171  }
172 
173  initBeamSpot(event); // must happen every event and before incrementing 'nevent_'
174 
175  ++nevent_; // must happen before the check below;
176  // otherwise subsequent checks fail for "EmptySource"
177 
178  if (!alignmentAlgo_->processesEvents()) {
179  edm::LogInfo("Alignment")
180  << "@SUB=AlignmentProducerBase::processEvent"
181  << "Skipping event. The current configuration of the alignment algorithm "
182  << "does not need to process any events.";
183  return false;
184  }
185 
186  // reading in survey records
187  readInSurveyRcds(setup);
188 
189  // Printout event number
190  for ( int i=10; i<10000000; i*=10 ) {
191  if ( nevent_<10*i && (nevent_%i)==0 ) {
192  edm::LogInfo("Alignment")
193  << "@SUB=AlignmentProducerBase::processEvent"
194  << "Events processed: " << nevent_;
195  }
196  }
197 
198  // Retrieve trajectories and tracks from the event
199  // -> merely skip if collection is empty
200  edm::Handle<TrajTrackAssociationCollection> handleTrajTracksCollection;
201 
202  if (getTrajTrackAssociationCollection(event, handleTrajTracksCollection)) {
203 
204  // Form pairs of trajectories and tracks
205  ConstTrajTrackPairs trajTracks;
206  for (auto iter = handleTrajTracksCollection->begin();
207  iter != handleTrajTracksCollection->end();
208  ++iter) {
209  trajTracks.push_back(ConstTrajTrackPair(&(*(*iter).key), &(*(*iter).val)));
210  }
211 
212  // Run the alignment algorithm with its input
213  const AliClusterValueMap* clusterValueMapPtr{nullptr};
214  if (clusterValueMapTag_.encode().size()) {
215  edm::Handle<AliClusterValueMap> clusterValueMap;
216  getAliClusterValueMap(event, clusterValueMap);
217  clusterValueMapPtr = &(*clusterValueMap);
218  }
219 
220 
222  trajTracks,
223  *beamSpot_,
224  clusterValueMapPtr};
225  alignmentAlgo_->run(setup, eventInfo);
226 
227 
228  for (const auto& monitor: monitors_) {
229  monitor->duringLoop(event, setup, trajTracks); // forward eventInfo?
230  }
231  } else {
232  edm::LogError("Alignment")
233  << "@SUB=AlignmentProducerBase::processEvent"
234  << "No track collection found: skipping event";
235  }
236 
237  return true;
238 }
239 
240 
241 //------------------------------------------------------------------------------
242 void
244 {
245  const bool changed{setupChanged(setup)};
246  if (changed) {
247  edm::LogInfo("Alignment")
248  << "@SUB=AlignmentProducerBase::beginRunImpl"
249  << "EventSetup-Record changed.";
250 
251  // updatable alignables are currently not used at PCL, but event setup
252  // changes require a complete re-initialization
253  if (runAtPCL_) {
254  initAlignmentAlgorithm(setup, /* update = */ false);
255  } else if (enableAlignableUpdates_) {
256  initAlignmentAlgorithm(setup, /* update = */ true);
257  }
258  }
259 
260  alignmentAlgo_->beginRun(run, setup,
261  changed && (runAtPCL_ || enableAlignableUpdates_));
262 
263  //store the first run analyzed to be used for setting the IOV (for PCL)
264  if (firstRun_ > static_cast<cond::Time_t>(run.id().run())) {
265  firstRun_ = static_cast<cond::Time_t>(run.id().run());
266  }
267 }
268 
269 
270 //------------------------------------------------------------------------------
271 void
273 {
274  if (tkLasBeamTag_.encode().size()) {
277  getTkFittedLasBeamCollection(run, lasBeams);
278  getTsosVectorCollection(run, tsoses);
279 
280  alignmentAlgo_->endRun(EndRunInfo(run.id(), &(*lasBeams), &(*tsoses)), setup);
281  } else {
282  edm::LogInfo("Alignment")
283  << "@SUB=AlignmentProducerBase::endRunImpl"
284  << "No Tk LAS beams to forward to algorithm.";
285  alignmentAlgo_->endRun(EndRunInfo(run.id(), 0, 0), setup);
286  }
287 
288 }
289 
290 
291 //------------------------------------------------------------------------------
292 void
294  const edm::EventSetup& setup)
295 {
296  // Do not forward edm::LuminosityBlock
297  alignmentAlgo_->beginLuminosityBlock(setup);
298 }
299 
300 
301 //------------------------------------------------------------------------------
302 void
304  const edm::EventSetup& setup)
305 {
306  // Do not forward edm::LuminosityBlock
307  alignmentAlgo_->endLuminosityBlock(setup);
308 }
309 
310 
311 
312 //------------------------------------------------------------------------------
313 void
315 {
316  auto algoConfig = config_.getParameter<edm::ParameterSet>("algoConfig");
317  algoConfig.addUntrackedParameter("RunRangeSelection",
318  config_.getParameter<edm::VParameterSet>("RunRangeSelection"));
319  algoConfig.addUntrackedParameter<align::RunNumber>("firstIOV",
320  runAtPCL_ ?
321  1 :
322  uniqueRunRanges_.front().first);
323  algoConfig.addUntrackedParameter("enableAlignableUpdates",
325 
326  const auto& algoName = algoConfig.getParameter<std::string>("algoName");
327  alignmentAlgo_ = std::unique_ptr<AlignmentAlgorithmBase>
329 
330  if (!alignmentAlgo_) {
331  throw cms::Exception("BadConfig")
332  << "Couldn't find the called alignment algorithm: " << algoName;
333  }
334 }
335 
336 
337 //------------------------------------------------------------------------------
338 void
340 {
341  const auto& monitorConfig = config_.getParameter<edm::ParameterSet>("monitorConfig");
342  auto monitors = monitorConfig.getUntrackedParameter<std::vector<std::string> >("monitors");
343  for (const auto& miter: monitors) {
344  std::unique_ptr<AlignmentMonitorBase> newMonitor
346  ->create(miter, monitorConfig.getUntrackedParameterSet(miter))};
347 
348  if (!newMonitor) {
349  throw cms::Exception("BadConfig") << "Couldn't find monitor named " << miter;
350  }
351  monitors_.emplace_back(std::move(newMonitor));
352  }
353 }
354 
355 
356 //------------------------------------------------------------------------------
357 void
359 {
360  const auto& calibrations = config_.getParameter<edm::VParameterSet>("calibrations");
361  for (const auto& iCalib: calibrations) {
363  ->create(iCalib.getParameter<std::string>("calibrationName"),
364  iCalib));
365  }
366 
367  // Not all algorithms support calibrations - so do not pass empty vector
368  // and throw if non-empty and not supported:
369  if (!calibrations_.empty()) {
370  if (alignmentAlgo_->supportsCalibrations()) {
371  alignmentAlgo_->addCalibrations(calibrations_);
372 
373  } else {
374  throw cms::Exception("BadConfig")
375  << "@SUB=AlignmentProducerBase::createCalibrations\n"
376  << "Configured " << calibrations_.size() << " calibration(s) "
377  << "for algorithm not supporting it.";
378  }
379  }
380 }
381 
382 
383 //------------------------------------------------------------------------------
384 bool
386 {
387  bool changed{false};
388 
389  if (watchIdealGeometryRcd_.check(setup)) {
390  changed = true;
391  }
392 
393  if (watchGlobalPositionRcd_.check(setup)) {
394  changed = true;
395  }
396 
397  if (doTracker_) {
398  if (watchTrackerAlRcd_.check(setup)) {
399  changed = true;
400  }
401 
402  if (watchTrackerAlErrorExtRcd_.check(setup)) {
403  changed = true;
404  }
405 
406  if (watchTrackerSurDeRcd_.check(setup)) {
407  changed = true;
408  }
409  }
410 
411  if (doMuon_) {
412  if (watchDTAlRcd_.check(setup)) {
413  changed = true;
414  }
415 
416  if (watchDTAlErrExtRcd_.check(setup)) {
417  changed = true;
418  }
419 
420  if (watchCSCAlRcd_.check(setup)) {
421  changed = true;
422  }
423 
424  if (watchCSCAlErrExtRcd_.check(setup)) {
425  changed = true;
426  }
427  }
428 
429  /* TODO: ExtraAlignables: Which record(s) to check?
430  *
431  if (useExtras_) {}
432  */
433 
434  return changed;
435 }
436 
437 
438 //------------------------------------------------------------------------------
439 void
441  bool update)
442 {
443  edm::LogInfo("Alignment")
444  << "@SUB=AlignmentProducerBase::initAlignmentAlgorithm"
445  << "Bwgin";
446 
447  auto isTrueUpdate = update && isAlgoInitialized_;
448 
449  // Retrieve tracker topology from geometry
450  edm::ESHandle<TrackerTopology> tTopoHandle;
451  setup.get<TrackerTopologyRcd>().get(tTopoHandle);
452  const TrackerTopology* const tTopo = tTopoHandle.product();
453 
454  // Create the geometries from the ideal geometries
455  createGeometries(setup, tTopo);
456 
457  applyAlignmentsToDB(setup);
458  createAlignables(tTopo, isTrueUpdate);
461 
462  // Initialize alignment algorithm and integrated calibration and pass the
463  // latter to algorithm
464  edm::LogInfo("Alignment")
465  << "@SUB=AlignmentProducerBase::initAlignmentAlgorithm"
466  << "Initializing alignment algorithm.";
467  alignmentAlgo_->initialize(setup,
472  isAlgoInitialized_ = true;
473 
475 
476  if (!isTrueUpdate) { // only needed the first time
477  for (const auto& iCal: calibrations_) {
479  }
480  for (const auto& monitor: monitors_) {
482  }
483  }
484  startProcessing(); // needed if derived class is non-EDLooper-based
485  // has no effect, if called during loop
486 
487  edm::LogInfo("Alignment")
488  << "@SUB=AlignmentProducerBase::initAlignmentAlgorithm"
489  << "End";
490 }
491 
492 
493 //------------------------------------------------------------------------------
494 void
496 {
497  getBeamSpot(event, beamSpot_);
498 
499  if (nevent_== 0 && alignableExtras_) {
500  edm::LogInfo("Alignment")
501  << "@SUB=AlignmentProducerBase::initBeamSpot"
502  << "Initializing AlignableBeamSpot";
503 
505  beamSpot_->y0(),
506  beamSpot_->z0(),
507  beamSpot_->dxdz(),
508  beamSpot_->dydz());
509  }
510 }
511 
512 
513 //------------------------------------------------------------------------------
514 void
516  const TrackerTopology* tTopo)
517 {
518  if (doTracker_) {
519  edm::ESHandle<GeometricDet> geometricDet;
520  iSetup.get<IdealGeometryRecord>().get(geometricDet);
521 
523  iSetup.get<PTrackerParametersRcd>().get(ptp);
524 
525  TrackerGeomBuilderFromGeometricDet trackerBuilder;
526 
527  trackerGeometry_ = std::shared_ptr<TrackerGeometry>
528  (trackerBuilder.build(&(*geometricDet), *ptp, tTopo));
529  }
530 
531  if (doMuon_) {
533  iSetup.get<IdealGeometryRecord>().get(cpv);
535  iSetup.get<MuonNumberingRecord>().get(mdc);
536  DTGeometryBuilderFromDDD DTGeometryBuilder;
538  muonDTGeometry_ = std::make_shared<DTGeometry>();
539  DTGeometryBuilder.build(muonDTGeometry_, &(*cpv), *mdc);
540  muonCSCGeometry_ = std::make_shared<CSCGeometry>();
541  CSCGeometryBuilder.build(muonCSCGeometry_, &(*cpv), *mdc );
542  }
543 }
544 
545 
546 //------------------------------------------------------------------------------
547 void
549 {
550  // Retrieve and apply alignments, if requested (requires z setup)
551  if (applyDbAlignment_) {
552  // we need GlobalPositionRcd - and have to keep track for later removal
553  // before writing again to DB...
554 
555  edm::ESHandle<Alignments> globalAlignments;
556  setup.get<GlobalPositionRcd>().get(globalAlignments);
557  globalPositions_ = std::make_unique<Alignments>(*globalAlignments);
558 
559  if (doTracker_) {
563  (trackerGeometry_.get(), setup,
565  );
566 
567  applyDB<TrackerGeometry,
569  }
570 
571  if (doMuon_) {
575  (muonDTGeometry_.get(), setup,
577  );
578 
582  (muonCSCGeometry_.get(), setup,
584  );
585  }
586  }
587 }
588 
589 
590 //------------------------------------------------------------------------------
591 void
593 {
594  if (doTracker_) {
595  if (update) {
597  } else {
599  }
600  }
601 
602  if (doMuon_) {
603  if (update) {
605  } else {
607  }
608  }
609 
610  if (useExtras_) {
611  if (update) {
612  // FIXME: Requires further code changes to track beam spot condition changes
613  } else {
615  }
616  }
617 }
618 
619 
620 //------------------------------------------------------------------------------
621 void
623 {
624  // Create alignment parameter builder
625  edm::LogInfo("Alignment")
626  << "@SUB=AlignmentProducerBase::buildParameterStore"
627  << "Creating AlignmentParameterBuilder";
628 
629  const auto& alParamBuildCfg =
630  config_.getParameter<edm::ParameterSet>("ParameterBuilder");
631  const auto& alParamStoreCfg =
632  config_.getParameter<edm::ParameterSet>("ParameterStore");
633 
634  AlignmentParameterBuilder alignmentParameterBuilder{alignableTracker_,
637  alParamBuildCfg};
638 
639  // Fix alignables if requested
640  if (stNFixAlignables_ > 0) {
641  alignmentParameterBuilder.fixAlignables(stNFixAlignables_);
642  }
643 
644  // Get list of alignables
645  const auto& alignables = alignmentParameterBuilder.alignables();
646  edm::LogInfo("Alignment")
647  << "@SUB=AlignmentProducerBase::buildParameterStore"
648  << "got " << alignables.size() << " alignables";
649 
650  // Create AlignmentParameterStore
652  new AlignmentParameterStore(alignables, alParamStoreCfg);
653  edm::LogInfo("Alignment")
654  << "@SUB=AlignmentProducerBase::buildParameterStore"
655  << "AlignmentParameterStore created!";
656 }
657 
658 
659 //------------------------------------------------------------------------------
660 void
662 {
663  // Apply misalignment scenario to alignable tracker and muon if requested
664  // WARNING: this assumes scenarioConfig can be passed to both muon and tracker
665 
667  edm::LogInfo("Alignment")
668  << "@SUB=AlignmentProducerBase::applyMisalignment"
669  << "Applying misalignment scenario to "
670  << (doTracker_ ? "tracker" : "")
671  << (doMuon_ ? (doTracker_ ? " and muon" : "muon") : ".");
672 
673  const auto& scenarioConfig = config_.getParameterSet("MisalignmentScenario");
674 
675  if (doTracker_) {
676  TrackerScenarioBuilder scenarioBuilder(alignableTracker_);
677  scenarioBuilder.applyScenario(scenarioConfig);
678  }
679  if (doMuon_) {
680  MuonScenarioBuilder muonScenarioBuilder(alignableMuon_);
681  muonScenarioBuilder.applyScenario(scenarioConfig);
682  }
683 
684  } else {
685  edm::LogInfo("Alignment")
686  << "@SUB=AlignmentProducerBase::applyMisalignment"
687  << "NOT applying misalignment scenario!";
688  }
689 
690  // Apply simple misalignment
691  const auto& sParSel =
692  config_.getParameter<std::string>("parameterSelectorSimple");
695 }
696 
697 
698 // ----------------------------------------------------------------------------
699 void
701  const std::string &selection,
702  float shift, float rot, bool local)
703 {
704 
705  std::ostringstream output; // collecting output
706 
707  if (shift > 0. || rot > 0.) {
708  output << "Adding random flat shift of max size " << shift
709  << " and adding random flat rotation of max size " << rot <<" to ";
710 
711  std::vector<bool> commSel(0);
712  if (selection != "-1") {
713  AlignmentParameterSelector aSelector(0,0); // no alignable needed here...
714  const std::vector<char> cSel(aSelector.convertParamSel(selection));
715  if (cSel.size() < RigidBodyAlignmentParameters::N_PARAM) {
716  throw cms::Exception("BadConfig")
717  << "[AlignmentProducerBase::simpleMisalignment_]\n"
718  << "Expect selection string '" << selection << "' to be at least of length "
719  << RigidBodyAlignmentParameters::N_PARAM << " or to be '-1'.\n"
720  << "(Most probably you have to adjust the parameter 'parameterSelectorSimple'.)";
721  }
722  for (const auto& cIter: cSel) {
723  commSel.push_back(cIter == '0' ? false : true);
724  }
725  output << "parameters defined by (" << selection
726  << "), representing (x,y,z,alpha,beta,gamma),";
727  } else {
728  output << "the active parameters of each alignable,";
729  }
730  output << " in " << (local ? "local" : "global") << " frame.";
731 
732  for (const auto& ali: alivec) {
733  std::vector<bool> mysel(commSel.empty() ? ali->alignmentParameters()->selector() : commSel);
734 
735  if (std::abs(shift)>0.00001) {
736  double s0 = 0., s1 = 0., s2 = 0.;
737  if (mysel[RigidBodyAlignmentParameters::dx]) s0 = shift * double(random()%1000-500)/500.;
738  if (mysel[RigidBodyAlignmentParameters::dy]) s1 = shift * double(random()%1000-500)/500.;
739  if (mysel[RigidBodyAlignmentParameters::dz]) s2 = shift * double(random()%1000-500)/500.;
740 
741  if (local) ali->move(ali->surface().toGlobal(align::LocalVector(s0,s1,s2)));
742  else ali->move(align::GlobalVector(s0,s1,s2));
743 
744  //AlignmentPositionError ape(dx,dy,dz);
745  //ali->addAlignmentPositionError(ape);
746  }
747 
748  if (std::abs(rot)>0.00001) {
750  if (mysel[RigidBodyAlignmentParameters::dalpha]) r(1)=rot*double(random()%1000-500)/500.;
751  if (mysel[RigidBodyAlignmentParameters::dbeta]) r(2)=rot*double(random()%1000-500)/500.;
752  if (mysel[RigidBodyAlignmentParameters::dgamma]) r(3)=rot*double(random()%1000-500)/500.;
753 
754  const align::RotationType mrot = align::toMatrix(r);
755  if (local) ali->rotateInLocalFrame(mrot);
756  else ali->rotateInGlobalFrame(mrot);
757 
758  //ali->addAlignmentPositionErrorFromRotation(mrot);
759  }
760  } // end loop on alignables
761  } else {
762  output << "No simple misalignment added!";
763  }
764  edm::LogInfo("Alignment")
765  << "@SUB=AlignmentProducerBase::simpleMisalignment" << output.str();
766 }
767 
768 
769 //------------------------------------------------------------------------------
770 void
772 {
773  edm::LogInfo("Alignment")
774  << "@SUB=AlignmentProducerBase::applyAlignmentsToGeometry"
775  << "Now physically apply alignments to geometry...";
776 
777  // Propagate changes to reconstruction geometry (from initialisation or iteration)
778  GeometryAligner aligner;
779 
780  if (doTracker_) {
781  if (!alignableTracker_) {
782  throw cms::Exception("LogicError")
783  << "@SUB=AlignmentProducerBase::applyAlignmentsToGeometry\n"
784  << "Trying to apply tracker alignment before creating it.";
785  }
786 
787  std::unique_ptr<Alignments> alignments{alignableTracker_->alignments()};
788  std::unique_ptr<AlignmentErrorsExtended>
789  alignmentErrExt{alignableTracker_->alignmentErrors()};
790  std::unique_ptr<AlignmentSurfaceDeformations>
791  aliDeforms{alignableTracker_->surfaceDeformations()};
792 
793  aligner.applyAlignments(trackerGeometry_.get(), alignments.get(),
794  alignmentErrExt.get(), AlignTransform());
795  aligner.attachSurfaceDeformations(trackerGeometry_.get(), aliDeforms.get());
796  }
797 
798  if (doMuon_) {
799  if (!alignableMuon_) {
800  throw cms::Exception("LogicError")
801  << "@SUB=AlignmentProducerBase::applyAlignmentsToGeometry\n"
802  << "Trying to apply muon alignment before creating it.";
803  }
804 
805  std::unique_ptr<Alignments> dtAlignments{alignableMuon_->dtAlignments()};
806  std::unique_ptr<Alignments> cscAlignments{alignableMuon_->cscAlignments()};
807 
808  std::unique_ptr<AlignmentErrorsExtended>
809  dtAlignmentErrExt{alignableMuon_->dtAlignmentErrorsExtended()};
810  std::unique_ptr<AlignmentErrorsExtended>
811  cscAlignmentErrExt{alignableMuon_->cscAlignmentErrorsExtended()};
812 
813  aligner.applyAlignments(muonDTGeometry_.get(), dtAlignments.get(),
814  dtAlignmentErrExt.get(), AlignTransform());
815  aligner.applyAlignments(muonCSCGeometry_.get(), cscAlignments.get(),
816  cscAlignmentErrExt.get(), AlignTransform());
817  }
818 }
819 
820 
821 //------------------------------------------------------------------------------
822 void
824 {
825 
826  // Get Survey Rcds and add Survey Info
827  if ( doTracker_ && useSurvey_ ){
828  bool tkSurveyBool = watchTkSurveyRcd_.check(iSetup);
829  bool tkSurveyErrBool = watchTkSurveyErrExtRcd_.check(iSetup);
830  edm::LogInfo("Alignment") << "watcher tksurveyrcd: " << tkSurveyBool;
831  edm::LogInfo("Alignment") << "watcher tksurveyerrrcd: " << tkSurveyErrBool;
832  if ( tkSurveyBool || tkSurveyErrBool){
833 
834  edm::LogInfo("Alignment") << "ADDING THE SURVEY INFORMATION";
836  edm::ESHandle<SurveyErrors> surveyErrors;
837 
838  iSetup.get<TrackerSurveyRcd>().get(surveys);
839  iSetup.get<TrackerSurveyErrorExtendedRcd>().get(surveyErrors);
840 
841  surveyIndex_ = 0;
842  surveyValues_ = &*surveys;
843  surveyErrors_ = &*surveyErrors;
845  }
846  }
847 
848  if ( doMuon_ && useSurvey_) {
849  bool DTSurveyBool = watchTkSurveyRcd_.check(iSetup);
850  bool DTSurveyErrBool = watchTkSurveyErrExtRcd_.check(iSetup);
851  bool CSCSurveyBool = watchTkSurveyRcd_.check(iSetup);
852  bool CSCSurveyErrBool = watchTkSurveyErrExtRcd_.check(iSetup);
853 
854  if ( DTSurveyBool || DTSurveyErrBool || CSCSurveyBool || CSCSurveyErrBool ){
855  edm::ESHandle<Alignments> dtSurveys;
856  edm::ESHandle<SurveyErrors> dtSurveyErrors;
857  edm::ESHandle<Alignments> cscSurveys;
858  edm::ESHandle<SurveyErrors> cscSurveyErrors;
859 
860  iSetup.get<DTSurveyRcd>().get(dtSurveys);
861  iSetup.get<DTSurveyErrorExtendedRcd>().get(dtSurveyErrors);
862  iSetup.get<CSCSurveyRcd>().get(cscSurveys);
863  iSetup.get<CSCSurveyErrorExtendedRcd>().get(cscSurveyErrors);
864 
865  surveyIndex_ = 0;
866  surveyValues_ = &*dtSurveys;
867  surveyErrors_ = &*dtSurveyErrors;
868  const auto& barrels = alignableMuon_->DTBarrel();
869  for (const auto& barrel: barrels) addSurveyInfo(barrel);
870 
871  surveyIndex_ = 0;
872  surveyValues_ = &*cscSurveys;
873  surveyErrors_ = &*cscSurveyErrors;
874  const auto& endcaps = alignableMuon_->CSCEndcaps();
875  for (const auto& endcap: endcaps) addSurveyInfo(endcap);
876 
877  }
878  }
879 
880 }
881 
882 
883 //------------------------------------------------------------------------------
884 void
886 {
887  const auto& comps = ali->components();
888 
889  for (const auto& comp: comps) addSurveyInfo(comp);
890 
892 
893  if ( ali->id() != error.rawId() ||
894  ali->alignableObjectId() != error.structureType() )
895  {
896  throw cms::Exception("DatabaseError")
897  << "Error reading survey info from DB. Mismatched id!";
898  }
899 
900  const auto& pos = surveyValues_->m_align[surveyIndex_].translation();
901  const auto& rot = surveyValues_->m_align[surveyIndex_].rotation();
902 
903  AlignableSurface surf(align::PositionType(pos.x(), pos.y(), pos.z()),
904  align::RotationType(rot.xx(), rot.xy(), rot.xz(),
905  rot.yx(), rot.yy(), rot.yz(),
906  rot.zx(), rot.zy(), rot.zz()));
907 
908  surf.setWidth(ali->surface().width());
909  surf.setLength(ali->surface().length());
910 
911  ali->setSurvey(new SurveyDet(surf, error.matrix()));
912 
913  ++surveyIndex_;
914 }
915 
916 
917 //------------------------------------------------------------------------------
918 bool
920 {
921 
922  for (const auto& monitor: monitors_) monitor->endOfJob();
923 
924  if (alignmentAlgo_->processesEvents() && nevent_ == 0) {
925  return false;
926  }
927 
928  for (const auto& iCal:calibrations_) iCal->endOfJob();
929 
931  if (alignmentAlgo_->storeAlignments()) storeAlignmentsToDB();
932  } else {
933  edm::LogInfo("Alignment")
934  << "@SUB=AlignmentProducerBase::finish"
935  << "No payload to be stored!";
936  }
937 
938  return true;
939 }
940 
941 
942 //------------------------------------------------------------------------------
943 void
945 {
946  const auto runRangeSelectionVPSet =
947  config_.getParameterSetVector("RunRangeSelection");
948 
949  // handle PCL use case
950  const auto& uniqueRunRanges =
951  (runAtPCL_ ?
952  align::makeUniqueRunRanges(runRangeSelectionVPSet, firstRun_) :
954 
955  std::vector<AlgebraicVector> beamSpotParameters;
956 
957  for (const auto& iRunRange: uniqueRunRanges) {
958 
959  alignmentAlgo_->setParametersForRunRange(iRunRange);
960 
961  // Save alignments to database
963  writeForRunRange(iRunRange.first);
964  }
965 
966  // Deal with extra alignables, e.g. beam spot
967  if (alignableExtras_) {
968  auto& alis = alignableExtras_->beamSpot();
969  if (!alis.empty()) {
970  auto beamSpotAliPars =
971  dynamic_cast<BeamSpotAlignmentParameters*>(alis[0]->alignmentParameters());
972  if (!beamSpotAliPars) {
973  throw cms::Exception("LogicError")
974  << "@SUB=AlignmentProducerBase::storeAlignmentsToDB\n"
975  << "First alignable of alignableExtras_ does not have "
976  << "'BeamSpotAlignmentParameters', while it should have.";
977  }
978 
979  beamSpotParameters.push_back(beamSpotAliPars->parameters());
980  }
981  }
982  }
983 
984  if (alignableExtras_) {
985  std::ostringstream bsOutput;
986 
987  auto itPar = beamSpotParameters.cbegin();
988  for (auto iRunRange = uniqueRunRanges.cbegin();
989  iRunRange != uniqueRunRanges.cend();
990  ++iRunRange, ++itPar) {
991  bsOutput << "Run range: " << (*iRunRange).first << " - " << (*iRunRange).second << "\n";
992  bsOutput << " Displacement: x=" << (*itPar)[0] << ", y=" << (*itPar)[1] << "\n";
993  bsOutput << " Slope: dx/dz=" << (*itPar)[2] << ", dy/dz=" << (*itPar)[3] << "\n";
994  }
995 
996  edm::LogInfo("Alignment")
997  << "@SUB=AlignmentProducerBase::storeAlignmentsToDB"
998  << "Parameters for alignable beamspot:\n" << bsOutput.str();
999  }
1000 }
1001 
1002 
1003 //------------------------------------------------------------------------------
1004 void
1006 {
1007  if (doTracker_) { // first tracker
1008  const AlignTransform* trackerGlobal{nullptr}; // will be 'removed' from constants
1009  if (globalPositions_) { // i.e. applied before in applyDB
1012  }
1013 
1014  auto alignments = alignableTracker_->alignments();
1015  auto alignmentErrors = alignableTracker_->alignmentErrors();
1016  this->writeDB(alignments, "TrackerAlignmentRcd",
1017  alignmentErrors, "TrackerAlignmentErrorExtendedRcd", trackerGlobal,
1018  time);
1019 
1020  // Save surface deformations to database
1021  if (saveDeformationsToDB_) {
1022  auto alignmentSurfaceDeformations = alignableTracker_->surfaceDeformations();
1023  this->writeDB(alignmentSurfaceDeformations, "TrackerSurfaceDeformationRcd", time);
1024  }
1025  }
1026 
1027  if (doMuon_) { // now muon
1028  const AlignTransform* muonGlobal{nullptr}; // will be 'removed' from constants
1029  if (globalPositions_) { // i.e. applied before in applyDB
1031  DetId(DetId::Muon));
1032  }
1033  // Get alignments+errors, first DT - ownership taken over by writeDB(..), so no delete
1034  auto alignments = alignableMuon_->dtAlignments();
1035  auto alignmentErrors = alignableMuon_->dtAlignmentErrorsExtended();
1036  this->writeDB(alignments, "DTAlignmentRcd",
1037  alignmentErrors, "DTAlignmentErrorExtendedRcd", muonGlobal,
1038  time);
1039 
1040  // Get alignments+errors, now CSC - ownership taken over by writeDB(..), so no delete
1041  alignments = alignableMuon_->cscAlignments();
1042  alignmentErrors = alignableMuon_->cscAlignmentErrorsExtended();
1043  this->writeDB(alignments, "CSCAlignmentRcd",
1044  alignmentErrors, "CSCAlignmentErrorExtendedRcd", muonGlobal,
1045  time);
1046  }
1047 }
1048 
1049 
1050 //------------------------------------------------------------------------------
1052  const std::string& alignRcd,
1053  AlignmentErrorsExtended* alignmentErrors,
1054  const std::string& errRcd,
1055  const AlignTransform* globalCoordinates,
1056  cond::Time_t time) const
1057 {
1058  Alignments* tempAlignments = alignments;
1059  AlignmentErrorsExtended* tempAlignmentErrorsExtended = alignmentErrors;
1060 
1061  // Call service
1063  if (!poolDb.isAvailable()) { // Die if not available
1064  delete tempAlignments; // promised to take over ownership...
1065  delete tempAlignmentErrorsExtended; // dito
1066  throw cms::Exception("NotAvailable") << "PoolDBOutputService not available";
1067  }
1068 
1069  if (globalCoordinates // happens only if (applyDbAlignment_ == true)
1070  && globalCoordinates->transform() != AlignTransform::Transform::Identity) {
1071 
1072  tempAlignments = new Alignments(); // temporary storage for
1073  tempAlignmentErrorsExtended = new AlignmentErrorsExtended(); // final alignments and errors
1074 
1075  GeometryAligner aligner;
1076  aligner.removeGlobalTransform(alignments, alignmentErrors,
1077  *globalCoordinates,
1078  tempAlignments, tempAlignmentErrorsExtended);
1079 
1080  delete alignments; // have to delete original alignments
1081  delete alignmentErrors; // same thing for the errors
1082 
1083  edm::LogInfo("Alignment")
1084  << "@SUB=AlignmentProducerBase::writeDB"
1085  << "globalCoordinates removed from alignments (" << alignRcd
1086  << ") and errors (" << alignRcd << ").";
1087  }
1088 
1089  if (saveToDB_) {
1090  edm::LogInfo("Alignment") << "Writing Alignments for run " << time
1091  << " to " << alignRcd << ".";
1092  poolDb->writeOne<Alignments>(tempAlignments, time, alignRcd);
1093  } else { // poolDb->writeOne(..) takes over 'alignments' ownership,...
1094  delete tempAlignments; // ...otherwise we have to delete, as promised!
1095  }
1096 
1097  if (saveApeToDB_) {
1098  edm::LogInfo("Alignment") << "Writing AlignmentErrorsExtended for run " << time
1099  << " to " << errRcd << ".";
1100  poolDb->writeOne<AlignmentErrorsExtended>(tempAlignmentErrorsExtended, time, errRcd);
1101  } else { // poolDb->writeOne(..) takes over 'alignmentErrors' ownership,...
1102  delete tempAlignmentErrorsExtended; // ...otherwise we have to delete, as promised!
1103  }
1104 }
1105 
1106 
1107 //------------------------------------------------------------------------------
1109  const std::string& surfaceDeformationRcd,
1110  cond::Time_t time) const
1111 {
1112  // Call service
1114  if (!poolDb.isAvailable()) { // Die if not available
1115  delete alignmentSurfaceDeformations; // promised to take over ownership...
1116  throw cms::Exception("NotAvailable") << "PoolDBOutputService not available";
1117  }
1118 
1119  if (saveDeformationsToDB_) {
1120  edm::LogInfo("Alignment") << "Writing AlignmentSurfaceDeformations for run " << time
1121  << " to " << surfaceDeformationRcd << ".";
1122  poolDb->writeOne<AlignmentSurfaceDeformations>(alignmentSurfaceDeformations, time,
1123  surfaceDeformationRcd);
1124  } else { // poolDb->writeOne(..) takes over 'surfaceDeformation' ownership,...
1125  delete alignmentSurfaceDeformations; // ...otherwise we have to delete, as promised!
1126  }
1127 }
1128 
1129 
1130 //------------------------------------------------------------------------------
1131 template<typename T>
1132 bool
1134  const std::string& name)
1135 {
1136  try {
1137  config.getParameter<T>(name);
1138  } catch (const edm::Exception& e) {
1140  if (e.message().find("MissingParameter") != std::string::npos) {
1141  return false;
1142  } else {
1143  throw;
1144  }
1145  } else {
1146  throw;
1147  }
1148  }
1149 
1150  return true;
1151 }
Code categoryCode() const
Definition: EDMException.h:95
const TimeTypeSpecs timeTypeSpecs[]
Definition: Time.cc:22
align::Scalar width() const
T getParameter(std::string const &) const
align::ID id() const
Return the ID of Alignable, i.e. DetId of &#39;first&#39; component GeomDet(Unit).
Definition: Alignable.h:189
double z0() const
z coordinate
Definition: BeamSpot.h:68
T getUntrackedParameter(std::string const &, T const &) const
VParameterSet const & getParameterSetVector(std::string const &name) const
const edm::InputTag tjTkAssociationMapTag_
Map with tracks/trajectories.
void readInSurveyRcds(const edm::EventSetup &)
Reads in survey records.
void applyAlignmentsToDB(const edm::EventSetup &)
void createGeometries(const edm::EventSetup &, const TrackerTopology *)
Creates ideal geometry from IdealGeometryRecord.
void writeDB(Alignments *, const std::string &, AlignmentErrorsExtended *, const std::string &, const AlignTransform *, cond::Time_t) const
RunID const & id() const
Definition: RunBase.h:39
std::shared_ptr< CSCGeometry > muonCSCGeometry_
Builds a scenario from configuration and applies it to the alignable Muon.
Alignment producer base class.
RunNumber_t run() const
Definition: RunID.h:39
def create(alignables, pedeDump, additionalData, outputFile, config)
edm::ESWatcher< DTAlignmentErrorExtendedRcd > watchDTAlErrExtRcd_
void update(const DTGeometry *, const CSCGeometry *)
const_iterator end() const
last iterator over the map (read only)
edm::ESWatcher< DTAlignmentRcd > watchDTAlRcd_
AlignmentErrorsExtended * alignmentErrors() const
Return alignment errors, sorted by DetId.
Time_t beginValue
Definition: Time.h:45
Class to update a given geometry with a set of alignments.
bool processEvent(const edm::Event &, const edm::EventSetup &)
Process event.
void initAlignmentAlgorithm(const edm::EventSetup &, bool update=false)
void terminateProcessing(const edm::EventSetup *=0)
Terminate processing of events.
std::vector< ParameterSet > VParameterSet
Definition: ParameterSet.h:33
ErrorMatrix matrix() const
Definition: SurveyError.h:76
AlignableExtras * alignableExtras_
AlignmentProducerBase(const edm::ParameterSet &)
void update(const TrackerGeometry *, const TrackerTopology *)
align::Alignables DTBarrel()
selection
main part
Definition: corrVsCorr.py:98
void buildParameterStore()
Creates the , which manages all Alignables.
#define noexcept
virtual bool getAliClusterValueMap(const edm::Event &, edm::Handle< AliClusterValueMap > &)=0
def setup(process, global_tag, zero_tesla=False)
Definition: GeneralSetup.py:1
std::string message() const
Definition: Exception.cc:187
TrackerGeometry * build(const GeometricDet *gd, const PTrackerParameters &ptp, const TrackerTopology *tTopo)
virtual ~AlignmentProducerBase()(false)
const Alignments * surveyValues_
void setWidth(align::Scalar width)
Definition: config.py:1
TRandom random
Definition: MVATrainer.cc:138
uint8_t structureType() const
Definition: SurveyError.h:66
AlignmentParameterStore * alignmentParameterStore_
std::vector< AlignTransform > m_align
Definition: Alignments.h:19
std::string encode() const
Definition: InputTag.cc:166
virtual bool getTkFittedLasBeamCollection(const edm::Run &, edm::Handle< TkFittedLasBeamCollection > &)=0
define event information passed to algorithms
std::shared_ptr< TrackerGeometry > trackerGeometry_
void setLength(align::Scalar length)
edm::ESWatcher< GlobalPositionRcd > watchGlobalPositionRcd_
virtual bool getTsosVectorCollection(const edm::Run &, edm::Handle< TsosVectorCollection > &)=0
double dydz() const
dydz slope
Definition: BeamSpot.h:84
void writeForRunRange(cond::Time_t)
std::vector< ConstTrajTrackPair > ConstTrajTrackPairs
Alignments * dtAlignments()
Get DT alignments sorted by DetId.
unsigned long long Time_t
Definition: Time.h:16
align::Alignables CSCEndcaps()
virtual StructureType alignableObjectId() const =0
Return the alignable type identifier.
virtual Alignables components() const =0
Return vector of all direct components.
RunRanges makeUniqueRunRanges(const edm::VParameterSet &runRanges, const RunNumber &defaultRun)
Definition: Utilities.cc:263
void attachSurfaceDeformations(C *geometry, const AlignmentSurfaceDeformations *surfaceDeformations)
const edm::InputTag beamSpotTag_
BeamSpot.
void removeGlobalTransform(const Alignments *alignments, const AlignmentErrorsExtended *alignmentErrors, const AlignTransform &globalCoordinates, Alignments *newAlignments, AlignmentErrorsExtended *newAlignmentErrorsExtended)
edm::ESWatcher< TrackerSurveyErrorExtendedRcd > watchTkSurveyErrExtRcd_
void endRunImpl(const edm::Run &, const edm::EventSetup &)
end run
void addSurveyInfo(Alignable *)
Adds survey info to an Alignable.
bool isAvailable() const
Definition: Service.h:46
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
void endLuminosityBlockImpl(const edm::LuminosityBlock &, const edm::EventSetup &)
end lumi block
align::ID rawId() const
Definition: SurveyError.h:71
void writeOne(T *payload, Time_t time, const std::string &recordName, bool withlogging=false)
void createAlignables(const TrackerTopology *, bool update=false)
AlignmentSurfaceDeformations * surfaceDeformations() const
Return surface deformations, sorted by DetId.
Definition: Alignable.cc:264
std::unique_ptr< const Alignments > globalPositions_
GlobalPositions that might be read from DB, nullptr otherwise.
AlignmentAlgorithmBase::EndRunInfo EndRunInfo
void applyScenario(const edm::ParameterSet &scenario)
Apply misalignment scenario to the tracker.
void initializeBeamSpot(double x, double y, double z, double dxdz, double dydz)
Initialize the alignable beam spot with the given parameters.
bool hasParameter(const edm::ParameterSet &, const std::string &name)
void startProcessing()
Start processing of events.
edm::ESWatcher< IdealGeometryRecord > watchIdealGeometryRcd_
AlignmentErrorsExtended * cscAlignmentErrorsExtended()
Get CSC alignment errors sorted by DetId.
double dxdz() const
dxdz slope
Definition: BeamSpot.h:82
virtual bool getBeamSpot(const edm::Event &, edm::Handle< reco::BeamSpot > &)=0
const AlignableSurface & surface() const
Return the Surface (global position and orientation) of the object.
Definition: Alignable.h:135
edm::ESWatcher< CSCAlignmentErrorExtendedRcd > watchCSCAlErrExtRcd_
std::pair< const Trajectory *, const reco::Track * > ConstTrajTrackPair
Definition: DetId.h:18
edm::ESWatcher< TrackerSurfaceDeformationRcd > watchTrackerSurDeRcd_
void applyAlignments(C *geometry, const Alignments *alignments, const AlignmentErrorsExtended *alignmentErrors, const AlignTransform &globalCoordinates)
AlgebraicVector EulerAngles
Definition: Definitions.h:36
align::Scalar length() const
Transform transform() const
AlignableTracker * alignableTracker_
edm::Handle< reco::BeamSpot > beamSpot_
ParameterSet const & getParameterSet(std::string const &) const
void applyMisalignment()
Applies misalignment scenario to .
void setSurvey(const SurveyDet *)
Set survey info.
Definition: Alignable.cc:356
const T & get() const
Definition: EventSetup.h:55
void build(std::shared_ptr< CSCGeometry > geom, const DDCompactView *fv, const MuonDDDConstants &muonConstants)
Build the geometry.
const align::RunRanges uniqueRunRanges_
Alignments * cscAlignments()
Get CSC alignments sorted by DetId.
void storeAlignmentsToDB()
Writes Alignments (i.e. Records) to database-file.
AlignmentErrorsExtended * dtAlignmentErrorsExtended()
Get DT alignment errors sorted by DetId.
virtual bool getTrajTrackAssociationCollection(const edm::Event &, edm::Handle< TrajTrackAssociationCollection > &)=0
bool check(const edm::EventSetup &iSetup)
Definition: ESWatcher.h:57
std::vector< Alignable * > Alignables
Definition: Utilities.h:31
std::shared_ptr< DTGeometry > muonDTGeometry_
edm::ESWatcher< TrackerAlignmentRcd > watchTrackerAlRcd_
void beginLuminosityBlockImpl(const edm::LuminosityBlock &, const edm::EventSetup &)
begin lumi block
edm::ESWatcher< TrackerAlignmentErrorExtendedRcd > watchTrackerAlErrorExtRcd_
bool setupChanged(const edm::EventSetup &)
Checks if one of the EventSetup-Records has changed.
#define update(a, b)
edm::ESWatcher< TrackerSurveyRcd > watchTkSurveyRcd_
void build(std::shared_ptr< DTGeometry > theGeometry, const DDCompactView *cview, const MuonDDDConstants &muonConstants)
RotationType toMatrix(const EulerAngles &)
Convert rotation angles about x-, y-, z-axes to matrix.
Definition: Utilities.cc:42
void createCalibrations()
Creates the calibrations.
std::vector< char > convertParamSel(const std::string &selString) const
Converting std::string into std::vector<char>
double y0() const
y coordinate
Definition: BeamSpot.h:66
static unsigned int const shift
void createAlignmentAlgorithm()
Creates the choosen alignment algorithm.
edm::ESWatcher< CSCAlignmentRcd > watchCSCAlRcd_
const AlignTransform & DetectorGlobalPosition(const Alignments &allGlobals, const DetId &id)
const edm::InputTag tkLasBeamTag_
LAS beams in edm::Run (ignore if empty)
const SurveyErrors * surveyErrors_
void initBeamSpot(const edm::Event &)
Initializes Beamspot of Alignables .
const_iterator begin() const
first iterator over the map (read only)
eventInfo
add run, event number and lumi section
Alignments * alignments() const
Return alignments, sorted by DetId.
std::vector< SurveyError > m_surveyErrors
Definition: SurveyErrors.h:23
long double T
Builds a scenario from configuration and applies it to the alignable tracker.
void beginRunImpl(const edm::Run &, const edm::EventSetup &)
begin run
const edm::InputTag clusterValueMapTag_
ValueMap containing associtaion cluster-flag.
T const * product() const
Definition: ESHandle.h:86
void simpleMisalignment(const align::Alignables &, const std::string &, float, float, bool)
Applies misalignment scenario to .
Alignables & beamSpot()
Return beam spot alignable as a vector with one element.
void applyScenario(const edm::ParameterSet &scenario)
Apply misalignment scenario to the Muon.
def move(src, dest)
Definition: eostools.py:510
T get(const Candidate &c)
Definition: component.h:55
const align::Alignables & alignables(void) const
get all alignables
void applyDB(G *, const edm::EventSetup &, const AlignTransform &) const
Definition: event.py:1
Definition: Run.h:42
cond::RealTimeType< cond::runnumber >::type RunNumber
Definition: Utilities.h:37
std::unique_ptr< AlignmentAlgorithmBase > alignmentAlgo_
double x0() const
x coordinate
Definition: BeamSpot.h:64
void createMonitors()
Creates the monitors.