CMS 3D CMS Logo

 All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Properties Friends Macros Pages
List of all members | Public Member Functions | Private Member Functions | Private Attributes
MuonSeedOrcaPatternRecognition Class Reference

#include <MuonSeedOrcaPatternRecognition.h>

Inheritance diagram for MuonSeedOrcaPatternRecognition:
MuonSeedVPatternRecognition

Public Member Functions

 MuonSeedOrcaPatternRecognition (const edm::ParameterSet &pset, edm::ConsumesCollector &iC)
 
void produce (const edm::Event &event, const edm::EventSetup &eSetup, std::vector< MuonRecHitContainer > &result)
 
- Public Member Functions inherited from MuonSeedVPatternRecognition
 MuonSeedVPatternRecognition (const edm::ParameterSet &pset)
 
virtual ~MuonSeedVPatternRecognition ()
 

Private Member Functions

MuonRecHitPointer bestMatch (const ConstMuonRecHitPointer &first, MuonRecHitContainer &good_rhit) const
 
bool check (const MuonRecHitContainer &segments)
 
void complete (MuonRecHitContainer &seedSegments, const MuonRecHitContainer &recHits, bool *used=0) const
 
int countHits (const MuonRecHitPointer &segment) const
 
double discriminator (const ConstMuonRecHitPointer &first, MuonRecHitPointer &other) const
 
void dumpLayer (const char *name, const MuonRecHitContainer &segments) const
 
void endcapPatterns (const MuonRecHitContainer &me11, const MuonRecHitContainer &me12, const MuonRecHitContainer &me2, const MuonRecHitContainer &me3, const MuonRecHitContainer &me4, const MuonRecHitContainer &mb1, const MuonRecHitContainer &mb2, const MuonRecHitContainer &mb3, bool *MB1, bool *MB2, bool *MB3, std::vector< MuonRecHitContainer > &result)
 
void filterOverlappingChambers (MuonRecHitContainer &segments) const
 
MuonRecHitContainer filterSegments (const MuonRecHitContainer &segments, double dThetaCut) const
 apply some cuts to segments before using them More...
 
bool isCrack (const ConstMuonRecHitPointer &segment) const
 
bool isME1A (const ConstMuonRecHitPointer &segment) const
 
void markAsUsed (int nr, const MuonRecHitContainer &recHits, bool *used) const
 
void rememberCrackSegments (const MuonRecHitContainer &segments, MuonRecHitContainer &crackSegments) const
 
bool * zero (unsigned listSize)
 

Private Attributes

MuonDetLayerMeasurementsmuonMeasurements
 
std::vector< double > theCrackEtas
 
double theCrackWindow
 
double theDeltaCrackWindow
 
double theDeltaEtaWindow
 
double theDeltaPhiWindow
 

Additional Inherited Members

- Public Types inherited from MuonSeedVPatternRecognition
typedef
MuonTransientTrackingRecHit::ConstMuonRecHitPointer 
ConstMuonRecHitPointer
 
typedef
MuonTransientTrackingRecHit::MuonRecHitContainer 
MuonRecHitContainer
 
typedef
MuonTransientTrackingRecHit::MuonRecHitPointer 
MuonRecHitPointer
 
- Protected Attributes inherited from MuonSeedVPatternRecognition
bool enableCSCMeasurement
 Enable the CSC measurement. More...
 
bool enableDTMeasurement
 Enable the DT measurement. More...
 
edm::InputTag theCSCRecSegmentLabel
 the name of the CSC rec hits collection More...
 
edm::InputTag theDTRecSegmentLabel
 the name of the DT rec hits collection More...
 

Detailed Description

Definition at line 9 of file MuonSeedOrcaPatternRecognition.h.

Constructor & Destructor Documentation

MuonSeedOrcaPatternRecognition::MuonSeedOrcaPatternRecognition ( const edm::ParameterSet pset,
edm::ConsumesCollector iC 
)
explicit

Definition at line 47 of file MuonSeedOrcaPatternRecognition.cc.

References MuonSeedVPatternRecognition::enableCSCMeasurement, MuonSeedVPatternRecognition::enableDTMeasurement, HLT_25ns14e33_v1_cff::InputTag, edm::InputTag::label(), muonMeasurements, MuonSeedVPatternRecognition::theCSCRecSegmentLabel, and MuonSeedVPatternRecognition::theDTRecSegmentLabel.

49  theCrackEtas(pset.getParameter<std::vector<double> >("crackEtas")),
50  theCrackWindow(pset.getParameter<double>("crackWindow")),
51  theDeltaPhiWindow(pset.existsAs<double>("deltaPhiSearchWindow") ? pset.getParameter<double>("deltaPhiSearchWindow") : 0.25),
52  theDeltaEtaWindow(pset.existsAs<double>("deltaEtaSearchWindow") ? pset.getParameter<double>("deltaEtaSearchWindow") : 0.2),
53 theDeltaCrackWindow(pset.existsAs<double>("deltaEtaCrackSearchWindow") ? pset.getParameter<double>("deltaEtaCrackSearchWindow") : 0.25)
54 {
56  iC,
58 }
T getParameter(std::string const &) const
bool existsAs(std::string const &parameterName, bool trackiness=true) const
checks if a parameter exists as a given type
Definition: ParameterSet.h:186
bool enableCSCMeasurement
Enable the CSC measurement.
MuonSeedVPatternRecognition(const edm::ParameterSet &pset)
std::string const & label() const
Definition: InputTag.h:43
bool enableDTMeasurement
Enable the DT measurement.
edm::InputTag theCSCRecSegmentLabel
the name of the CSC rec hits collection
edm::InputTag theDTRecSegmentLabel
the name of the DT rec hits collection

Member Function Documentation

MuonSeedOrcaPatternRecognition::MuonRecHitPointer MuonSeedOrcaPatternRecognition::bestMatch ( const ConstMuonRecHitPointer first,
MuonRecHitContainer good_rhit 
) const
private

Definition at line 496 of file MuonSeedOrcaPatternRecognition.cc.

References discriminator().

Referenced by complete().

498 {
499  MuonRecHitPointer best = 0;
500  if(good_rhit.size() == 1) return good_rhit[0];
501  double bestDiscrim = 10000.;
502  for (MuonRecHitContainer::iterator iter=good_rhit.begin();
503  iter!=good_rhit.end(); iter++)
504  {
505  double discrim = discriminator(first, *iter);
506  if(discrim < bestDiscrim)
507  {
508  bestDiscrim = discrim;
509  best = *iter;
510  }
511  }
512  return best;
513 }
double discriminator(const ConstMuonRecHitPointer &first, MuonRecHitPointer &other) const
bool MuonSeedOrcaPatternRecognition::check ( const MuonRecHitContainer segments)
private

Definition at line 551 of file MuonSeedOrcaPatternRecognition.cc.

Referenced by endcapPatterns(), and produce().

552 {
553  return (segments.size() > 1);
554 }
void MuonSeedOrcaPatternRecognition::complete ( MuonRecHitContainer seedSegments,
const MuonRecHitContainer recHits,
bool *  used = 0 
) const
private

Definition at line 459 of file MuonSeedOrcaPatternRecognition.cc.

References bestMatch(), SiPixelRawToDigiRegional_cfi::deltaPhi, PV3DBase< T, PVType, FrameType >::eta(), plotBeamSpotDB::first, TValidTrackingRecHit::globalPosition(), isCrack(), TrackingRecHit::isValid(), markAsUsed(), PV3DBase< T, PVType, FrameType >::phi(), theDeltaCrackWindow, theDeltaEtaWindow, and theDeltaPhiWindow.

Referenced by endcapPatterns(), and produce().

460  {
461 
462  MuonRecHitContainer good_rhit;
463  MuonPatternRecoDumper theDumper;
464  //+v get all rhits compatible with the seed on dEta/dPhi Glob.
465 
466  ConstMuonRecHitPointer first = seedSegments[0]; // first rechit of seed
467 
468  GlobalPoint ptg2 = first->globalPosition(); // its global pos +v
469 
470  for (unsigned nr = 0; nr < recHits.size(); ++nr ){
471  MuonRecHitPointer recHit(recHits[nr]);
472  GlobalPoint ptg1(recHit->globalPosition());
473  float deta = fabs (ptg1.eta()-ptg2.eta());
474  // Geom::Phi should keep it in the range [-pi, pi]
475  float dphi = fabs( deltaPhi(ptg1.phi(), ptg2.phi()) );
476  // be a little more lenient in cracks
477  bool crack = isCrack(recHit) || isCrack(first);
478  //float detaWindow = 0.3;
479  float detaWindow = crack ? theDeltaCrackWindow : theDeltaEtaWindow;
480  if ( deta > detaWindow || dphi > theDeltaPhiWindow ) {
481  continue;
482  } // +vvp!!!
483 
484  good_rhit.push_back(recHit);
485  if (used) markAsUsed(nr, recHits, used);
486  } // recHits iter
487 
488  // select the best rhit among the compatible ones (based on Dphi Glob & Dir)
489  MuonRecHitPointer best=bestMatch(first, good_rhit);
490  if(best && best->isValid() ) seedSegments.push_back(best);
491 }
MuonRecHitPointer bestMatch(const ConstMuonRecHitPointer &first, MuonRecHitContainer &good_rhit) const
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
bool isCrack(const ConstMuonRecHitPointer &segment) const
bool isValid() const
T eta() const
Definition: PV3DBase.h:76
void markAsUsed(int nr, const MuonRecHitContainer &recHits, bool *used) const
MuonTransientTrackingRecHit::MuonRecHitContainer MuonRecHitContainer
MuonTransientTrackingRecHit::ConstMuonRecHitPointer ConstMuonRecHitPointer
int MuonSeedOrcaPatternRecognition::countHits ( const MuonRecHitPointer segment) const
private

Definition at line 743 of file MuonSeedOrcaPatternRecognition.cc.

References makeMuonMisalignmentScenario::components, and prof2calltree::count.

Referenced by filterOverlappingChambers().

743  {
744  int count = 0;
745  vector<TrackingRecHit*> components = (*segment).recHits();
746  for(vector<TrackingRecHit*>::const_iterator component = components.begin();
747  component != components.end(); ++component)
748  {
749  int componentSize = (**component).recHits().size();
750  count += (componentSize == 0) ? 1 : componentSize;
751  }
752  return count;
753 }
double MuonSeedOrcaPatternRecognition::discriminator ( const ConstMuonRecHitPointer first,
MuonRecHitPointer other 
) const
private

Definition at line 516 of file MuonSeedOrcaPatternRecognition.cc.

References SiPixelRawToDigiRegional_cfi::deltaPhi, MuonTransientTrackingRecHit::globalDirection(), TValidTrackingRecHit::globalPosition(), MuonTransientTrackingRecHit::isDT(), isME1A(), M_PI, bookConverter::max, nhits, PV3DBase< T, PVType, FrameType >::phi(), GenericTransientTrackingRecHit::recHits(), and PV3DBase< T, PVType, FrameType >::theta().

Referenced by bestMatch().

517 {
518  GlobalPoint gp1= first->globalPosition();
519  GlobalPoint gp2= other->globalPosition();
520  GlobalVector gd1 = first->globalDirection();
521  GlobalVector gd2 = other->globalDirection();
522  if(first->isDT() || other->isDT()) {
523  return fabs(deltaPhi(gd1.phi(), gd2.phi()));
524  }
525 
526  // penalize those 3-hit segments
527  int nhits = other->recHits().size();
528  int penalty = std::max(nhits-2, 1);
529  float dphig = deltaPhi(gp1.phi(), gp2.phi());
530  // ME1A has slanted wires, so matching theta position doesn't work well.
531  if(isME1A(first) || isME1A(other)) {
532  return fabs(dphig/penalty);
533  }
534 
535  float dthetag = gp1.theta()-gp2.theta();
536  float dphid2 = fabs(deltaPhi(gd2.phi(), gp2.phi()));
537  if (dphid2 > M_PI*.5) dphid2 = M_PI - dphid2; //+v
538  float dthetad2 = gp2.theta()-gd2.theta();
539  // for CSC, make a big chi-squared of relevant variables
540  // FIXME for 100 GeV mnd above muons, this doesn't perform as well as
541  // previous methods. needs investigation.
542  float chisq = ((dphig/0.02)*(dphig/0.02)
543  + (dthetag/0.003)*(dthetag/0.003)
544  + (dphid2/0.06)*(dphid2/0.06)
545  + (dthetad2/0.08)*(dthetad2/0.08)
546  );
547  return chisq / penalty;
548 }
virtual GlobalVector globalDirection() const
Direction in 3D for segments, otherwise (0,0,0)
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
bool isDT() const
if this rec hit is a DT rec hit
virtual std::vector< const TrackingRecHit * > recHits() const override
Access to component RecHits (if any)
Geom::Theta< T > theta() const
Definition: PV3DBase.h:75
#define M_PI
bool isME1A(const ConstMuonRecHitPointer &segment) const
virtual GlobalPoint globalPosition() const
void MuonSeedOrcaPatternRecognition::dumpLayer ( const char *  name,
const MuonRecHitContainer segments 
) const
private

Definition at line 616 of file MuonSeedOrcaPatternRecognition.cc.

References MuonPatternRecoDumper::dumpMuonId(), LogTrace, and metname.

Referenced by endcapPatterns(), and produce().

617 {
618  MuonPatternRecoDumper theDumper;
619 
620  LogTrace(metname) << name << std::endl;
621  for(MuonRecHitContainer::const_iterator segmentItr = segments.begin();
622  segmentItr != segments.end(); ++segmentItr)
623  {
624  LogTrace(metname) << theDumper.dumpMuonId((**segmentItr).geographicalId());
625  }
626 }
const std::string metname
std::string dumpMuonId(const DetId &id) const
#define LogTrace(id)
void MuonSeedOrcaPatternRecognition::endcapPatterns ( const MuonRecHitContainer me11,
const MuonRecHitContainer me12,
const MuonRecHitContainer me2,
const MuonRecHitContainer me3,
const MuonRecHitContainer me4,
const MuonRecHitContainer mb1,
const MuonRecHitContainer mb2,
const MuonRecHitContainer mb3,
bool *  MB1,
bool *  MB2,
bool *  MB3,
std::vector< MuonRecHitContainer > &  result 
)
private

Definition at line 276 of file MuonSeedOrcaPatternRecognition.cc.

References check(), complete(), counter, dumpLayer(), rememberCrackSegments(), and zero().

Referenced by produce().

283 {
284  dumpLayer("ME4 ", me4);
285  dumpLayer("ME3 ", me3);
286  dumpLayer("ME2 ", me2);
287  dumpLayer("ME12 ", me12);
288  dumpLayer("ME11 ", me11);
289 
290  std::vector<MuonRecHitContainer> patterns;
291  MuonRecHitContainer crackSegments;
292  rememberCrackSegments(me11, crackSegments);
293  rememberCrackSegments(me12, crackSegments);
294  rememberCrackSegments(me2, crackSegments);
295  rememberCrackSegments(me3, crackSegments);
296  rememberCrackSegments(me4, crackSegments);
297 
298 
299  MuonRecHitContainer list24 = me4;
300  MuonRecHitContainer list23 = me3;
301 
302  MuonRecHitContainer list12 = me2;
303 
304  MuonRecHitContainer list22 = me12;
305  MuonRecHitContainer list21 = me11;
306 
307  MuonRecHitContainer list11 = list21;
308  MuonRecHitContainer list5 = list22;
309  MuonRecHitContainer list13 = list23;
310  MuonRecHitContainer list4 = list24;
311 
312  if ( list21.size() == 0 ) {
313  list11 = list22; list5 = list21;
314  }
315 
316  if ( list24.size() < list23.size() && list24.size() > 0 ) {
317  list13 = list24; list4 = list23;
318  }
319 
320  if ( list23.size() == 0 ) {
321  list13 = list24; list4 = list23;
322  }
323 
324  MuonRecHitContainer list1 = list11;
325  MuonRecHitContainer list2 = list12;
326  MuonRecHitContainer list3 = list13;
327 
328 
329  if ( list12.size() == 0 ) {
330  list3 = list12;
331  if ( list11.size() <= list13.size() && list11.size() > 0 ) {
332  list1 = list11; list2 = list13;}
333  else { list1 = list13; list2 = list11;}
334  }
335 
336  if ( list13.size() == 0 ) {
337  if ( list11.size() <= list12.size() && list11.size() > 0 ) {
338  list1 = list11; list2 = list12;}
339  else { list1 = list12; list2 = list11;}
340  }
341 
342  if ( list12.size() != 0 && list13.size() != 0 ) {
343  if ( list11.size()<=list12.size() && list11.size()<=list13.size() && list11.size()>0 ) { // ME 1
344  if ( list12.size() > list13.size() ) {
345  list2 = list13; list3 = list12;}
346  }
347  else if ( list12.size() <= list13.size() ) { // start with ME 2
348  list1 = list12;
349  if ( list11.size() <= list13.size() && list11.size() > 0 ) {
350  list2 = list11; list3 = list13;}
351  else { list2 = list13; list3 = list11;}
352  }
353  else { // start with ME 3
354  list1 = list13;
355  if ( list11.size() <= list12.size() && list11.size() > 0 ) {
356  list2 = list11; list3 = list12;}
357  else { list2 = list12; list3 = list11;}
358  }
359  }
360 
361 
362  bool* ME2 = zero(list2.size());
363  bool* ME3 = zero(list3.size());
364  bool* ME4 = zero(list4.size());
365  bool* ME5 = zero(list5.size());
366 
367 
368  // creates list of compatible track segments
369 
370  for (MuonRecHitContainer::iterator iter = list1.begin(); iter!=list1.end(); iter++ ){
371  if ( (*iter)->recHits().size() < 4 && list3.size() > 0 ) continue; // 3p.tr-seg. are not so good for starting
372  MuonRecHitContainer seedSegments;
373  seedSegments.push_back(*iter);
374  complete(seedSegments, list2, ME2);
375  complete(seedSegments, list3, ME3);
376  complete(seedSegments, list4, ME4);
377  complete(seedSegments, list5, ME5);
378  complete(seedSegments, mb3, MB3);
379  complete(seedSegments, mb2, MB2);
380  complete(seedSegments, mb1, MB1);
381  if(check(seedSegments)) patterns.push_back(seedSegments);
382  }
383 
384 
385  unsigned int counter;
386 
387  for ( counter = 0; counter<list2.size(); counter++ ){
388 
389  if ( !ME2[counter] ) {
390  MuonRecHitContainer seedSegments;
391  seedSegments.push_back(list2[counter]);
392  complete(seedSegments, list3, ME3);
393  complete(seedSegments, list4, ME4);
394  complete(seedSegments, list5, ME5);
395  complete(seedSegments, mb3, MB3);
396  complete(seedSegments, mb2, MB2);
397  complete(seedSegments, mb1, MB1);
398  if(check(seedSegments)) patterns.push_back(seedSegments);
399  }
400  }
401 
402 
403  if ( list3.size() < 20 ) { // +v
404  for ( counter = 0; counter<list3.size(); counter++ ){
405  if ( !ME3[counter] ) {
406  MuonRecHitContainer seedSegments;
407  seedSegments.push_back(list3[counter]);
408  complete(seedSegments, list4, ME4);
409  complete(seedSegments, list5, ME5);
410  complete(seedSegments, mb3, MB3);
411  complete(seedSegments, mb2, MB2);
412  complete(seedSegments, mb1, MB1);
413  if(check(seedSegments)) patterns.push_back(seedSegments);
414  }
415  }
416  }
417 
418  if ( list4.size() < 20 ) { // +v
419  for ( counter = 0; counter<list4.size(); counter++ ){
420  if ( !ME4[counter] ) {
421  MuonRecHitContainer seedSegments;
422  seedSegments.push_back(list4[counter]);
423  complete(seedSegments, list5, ME5);
424  complete(seedSegments, mb3, MB3);
425  complete(seedSegments, mb2, MB2);
426  complete(seedSegments, mb1, MB1);
427  if(check(seedSegments)) patterns.push_back(seedSegments);
428  }
429  }
430  }
431 
432  if ( ME5 ) delete [] ME5;
433  if ( ME4 ) delete [] ME4;
434  if ( ME3 ) delete [] ME3;
435  if ( ME2 ) delete [] ME2;
436 
437  if(!patterns.empty())
438  {
439  result.insert(result.end(), patterns.begin(), patterns.end());
440  }
441  else
442  {
443  if(!crackSegments.empty())
444  {
445  // make some single-segment seeds
446  for(MuonRecHitContainer::const_iterator crackSegmentItr = crackSegments.begin();
447  crackSegmentItr != crackSegments.end(); ++crackSegmentItr)
448  {
449  MuonRecHitContainer singleSegmentPattern;
450  singleSegmentPattern.push_back(*crackSegmentItr);
451  result.push_back(singleSegmentPattern);
452  }
453  }
454  }
455 }
bool check(const MuonRecHitContainer &segments)
tuple result
Definition: query.py:137
void rememberCrackSegments(const MuonRecHitContainer &segments, MuonRecHitContainer &crackSegments) const
void complete(MuonRecHitContainer &seedSegments, const MuonRecHitContainer &recHits, bool *used=0) const
static std::atomic< unsigned int > counter
MuonTransientTrackingRecHit::MuonRecHitContainer MuonRecHitContainer
void dumpLayer(const char *name, const MuonRecHitContainer &segments) const
void MuonSeedOrcaPatternRecognition::filterOverlappingChambers ( MuonRecHitContainer segments) const
private

Definition at line 668 of file MuonSeedOrcaPatternRecognition.cc.

References countHits(), SiPixelRawToDigiRegional_cfi::deltaPhi, MuonPatternRecoDumper::dumpMuonId(), PV3DBase< T, PVType, FrameType >::eta(), spr::find(), i, isME1A(), j, LogTrace, metname, PV3DBase< T, PVType, FrameType >::phi(), and query::result.

Referenced by filterSegments().

669 {
670  if(segments.empty()) return;
671  MuonPatternRecoDumper theDumper;
672  // need to optimize cuts
673  double dphiCut = 0.05;
674  double detaCut = 0.05;
675  std::vector<unsigned> toKill;
676  std::vector<unsigned> me1aOverlaps;
677  // loop over all segment pairs to see if there are two that match up in eta and phi
678  // but from different chambers
679  unsigned nseg = segments.size();
680  for(unsigned i = 0; i < nseg-1; ++i)
681  {
682  GlobalPoint pg1 = segments[i]->globalPosition();
683  for(unsigned j = i+1; j < nseg; ++j)
684  {
685  GlobalPoint pg2 = segments[j]->globalPosition();
686  if(segments[i]->geographicalId().rawId() != segments[j]->geographicalId().rawId()
687  && fabs(deltaPhi(pg1.phi(), pg2.phi())) < dphiCut
688  && fabs(pg1.eta()-pg2.eta()) < detaCut)
689  {
690  LogTrace(metname) << "OVERLAP " << theDumper.dumpMuonId(segments[i]->geographicalId()) << " " <<
691  theDumper.dumpMuonId(segments[j]->geographicalId());
692  // see which one is best
693  toKill.push_back( (countHits(segments[i]) < countHits(segments[j])) ? i : j);
694  if(isME1A(segments[i]))
695  {
696  me1aOverlaps.push_back(i);
697  me1aOverlaps.push_back(j);
698  }
699  }
700  }
701  }
702 
703  if(toKill.empty()) return;
704 
705  // try to kill ghosts assigned to overlaps
706  for(unsigned i = 0; i < me1aOverlaps.size(); ++i)
707  {
708  DetId detId(segments[me1aOverlaps[i]]->geographicalId());
709  vector<unsigned> inSameChamber;
710  for(unsigned j = 0; j < nseg; ++j)
711  {
712  if(i != j && segments[j]->geographicalId() == detId)
713  {
714  inSameChamber.push_back(j);
715  }
716  }
717  if(inSameChamber.size() == 2)
718  {
719  toKill.push_back(inSameChamber[0]);
720  toKill.push_back(inSameChamber[1]);
721  }
722  }
723  // now kill the killable
725  for(unsigned i = 0; i < nseg; ++i)
726  {
727  if(std::find(toKill.begin(), toKill.end(), i) == toKill.end())
728  {
729  result.push_back(segments[i]);
730  }
731 
732  }
733  segments.swap(result);
734 }
int i
Definition: DBlmapReader.cc:9
const std::string metname
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:7
std::string dumpMuonId(const DetId &id) const
int countHits(const MuonRecHitPointer &segment) const
tuple result
Definition: query.py:137
int j
Definition: DBlmapReader.cc:9
#define LogTrace(id)
Definition: DetId.h:18
bool isME1A(const ConstMuonRecHitPointer &segment) const
T eta() const
Definition: PV3DBase.h:76
MuonTransientTrackingRecHit::MuonRecHitContainer MuonRecHitContainer
MuonSeedOrcaPatternRecognition::MuonRecHitContainer MuonSeedOrcaPatternRecognition::filterSegments ( const MuonRecHitContainer segments,
double  dThetaCut 
) const
private

apply some cuts to segments before using them

Definition at line 630 of file MuonSeedOrcaPatternRecognition.cc.

References MuonPatternRecoDumper::dumpMuonId(), filterOverlappingChambers(), LogTrace, metname, and query::result.

Referenced by produce().

631 {
632 MuonPatternRecoDumper theDumper;
634  for(MuonRecHitContainer::const_iterator segmentItr = segments.begin();
635  segmentItr != segments.end(); ++segmentItr)
636  {
637  double dtheta = (*segmentItr)->globalDirection().theta() - (*segmentItr)->globalPosition().theta();
638  if((*segmentItr)->isDT())
639  {
640  // only apply the cut to 4D segments
641  if((*segmentItr)->dimension() == 2 || fabs(dtheta) < dThetaCut)
642  {
643  result.push_back(*segmentItr);
644  }
645  else
646  {
647  LogTrace(metname) << "Cutting segment " << theDumper.dumpMuonId((**segmentItr).geographicalId()) << " because dtheta = " << dtheta;
648  }
649 
650  }
651  else if((*segmentItr)->isCSC())
652  {
653  if(fabs(dtheta) < dThetaCut)
654  {
655  result.push_back(*segmentItr);
656  }
657  else
658  {
659  LogTrace(metname) << "Cutting segment " << theDumper.dumpMuonId((**segmentItr).geographicalId()) << " because dtheta = " << dtheta;
660  }
661  }
662  }
664  return result;
665 }
const std::string metname
void filterOverlappingChambers(MuonRecHitContainer &segments) const
std::string dumpMuonId(const DetId &id) const
tuple result
Definition: query.py:137
#define LogTrace(id)
MuonTransientTrackingRecHit::MuonRecHitContainer MuonRecHitContainer
bool MuonSeedOrcaPatternRecognition::isCrack ( const ConstMuonRecHitPointer segment) const
private

Definition at line 586 of file MuonSeedOrcaPatternRecognition.cc.

References query::result, theCrackEtas, and theCrackWindow.

Referenced by complete(), and rememberCrackSegments().

587 {
588  bool result = false;
589  double absEta = fabs(segment->globalPosition().eta());
590  for(std::vector<double>::const_iterator crackItr = theCrackEtas.begin();
591  crackItr != theCrackEtas.end(); ++crackItr)
592  {
593  if(fabs(absEta-*crackItr) < theCrackWindow) {
594  result = true;
595  }
596  }
597  return result;
598 }
tuple result
Definition: query.py:137
bool MuonSeedOrcaPatternRecognition::isME1A ( const ConstMuonRecHitPointer segment) const
private

Definition at line 737 of file MuonSeedOrcaPatternRecognition.cc.

References CSCDetId, and relativeConstraints::ring.

Referenced by discriminator(), and filterOverlappingChambers().

738 {
739  return segment->isCSC() && CSCDetId(segment->geographicalId()).ring() == 4;
740 }
void MuonSeedOrcaPatternRecognition::markAsUsed ( int  nr,
const MuonRecHitContainer recHits,
bool *  used 
) const
private

Definition at line 557 of file MuonSeedOrcaPatternRecognition.cc.

References i, GeomDetEnumerators::isCSC(), DetId::rawId(), and CSCDetId::ring().

Referenced by complete().

558 {
559  used[nr] = true;
560  // if it's ME1A with two other segments in the container, mark the ghosts as used, too.
561  if(recHits[nr]->isCSC())
562  {
563  CSCDetId detId(recHits[nr]->geographicalId().rawId());
564  if(detId.ring() == 4)
565  {
566  std::vector<unsigned> chamberHitNs;
567  for(unsigned i = 0; i < recHits.size(); ++i)
568  {
569  if(recHits[i]->geographicalId().rawId() == detId.rawId())
570  {
571  chamberHitNs.push_back(i);
572  }
573  }
574  if(chamberHitNs.size() == 3)
575  {
576  for(unsigned i = 0; i < 3; ++i)
577  {
578  used[chamberHitNs[i]] = true;
579  }
580  }
581  }
582  }
583 }
int i
Definition: DBlmapReader.cc:9
bool isCSC(const GeomDetEnumerators::SubDetector m)
void MuonSeedOrcaPatternRecognition::produce ( const edm::Event event,
const edm::EventSetup eSetup,
std::vector< MuonRecHitContainer > &  result 
)
virtual

Implements MuonSeedVPatternRecognition.

Definition at line 62 of file MuonSeedOrcaPatternRecognition.cc.

References cond::ecalcond::all, check(), complete(), filterCSVwithJSON::copy, counter, dumpLayer(), endcapPatterns(), filterSegments(), edm::EventSetup::get(), LogTrace, metname, muonMeasurements, MuonDetLayerMeasurements::recHits(), tmp, and zero().

64 {
65 
66  // divide the RecHits by DetLayer, in order to fill the
67  // RecHitContainer like it was in ORCA
68 
69  // Muon Geometry - DT, CSC and RPC
71  eSetup.get<MuonRecoGeometryRecord>().get(muonLayers);
72 
73  // get the DT layers
74  vector<const DetLayer*> dtLayers = muonLayers->allDTLayers();
75 
76  // get the CSC layers
77  vector<const DetLayer*> cscForwardLayers = muonLayers->forwardCSCLayers();
78  vector<const DetLayer*> cscBackwardLayers = muonLayers->backwardCSCLayers();
79 
80  // Backward (z<0) EndCap disk
81  const DetLayer* ME4Bwd = cscBackwardLayers[4];
82  const DetLayer* ME3Bwd = cscBackwardLayers[3];
83  const DetLayer* ME2Bwd = cscBackwardLayers[2];
84  const DetLayer* ME12Bwd = cscBackwardLayers[1];
85  const DetLayer* ME11Bwd = cscBackwardLayers[0];
86 
87  // Forward (z>0) EndCap disk
88  const DetLayer* ME11Fwd = cscForwardLayers[0];
89  const DetLayer* ME12Fwd = cscForwardLayers[1];
90  const DetLayer* ME2Fwd = cscForwardLayers[2];
91  const DetLayer* ME3Fwd = cscForwardLayers[3];
92  const DetLayer* ME4Fwd = cscForwardLayers[4];
93 
94  // barrel
95  const DetLayer* MB4DL = dtLayers[3];
96  const DetLayer* MB3DL = dtLayers[2];
97  const DetLayer* MB2DL = dtLayers[1];
98  const DetLayer* MB1DL = dtLayers[0];
99 
100  // instantiate the accessor
101  // Don not use RPC for seeding
102 
103  double barreldThetaCut = 0.2;
104  // still lose good muons to a tighter cut
105  double endcapdThetaCut = 1.0;
106  MuonRecHitContainer list9 = filterSegments(muonMeasurements->recHits(MB4DL,event), barreldThetaCut);
107  MuonRecHitContainer list6 = filterSegments(muonMeasurements->recHits(MB3DL,event), barreldThetaCut);
108  MuonRecHitContainer list7 = filterSegments(muonMeasurements->recHits(MB2DL,event), barreldThetaCut);
109  MuonRecHitContainer list8 = filterSegments(muonMeasurements->recHits(MB1DL,event), barreldThetaCut);
110 
111  dumpLayer("MB4 ", list9);
112  dumpLayer("MB3 ", list6);
113  dumpLayer("MB2 ", list7);
114  dumpLayer("MB1 ", list8);
115 
116  bool* MB1 = zero(list8.size());
117  bool* MB2 = zero(list7.size());
118  bool* MB3 = zero(list6.size());
119 
120  endcapPatterns(filterSegments(muonMeasurements->recHits(ME11Bwd,event), endcapdThetaCut),
121  filterSegments(muonMeasurements->recHits(ME12Bwd,event), endcapdThetaCut),
122  filterSegments(muonMeasurements->recHits(ME2Bwd,event), endcapdThetaCut),
123  filterSegments(muonMeasurements->recHits(ME3Bwd,event), endcapdThetaCut),
124  filterSegments(muonMeasurements->recHits(ME4Bwd,event), endcapdThetaCut),
125  list8, list7, list6,
126  MB1, MB2, MB3, result);
127 
128  endcapPatterns(filterSegments(muonMeasurements->recHits(ME11Fwd,event), endcapdThetaCut),
129  filterSegments(muonMeasurements->recHits(ME12Fwd,event), endcapdThetaCut),
130  filterSegments(muonMeasurements->recHits(ME2Fwd,event), endcapdThetaCut),
131  filterSegments(muonMeasurements->recHits(ME3Fwd,event), endcapdThetaCut),
132  filterSegments(muonMeasurements->recHits(ME4Fwd,event), endcapdThetaCut),
133  list8, list7, list6,
134  MB1, MB2, MB3, result);
135 
136 
137  // ---------- Barrel only
138 
139  unsigned int counter = 0;
140  if ( list9.size() < 100 ) { // +v
141  for (MuonRecHitContainer::iterator iter=list9.begin(); iter!=list9.end(); iter++ ){
142  MuonRecHitContainer seedSegments;
143  seedSegments.push_back(*iter);
144  complete(seedSegments, list6, MB3);
145  complete(seedSegments, list7, MB2);
146  complete(seedSegments, list8, MB1);
147  if(check(seedSegments)) result.push_back(seedSegments);
148  }
149  }
150 
151 
152  if ( list6.size() < 100 ) { // +v
153  for ( counter = 0; counter<list6.size(); counter++ ){
154  if ( !MB3[counter] ) {
155  MuonRecHitContainer seedSegments;
156  seedSegments.push_back(list6[counter]);
157  complete(seedSegments, list7, MB2);
158  complete(seedSegments, list8, MB1);
159  complete(seedSegments, list9);
160  if(check(seedSegments)) result.push_back(seedSegments);
161  }
162  }
163  }
164 
165 
166  if ( list7.size() < 100 ) { // +v
167  for ( counter = 0; counter<list7.size(); counter++ ){
168  if ( !MB2[counter] ) {
169  MuonRecHitContainer seedSegments;
170  seedSegments.push_back(list7[counter]);
171  complete(seedSegments, list8, MB1);
172  complete(seedSegments, list9);
173  complete(seedSegments, list6, MB3);
174  if (seedSegments.size()>1 ||
175  (seedSegments.size()==1 && seedSegments[0]->dimension()==4) )
176  {
177  result.push_back(seedSegments);
178  }
179  }
180  }
181  }
182 
183 
184  if ( list8.size() < 100 ) { // +v
185  for ( counter = 0; counter<list8.size(); counter++ ){
186  if ( !MB1[counter] ) {
187  MuonRecHitContainer seedSegments;
188  seedSegments.push_back(list8[counter]);
189  complete(seedSegments, list9);
190  complete(seedSegments, list6, MB3);
191  complete(seedSegments, list7, MB2);
192  if (seedSegments.size()>1 ||
193  (seedSegments.size()==1 && seedSegments[0]->dimension()==4) )
194  {
195  result.push_back(seedSegments);
196  }
197  }
198  }
199  }
200 
201  if ( MB3 ) delete [] MB3;
202  if ( MB2 ) delete [] MB2;
203  if ( MB1 ) delete [] MB1;
204 
205  if(result.empty())
206  {
207  // be a little stricter with single segment seeds
208  barreldThetaCut = 0.2;
209  endcapdThetaCut = 0.2;
210 
212  MuonRecHitContainer tmp = filterSegments(muonMeasurements->recHits(ME3Bwd,event), endcapdThetaCut);
213  copy(tmp.begin(),tmp.end(),back_inserter(all));
214 
215  tmp = filterSegments(muonMeasurements->recHits(ME2Bwd,event), endcapdThetaCut);
216  copy(tmp.begin(),tmp.end(),back_inserter(all));
217 
218  tmp = filterSegments(muonMeasurements->recHits(ME12Bwd,event), endcapdThetaCut);
219  copy(tmp.begin(),tmp.end(),back_inserter(all));
220 
221  tmp = filterSegments(muonMeasurements->recHits(ME11Bwd,event), endcapdThetaCut);
222  copy(tmp.begin(),tmp.end(),back_inserter(all));
223 
224  tmp = filterSegments(muonMeasurements->recHits(ME11Fwd,event), endcapdThetaCut);
225  copy(tmp.begin(),tmp.end(),back_inserter(all));
226 
227  tmp = filterSegments(muonMeasurements->recHits(ME12Fwd,event), endcapdThetaCut);
228  copy(tmp.begin(),tmp.end(),back_inserter(all));
229 
230  tmp = filterSegments(muonMeasurements->recHits(ME2Fwd,event), endcapdThetaCut);
231  copy(tmp.begin(),tmp.end(),back_inserter(all));
232 
233  tmp = filterSegments(muonMeasurements->recHits(ME3Fwd,event), endcapdThetaCut);
234  copy(tmp.begin(),tmp.end(),back_inserter(all));
235 
236  tmp = filterSegments(muonMeasurements->recHits(ME4Fwd,event), endcapdThetaCut);
237  copy(tmp.begin(),tmp.end(),back_inserter(all));
238 
239  tmp = filterSegments(muonMeasurements->recHits(MB4DL,event), barreldThetaCut);
240  copy(tmp.begin(),tmp.end(),back_inserter(all));
241 
242  tmp = filterSegments(muonMeasurements->recHits(MB3DL,event), barreldThetaCut);
243  copy(tmp.begin(),tmp.end(),back_inserter(all));
244 
245  tmp = filterSegments(muonMeasurements->recHits(MB2DL,event), barreldThetaCut);
246  copy(tmp.begin(),tmp.end(),back_inserter(all));
247 
248  tmp = filterSegments(muonMeasurements->recHits(MB1DL,event), barreldThetaCut);
249  copy(tmp.begin(),tmp.end(),back_inserter(all));
250 
251  LogTrace(metname)<<"Number of segments: "<<all.size();
252 
253  for(MuonRecHitContainer::const_iterator segmentItr = all.begin();
254  segmentItr != all.end(); ++segmentItr)
255  {
256  MuonRecHitContainer singleSegmentContainer;
257  singleSegmentContainer.push_back(*segmentItr);
258  result.push_back(singleSegmentContainer);
259  }
260  }
261 
262 }
const std::string metname
bool check(const MuonRecHitContainer &segments)
MuonRecHitContainer recHits(const DetLayer *layer, const edm::Event &iEvent)
returns the rechits which are on the layer
void endcapPatterns(const MuonRecHitContainer &me11, const MuonRecHitContainer &me12, const MuonRecHitContainer &me2, const MuonRecHitContainer &me3, const MuonRecHitContainer &me4, const MuonRecHitContainer &mb1, const MuonRecHitContainer &mb2, const MuonRecHitContainer &mb3, bool *MB1, bool *MB2, bool *MB3, std::vector< MuonRecHitContainer > &result)
tuple result
Definition: query.py:137
#define LogTrace(id)
void complete(MuonRecHitContainer &seedSegments, const MuonRecHitContainer &recHits, bool *used=0) const
const T & get() const
Definition: EventSetup.h:56
std::vector< std::vector< double > > tmp
Definition: MVATrainer.cc:100
static std::atomic< unsigned int > counter
MuonTransientTrackingRecHit::MuonRecHitContainer MuonRecHitContainer
void dumpLayer(const char *name, const MuonRecHitContainer &segments) const
MuonRecHitContainer filterSegments(const MuonRecHitContainer &segments, double dThetaCut) const
apply some cuts to segments before using them
void MuonSeedOrcaPatternRecognition::rememberCrackSegments ( const MuonRecHitContainer segments,
MuonRecHitContainer crackSegments 
) const
private

Definition at line 601 of file MuonSeedOrcaPatternRecognition.cc.

References isCrack().

Referenced by endcapPatterns().

603 {
604  for(MuonRecHitContainer::const_iterator segmentItr = segments.begin();
605  segmentItr != segments.end(); ++segmentItr)
606  {
607  if((**segmentItr).hit()->dimension() == 4 && isCrack(*segmentItr))
608  {
609  crackSegments.push_back(*segmentItr);
610  }
611  }
612 }
bool isCrack(const ConstMuonRecHitPointer &segment) const
bool * MuonSeedOrcaPatternRecognition::zero ( unsigned  listSize)
private

Definition at line 265 of file MuonSeedOrcaPatternRecognition.cc.

References i, and query::result.

Referenced by endcapPatterns(), and produce().

266 {
267  bool * result = 0;
268  if (listSize) {
269  result = new bool[listSize];
270  for ( size_t i=0; i<listSize; i++ ) result[i]=false;
271  }
272  return result;
273 }
int i
Definition: DBlmapReader.cc:9
tuple result
Definition: query.py:137

Member Data Documentation

MuonDetLayerMeasurements* MuonSeedOrcaPatternRecognition::muonMeasurements
private

Definition at line 55 of file MuonSeedOrcaPatternRecognition.h.

Referenced by MuonSeedOrcaPatternRecognition(), and produce().

std::vector<double> MuonSeedOrcaPatternRecognition::theCrackEtas
private

Definition at line 53 of file MuonSeedOrcaPatternRecognition.h.

Referenced by isCrack().

double MuonSeedOrcaPatternRecognition::theCrackWindow
private

Definition at line 54 of file MuonSeedOrcaPatternRecognition.h.

Referenced by isCrack().

double MuonSeedOrcaPatternRecognition::theDeltaCrackWindow
private

Definition at line 58 of file MuonSeedOrcaPatternRecognition.h.

Referenced by complete().

double MuonSeedOrcaPatternRecognition::theDeltaEtaWindow
private

Definition at line 57 of file MuonSeedOrcaPatternRecognition.h.

Referenced by complete().

double MuonSeedOrcaPatternRecognition::theDeltaPhiWindow
private

Definition at line 56 of file MuonSeedOrcaPatternRecognition.h.

Referenced by complete().