41 return less_(*iLHS,*iRHS);
53 double originUncertainty,
57 double maxReducedChi2)
58 : maxHitsOnDetId_(maxHitsOnDetId)
59 , originUncertainty_(originUncertainty)
60 , phiBandWidth_(phiBandWidth)
61 , maxNormResid_(maxNormResid)
63 , maxReducedChi2_(maxReducedChi2)
98 LogDebug(
"") <<
" In prepareEvent " ;
137 LogDebug(
"") <<
" Leaving prepareEvent " ;
150 bool electronSuccess =
projectPhiBand(-1., superclusterIn, tTopo);
151 bool positronSuccess =
projectPhiBand( 1., superclusterIn, tTopo);
154 if ((electronSuccess && !positronSuccess) ||
167 std::ostringstream debugstr6;
168 debugstr6 <<
" HERE BEFORE SORT electron case " <<
" \n" ;
169 for (std::vector<const TrackingRecHit*>::iterator itHit=
outputHits_neg_.begin();
171 debugstr6 <<
" HIT "<<((*itHit)->geographicalId()).rawId()<<
" \n"
172 <<
" Local Position: "<<(*itHit)->localPosition()<<
" \n"
178 <<(((
TrackingGeometry*)(
tracker_p_))->idToDet((*itHit)->geographicalId())->surface().toGlobal((*itHit)->localPosition()).
z())<<
" \n";
185 debugstr6 <<
" Calling sort alongMomentum " <<
" \n";
192 debugstr6 <<
" Done with sort " <<
" \n";
194 debugstr6 <<
" HERE AFTER SORT electron case " <<
" \n";
195 for (std::vector<const TrackingRecHit*>::iterator itHit=
outputHits_neg_.begin();
197 debugstr6 <<
" HIT "<<((*itHit)->geographicalId()).rawId()<<
" \n"
198 <<
" Local Position: "<<(*itHit)->localPosition()<<
" \n"
204 <<(((
TrackingGeometry*)(
tracker_p_))->idToDet((*itHit)->geographicalId())->surface().toGlobal((*itHit)->localPosition()).
z())<<
" \n";;
213 for(std::vector<const TrackingRecHit*>::iterator itHit =
outputHits_neg_.begin();
218 LogDebug(
"") <<
" Assert failure " ;
232 trackCandidateOut.push_back(
TrackCandidate(hits, trajectorySeed, PTraj));
254 if ((!electronSuccess && positronSuccess) ||
267 std::ostringstream debugstr7;
268 debugstr7 <<
" HERE BEFORE SORT Positron case " <<
" \n";
269 for (std::vector<const TrackingRecHit*>::iterator itHit =
outputHits_pos_.begin();
271 debugstr7 <<
" HIT "<<((*itHit)->geographicalId()).rawId()<<
" \n"
272 <<
" Local Position: "<<(*itHit)->localPosition()<<
" \n"
278 <<(((
TrackingGeometry*)(
tracker_p_))->idToDet((*itHit)->geographicalId())->surface().toGlobal((*itHit)->localPosition()).
z())<<
" \n";
282 debugstr7 <<
" Calling sort alongMomentum " <<
" \n";
289 debugstr7 <<
" Done with sort " <<
" \n";
292 debugstr7 <<
" HERE AFTER SORT Positron case " <<
" \n";
293 for (std::vector<const TrackingRecHit*>::iterator itHit =
outputHits_pos_.begin();
295 debugstr7 <<
" HIT "<<((*itHit)->geographicalId()).rawId()<<
" \n"
296 <<
" Local Position: "<<(*itHit)->localPosition()<<
" \n"
302 <<(((
TrackingGeometry*)(
tracker_p_))->idToDet((*itHit)->geographicalId())->surface().toGlobal((*itHit)->localPosition()).
z())<<
" \n";
310 for(std::vector<const TrackingRecHit*>::iterator itHit =
outputHits_pos_.begin();
326 trackCandidateOut.push_back(
TrackCandidate(hits, trajectorySeed, PTraj));
369 for (; itdet != eddet; ++itdet) {
375 unsigned int numberOfHits = hits.
size();
384 if(!(*hit).isValid()) {
385 LogDebug(
"") <<
" InValid hit skipped in coarseHitSelection " << std::endl ;
390 bool isStereoDet =
false ;
411 LogDebug(
"") <<
" UHOH BIG PROBLEM - Unrecognized SI Layer" ;
412 LogDebug(
"") <<
" Det "<< theDet <<
" Lay " << theLayer ;
416 if ((endcap && stereo && (theDet==
"TID" || theDet==
"TEC") && isStereoDet ) ||
417 (endcap && !stereo && (theDet==
"TID" || theDet==
"TEC") && !isStereoDet ) ||
418 (!endcap && stereo && (theDet==
"TIB" || theDet==
"TOB") && isStereoDet ) ||
419 (!endcap && !stereo && (theDet==
"TIB" || theDet==
"TOB" )&& !isStereoDet )
423 hitPointersOut.push_back(&(*
hit));
438 for (; itdet != eddet; ++itdet) {
444 unsigned int numberOfHits = 0;
455 if(!(*hit).isValid()) {
456 LogDebug(
"") <<
" InValid hit skipped in coarseMatchedHitSelection " << std::endl ;
462 coarseMatchedHitPointersOut.push_back(&(*
hit));
496 static const double rphiHitSmallestError = 0.0001 ;
497 static const double stereoHitSmallestError = 0.0001 ;
502 static const double stereoPitchAngle = 0.100 ;
503 static const double cos2SiPitchAngle =
cos(stereoPitchAngle)*
cos(stereoPitchAngle) ;
504 static const double sin2SiPitchAngle =
sin(stereoPitchAngle)*
sin(stereoPitchAngle) ;
507 static const double rphiErrFudge = 0.0200 ;
508 static const double stereoErrFudge = 0.0200 ;
511 static const double chi2HitMax = 25.0 ;
514 static const unsigned int nHitsLeftMinimum = 3 ;
517 std::vector<const SiStripRecHit2D*> stereoHits;
518 std::vector<const SiStripRecHit2D*> rphiBarrelHits;
519 std::vector<const SiStripRecHit2D*> zphiEndcapHits;
528 std::ostringstream debugstr1;
529 debugstr1 <<
" Getting barrel rphi hits " <<
" \n" ;
536 debugstr1 <<
" Getting matched hits " <<
" \n" ;
537 std::vector<const SiStripMatchedRecHit2D*> matchedHits;
542 double energy = superclusterIn->energy();
543 double pT = energy * superclusterIn->position().rho()/
sqrt(superclusterIn->x()*superclusterIn->x() +
544 superclusterIn->y()*superclusterIn->y() +
545 superclusterIn->z()*superclusterIn->z());
550 const double scr = superclusterIn->position().rho();
551 const double scz = superclusterIn->position().z();
554 std::vector<bool> uselist;
555 std::vector<double> rlist, philist, w2list;
556 std::vector<int> typelist;
557 std::vector<const SiStripRecHit2D*> hitlist;
559 std::vector<bool> matcheduselist;
560 std::vector<const SiStripMatchedRecHit2D*> matchedhitlist;
563 double zSlopeFitNumer = 0.;
564 double zSlopeFitDenom = 0.;
567 debugstr1 <<
" There are a total of " << stereoHits.size() <<
" stereoHits in this event " <<
" \n"
568 <<
" There are a total of " << rphiBarrelHits.size() <<
" rphiBarrelHits in this event " <<
" \n"
569 <<
" There are a total of " << zphiEndcapHits.size() <<
" zphiEndcapHits in this event " <<
" \n\n";
580 LogDebug(
"") <<
" Loop over matched hits " <<
" \n";
582 for (std::vector<const SiStripMatchedRecHit2D*>::const_iterator
hit = matchedHits.begin() ;
583 hit != matchedHits.end() ; ++
hit) {
591 double r =
sqrt(position.
x()*position.
x() + position.
y()*position.
y());
592 double phi =
unwrapPhi(position.
phi() - superclusterIn->position().phi());
593 double z = position.
z();
603 matcheduselist.push_back(
true);
604 matchedhitlist.push_back(*hit);
609 zSlopeFitNumer += -(scr -
r) * (z - scz);
610 zSlopeFitDenom += (scr -
r) * (scr - r);
619 if (zSlopeFitDenom > 0.) {
620 zVsRSlope = zSlopeFitNumer / zSlopeFitDenom;
628 LogDebug(
"") <<
" Loop over stereo hits" <<
" \n";
631 unsigned int numberOfStereoHits = 0;
632 for (std::vector<const SiStripRecHit2D*>::const_iterator
hit = stereoHits.begin();
hit != stereoHits.end(); ++
hit) {
637 double r_stereo =
sqrt(position.x()*position.x() + position.y()*position.y());
638 double phi_stereo =
unwrapPhi(position.phi() - superclusterIn->position().phi());
642 double r_stereo_err =
sqrt((*hit)->localPositionError().xx()*cos2SiPitchAngle +
643 (*hit)->localPositionError().yy()*sin2SiPitchAngle ) ;
649 if(r_stereo_err > stereoHitSmallestError ) {
650 r_stereo_err =
sqrt(r_stereo_err*r_stereo_err+stereoErrFudge*stereoErrFudge);
654 bool thisHitIsMatched =
false ;
658 unsigned int matcheduselist_size = matcheduselist.size();
659 for (
unsigned int i = 0;
i < matcheduselist_size;
i++) {
660 if (matcheduselist[
i]) {
661 OmniClusterRef const & mystereocluster = matchedhitlist[
i]->stereoClusterRef();
662 if( stereocluster == mystereocluster ) {
663 thisHitIsMatched =
true ;
670 if(thisHitIsMatched) {
672 uselist.push_back(
true);
673 rlist.push_back(r_stereo);
674 philist.push_back(phi_stereo);
675 w2list.push_back(1./(r_stereo_err/r_stereo)/(r_stereo_err/r_stereo));
676 typelist.push_back(0);
677 hitlist.push_back(*hit);
685 LogDebug(
"") <<
" There are " << uselist.size() <<
" good hits after stereo loop " ;
689 LogDebug(
"") <<
" Looping over barrel rphi hits " ;
690 unsigned int rphiMatchedCounter = 0 ;
691 unsigned int rphiUnMatchedCounter = 0 ;
692 unsigned int numberOfBarrelRphiHits = 0;
693 for (std::vector<const SiStripRecHit2D*>::const_iterator
hit = rphiBarrelHits.begin();
hit != rphiBarrelHits.end(); ++
hit) {
697 double r =
sqrt(position.x()*position.x() + position.y()*position.y());
698 double phi =
unwrapPhi(position.phi() - superclusterIn->position().phi());
699 double z = position.z();
700 double r_mono_err =
sqrt((*hit)->localPositionError().xx()) ;
703 if( r_mono_err > rphiHitSmallestError) {
705 r_mono_err=
sqrt(r_mono_err*r_mono_err+rphiErrFudge*rphiErrFudge);
712 (tTopo->
tibLayer((*hit)->geographicalId())==1 || tTopo->
tibLayer((*hit)->geographicalId())==2)) ||
714 && (tTopo->
tobLayer((*hit)->geographicalId())==1 || tTopo->
tobLayer((*hit)->geographicalId())==2)) ) {
715 bool thisHitIsMatched =
false ;
716 unsigned int matcheduselist_size = matcheduselist.size();
717 for (
unsigned int i = 0;
i < matcheduselist_size;
i++) {
718 if (matcheduselist[
i]) {
719 OmniClusterRef const & mymonocluster = matchedhitlist[
i]->monoClusterRef();
720 if( monocluster == mymonocluster ) {
721 thisHitIsMatched =
true ;
727 if( thisHitIsMatched ) {
729 uselist.push_back(
true);
731 philist.push_back(phi);
732 w2list.push_back(1./(r_mono_err/r)/(r_mono_err/r));
733 typelist.push_back(1);
734 hitlist.push_back(*hit);
735 rphiMatchedCounter++;
742 double zFit = zVsRSlope * (r - scr) + scz;
755 uselist.push_back(
true);
757 philist.push_back(phi);
758 w2list.push_back(1./(r_mono_err/r)/(r_mono_err/r));
759 typelist.push_back(1);
760 hitlist.push_back(*hit);
761 rphiUnMatchedCounter++;
770 LogDebug(
"") <<
" There are " << rphiMatchedCounter <<
" matched rphi hits";
771 LogDebug(
"") <<
" There are " << rphiUnMatchedCounter <<
" unmatched rphi hits";
772 LogDebug(
"") <<
" There are " << uselist.size() <<
" good stereo+rphi hits " ;
782 LogDebug(
"") <<
" Looping over barrel zphi hits " ;
785 unsigned int numberOfEndcapZphiHits = 0;
786 for (std::vector<const SiStripRecHit2D*>::const_iterator
hit = zphiEndcapHits.begin();
787 hit != zphiEndcapHits.end(); ++
hit) {
792 double z = position.
z();
793 double phi =
unwrapPhi(position.
phi() - superclusterIn->position().phi());
797 double rFit = (z - scz)/zVsRSlope + scr;
808 uselist.push_back(
true);
809 rlist.push_back(rFit);
810 philist.push_back(phi);
811 w2list.push_back(1./(0.05/rFit)/(0.05/rFit));
812 typelist.push_back(2);
813 hitlist.push_back(*hit);
819 LogDebug(
"") <<
" There are " << uselist.size() <<
" good stereo+rphi+zphi hits " ;
823 std::ostringstream debugstr5;
824 debugstr5 <<
" List of hits before uniqification " <<
" \n" ;
825 for (
unsigned int i = 0;
i < uselist.size();
i++) {
828 debugstr5 <<
" DetID " << ((hit)->geographicalId()).rawId()
830 <<
" Phi " << philist[
i]
831 <<
" Weight " << w2list[
i]
832 <<
" PhiPred " << (rlist[
i]-scr)*phiVsRSlope
833 <<
" Chi2 " << (philist[i]-(rlist[i]-scr)*phiVsRSlope)*(philist[i]-(rlist[i]-scr)*phiVsRSlope)*w2list[i]
837 debugstr5 <<
" \n\n\n" ;
839 debugstr5 <<
" Counting number of unique detectors " <<
" \n" ;
841 debugstr5 <<
" These are all the detectors with hits " <<
" \n";
845 std::vector<uint32_t> detIdList ;
847 for (
unsigned int i = 0;
i < uselist.size();
i++) {
850 uint32_t detIDUsed = ((hit)->geographicalId()).rawId() ;
852 debugstr5<<
" DetId " << detIDUsed <<
"\n";
854 detIdList.push_back(detIDUsed) ;
859 debugstr5 <<
" There are " << detIdList.size() <<
" hits on detectors \n";
862 std::sort(detIdList.begin(), detIdList.end());
864 std::unique(detIdList.begin(), detIdList.end()), detIdList.end());
866 debugstr5 <<
" There are " << detIdList.size() <<
" unique detectors \n";
872 debugstr5 <<
" Looping over detectors to choose best hit " <<
" \n";
875 for (
unsigned int idet = 0 ; idet < detIdList.size() ; idet++ ) {
876 for (
unsigned int i = 0;
i+1 < uselist.size();
i++) {
880 double r_hit1 = rlist[
i];
881 double phi_hit1 = philist[
i];
882 double w2_hit1 = w2list[
i] ;
883 double phi_pred1 = (r_hit1-scr)*phiVsRSlope ;
884 double chi1 = (phi_hit1-phi_pred1)*(phi_hit1-phi_pred1)*w2_hit1;
885 if(detIdList[idet]== ((hit1)->geographicalId()).rawId()) {
886 for (
unsigned int j = i+1;
j < uselist.size();
j++) {
889 if(detIdList[idet]== ((hit2)->geographicalId()).rawId()) {
891 debugstr5 <<
" Found 2 hits on same Si Detector "
892 << ((hit2)->geographicalId()).rawId() <<
"\n";
895 double r_hit2 = rlist[
j];
896 double phi_hit2 = philist[
j];
897 double w2_hit2 = w2list[
j] ;
898 double phi_pred2 = (r_hit2-scr)*phiVsRSlope ;
899 double chi2 = (phi_hit2-phi_pred2)*(phi_hit2-phi_pred2)*w2_hit2;
901 debugstr5 <<
" Chi1 " << chi1 <<
" Chi2 " << chi2 <<
"\n";
923 for (
unsigned int i = 0;
i < uselist.size();
i++ ) {
925 double localchi2 = (philist[
i]-(rlist[
i]-scr)*phiVsRSlope)*(philist[
i]-(rlist[
i]-scr)*phiVsRSlope)*w2list[
i] ;
926 if(localchi2 > chi2HitMax ) {
929 debugstr5 <<
" Throwing out "
930 <<
" DetID " << ((hit)->geographicalId()).rawId()
932 <<
" Phi " << philist[
i]
933 <<
" Weight " << w2list[
i]
934 <<
" PhiPred " << (rlist[
i]-scr)*phiVsRSlope
935 <<
" Chi2 " << (philist[i]-(rlist[i]-scr)*phiVsRSlope)*(philist[i]-(rlist[i]-scr)*phiVsRSlope)*w2list[i]
944 debugstr5 <<
" List of hits after uniqification " <<
" \n" ;
945 for (
unsigned int i = 0;
i < uselist.size();
i++) {
948 debugstr5 <<
" DetID " << ((hit)->geographicalId()).rawId()
950 <<
" Phi " << philist[
i]
951 <<
" Weight " << w2list[
i]
952 <<
" PhiPred " << (rlist[
i]-scr)*phiVsRSlope
953 <<
" Chi2 " << (philist[i]-(rlist[i]-scr)*phiVsRSlope)*(philist[i]-(rlist[i]-scr)*phiVsRSlope)*w2list[i]
957 debugstr5 <<
" \n\n\n" ;
961 unsigned int nHitsLeft =0;
962 for (
unsigned int i = 0;
i < uselist.size();
i++) {
967 if(nHitsLeft < nHitsLeftMinimum ) {
969 debugstr5 <<
" Too few hits "<< nHitsLeft
970 <<
" left - return false " <<
" \n";
981 double intercept = 0 ;
985 std::ostringstream debugstr4;
986 debugstr4 <<
" Calc of phi(r) "<<
" \n";
996 double phiBarOld = 0.;
1000 double r2BarOld = 0.;
1001 double phirBar = 0.;
1002 double phirBarOld = 0.;
1003 double totalWeight = 0.;
1004 double totalWeightOld = 0.;
1005 unsigned int uselist_size = uselist.size();
1006 for (
unsigned int i = 0;
i < uselist_size;
i++) {
1008 double r = rlist[
i];
1009 double phi = philist[
i];
1010 double weight2 = w2list[
i];
1012 totalWeight = totalWeightOld + weight2 ;
1017 double totalWeightRatio = totalWeightOld/totalWeight ;
1018 double localWeightRatio = weight2/totalWeight ;
1020 phiBar = phiBarOld*totalWeightRatio + phi*localWeightRatio ;
1021 rBar = rBarOld*totalWeightRatio + r*localWeightRatio ;
1022 r2Bar= r2BarOld*totalWeightRatio + r*r*localWeightRatio ;
1023 phirBar = phirBarOld*totalWeightRatio + phi*r*localWeightRatio ;
1025 totalWeightOld = totalWeight ;
1026 phiBarOld = phiBar ;
1029 phirBarOld = phirBar ;
1031 debugstr4 <<
" totalWeight " << totalWeight
1032 <<
" totalWeightRatio " << totalWeightRatio
1033 <<
" localWeightRatio "<< localWeightRatio
1034 <<
" phiBar " << phiBar
1036 <<
" r2Bar " << r2Bar
1037 <<
" phirBar " << phirBar
1043 slope = (phirBar-phiBar*rBar)/(r2Bar-rBar*rBar);
1044 intercept = phiBar-slope*rBar ;
1046 debugstr4 <<
" end of loop slope " << slope
1047 <<
" intercept " << intercept <<
" \n";
1051 double biggest_normresid = -1.;
1052 unsigned int biggest_index = 0;
1053 for (
unsigned int i = 0;
i < uselist_size;
i++) {
1055 double r = rlist[
i];
1056 double phi = philist[
i];
1057 double weight2 = w2list[
i];
1059 double normresid = weight2 * (phi - intercept - slope*
r)*(phi - intercept - slope*r);
1062 if (normresid > biggest_normresid) {
1063 biggest_normresid = normresid;
1071 debugstr4 <<
"Dropping hit from fit due to Chi2 " <<
" \n" ;
1073 debugstr4 <<
" DetID " << ((hit)->geographicalId()).rawId()
1074 <<
" R " << rlist[biggest_index]
1075 <<
" Phi " << philist[biggest_index]
1076 <<
" Weight " << w2list[biggest_index]
1077 <<
" PhiPred " << (rlist[biggest_index]-scr)*phiVsRSlope
1078 <<
" Chi2 " << (philist[biggest_index]-(rlist[biggest_index]-scr)*phiVsRSlope)*(philist[biggest_index]-(rlist[biggest_index]-scr)*phiVsRSlope)*w2list[biggest_index]
1079 <<
" normresid " << biggest_normresid
1082 uselist[biggest_index] =
false;
1090 <<
" Intercept " << intercept
1091 <<
" slope " << slope
1102 double innerhitRadius = -1.;
1105 std::vector<const TrackingRecHit*> outputHits;
1107 std::vector<SiStripRecHit2D> outputRphiHits;
1108 std::vector<SiStripRecHit2D> outputStereoHits;
1113 for (
unsigned int i = 0;
i < uselist.size();
i++) {
1115 double r = rlist[
i];
1124 if (typelist[i] == 0) {
1125 numberOfStereoHits++;
1128 outputHits.push_back(hit);
1129 outputStereoHits.push_back(*hit);
1131 else if (typelist[i] == 1) {
1132 numberOfBarrelRphiHits++;
1135 outputHits.push_back(hit);
1136 outputRphiHits.push_back(*hit);
1138 else if (typelist[i] == 2) {
1139 numberOfEndcapZphiHits++;
1142 outputHits.push_back(hit);
1143 outputRphiHits.push_back(*hit);
1148 unsigned int totalNumberOfHits = numberOfStereoHits + numberOfBarrelRphiHits + numberOfEndcapZphiHits;
1149 double reducedChi2 = (totalNumberOfHits > 2 ? chi2 / (totalNumberOfHits - 2) : 1e10);
1160 double correct_pT = pT * phiVsRSlope /
slope;
1163 double phi = intercept + slope*
sqrt(position.
x()*position.
x() + position.
y()*position.
y()) + superclusterIn->position().phi();
1166 double pZ = correct_pT * zVsRSlope;
1171 if (chargeHypothesis > 0.) {
1212 LogDebug(
"") <<
" return from projectFindBand with True \n" << std::endl ;
1217 LogDebug(
"") <<
" return from projectFindBand with False \n" << std::endl ;
boost::transform_iterator< IterHelp, const_IdIter > const_iterator
const_iterator end(bool update=false) const
std::vector< const TrackingRecHit * > outputHits_pos_
unsigned int tibLayer(const DetId &id) const
std::vector< SiStripRecHit2D > outputRphiHits_pos_
const edm::Handle< SiStripRecHit2DCollection > * stereoHits_hp_
GlobalPoint position_pos_
GlobalPoint position_neg_
virtual ~SiStripElectronAlgo()
const SiStripRecHit2D * innerhit_neg_
virtual GlobalVector inTesla(const GlobalPoint &gp) const =0
Field value ad specified global point, in Tesla.
static const double slope[3]
GlobalPoint toGlobal(const Local2DPoint &lp) const
Conversion to the global R.F. from the R.F. of the GeomDet.
Sin< T >::type sin(const T &t)
std::vector< TrackCandidate > TrackCandidateCollection
uint32_t tobStereo(const DetId &id) const
Geom::Phi< T > phi() const
Global3DPoint GlobalPoint
unsigned int tidWheel(const DetId &id) const
ROOT::Math::SMatrix< double, 5, 5, ROOT::Math::MatRepSym< double, 5 > > AlgebraicSymMatrix55
const SiStripRecHit2D * innerhit_pos_
uint32_t rawId() const
get the raw id
std::vector< SiStripRecHit2D > outputStereoHits_pos_
uint32_t tidStereo(const DetId &id) const
GlobalVector momentum_pos_
std::map< const TrackingRecHit *, bool > matchedHitUsed_
std::vector< SiStripElectron > SiStripElectronCollection
collectin of SiStripElectron objects
Cos< T >::type cos(const T &t)
GlobalVector momentum_neg_
data_type const * data(size_t cell) const
const SiStripRecHit2DCollection * rphiHits_p_
Abs< T >::type abs(const T &t)
double unwrapPhi(double phi) const
std::map< const SiStripRecHit2D *, unsigned int > stereoKey_
virtual const GeomDet * idToDet(DetId) const
unsigned numberOfBarrelRphiHits_neg_
std::vector< SiStripRecHit2D > outputRphiHits_neg_
const SiStripRecHit2DCollection * stereoHits_p_
bool findElectron(reco::SiStripElectronCollection &electronOut, TrackCandidateCollection &trackCandidateOut, const reco::SuperClusterRef &superclusterIn, const TrackerTopology *tTopo)
unsigned int numberOfStereoHits_pos_
unsigned numberOfEndcapZphiHits_neg_
bool projectPhiBand(float chargeHypothesis, const reco::SuperClusterRef &superclusterIn, const TrackerTopology *tTopo)
unsigned int numberOfBarrelRphiHits_pos_
std::vector< SiStripRecHit2D > outputStereoHits_neg_
void coarseHitSelection(std::vector< const SiStripRecHit2D * > &hitPointersOut, const TrackerTopology *tTopo, bool stereo, bool endcap)
const TrackerGeometry * tracker_p_
T const * product() const
const edm::Handle< SiStripRecHit2DCollection > * rphiHits_hp_
double originUncertainty_
const SiStripMatchedRecHit2DCollection * matchedHits_p_
T const * product() const
unsigned numberOfStereoHits_neg_
virtual const GeomDetUnit * idToDetUnit(DetId) const
Return the pointer to the GeomDetUnit corresponding to a given DetId.
std::map< const SiStripMatchedRecHit2D *, unsigned int > matchedKey_
T perp() const
Magnitude of transverse component.
static std::atomic< unsigned int > counter
static int position[264][3]
uint32_t tecStereo(const DetId &id) const
std::map< const TrackingRecHit *, bool > hitUsed_
void coarseMatchedHitSelection(std::vector< const SiStripMatchedRecHit2D * > &coarseMatchedHitPointersOut)
const MagneticField * magneticField_p_
DetId geographicalId() const
volatile std::atomic< bool > shutdown_flag false
std::map< const SiStripRecHit2D *, unsigned int > rphiKey_
uint32_t tibStereo(const DetId &id) const
SiStripElectronAlgo(unsigned int maxHitsOnDetId, double originUncertainty, double phiBandWidth, double maxNormResid, unsigned int minHits, double maxReducedChi2)
virtual LocalPoint localPosition() const
unsigned int maxHitsOnDetId_
unsigned int tecWheel(const DetId &id) const
unsigned int numberOfEndcapZphiHits_pos_
const_iterator begin(bool update=false) const
unsigned int tobLayer(const DetId &id) const
void prepareEvent(const edm::ESHandle< TrackerGeometry > &tracker, const edm::Handle< SiStripRecHit2DCollection > &rphiHits, const edm::Handle< SiStripRecHit2DCollection > &stereoHits, const edm::Handle< SiStripMatchedRecHit2DCollection > &matchedHits, const edm::ESHandle< MagneticField > &magneticField)
Global3DVector GlobalVector
std::vector< const TrackingRecHit * > outputHits_neg_