#include <GSRecHitMatcher.h>
Public Types | |
typedef std::pair< LocalPoint, LocalPoint > | StripPosition |
Public Member Functions | |
GSRecHitMatcher () | |
SiTrackerGSMatchedRecHit2D * | match (const SiTrackerGSRecHit2D *monoRH, const SiTrackerGSRecHit2D *stereoRH, const GluedGeomDet *gluedDet, LocalVector &trackdirection) const |
StripPosition | project (const GeomDetUnit *det, const GluedGeomDet *glueddet, const StripPosition &strip, const LocalVector &trackdirection) const |
SiTrackerGSMatchedRecHit2D * | projectOnly (const SiTrackerGSRecHit2D *monoRH, const GeomDet *monoDet, const GluedGeomDet *gluedDet, LocalVector &ldir) const |
~GSRecHitMatcher () |
Definition at line 12 of file GSRecHitMatcher.h.
typedef std::pair<LocalPoint,LocalPoint> GSRecHitMatcher::StripPosition |
Definition at line 15 of file GSRecHitMatcher.h.
GSRecHitMatcher::GSRecHitMatcher | ( | ) | [inline] |
Definition at line 17 of file GSRecHitMatcher.h.
{}
GSRecHitMatcher::~GSRecHitMatcher | ( | ) | [inline] |
Definition at line 18 of file GSRecHitMatcher.h.
{}
SiTrackerGSMatchedRecHit2D * GSRecHitMatcher::match | ( | const SiTrackerGSRecHit2D * | monoRH, |
const SiTrackerGSRecHit2D * | stereoRH, | ||
const GluedGeomDet * | gluedDet, | ||
LocalVector & | trackdirection | ||
) | const |
Definition at line 9 of file GSRecHitMatcher.cc.
References trackerHits::c, alignmentValidation::c1, SiTrackerGSRecHit2D::cluster(), funct::cos(), diffTreeTool::diff, SiTrackerGSRecHit2D::eeId(), error, Exception, TrackingRecHit::geographicalId(), GeomDet::geographicalId(), StripTopology::localPitch(), GSSiTrackerRecHit2DLocalPos::localPosition(), StripTopology::localPosition(), GSSiTrackerRecHit2DLocalPos::localPositionError(), m, PV3DBase< T, PVType, FrameType >::mag2(), Topology::measurementError(), Topology::measurementPosition(), GluedGeomDet::monoDet(), PV3DBase< T, PVType, FrameType >::phi(), position, project(), indexGen::s2, SiTrackerGSRecHit2D::simhitId(), SiTrackerGSRecHit2D::simMultX(), SiTrackerGSRecHit2D::simMultY(), SiTrackerGSRecHit2D::simtrackId(), funct::sin(), GluedGeomDet::stereoDet(), GeomDet::surface(), toLocal(), GeomDetUnit::topology(), PV3DBase< T, PVType, FrameType >::x(), PV2DBase< T, PVType, FrameType >::x(), and xy().
Referenced by SiTrackerGaussianSmearingRecHitConverter::matchHits().
{ // stripdet = mono // partnerstripdet = stereo const GeomDetUnit* stripdet = gluedDet->monoDet(); const GeomDetUnit* partnerstripdet = gluedDet->stereoDet(); const StripTopology& topol=(const StripTopology&)stripdet->topology(); LocalPoint position; // position of the initial and final point of the strip (RPHI cluster) in local strip coordinates MeasurementPoint RPHIpoint=topol.measurementPosition(monoRH->localPosition()); MeasurementPoint RPHIpointini=MeasurementPoint(RPHIpoint.x(),-0.5); MeasurementPoint RPHIpointend=MeasurementPoint(RPHIpoint.x(),0.5); // position of the initial and final point of the strip in local coordinates (mono det) StripPosition stripmono=StripPosition(topol.localPosition(RPHIpointini),topol.localPosition(RPHIpointend)); if(trackdirection.mag2()<FLT_MIN){// in case of no track hypothesis assume a track from the origin through the center of the strip LocalPoint lcenterofstrip=monoRH->localPosition(); GlobalPoint gcenterofstrip=(stripdet->surface()).toGlobal(lcenterofstrip); GlobalVector gtrackdirection=gcenterofstrip-GlobalPoint(0,0,0); trackdirection=(gluedDet->surface()).toLocal(gtrackdirection); } //project mono hit on glued det StripPosition projectedstripmono=project(stripdet,gluedDet,stripmono,trackdirection); const StripTopology& partnertopol=(const StripTopology&)partnerstripdet->topology(); //error calculation (the part that depends on mono RH only) LocalVector RPHIpositiononGluedendvector=projectedstripmono.second-projectedstripmono.first; double c1=sin(RPHIpositiononGluedendvector.phi()); double s1=-cos(RPHIpositiononGluedendvector.phi()); MeasurementError errormonoRH=topol.measurementError(monoRH->localPosition(),monoRH->localPositionError()); double pitch=topol.localPitch(monoRH->localPosition()); double sigmap12=errormonoRH.uu()*pitch*pitch; // position of the initial and final point of the strip (STEREO cluster) MeasurementPoint STEREOpoint=partnertopol.measurementPosition(stereoRH->localPosition()); MeasurementPoint STEREOpointini=MeasurementPoint(STEREOpoint.x(),-0.5); MeasurementPoint STEREOpointend=MeasurementPoint(STEREOpoint.x(),0.5); // position of the initial and final point of the strip in local coordinates (stereo det) StripPosition stripstereo(partnertopol.localPosition(STEREOpointini),partnertopol.localPosition(STEREOpointend)); //project stereo hit on glued det StripPosition projectedstripstereo=project(partnerstripdet,gluedDet,stripstereo,trackdirection); //perform the matching //(x2-x1)(y-y1)=(y2-y1)(x-x1) AlgebraicMatrix22 m; AlgebraicVector2 c, solution; m(0,0)=-(projectedstripmono.second.y()-projectedstripmono.first.y()); m(0,1)=(projectedstripmono.second.x()-projectedstripmono.first.x()); m(1,0)=-(projectedstripstereo.second.y()-projectedstripstereo.first.y()); m(1,1)=(projectedstripstereo.second.x()-projectedstripstereo.first.x()); c(0)=m(0,1)*projectedstripmono.first.y()+m(0,0)*projectedstripmono.first.x(); c(1)=m(1,1)*projectedstripstereo.first.y()+m(1,0)*projectedstripstereo.first.x(); m.Invert(); solution = m * c; position=LocalPoint(solution(0),solution(1)); // // temporary fix by tommaso // LocalError tempError (100,0,100); // calculate the error LocalVector stereopositiononGluedendvector=projectedstripstereo.second-projectedstripstereo.first; double c2=sin(stereopositiononGluedendvector.phi()); double s2=-cos(stereopositiononGluedendvector.phi()); MeasurementError errorstereoRH=partnertopol.measurementError(stereoRH->localPosition(), stereoRH->localPositionError()); pitch=partnertopol.localPitch(stereoRH->localPosition()); double sigmap22=errorstereoRH.uu()*pitch*pitch; double diff=(c1*s2-c2*s1); double invdet2=1/(diff*diff); float xx=invdet2*(sigmap12*s2*s2+sigmap22*s1*s1); float xy=-invdet2*(sigmap12*c2*s2+sigmap22*c1*s1); float yy=invdet2*(sigmap12*c2*c2+sigmap22*c1*c1); LocalError error=LocalError(xx,xy,yy); // if((gluedDet->surface()).bounds().inside(position,error,3)){ // std::cout<<" ERROR ok "<< std::endl; // } // else { // std::cout<<" ERROR not ok " << std::endl; // } //Added by DAO to make sure y positions are zero. DetId det(monoRH->geographicalId()); if(det.subdetId() > 2) { SiTrackerGSRecHit2D *adjustedMonoRH = new SiTrackerGSRecHit2D(LocalPoint(monoRH->localPosition().x(),0,0), monoRH->localPositionError(), monoRH->geographicalId(), monoRH->simhitId(), monoRH->simtrackId(), monoRH->eeId(), monoRH->cluster(), monoRH->simMultX(), monoRH->simMultY() ); SiTrackerGSRecHit2D *adjustedStereoRH = new SiTrackerGSRecHit2D(LocalPoint(stereoRH->localPosition().x(),0,0), stereoRH->localPositionError(), stereoRH->geographicalId(), stereoRH->simhitId(), stereoRH->simtrackId(), stereoRH->eeId(), stereoRH->cluster(), stereoRH->simMultX(), stereoRH->simMultY() ); SiTrackerGSMatchedRecHit2D *rV= new SiTrackerGSMatchedRecHit2D(position, error,gluedDet->geographicalId(), monoRH->simhitId(), monoRH->simtrackId(), monoRH->eeId(), monoRH->cluster(), monoRH->simMultX(), monoRH->simMultY(), true, adjustedMonoRH, adjustedStereoRH); delete adjustedMonoRH; delete adjustedStereoRH; return rV; } else { throw cms::Exception("GSRecHitMatcher") << "Matched Pixel!?"; } }
GSRecHitMatcher::StripPosition GSRecHitMatcher::project | ( | const GeomDetUnit * | det, |
const GluedGeomDet * | glueddet, | ||
const StripPosition & | strip, | ||
const LocalVector & | trackdirection | ||
) | const |
Definition at line 142 of file GSRecHitMatcher.cc.
References pileupReCalc_HLTpaths::scale, GeomDet::surface(), toLocal(), and PV3DBase< T, PVType, FrameType >::z().
Referenced by match().
{ GlobalPoint globalpointini=(det->surface()).toGlobal(strip.first); GlobalPoint globalpointend=(det->surface()).toGlobal(strip.second); // position of the initial and final point of the strip in glued local coordinates LocalPoint positiononGluedini=(glueddet->surface()).toLocal(globalpointini); LocalPoint positiononGluedend=(glueddet->surface()).toLocal(globalpointend); //correct the position with the track direction float scale=-positiononGluedini.z()/trackdirection.z(); LocalPoint projpositiononGluedini= positiononGluedini + scale*trackdirection; LocalPoint projpositiononGluedend= positiononGluedend + scale*trackdirection; return StripPosition(projpositiononGluedini,projpositiononGluedend); }
SiTrackerGSMatchedRecHit2D * GSRecHitMatcher::projectOnly | ( | const SiTrackerGSRecHit2D * | monoRH, |
const GeomDet * | monoDet, | ||
const GluedGeomDet * | gluedDet, | ||
LocalVector & | ldir | ||
) | const |
Definition at line 167 of file GSRecHitMatcher.cc.
References SiTrackerGSRecHit2D::cluster(), delta, Vector3DBase< T, FrameTag >::dot(), SiTrackerGSRecHit2D::eeId(), Exception, TrackingRecHit::geographicalId(), GeomDet::geographicalId(), GSSiTrackerRecHit2DLocalPos::localPosition(), GSSiTrackerRecHit2DLocalPos::localPositionError(), Plane::localZ(), GluedGeomDet::monoDet(), Plane::normalVector(), position, GloballyPositioned< T >::position(), LocalError::rotate(), SiTrackerGSRecHit2D::simhitId(), SiTrackerGSRecHit2D::simMultX(), SiTrackerGSRecHit2D::simMultY(), SiTrackerGSRecHit2D::simtrackId(), GluedGeomDet::stereoDet(), GeomDet::surface(), Surface::toGlobal(), GloballyPositioned< T >::toLocal(), PV3DBase< T, PVType, FrameType >::x(), LocalError::xx(), LocalError::xy(), PV3DBase< T, PVType, FrameType >::y(), LocalError::yy(), and PV3DBase< T, PVType, FrameType >::z().
Referenced by SiTrackerGaussianSmearingRecHitConverter::matchHits().
{ LocalPoint position(monoRH->localPosition().x(), 0.,0.); const BoundPlane& gluedPlane = gluedDet->surface(); const BoundPlane& hitPlane = monoDet->surface(); double delta = gluedPlane.localZ( hitPlane.position()); LocalPoint lhitPos = gluedPlane.toLocal( monoDet->surface().toGlobal(position ) ); LocalPoint projectedHitPos = lhitPos - ldir * delta/ldir.z(); LocalVector hitXAxis = gluedPlane.toLocal( hitPlane.toGlobal( LocalVector(1,0,0))); LocalError hitErr = monoRH->localPositionError(); if (gluedPlane.normalVector().dot( hitPlane.normalVector()) < 0) { // the two planes are inverted, and the correlation element must change sign hitErr = LocalError( hitErr.xx(), -hitErr.xy(), hitErr.yy()); } LocalError rotatedError = hitErr.rotate( hitXAxis.x(), hitXAxis.y()); const GeomDetUnit *gluedMonoDet = gluedDet->monoDet(); const GeomDetUnit *gluedStereoDet = gluedDet->stereoDet(); int isMono = 0; int isStereo = 0; if(monoDet->geographicalId()==gluedMonoDet->geographicalId()) isMono = 1; if(monoDet->geographicalId()==gluedStereoDet->geographicalId()) isStereo = 1; //Added by DAO to make sure y positions are zero and correct Mono or stereo Det is filled. //Good for debugging. //std::cout << "The monoDet = " << monoDet->geographicalId() << ". The gluedMonoDet = " << gluedMonoDet->geographicalId() << ". The gluedStereoDet = " << gluedStereoDet->geographicalId() // << ". isMono = " << isMono << ". isStereo = " << isStereo <<"." << std::endl; SiTrackerGSRecHit2D *adjustedRH = new SiTrackerGSRecHit2D(LocalPoint(monoRH->localPosition().x(),0,0), monoRH->localPositionError(), monoRH->geographicalId(), monoRH->simhitId(), monoRH->simtrackId(), monoRH->eeId(), monoRH->cluster(), monoRH->simMultX(), monoRH->simMultY() ); //DAO: Not quite sure what to do about the cluster ref, so I will fill it with the monoRH for now... SiTrackerGSRecHit2D *otherRH = new SiTrackerGSRecHit2D(LocalPoint(-10000,-10000,-10000), LocalError(0,0,0),DetId(000000000), 0,0,0,monoRH->cluster(),0,0); if ((isMono && isStereo)||(!isMono&&!isStereo)) throw cms::Exception("GSRecHitMatcher") << "Something wrong with DetIds."; else if (isMono) { SiTrackerGSMatchedRecHit2D *rV= new SiTrackerGSMatchedRecHit2D(projectedHitPos, rotatedError, gluedDet->geographicalId(), monoRH->simhitId(), monoRH->simtrackId(), monoRH->eeId(), monoRH->cluster(), monoRH->simMultX(), monoRH->simMultY(), false, adjustedRH, otherRH); delete adjustedRH; delete otherRH; return rV; } else{ SiTrackerGSMatchedRecHit2D *rV=new SiTrackerGSMatchedRecHit2D(projectedHitPos, rotatedError, gluedDet->geographicalId(), monoRH->simhitId(), monoRH->simtrackId(), monoRH->eeId(), monoRH->cluster(), monoRH->simMultX(), monoRH->simMultY(), false, otherRH, adjustedRH); delete adjustedRH; delete otherRH; return rV; } }