CMS 3D CMS Logo

/data/refman/pasoursint/CMSSW_5_3_0/src/RecoLocalTracker/SiStripRecHitConverter/src/SiStripRecHitMatcher.cc

Go to the documentation of this file.
00001 // File: SiStripRecHitMatcher.cc
00002 // Description:  Matches into rechits
00003 // Author:  C.Genta
00004 #include "RecoLocalTracker/SiStripRecHitConverter/interface/SiStripRecHitMatcher.h"
00005 #include "DataFormats/GeometryVector/interface/GlobalPoint.h"
00006 #include "Geometry/TrackerGeometryBuilder/interface/GluedGeomDet.h"
00007 #include "Geometry/TrackerGeometryBuilder/interface/StripGeomDetUnit.h"
00008 #include "DataFormats/CLHEP/interface/AlgebraicObjects.h"
00009 
00010 #include "TrackingTools/TransientTrackingRecHit/interface/HelpertRecHit2DLocalPos.h"
00011 #include<boost/bind.hpp>
00012 
00013 #include <DataFormats/TrackingRecHit/interface/AlignmentPositionError.h>
00014 
00015 
00016 
00017 
00018 SiStripRecHitMatcher::SiStripRecHitMatcher(const edm::ParameterSet& conf){   
00019   scale_=conf.getParameter<double>("NSigmaInside");  
00020 }
00021 
00022 SiStripRecHitMatcher::SiStripRecHitMatcher(const double theScale){   
00023   scale_=theScale;  
00024 }
00025 
00026 
00027 //match a single hit
00028 SiStripMatchedRecHit2D * SiStripRecHitMatcher::match(const SiStripRecHit2D *monoRH, 
00029                                                      const SiStripRecHit2D *stereoRH,
00030                                                      const GluedGeomDet* gluedDet,
00031                                                      LocalVector trackdirection) const{
00032   SimpleHitCollection stereoHits(1,stereoRH);
00033   std::vector<SiStripMatchedRecHit2D*>  collection;
00034   match( monoRH,
00035          stereoHits.begin(), stereoHits.end(),
00036          collection,
00037          gluedDet,trackdirection);
00038   
00039   return collection.empty() ? (SiStripMatchedRecHit2D*)(0) : collection.front();
00040 }
00041 
00042 //repeat matching for an already  a single hit
00043 SiStripMatchedRecHit2D* SiStripRecHitMatcher::match(const SiStripMatchedRecHit2D *origRH, 
00044                                                     const GluedGeomDet* gluedDet,
00045                                                     LocalVector trackdirection) const{
00046   
00047   throw "SiStripRecHitMatcher::match(const SiStripMatchedRecHit2D *,..) is obsoltete since 5.2.0"; 
00048 
00049   /*
00050   const SiStripRecHit2D* theMonoRH   = origRH->monoHit();
00051   // const SiStripRecHit2D* theStereoRH = origRH->stereoHit();
00052   SimpleHitCollection theStereoHits(1, origRH->stereoHit());
00053   // theStereoHits.push_back(theStereoRH);
00054   
00055   std::vector<SiStripMatchedRecHit2D*>  collection;
00056   match( theMonoRH,
00057          theStereoHits.begin(), theStereoHits.end(),
00058          collection,
00059          gluedDet,trackdirection);
00060   
00061   return collection.empty() ? (SiStripMatchedRecHit2D*)(0) : collection.front();
00062   */
00063 
00064   return nullptr;
00065 }
00066 
00067 
00068 edm::OwnVector<SiStripMatchedRecHit2D> 
00069 SiStripRecHitMatcher::match( const  SiStripRecHit2D *monoRH,
00070                              RecHitIterator begin, RecHitIterator end, 
00071                              const GluedGeomDet* gluedDet,
00072                              LocalVector trackdirection) const
00073 {
00074   SimpleHitCollection stereoHits;
00075   stereoHits.reserve(end-begin);
00076 
00077   for (RecHitIterator i=begin; i != end; ++i) {
00078     stereoHits.push_back( &(*i)); // convert to simple pointer
00079   }
00080   return match( monoRH,
00081                 stereoHits.begin(), stereoHits.end(), 
00082                 gluedDet,trackdirection);
00083 }
00084 
00085 edm::OwnVector<SiStripMatchedRecHit2D> 
00086 SiStripRecHitMatcher::match( const  SiStripRecHit2D *monoRH,
00087                              SimpleHitIterator begin, SimpleHitIterator end,
00088                              const GluedGeomDet* gluedDet,
00089                              LocalVector trackdirection) const {
00090   edm::OwnVector<SiStripMatchedRecHit2D> collector;
00091   collector.reserve(end-begin); // a resonable estimate of its size... 
00092   match(monoRH,begin,end,collector,gluedDet,trackdirection);
00093   return collector;
00094 }
00095 
00096 
00097 void
00098 SiStripRecHitMatcher::match( const SiStripRecHit2D *monoRH,
00099                              SimpleHitIterator begin, SimpleHitIterator end,
00100                              edm::OwnVector<SiStripMatchedRecHit2D> & collector, 
00101                              const GluedGeomDet* gluedDet,
00102                              LocalVector trackdirection) const {
00103 
00104   std::vector<SiStripMatchedRecHit2D*> result;
00105   result.reserve(end-begin);
00106   match(monoRH,begin,end,result,gluedDet,trackdirection);
00107   for (std::vector<SiStripMatchedRecHit2D*>::iterator p=result.begin(); p!=result.end();
00108        p++) collector.push_back(*p);
00109 }
00110 
00111 namespace {
00112   // FIXME for c++0X
00113   inline void pb(std::vector<SiStripMatchedRecHit2D*> & v, SiStripMatchedRecHit2D* h) {
00114     v.push_back(h);
00115   }
00116 }
00117 
00118 void
00119 SiStripRecHitMatcher::match( const SiStripRecHit2D *monoRH,
00120                              SimpleHitIterator begin, SimpleHitIterator end,
00121                              std::vector<SiStripMatchedRecHit2D*> & collector, 
00122                              const GluedGeomDet* gluedDet,
00123                              LocalVector trackdirection) const {
00124   Collector result(boost::bind(&pb,boost::ref(collector),
00125                              boost::bind(&SiStripMatchedRecHit2D::clone,_1)));
00126   match(monoRH,begin,end,result,gluedDet,trackdirection);
00127 }
00128 
00129 
00130 // this is the one used by the RecHitConverter
00131 void
00132 SiStripRecHitMatcher::match( const SiStripRecHit2D *monoRH,
00133                              RecHitIterator begin, RecHitIterator end,
00134                              CollectorMatched & collector,
00135                              const GluedGeomDet* gluedDet,
00136                              LocalVector trackdirection) const {
00137   
00138   // is this really needed now????
00139   SimpleHitCollection stereoHits;
00140   stereoHits.reserve(end-begin);
00141   for (RecHitIterator i=begin; i != end; ++i) 
00142     stereoHits.push_back( &(*i)); // convert to simple pointer
00143   
00144   return match( monoRH,
00145                 stereoHits.begin(), stereoHits.end(),
00146                 collector,
00147                 gluedDet,trackdirection);
00148 }
00149 
00150 void
00151 SiStripRecHitMatcher::match( const SiStripRecHit2D *monoRH,
00152                              SimpleHitIterator begin, SimpleHitIterator end,
00153                              CollectorMatched & collector,
00154                              const GluedGeomDet* gluedDet,
00155                              LocalVector trackdirection) const {
00156 
00157   Collector result(boost::bind(&CollectorMatched::push_back,boost::ref(collector),_1));
00158   match(monoRH,begin,end,result,gluedDet,trackdirection);
00159   
00160 }
00161 
00162 
00163 // the "real implementation"
00164 void
00165 SiStripRecHitMatcher::match( const SiStripRecHit2D *monoRH,
00166                              SimpleHitIterator begin, SimpleHitIterator end,
00167                              Collector & collector, 
00168                              const GluedGeomDet* gluedDet,
00169                              LocalVector trackdirection) const {
00170   // stripdet = mono
00171   // partnerstripdet = stereo
00172   const GeomDetUnit* stripdet = gluedDet->monoDet();
00173   const GeomDetUnit* partnerstripdet = gluedDet->stereoDet();
00174   const StripTopology& topol=(const StripTopology&)stripdet->topology();
00175 
00176   // position of the initial and final point of the strip (RPHI cluster) in local strip coordinates
00177   double RPHIpointX = topol.measurementPosition(monoRH->localPositionFast()).x();
00178   MeasurementPoint RPHIpointini(RPHIpointX,-0.5);
00179   MeasurementPoint RPHIpointend(RPHIpointX,0.5);
00180 
00181   // position of the initial and final point of the strip in local coordinates (mono det)
00182   StripPosition stripmono=StripPosition(topol.localPosition(RPHIpointini),topol.localPosition(RPHIpointend));
00183 
00184   if(trackdirection.mag2()<FLT_MIN){// in case of no track hypothesis assume a track from the origin through the center of the strip
00185     LocalPoint lcenterofstrip=monoRH->localPositionFast();
00186     GlobalPoint gcenterofstrip=(stripdet->surface()).toGlobal(lcenterofstrip);
00187     GlobalVector gtrackdirection=gcenterofstrip-GlobalPoint(0,0,0);
00188     trackdirection=(gluedDet->surface()).toLocal(gtrackdirection);
00189   }
00190 
00191   //project mono hit on glued det
00192   StripPosition projectedstripmono=project(stripdet,gluedDet,stripmono,trackdirection);
00193   const StripTopology& partnertopol=(const StripTopology&)partnerstripdet->topology();
00194 
00195   double m00 = -(projectedstripmono.second.y()-projectedstripmono.first.y()); 
00196   double m01 =  (projectedstripmono.second.x()-projectedstripmono.first.x());
00197   double c0  =  m01*projectedstripmono.first.y()   + m00*projectedstripmono.first.x();
00198  
00199   //error calculation (the part that depends on mono RH only)
00200   //  LocalVector  RPHIpositiononGluedendvector=projectedstripmono.second-projectedstripmono.first;
00201   /*
00202   double l1 = 1./RPHIpositiononGluedendvector.perp2();
00203   double c1 = RPHIpositiononGluedendvector.y();
00204   double s1 =-RPHIpositiononGluedendvector.x();
00205   */
00206   double c1 = -m00;
00207   double s1 = -m01;
00208   double l1 = 1./(c1*c1+s1*s1);
00209 
00210  
00211   // FIXME: here for test...
00212   double sigmap12 = monoRH->sigmaPitch();
00213   if (sigmap12<0) {
00214     //AlgebraicSymMatrix tmpMatrix = monoRH->parametersError();
00215     /*
00216     std::cout << "DEBUG START" << std::endl;
00217     std::cout << "APE mono,stereo,glued : " 
00218               << stripdet->alignmentPositionError()->globalError().cxx()  << " , "
00219               << partnerstripdet->alignmentPositionError()->globalError().cxx()  << " , "
00220               << gluedDet->alignmentPositionError()->globalError().cxx()  << std::endl;
00221     */
00222     LocalError tmpError(monoRH->localPositionErrorFast());
00223     HelpertRecHit2DLocalPos::updateWithAPE(tmpError,*stripdet);
00224     MeasurementError errormonoRH=topol.measurementError(monoRH->localPositionFast(),tmpError);
00225     /*
00226     std::cout << "localPosError.xx(), helper.xx(), param.xx(): "
00227          << monoRH->localPositionError().xx() << " , "
00228          << monoRH->parametersError()[0][0] << " , "
00229          << tmpMatrix[0][0] << std::endl;
00230     */
00231     //MeasurementError errormonoRH=topol.measurementError(monoRH->localPosition(),monoRH->localPositionError());
00232     double pitch=topol.localPitch(monoRH->localPositionFast());
00233     monoRH->setSigmaPitch(sigmap12=errormonoRH.uu()*pitch*pitch);
00234   }
00235 
00236   SimpleHitIterator seconditer;  
00237 
00238   for(seconditer=begin;seconditer!=end;++seconditer){//iterate on stereo rechits
00239 
00240     // position of the initial and final point of the strip (STEREO cluster)
00241     double STEREOpointX=partnertopol.measurementPosition((*seconditer)->localPositionFast()).x();
00242     MeasurementPoint STEREOpointini(STEREOpointX,-0.5);
00243     MeasurementPoint STEREOpointend(STEREOpointX,0.5);
00244 
00245     // position of the initial and final point of the strip in local coordinates (stereo det)
00246     StripPosition stripstereo(partnertopol.localPosition(STEREOpointini),partnertopol.localPosition(STEREOpointend));
00247  
00248     //project stereo hit on glued det
00249     StripPosition projectedstripstereo=project(partnerstripdet,gluedDet,stripstereo,trackdirection);
00250 
00251  
00252     double m10=-(projectedstripstereo.second.y()-projectedstripstereo.first.y()); 
00253     double m11=(projectedstripstereo.second.x()-projectedstripstereo.first.x());
00254 
00255    //perform the matching
00256    //(x2-x1)(y-y1)=(y2-y1)(x-x1)
00257     AlgebraicMatrix22 m; AlgebraicVector2 c; // FIXME understand why moving this initializer out of the loop changes the output!
00258     m(0,0)=m00; 
00259     m(0,1)=m01;
00260     m(1,0)=m10;
00261     m(1,1)=m11;
00262     c(0)=c0;
00263     c(1)=m11*projectedstripstereo.first.y()+m10*projectedstripstereo.first.x();
00264     m.Invert(); 
00265     AlgebraicVector2 solution = m * c;
00266     LocalPoint position(solution(0),solution(1));
00267 
00268     /*
00269     {
00270       double m00 = -(projectedstripmono.second.y()-projectedstripmono.first.y()); 
00271       double m01 =  (projectedstripmono.second.x()-projectedstripmono.first.x());
00272       double m10 = -(projectedstripstereo.second.y()-projectedstripstereo.first.y()); 
00273       double m11 =  (projectedstripstereo.second.x()-projectedstripstereo.first.x());
00274       double c0  =  m01*projectedstripmono.first.y()   + m00*projectedstripmono.first.x();
00275       double c1  =  m11*projectedstripstereo.first.y() + m10*projectedstripstereo.first.x();
00276       
00277       double invDet = 1./(m00*m11-m10*m01);
00278     }
00279     */
00280 
00281     //
00282     // temporary fix by tommaso
00283     //
00284 
00285 
00286     LocalError tempError (100,0,100);
00287     if (!((gluedDet->surface()).bounds().inside(position,tempError,scale_))) continue;                                                       
00288 
00289     // then calculate the error
00290     /*
00291     LocalVector  stereopositiononGluedendvector=projectedstripstereo.second-projectedstripstereo.first;
00292     double l2 = 1./stereopositiononGluedendvector.perp2();
00293     double c2 = stereopositiononGluedendvector.y(); 
00294     double s2 =-stereopositiononGluedendvector.x();
00295     */
00296 
00297     double c2 = -m10;
00298     double s2 = -m11;
00299     double l2 = 1./(c2*c2+s2*s2);
00300 
00301 
00302     // FIXME: here for test...
00303     double sigmap22 = (*seconditer)->sigmaPitch();
00304     if (sigmap22<0) {
00305       //AlgebraicSymMatrix tmpMatrix = (*seconditer)->parametersError();
00306       LocalError tmpError((*seconditer)->localPositionErrorFast());
00307       HelpertRecHit2DLocalPos::updateWithAPE(tmpError, *partnerstripdet);
00308       MeasurementError errorstereoRH=partnertopol.measurementError((*seconditer)->localPositionFast(),tmpError);
00309       //MeasurementError errorstereoRH=partnertopol.measurementError((*seconditer)->localPosition(),(*seconditer)->localPositionError());
00310       double pitch=partnertopol.localPitch((*seconditer)->localPositionFast());
00311       (*seconditer)->setSigmaPitch(sigmap22=errorstereoRH.uu()*pitch*pitch);
00312     }
00313 
00314     double diff=(c1*s2-c2*s1);
00315     double invdet2=1/(diff*diff*l1*l2);
00316     float xx= invdet2*(sigmap12*s2*s2*l2+sigmap22*s1*s1*l1);
00317     float xy=-invdet2*(sigmap12*c2*s2*l2+sigmap22*c1*s1*l1);
00318     float yy= invdet2*(sigmap12*c2*c2*l2+sigmap22*c1*c1*l1);
00319     LocalError error(xx,xy,yy);
00320 
00321     if((gluedDet->surface()).bounds().inside(position,error,scale_)){ //if it is inside the gluedet bonds
00322       //Change NSigmaInside in the configuration file to accept more hits
00323       //...and add it to the Rechit collection 
00324 
00325       const SiStripRecHit2D* secondHit = *seconditer;
00326       collector(SiStripMatchedRecHit2D(position, error,gluedDet->geographicalId() ,
00327                                        monoRH,secondHit));
00328     }
00329   }
00330 }
00331 
00332 
00333 SiStripRecHitMatcher::StripPosition SiStripRecHitMatcher::project(const GeomDetUnit *det,const GluedGeomDet* glueddet,StripPosition strip,LocalVector trackdirection)const
00334 {
00335 
00336   GlobalPoint globalpointini=(det->surface()).toGlobal(strip.first);
00337   GlobalPoint globalpointend=(det->surface()).toGlobal(strip.second);
00338 
00339   // position of the initial and final point of the strip in glued local coordinates
00340   LocalPoint positiononGluedini=(glueddet->surface()).toLocal(globalpointini);
00341   LocalPoint positiononGluedend=(glueddet->surface()).toLocal(globalpointend);
00342 
00343   //correct the position with the track direction
00344 
00345   float scale=-positiononGluedini.z()/trackdirection.z();
00346 
00347   LocalPoint projpositiononGluedini= positiononGluedini + scale*trackdirection;
00348   LocalPoint projpositiononGluedend= positiononGluedend + scale*trackdirection;
00349 
00350   return StripPosition(projpositiononGluedini,projpositiononGluedend);
00351 }