CMS 3D CMS Logo

/data/refman/pasoursint/CMSSW_5_3_3/src/DataFormats/MuonReco/src/Muon.cc

Go to the documentation of this file.
00001 #include "DataFormats/MuonReco/interface/Muon.h"
00002 #include "DataFormats/MuonDetId/interface/MuonSubdetId.h"
00003 
00004 using namespace reco;
00005 
00006 Muon::Muon(  Charge q, const LorentzVector & p4, const Point & vtx ) :
00007   RecoCandidate( q, p4, vtx, -13 * q ) {
00008      energyValid_  = false;
00009      matchesValid_ = false;
00010      isolationValid_ = false;
00011      pfIsolationValid_ = false;
00012      qualityValid_ = false;
00013      caloCompatibility_ = -9999.;
00014      type_ = 0;
00015      bestTrackType_ = reco::Muon::None;
00016 }
00017 
00018 Muon::Muon() {
00019    energyValid_  = false;
00020    matchesValid_ = false;
00021    isolationValid_ = false;
00022    pfIsolationValid_ = false;
00023    qualityValid_ = false;
00024    caloCompatibility_ = -9999.;
00025    type_ = 0;
00026    bestTrackType_ = reco::Muon::None;
00027 }
00028 
00029 bool Muon::overlap( const Candidate & c ) const {
00030   const RecoCandidate * o = dynamic_cast<const RecoCandidate *>( & c );
00031   return ( o != 0 && 
00032            ( checkOverlap( track(), o->track() ) ||
00033              checkOverlap( standAloneMuon(), o->standAloneMuon() ) ||
00034              checkOverlap( combinedMuon(), o->combinedMuon() ) ||
00035              checkOverlap( standAloneMuon(), o->track() ) ||
00036              checkOverlap( combinedMuon(), o->track() ) )
00037            );
00038 }
00039 
00040 Muon * Muon::clone() const {
00041   return new Muon( * this );
00042 }
00043 
00044 int Muon::numberOfChambersNoRPC() const
00045 {
00046   int total = 0;
00047   int nAll = numberOfChambers();
00048   for (int iC = 0; iC < nAll; ++iC){
00049     if (matches()[iC].detector() == MuonSubdetId::RPC) continue;
00050     total++;
00051   }
00052 
00053   return total;
00054 }
00055 
00056 int Muon::numberOfMatches( ArbitrationType type ) const
00057 {
00058    int matches(0);
00059    for( std::vector<MuonChamberMatch>::const_iterator chamberMatch = muMatches_.begin();
00060          chamberMatch != muMatches_.end(); chamberMatch++ )
00061    {
00062       if(chamberMatch->segmentMatches.empty()) continue;
00063       if(type == NoArbitration) {
00064          matches++;
00065          continue;
00066       }
00067 
00068       for( std::vector<MuonSegmentMatch>::const_iterator segmentMatch = chamberMatch->segmentMatches.begin();
00069             segmentMatch != chamberMatch->segmentMatches.end(); segmentMatch++ )
00070       {
00071          if(type == SegmentArbitration)
00072             if(segmentMatch->isMask(MuonSegmentMatch::BestInChamberByDR)) {
00073                matches++;
00074                break;
00075             }
00076          if(type == SegmentAndTrackArbitration)
00077             if(segmentMatch->isMask(MuonSegmentMatch::BestInChamberByDR) &&
00078                   segmentMatch->isMask(MuonSegmentMatch::BelongsToTrackByDR)) {
00079                matches++;
00080                break;
00081             }
00082          if(type == SegmentAndTrackArbitrationCleaned)
00083            if(segmentMatch->isMask(MuonSegmentMatch::BestInChamberByDR) &&
00084                  segmentMatch->isMask(MuonSegmentMatch::BelongsToTrackByDR) && 
00085                  segmentMatch->isMask(MuonSegmentMatch::BelongsToTrackByCleaning)) {
00086              matches++;
00087              break;
00088            }
00089          if(type > 1<<7)
00090             if(segmentMatch->isMask(type)) {
00091                matches++;
00092                break;
00093             }
00094       }
00095    }
00096 
00097    return matches;
00098 }
00099 
00100 int Muon::numberOfMatchedStations( ArbitrationType type ) const
00101 {
00102    int stations(0);
00103 
00104    unsigned int theStationMask = stationMask(type);
00105    // eight stations, eight bits
00106    for(int it = 0; it < 8; ++it)
00107       if (theStationMask & 1<<it)
00108          ++stations;
00109 
00110    return stations;
00111 }
00112 
00113 unsigned int Muon::stationMask( ArbitrationType type ) const
00114 {
00115    unsigned int totMask(0);
00116    unsigned int curMask(0);
00117    for( std::vector<MuonChamberMatch>::const_iterator chamberMatch = muMatches_.begin();
00118          chamberMatch != muMatches_.end(); chamberMatch++ )
00119    {
00120       if(chamberMatch->segmentMatches.empty()) continue;
00121       if(type == NoArbitration) {
00122          curMask = 1<<( (chamberMatch->station()-1)+4*(chamberMatch->detector()-1) );
00123          // do not double count
00124          if(!(totMask & curMask))
00125             totMask += curMask;
00126          continue;
00127       }
00128 
00129       for( std::vector<MuonSegmentMatch>::const_iterator segmentMatch = chamberMatch->segmentMatches.begin();
00130             segmentMatch != chamberMatch->segmentMatches.end(); segmentMatch++ )
00131       {
00132          if(type == SegmentArbitration)
00133             if(segmentMatch->isMask(MuonSegmentMatch::BestInStationByDR)) {
00134                curMask = 1<<( (chamberMatch->station()-1)+4*(chamberMatch->detector()-1) );
00135                // do not double count
00136                if(!(totMask & curMask))
00137                   totMask += curMask;
00138                break;
00139             }
00140          if(type == SegmentAndTrackArbitration)
00141             if(segmentMatch->isMask(MuonSegmentMatch::BestInStationByDR) &&
00142                   segmentMatch->isMask(MuonSegmentMatch::BelongsToTrackByDR)) {
00143                curMask = 1<<( (chamberMatch->station()-1)+4*(chamberMatch->detector()-1) );
00144                // do not double count
00145                if(!(totMask & curMask))
00146                   totMask += curMask;
00147                break;
00148             }
00149          if(type == SegmentAndTrackArbitrationCleaned)
00150             if(segmentMatch->isMask(MuonSegmentMatch::BestInStationByDR) &&
00151                   segmentMatch->isMask(MuonSegmentMatch::BelongsToTrackByDR) &&
00152                   segmentMatch->isMask(MuonSegmentMatch::BelongsToTrackByCleaning)) {
00153                curMask = 1<<( (chamberMatch->station()-1)+4*(chamberMatch->detector()-1) );
00154                // do not double count
00155                if(!(totMask & curMask))
00156                   totMask += curMask;
00157                break;
00158             }
00159          if(type > 1<<7)
00160             if(segmentMatch->isMask(type)) {
00161                curMask = 1<<( (chamberMatch->station()-1)+4*(chamberMatch->detector()-1) );
00162                // do not double count
00163                if(!(totMask & curMask))
00164                   totMask += curMask;
00165                break;
00166             }
00167       }
00168    }
00169 
00170    return totMask;
00171 }
00172 
00173 unsigned int Muon::stationGapMaskDistance( float distanceCut ) const
00174 {
00175    unsigned int totMask(0);
00176    for( int stationIndex = 1; stationIndex < 5; stationIndex++ )
00177    {
00178       for( int detectorIndex = 1; detectorIndex < 4; detectorIndex++ )
00179       {
00180          unsigned int curMask(0);
00181          for( std::vector<MuonChamberMatch>::const_iterator chamberMatch = muMatches_.begin();
00182                chamberMatch != muMatches_.end(); chamberMatch++ )
00183          {
00184             if(!(chamberMatch->station()==stationIndex && chamberMatch->detector()==detectorIndex)) continue;
00185 
00186             float edgeX = chamberMatch->edgeX;
00187             float edgeY = chamberMatch->edgeY;
00188             if(edgeX<0 && fabs(edgeX)>fabs(distanceCut) &&
00189                   edgeY<0 && fabs(edgeY)>fabs(distanceCut)) // inside the chamber so negates all gaps for this station
00190             {
00191                curMask = 0;
00192                break;
00193             }
00194             if( ( fabs(edgeX) < fabs(distanceCut) && edgeY < fabs(distanceCut) ) ||
00195                 ( fabs(edgeY) < fabs(distanceCut) && edgeX < fabs(distanceCut) ) ) // inside gap
00196                curMask = 1<<( (stationIndex-1)+4*(detectorIndex-1) );
00197          }
00198 
00199          totMask += curMask; // add to total mask
00200       }
00201    }
00202 
00203    return totMask;
00204 }
00205 
00206 unsigned int Muon::stationGapMaskPull( float sigmaCut ) const
00207 {
00208    unsigned int totMask(0);
00209    for( int stationIndex = 1; stationIndex < 5; stationIndex++ )
00210    {
00211       for( int detectorIndex = 1; detectorIndex < 4; detectorIndex++ )
00212       {
00213          unsigned int curMask(0);
00214          for( std::vector<MuonChamberMatch>::const_iterator chamberMatch = muMatches_.begin();
00215                chamberMatch != muMatches_.end(); chamberMatch++ )
00216          {
00217             if(!(chamberMatch->station()==stationIndex && chamberMatch->detector()==detectorIndex)) continue;
00218 
00219             float edgeX = chamberMatch->edgeX;
00220             float edgeY = chamberMatch->edgeY;
00221             float xErr  = chamberMatch->xErr+0.000001; // protect against division by zero later
00222             float yErr  = chamberMatch->yErr+0.000001; // protect against division by zero later
00223             if(edgeX<0 && fabs(edgeX/xErr)>fabs(sigmaCut) &&
00224                   edgeY<0 && fabs(edgeY/yErr)>fabs(sigmaCut)) // inside the chamber so negates all gaps for this station
00225             {
00226                curMask = 0;
00227                break;
00228             }
00229             if( ( fabs(edgeX/xErr) < fabs(sigmaCut) && edgeY/yErr < fabs(sigmaCut) ) ||
00230                 ( fabs(edgeY/yErr) < fabs(sigmaCut) && edgeX/xErr < fabs(sigmaCut) ) ) // inside gap
00231                curMask = 1<<((stationIndex-1)+4*(detectorIndex-1));
00232          }
00233 
00234          totMask += curMask; // add to total mask
00235       }
00236    }
00237 
00238    return totMask;
00239 }
00240 
00241 int Muon::numberOfSegments( int station, int muonSubdetId, ArbitrationType type ) const
00242 {
00243    int segments(0);
00244    for( std::vector<MuonChamberMatch>::const_iterator chamberMatch = muMatches_.begin();
00245          chamberMatch != muMatches_.end(); chamberMatch++ )
00246    {
00247       if(chamberMatch->segmentMatches.empty()) continue;
00248       if(!(chamberMatch->station()==station && chamberMatch->detector()==muonSubdetId)) continue;
00249 
00250       if(type == NoArbitration) {
00251          segments += chamberMatch->segmentMatches.size();
00252          continue;
00253       }
00254 
00255       for( std::vector<MuonSegmentMatch>::const_iterator segmentMatch = chamberMatch->segmentMatches.begin();
00256             segmentMatch != chamberMatch->segmentMatches.end(); segmentMatch++ )
00257       {
00258          if(type == SegmentArbitration)
00259             if(segmentMatch->isMask(MuonSegmentMatch::BestInStationByDR)) {
00260                segments++;
00261                break;
00262             }
00263          if(type == SegmentAndTrackArbitration)
00264             if(segmentMatch->isMask(MuonSegmentMatch::BestInStationByDR) &&
00265                   segmentMatch->isMask(MuonSegmentMatch::BelongsToTrackByDR)) {
00266                segments++;
00267                break;
00268             }
00269          if(type == SegmentAndTrackArbitrationCleaned)
00270             if(segmentMatch->isMask(MuonSegmentMatch::BestInStationByDR) &&
00271                   segmentMatch->isMask(MuonSegmentMatch::BelongsToTrackByDR) &&
00272                   segmentMatch->isMask(MuonSegmentMatch::BelongsToTrackByCleaning)) {
00273                segments++;
00274                break;
00275             }
00276          if(type > 1<<7)
00277             if(segmentMatch->isMask(type)) {
00278                segments++;
00279                break;
00280             }
00281       }
00282    }
00283 
00284    return segments;
00285 }
00286 
00287 const std::vector<const MuonChamberMatch*> Muon::chambers( int station, int muonSubdetId ) const
00288 {
00289    std::vector<const MuonChamberMatch*> chambers;
00290    for(std::vector<MuonChamberMatch>::const_iterator chamberMatch = muMatches_.begin();
00291          chamberMatch != muMatches_.end(); chamberMatch++)
00292       if(chamberMatch->station()==station && chamberMatch->detector()==muonSubdetId)
00293          chambers.push_back(&(*chamberMatch));
00294    return chambers;
00295 }
00296 
00297 std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> Muon::pair( const std::vector<const MuonChamberMatch*> &chambers,
00298      ArbitrationType type ) const
00299 {
00300    MuonChamberMatch* m = 0;
00301    MuonSegmentMatch* s = 0;
00302    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair(m,s);
00303 
00304    if(chambers.empty()) return chamberSegmentPair;
00305    for( std::vector<const MuonChamberMatch*>::const_iterator chamberMatch = chambers.begin();
00306          chamberMatch != chambers.end(); chamberMatch++ )
00307    {
00308       if((*chamberMatch)->segmentMatches.empty()) continue;
00309       if(type == NoArbitration)
00310          return std::make_pair(*chamberMatch, &((*chamberMatch)->segmentMatches.front()));
00311 
00312       for( std::vector<MuonSegmentMatch>::const_iterator segmentMatch = (*chamberMatch)->segmentMatches.begin();
00313             segmentMatch != (*chamberMatch)->segmentMatches.end(); segmentMatch++ )
00314       {
00315          if(type == SegmentArbitration)
00316             if(segmentMatch->isMask(MuonSegmentMatch::BestInStationByDR)) 
00317                return std::make_pair(*chamberMatch, &(*segmentMatch));
00318          if(type == SegmentAndTrackArbitration)
00319             if(segmentMatch->isMask(MuonSegmentMatch::BestInStationByDR) &&
00320                   segmentMatch->isMask(MuonSegmentMatch::BelongsToTrackByDR))
00321                return std::make_pair(*chamberMatch, &(*segmentMatch));
00322          if(type == SegmentAndTrackArbitrationCleaned)
00323             if(segmentMatch->isMask(MuonSegmentMatch::BestInStationByDR) &&
00324                   segmentMatch->isMask(MuonSegmentMatch::BelongsToTrackByDR) &&
00325                   segmentMatch->isMask(MuonSegmentMatch::BelongsToTrackByCleaning))
00326                return std::make_pair(*chamberMatch, &(*segmentMatch));
00327          if(type > 1<<7)
00328             if(segmentMatch->isMask(type))
00329                return std::make_pair(*chamberMatch, &(*segmentMatch));
00330       }
00331    }
00332 
00333    return chamberSegmentPair;
00334 }
00335 
00336 float Muon::dX( int station, int muonSubdetId, ArbitrationType type ) const
00337 {
00338    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00339    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00340    if(! chamberSegmentPair.second->hasPhi()) return 999999;
00341    return chamberSegmentPair.first->x-chamberSegmentPair.second->x;
00342 }
00343 
00344 float Muon::dY( int station, int muonSubdetId, ArbitrationType type ) const
00345 {
00346    if(station==4 && muonSubdetId==MuonSubdetId::DT) return 999999; // no y information
00347    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00348    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00349    if(! chamberSegmentPair.second->hasZed()) return 999999;
00350    return chamberSegmentPair.first->y-chamberSegmentPair.second->y;
00351 }
00352 
00353 float Muon::dDxDz( int station, int muonSubdetId, ArbitrationType type ) const
00354 {
00355    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00356    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00357    if(! chamberSegmentPair.second->hasPhi()) return 999999;
00358    return chamberSegmentPair.first->dXdZ-chamberSegmentPair.second->dXdZ;
00359 }
00360 
00361 float Muon::dDyDz( int station, int muonSubdetId, ArbitrationType type ) const
00362 {
00363    if(station==4 && muonSubdetId==MuonSubdetId::DT) return 999999; // no y information
00364    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00365    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00366    if(! chamberSegmentPair.second->hasZed()) return 999999;
00367    return chamberSegmentPair.first->dYdZ-chamberSegmentPair.second->dYdZ;
00368 }
00369 
00370 float Muon::pullX( int station, int muonSubdetId, ArbitrationType type, bool includeSegmentError ) const
00371 {
00372    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00373    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00374    if(! chamberSegmentPair.second->hasPhi()) return 999999;
00375    if(includeSegmentError)
00376       return (chamberSegmentPair.first->x-chamberSegmentPair.second->x)/sqrt(pow(chamberSegmentPair.first->xErr,2)+pow(chamberSegmentPair.second->xErr,2));
00377    return (chamberSegmentPair.first->x-chamberSegmentPair.second->x)/chamberSegmentPair.first->xErr;
00378 }
00379 
00380 float Muon::pullY( int station, int muonSubdetId, ArbitrationType type, bool includeSegmentError) const
00381 {
00382    if(station==4 && muonSubdetId==MuonSubdetId::DT) return 999999; // no y information
00383    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00384    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00385    if(! chamberSegmentPair.second->hasZed()) return 999999;
00386    if(includeSegmentError)
00387       return (chamberSegmentPair.first->y-chamberSegmentPair.second->y)/sqrt(pow(chamberSegmentPair.first->yErr,2)+pow(chamberSegmentPair.second->yErr,2));
00388    return (chamberSegmentPair.first->y-chamberSegmentPair.second->y)/chamberSegmentPair.first->yErr;
00389 }
00390 
00391 float Muon::pullDxDz( int station, int muonSubdetId, ArbitrationType type, bool includeSegmentError ) const
00392 {
00393    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00394    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00395    if(! chamberSegmentPair.second->hasPhi()) return 999999;
00396    if(includeSegmentError)
00397       return (chamberSegmentPair.first->dXdZ-chamberSegmentPair.second->dXdZ)/sqrt(pow(chamberSegmentPair.first->dXdZErr,2)+pow(chamberSegmentPair.second->dXdZErr,2));
00398    return (chamberSegmentPair.first->dXdZ-chamberSegmentPair.second->dXdZ)/chamberSegmentPair.first->dXdZErr;
00399 }
00400 
00401 float Muon::pullDyDz( int station, int muonSubdetId, ArbitrationType type, bool includeSegmentError ) const
00402 {
00403    if(station==4 && muonSubdetId==MuonSubdetId::DT) return 999999; // no y information
00404    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00405    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00406    if(! chamberSegmentPair.second->hasZed()) return 999999;
00407    if(includeSegmentError)
00408       return (chamberSegmentPair.first->dYdZ-chamberSegmentPair.second->dYdZ)/sqrt(pow(chamberSegmentPair.first->dYdZErr,2)+pow(chamberSegmentPair.second->dYdZErr,2));
00409    return (chamberSegmentPair.first->dYdZ-chamberSegmentPair.second->dYdZ)/chamberSegmentPair.first->dYdZErr;
00410 }
00411 
00412 float Muon::segmentX( int station, int muonSubdetId, ArbitrationType type ) const
00413 {
00414    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00415    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00416    if(! chamberSegmentPair.second->hasPhi()) return 999999;
00417    return chamberSegmentPair.second->x;
00418 }
00419 
00420 float Muon::segmentY( int station, int muonSubdetId, ArbitrationType type ) const
00421 {
00422    if(station==4 && muonSubdetId==MuonSubdetId::DT) return 999999; // no y information
00423    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00424    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00425    if(! chamberSegmentPair.second->hasZed()) return 999999;
00426    return chamberSegmentPair.second->y;
00427 }
00428 
00429 float Muon::segmentDxDz( int station, int muonSubdetId, ArbitrationType type ) const
00430 {
00431    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00432    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00433    if(! chamberSegmentPair.second->hasPhi()) return 999999;
00434    return chamberSegmentPair.second->dXdZ;
00435 }
00436 
00437 float Muon::segmentDyDz( int station, int muonSubdetId, ArbitrationType type ) const
00438 {
00439    if(station==4 && muonSubdetId==MuonSubdetId::DT) return 999999; // no y information
00440    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00441    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00442    if(! chamberSegmentPair.second->hasZed()) return 999999;
00443    return chamberSegmentPair.second->dYdZ;
00444 }
00445 
00446 float Muon::segmentXErr( int station, int muonSubdetId, ArbitrationType type ) const
00447 {
00448    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00449    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00450    if(! chamberSegmentPair.second->hasPhi()) return 999999;
00451    return chamberSegmentPair.second->xErr;
00452 }
00453 
00454 float Muon::segmentYErr( int station, int muonSubdetId, ArbitrationType type ) const
00455 {
00456    if(station==4 && muonSubdetId==MuonSubdetId::DT) return 999999; // no y information
00457    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00458    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00459    if(! chamberSegmentPair.second->hasZed()) return 999999;
00460    return chamberSegmentPair.second->yErr;
00461 }
00462 
00463 float Muon::segmentDxDzErr( int station, int muonSubdetId, ArbitrationType type ) const
00464 {
00465    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00466    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00467    if(! chamberSegmentPair.second->hasPhi()) return 999999;
00468    return chamberSegmentPair.second->dXdZErr;
00469 }
00470 
00471 float Muon::segmentDyDzErr( int station, int muonSubdetId, ArbitrationType type ) const
00472 {
00473    if(station==4 && muonSubdetId==MuonSubdetId::DT) return 999999; // no y information
00474    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(chambers(station,muonSubdetId),type);
00475    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) return 999999;
00476    if(! chamberSegmentPair.second->hasZed()) return 999999;
00477    return chamberSegmentPair.second->dYdZErr;
00478 }
00479 
00480 float Muon::trackEdgeX( int station, int muonSubdetId, ArbitrationType type ) const
00481 {
00482    const std::vector<const MuonChamberMatch*> muonChambers = chambers(station, muonSubdetId);
00483    if(muonChambers.empty()) return 999999;
00484 
00485    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(muonChambers,type);
00486    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) {
00487       float dist  = 999999;
00488       float supVar = 999999;
00489       for(std::vector<const MuonChamberMatch*>::const_iterator muonChamber = muonChambers.begin();
00490             muonChamber != muonChambers.end(); ++muonChamber) {
00491          float currDist = (*muonChamber)->dist();
00492          if(currDist<dist) {
00493             dist  = currDist;
00494             supVar = (*muonChamber)->edgeX;
00495          }
00496       }
00497       return supVar;
00498    } else return chamberSegmentPair.first->edgeX;
00499 }
00500 
00501 float Muon::trackEdgeY( int station, int muonSubdetId, ArbitrationType type ) const
00502 {
00503    const std::vector<const MuonChamberMatch*> muonChambers = chambers(station, muonSubdetId);
00504    if(muonChambers.empty()) return 999999;
00505 
00506    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(muonChambers,type);
00507    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) {
00508       float dist  = 999999;
00509       float supVar = 999999;
00510       for(std::vector<const MuonChamberMatch*>::const_iterator muonChamber = muonChambers.begin();
00511             muonChamber != muonChambers.end(); ++muonChamber) {
00512          float currDist = (*muonChamber)->dist();
00513          if(currDist<dist) {
00514             dist  = currDist;
00515             supVar = (*muonChamber)->edgeY;
00516          }
00517       }
00518       return supVar;
00519    } else return chamberSegmentPair.first->edgeY;
00520 }
00521 
00522 float Muon::trackX( int station, int muonSubdetId, ArbitrationType type ) const
00523 {
00524    const std::vector<const MuonChamberMatch*> muonChambers = chambers(station, muonSubdetId);
00525    if(muonChambers.empty()) return 999999;
00526 
00527    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(muonChambers,type);
00528    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) {
00529       float dist  = 999999;
00530       float supVar = 999999;
00531       for(std::vector<const MuonChamberMatch*>::const_iterator muonChamber = muonChambers.begin();
00532             muonChamber != muonChambers.end(); ++muonChamber) {
00533          float currDist = (*muonChamber)->dist();
00534          if(currDist<dist) {
00535             dist  = currDist;
00536             supVar = (*muonChamber)->x;
00537          }
00538       }
00539       return supVar;
00540    } else return chamberSegmentPair.first->x;
00541 }
00542 
00543 float Muon::trackY( int station, int muonSubdetId, ArbitrationType type ) const
00544 {
00545    const std::vector<const MuonChamberMatch*> muonChambers = chambers(station, muonSubdetId);
00546    if(muonChambers.empty()) return 999999;
00547 
00548    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(muonChambers,type);
00549    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) {
00550       float dist  = 999999;
00551       float supVar = 999999;
00552       for(std::vector<const MuonChamberMatch*>::const_iterator muonChamber = muonChambers.begin();
00553             muonChamber != muonChambers.end(); ++muonChamber) {
00554          float currDist = (*muonChamber)->dist();
00555          if(currDist<dist) {
00556             dist  = currDist;
00557             supVar = (*muonChamber)->y;
00558          }
00559       }
00560       return supVar;
00561    } else return chamberSegmentPair.first->y;
00562 }
00563 
00564 float Muon::trackDxDz( int station, int muonSubdetId, ArbitrationType type ) const
00565 {
00566    const std::vector<const MuonChamberMatch*> muonChambers = chambers(station, muonSubdetId);
00567    if(muonChambers.empty()) return 999999;
00568 
00569    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(muonChambers,type);
00570    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) {
00571       float dist  = 999999;
00572       float supVar = 999999;
00573       for(std::vector<const MuonChamberMatch*>::const_iterator muonChamber = muonChambers.begin();
00574             muonChamber != muonChambers.end(); ++muonChamber) {
00575          float currDist = (*muonChamber)->dist();
00576          if(currDist<dist) {
00577             dist  = currDist;
00578             supVar = (*muonChamber)->dXdZ;
00579          }
00580       }
00581       return supVar;
00582    } else return chamberSegmentPair.first->dXdZ;
00583 }
00584 
00585 float Muon::trackDyDz( int station, int muonSubdetId, ArbitrationType type ) const
00586 {
00587    const std::vector<const MuonChamberMatch*> muonChambers = chambers(station, muonSubdetId);
00588    if(muonChambers.empty()) return 999999;
00589 
00590    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(muonChambers,type);
00591    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) {
00592       float dist  = 999999;
00593       float supVar = 999999;
00594       for(std::vector<const MuonChamberMatch*>::const_iterator muonChamber = muonChambers.begin();
00595             muonChamber != muonChambers.end(); ++muonChamber) {
00596          float currDist = (*muonChamber)->dist();
00597          if(currDist<dist) {
00598             dist  = currDist;
00599             supVar = (*muonChamber)->dYdZ;
00600          }
00601       }
00602       return supVar;
00603    } else return chamberSegmentPair.first->dYdZ;
00604 }
00605 
00606 float Muon::trackXErr( int station, int muonSubdetId, ArbitrationType type ) const
00607 {
00608    const std::vector<const MuonChamberMatch*> muonChambers = chambers(station, muonSubdetId);
00609    if(muonChambers.empty()) return 999999;
00610 
00611    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(muonChambers,type);
00612    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) {
00613       float dist  = 999999;
00614       float supVar = 999999;
00615       for(std::vector<const MuonChamberMatch*>::const_iterator muonChamber = muonChambers.begin();
00616             muonChamber != muonChambers.end(); ++muonChamber) {
00617          float currDist = (*muonChamber)->dist();
00618          if(currDist<dist) {
00619             dist  = currDist;
00620             supVar = (*muonChamber)->xErr;
00621          }
00622       }
00623       return supVar;
00624    } else return chamberSegmentPair.first->xErr;
00625 }
00626 
00627 float Muon::trackYErr( int station, int muonSubdetId, ArbitrationType type ) const
00628 {
00629    const std::vector<const MuonChamberMatch*> muonChambers = chambers(station, muonSubdetId);
00630    if(muonChambers.empty()) return 999999;
00631 
00632    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(muonChambers,type);
00633    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) {
00634       float dist  = 999999;
00635       float supVar = 999999;
00636       for(std::vector<const MuonChamberMatch*>::const_iterator muonChamber = muonChambers.begin();
00637             muonChamber != muonChambers.end(); ++muonChamber) {
00638          float currDist = (*muonChamber)->dist();
00639          if(currDist<dist) {
00640             dist  = currDist;
00641             supVar = (*muonChamber)->yErr;
00642          }
00643       }
00644       return supVar;
00645    } else return chamberSegmentPair.first->yErr;
00646 }
00647 
00648 float Muon::trackDxDzErr( int station, int muonSubdetId, ArbitrationType type ) const
00649 {
00650    const std::vector<const MuonChamberMatch*> muonChambers = chambers(station, muonSubdetId);
00651    if(muonChambers.empty()) return 999999;
00652 
00653    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(muonChambers,type);
00654    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) {
00655       float dist  = 999999;
00656       float supVar = 999999;
00657       for(std::vector<const MuonChamberMatch*>::const_iterator muonChamber = muonChambers.begin();
00658             muonChamber != muonChambers.end(); ++muonChamber) {
00659          float currDist = (*muonChamber)->dist();
00660          if(currDist<dist) {
00661             dist  = currDist;
00662             supVar = (*muonChamber)->dXdZErr;
00663          }
00664       }
00665       return supVar;
00666    } else return chamberSegmentPair.first->dXdZErr;
00667 }
00668 
00669 float Muon::trackDyDzErr( int station, int muonSubdetId, ArbitrationType type ) const
00670 {
00671    const std::vector<const MuonChamberMatch*> muonChambers = chambers(station, muonSubdetId);
00672    if(muonChambers.empty()) return 999999;
00673 
00674    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(muonChambers,type);
00675    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) {
00676       float dist  = 999999;
00677       float supVar = 999999;
00678       for(std::vector<const MuonChamberMatch*>::const_iterator muonChamber = muonChambers.begin();
00679             muonChamber != muonChambers.end(); ++muonChamber) {
00680          float currDist = (*muonChamber)->dist();
00681          if(currDist<dist) {
00682             dist  = currDist;
00683             supVar = (*muonChamber)->dYdZErr;
00684          }
00685       }
00686       return supVar;
00687    } else return chamberSegmentPair.first->dYdZErr;
00688 }
00689 
00690 float Muon::trackDist( int station, int muonSubdetId, ArbitrationType type ) const
00691 {
00692    const std::vector<const MuonChamberMatch*> muonChambers = chambers(station, muonSubdetId);
00693    if(muonChambers.empty()) return 999999;
00694 
00695    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(muonChambers,type);
00696    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) {
00697       float dist  = 999999;
00698       for(std::vector<const MuonChamberMatch*>::const_iterator muonChamber = muonChambers.begin();
00699             muonChamber != muonChambers.end(); ++muonChamber) {
00700          float currDist = (*muonChamber)->dist();
00701          if(currDist<dist) dist  = currDist;
00702       }
00703       return dist;
00704    } else return chamberSegmentPair.first->dist();
00705 }
00706 
00707 float Muon::trackDistErr( int station, int muonSubdetId, ArbitrationType type ) const
00708 {
00709    const std::vector<const MuonChamberMatch*> muonChambers = chambers(station, muonSubdetId);
00710    if(muonChambers.empty()) return 999999;
00711 
00712    std::pair<const MuonChamberMatch*,const MuonSegmentMatch*> chamberSegmentPair = pair(muonChambers,type);
00713    if(chamberSegmentPair.first==0 || chamberSegmentPair.second==0) {
00714       float dist  = 999999;
00715       float supVar = 999999;
00716       for(std::vector<const MuonChamberMatch*>::const_iterator muonChamber = muonChambers.begin();
00717             muonChamber != muonChambers.end(); ++muonChamber) {
00718          float currDist = (*muonChamber)->dist();
00719          if(currDist<dist) {
00720             dist  = currDist;
00721             supVar = (*muonChamber)->distErr();
00722          }
00723       }
00724       return supVar;
00725    } else return chamberSegmentPair.first->distErr();
00726 }
00727 
00728 void Muon::setIsolation( const MuonIsolation& isoR03, const MuonIsolation& isoR05 )
00729 { 
00730    isolationR03_ = isoR03;
00731    isolationR05_ = isoR05;
00732    isolationValid_ = true; 
00733 }
00734 
00735 
00736 void Muon::setPFIsolation( const MuonPFIsolation& isoR03, const MuonPFIsolation& isoR04 )
00737 { 
00738    pfIsolationR03_ = isoR03;
00739    pfIsolationR04_ = isoR04;
00740    pfIsolationValid_ = true; 
00741 }
00742 
00743 
00744 void Muon::setPFP4( const reco::Candidate::LorentzVector& p4 )
00745 { 
00746     pfP4_ = p4;
00747     type_ = type_ | PFMuon;
00748 }
00749 
00750 
00751 
00752 void Muon::setOuterTrack( const TrackRef & t ) { outerTrack_ = t; }
00753 void Muon::setInnerTrack( const TrackRef & t ) { innerTrack_ = t; }
00754 void Muon::setTrack( const TrackRef & t ) { setInnerTrack(t); }
00755 void Muon::setStandAlone( const TrackRef & t ) { setOuterTrack(t); }
00756 void Muon::setGlobalTrack( const TrackRef & t ) { globalTrack_ = t; }
00757 void Muon::setCombined( const TrackRef & t ) { setGlobalTrack(t); }
00758 
00759 
00760 bool Muon::isAValidMuonTrack(const MuonTrackType& type) const{
00761   return muonTrack(type).isNonnull();
00762 }
00763 
00764 TrackRef Muon::muonTrack(const MuonTrackType& type) const{
00765   switch (type) {
00766   case InnerTrack:     return innerTrack();
00767   case OuterTrack:     return standAloneMuon(); 
00768   case CombinedTrack:  return globalTrack();
00769   case TPFMS:          return tpfmsTrack();
00770   case Picky:          return pickyTrack();
00771   case DYT:            return dytTrack();
00772   default:             return muonTrackFromMap(type);
00773   }
00774 }
00775 
00776 void Muon::setMuonTrack(const MuonTrackType& type, const TrackRef& t) {
00777   
00778   switch (type) {
00779   case InnerTrack:    setInnerTrack(t);             break;
00780   case OuterTrack:    setStandAlone(t);             break;
00781   case CombinedTrack: setGlobalTrack(t);            break;
00782   default:            refittedTrackMap_[type] = t;  break;
00783   }
00784 
00785 }
00786