TreeFiller/src/FillerMuons.cc

// $Id: FillerMuons.cc,v 1.38 2011/03/13 22:16:08 bendavid Exp $

#include "MitProd/TreeFiller/interface/FillerMuons.h"
#include "DataFormats/MuonReco/interface/Muon.h"
#include "DataFormats/MuonReco/interface/MuonQuality.h"
#include "DataFormats/MuonReco/interface/MuonFwd.h"
#include "DataFormats/MuonReco/interface/MuonSelectors.h"
#include "DataFormats/Common/interface/RefToPtr.h"
#include "DataFormats/VertexReco/interface/VertexFwd.h"
#include "TrackingTools/TransientTrack/interface/TransientTrackBuilder.h"
#include "TrackingTools/TransientTrack/plugins/TransientTrackBuilderESProducer.h"
#include "TrackingTools/IPTools/interface/IPTools.h"
#include "RecoVertex/KalmanVertexFit/interface/KalmanVertexTrackCompatibilityEstimator.h" 
#include "MitAna/DataTree/interface/Names.h"
#include "MitAna/DataTree/interface/MuonCol.h"
#include "MitAna/DataTree/interface/Track.h"
#include "MitProd/ObjectService/interface/ObjectService.h"
#include "RecoVertex/VertexTools/interface/LinearizedTrackStateFactory.h"
#include "RecoVertex/VertexTools/interface/VertexTrackFactory.h"
#include "RecoVertex/VertexPrimitives/interface/VertexTrack.h"
#include "RecoVertex/VertexPrimitives/interface/CachingVertex.h"
#include "RecoVertex/KalmanVertexFit/interface/KalmanVertexUpdator.h"

using namespace std;
using namespace edm;
using namespace mithep;

//--------------------------------------------------------------------------------------------------
FillerMuons::FillerMuons(const edm::ParameterSet &cfg, const char *name, bool active) :
  BaseFiller(cfg,name,active),
  edmName_(Conf().getUntrackedParameter<string>("edmName","muons")),
  expectedHitsName_(Conf().getUntrackedParameter<string>("expectedHitsName","")),
  mitName_(Conf().getUntrackedParameter<string>("mitName",Names::gkMuonBrn)),
  globalTrackMapName_(Conf().getUntrackedParameter<string>("globalTrackMapName","")),
  staTrackMapName_(Conf().getUntrackedParameter<string>("staTrackMapName","")),
  staVtxTrackMapName_(Conf().getUntrackedParameter<string>("staVtxTrackMapName","")),
  trackerTrackMapName_(Conf().getUntrackedParameter<string>("trackerTrackMapName","")),
  muonMapName_(Conf().getUntrackedParameter<string>("muonMapName","")),
  pvEdmName_(Conf().getUntrackedParameter<string>("pvEdmName","offlinePrimaryVertices")),
  pvBSEdmName_(Conf().getUntrackedParameter<string>("pvBSEdmName","offlinePrimaryVerticesWithBS")),
  globalTrackMap_(0),
  standaloneTrackMap_(0),
  standaloneVtxTrackMap_(0),
  trackerTrackMap_(0),
  muonMap_(new mithep::MuonMap),
  muons_(new mithep::MuonArr(16))
{
  // Constructor.
}

//--------------------------------------------------------------------------------------------------
FillerMuons::~FillerMuons() 
{
  // Destructor.

  delete muons_;
  delete muonMap_;
}

//--------------------------------------------------------------------------------------------------
void FillerMuons::BookDataBlock(TreeWriter &tws) 
{ 
  // Add muons branch to tree and get pointers to maps.

  tws.AddBranch(mitName_,&muons_);
  OS()->add<mithep::MuonArr>(muons_,mitName_);

  if (!globalTrackMapName_.empty()) {
    globalTrackMap_ = OS()->get<TrackMap>(globalTrackMapName_);
    if (globalTrackMap_)
      AddBranchDep(mitName_,globalTrackMap_->GetBrName());
  }
  if (!staTrackMapName_.empty()) {
    standaloneTrackMap_ = OS()->get<TrackMap>(staTrackMapName_);
    if (standaloneTrackMap_)
      AddBranchDep(mitName_,standaloneTrackMap_->GetBrName());
  }
  if (!staVtxTrackMapName_.empty()) {
    standaloneVtxTrackMap_ = OS()->get<TrackMap>(staVtxTrackMapName_);
    if (standaloneVtxTrackMap_)
      AddBranchDep(mitName_,standaloneVtxTrackMap_->GetBrName());
  }
  if (!trackerTrackMapName_.empty()) {
    trackerTrackMap_ = OS()->get<TrackMap>(trackerTrackMapName_);
    if (trackerTrackMap_)
      AddBranchDep(mitName_,trackerTrackMap_->GetBrName());
  }
  if (!muonMapName_.empty()) {
    muonMap_->SetBrName(mitName_);
    OS()->add<MuonMap>(muonMap_,muonMapName_);
  }
}

//--------------------------------------------------------------------------------------------------
void FillerMuons::FillDataBlock(const edm::Event      &event, 
                                const edm::EventSetup &setup)
{
  // Fill muon information. 

  muons_->Delete();
  muonMap_->Reset();
  
  Handle<reco::MuonCollection> hMuonProduct;
  GetProduct(edmName_, hMuonProduct, event);  
  const reco::MuonCollection inMuons = *(hMuonProduct.product());  

  edm::Handle<reco::VertexCollection> hVertex;
  event.getByLabel(pvEdmName_, hVertex);
  const reco::VertexCollection *pvCol = hVertex.product();

  edm::Handle<reco::VertexCollection> hVertexBS;
  event.getByLabel(pvBSEdmName_, hVertexBS);
  const reco::VertexCollection *pvBSCol = hVertexBS.product();
  
  edm::ESHandle<TransientTrackBuilder> hTransientTrackBuilder;
  setup.get<TransientTrackRecord>().get("TransientTrackBuilder",hTransientTrackBuilder);
  const TransientTrackBuilder *transientTrackBuilder = hTransientTrackBuilder.product();

  KalmanVertexTrackCompatibilityEstimator<5> kalmanEstimator;

  LinearizedTrackStateFactory lTrackFactory;
  VertexTrackFactory<5> vTrackFactory;
  KalmanVertexUpdator<5> updator;

  for (reco::MuonCollection::const_iterator iM = inMuons.begin(); iM != inMuons.end(); ++iM) {  
    mithep::Muon* outMuon = muons_->AddNew();

    outMuon->SetPtEtaPhi(iM->pt(),iM->eta(),iM->phi());
    outMuon->SetCharge(iM->charge());

    outMuon->SetIsoR03SumPt(iM->isolationR03().sumPt);
    outMuon->SetIsoR03EmEt(iM->isolationR03().emEt);
    outMuon->SetIsoR03HadEt(iM->isolationR03().hadEt);
    outMuon->SetIsoR03HoEt(iM->isolationR03().hoEt);
    outMuon->SetIsoR03NTracks(iM->isolationR03().nTracks);
    outMuon->SetIsoR03NJets(iM->isolationR03().nJets);
    outMuon->SetIsoR05SumPt(iM->isolationR05().sumPt);
    outMuon->SetIsoR05EmEt(iM->isolationR05().emEt);
    outMuon->SetIsoR05HadEt(iM->isolationR05().hadEt);
    outMuon->SetIsoR05HoEt(iM->isolationR05().hoEt);
    outMuon->SetIsoR05NTracks(iM->isolationR05().nTracks);
    outMuon->SetIsoR05NJets(iM->isolationR05().nJets);
    outMuon->SetEmEnergy(iM->calEnergy().em);
    outMuon->SetHadEnergy(iM->calEnergy().had);
    outMuon->SetHoEnergy(iM->calEnergy().ho);
    outMuon->SetEmS9Energy(iM->calEnergy().emS9);
    outMuon->SetHadS9Energy(iM->calEnergy().hadS9);
    outMuon->SetHoS9Energy(iM->calEnergy().hoS9);
    outMuon->SetIsGlobalMuon(iM->isGlobalMuon());
    outMuon->SetIsTrackerMuon(iM->isTrackerMuon());
    outMuon->SetIsStandaloneMuon(iM->isStandAloneMuon());
    outMuon->SetIsCaloMuon(iM->isCaloMuon());

    //save results from the muon selector in the MuonQuality bitmask
    outMuon->Quality().SetQuality(MuonQuality::All);
    if (muon::isGoodMuon(*iM,muon::AllGlobalMuons))
      outMuon->Quality().SetQuality(MuonQuality::AllGlobalMuons);
    if (muon::isGoodMuon(*iM,muon::AllStandAloneMuons))
      outMuon->Quality().SetQuality(MuonQuality::AllStandAloneMuons);
    if (muon::isGoodMuon(*iM,muon::AllTrackerMuons))
      outMuon->Quality().SetQuality(MuonQuality::AllTrackerMuons);
    if (muon::isGoodMuon(*iM,muon::TrackerMuonArbitrated))
      outMuon->Quality().SetQuality(MuonQuality::TrackerMuonArbitrated);
    if (muon::isGoodMuon(*iM,muon::AllArbitrated))
      outMuon->Quality().SetQuality(MuonQuality::AllArbitrated);
    if (muon::isGoodMuon(*iM,muon::GlobalMuonPromptTight))
      outMuon->Quality().SetQuality(MuonQuality::GlobalMuonPromptTight);
    if (muon::isGoodMuon(*iM,muon::TMLastStationLoose))
      outMuon->Quality().SetQuality(MuonQuality::TMLastStationLoose);
    if (muon::isGoodMuon(*iM,muon::TMLastStationTight))
      outMuon->Quality().SetQuality(MuonQuality::TMLastStationTight);
    if (muon::isGoodMuon(*iM,muon::TM2DCompatibilityLoose))
      outMuon->Quality().SetQuality(MuonQuality::TM2DCompatibilityLoose);
    if (muon::isGoodMuon(*iM,muon::TM2DCompatibilityTight))
      outMuon->Quality().SetQuality(MuonQuality::TM2DCompatibilityTight);
    if (muon::isGoodMuon(*iM,muon::TMOneStationLoose))
      outMuon->Quality().SetQuality(MuonQuality::TMOneStationLoose);
    if (muon::isGoodMuon(*iM,muon::TMOneStationTight))
      outMuon->Quality().SetQuality(MuonQuality::TMOneStationTight);
    if (muon::isGoodMuon(*iM,muon::TMLastStationOptimizedLowPtLoose))
      outMuon->Quality().SetQuality(MuonQuality::TMLastStationOptimizedLowPtLoose);
    if (muon::isGoodMuon(*iM,muon::TMLastStationOptimizedLowPtTight))
      outMuon->Quality().SetQuality(MuonQuality::TMLastStationOptimizedLowPtTight);
    if (muon::isGoodMuon(*iM,muon::GMTkChiCompatibility))
      outMuon->Quality().SetQuality(MuonQuality::GMTkChiCompatibility);
    if (muon::isGoodMuon(*iM,muon::GMStaChiCompatibility))
      outMuon->Quality().SetQuality(MuonQuality::GMStaChiCompatibility);
    if (muon::isGoodMuon(*iM,muon::GMTkKinkTight))
      outMuon->Quality().SetQuality(MuonQuality::GMTkKinkTight);
    if (muon::isGoodMuon(*iM,muon::TMLastStationAngLoose))
      outMuon->Quality().SetQuality(MuonQuality::TMLastStationAngLoose);
    if (muon::isGoodMuon(*iM,muon::TMLastStationAngTight))
      outMuon->Quality().SetQuality(MuonQuality::TMLastStationAngTight);
    if (muon::isGoodMuon(*iM,muon::TMOneStationAngLoose))
      outMuon->Quality().SetQuality(MuonQuality::TMOneStationAngLoose);
    if (muon::isGoodMuon(*iM,muon::TMOneStationAngTight))
      outMuon->Quality().SetQuality(MuonQuality::TMOneStationAngTight);
    if (muon::isGoodMuon(*iM,muon::TMLastStationOptimizedBarrelLowPtLoose))
      outMuon->Quality().SetQuality(MuonQuality::TMLastStationOptimizedBarrelLowPtLoose);
    if (muon::isGoodMuon(*iM,muon::TMLastStationOptimizedBarrelLowPtTight))
      outMuon->Quality().SetQuality(MuonQuality::TMLastStationOptimizedBarrelLowPtTight);
 

    if (globalTrackMap_ && iM->combinedMuon().isNonnull()) {
      outMuon->SetGlobalTrk(globalTrackMap_->GetMit(refToPtr(iM->combinedMuon())));    
      outMuon->SetNValidHits (iM->globalTrack()->hitPattern().numberOfValidMuonHits());
    }
    if (standaloneTrackMap_ && standaloneVtxTrackMap_ && iM->standAloneMuon().isNonnull()) { 
      Int_t refProductId = iM->standAloneMuon().id().id();
      if ( refProductId == standaloneVtxTrackMap_->GetEdmProductId())
        outMuon->SetStandaloneTrk(standaloneVtxTrackMap_->GetMit(refToPtr(iM->standAloneMuon())));
      else if ( refProductId == standaloneTrackMap_->GetEdmProductId())
        outMuon->SetStandaloneTrk(standaloneTrackMap_->GetMit(refToPtr(iM->standAloneMuon())));
      else throw edm::Exception(edm::errors::Configuration, "FillerMuons:FillDataBlock()\n")
             << "Error! Track reference in unmapped collection " << edmName_ << endl;
    }
    if (trackerTrackMap_ && iM->track().isNonnull()) {
      outMuon->SetTrackerTrk(trackerTrackMap_->GetMit(refToPtr(iM->track())));
    }

    //compute impact parameter with respect to PV
    if (iM->track().isNonnull()) {
      const reco::TransientTrack &tt = transientTrackBuilder->build(iM->track()); 

      reco::Vertex thevtx;// = pvCol->at(0);
      reco::Vertex thevtxbs;// = pvBSCol->at(0);

      double mindzvtx = 9999.;
      for (uint ivtx = 0; ivtx<pvCol->size(); ++ivtx) {
        reco::Vertex avtx = pvCol->at(ivtx);
        double dzvtx = std::abs(iM->track()->dz(avtx.position()));
        if (dzvtx<mindzvtx) {
          mindzvtx = dzvtx;
          thevtx = avtx;
        }
      }

      double mindzvtxbs = 9999.;
      for (uint ivtxbs = 0; ivtxbs<pvBSCol->size(); ++ivtxbs) {
        reco::Vertex avtxbs = pvBSCol->at(ivtxbs);
        double dzvtxbs = std::abs(iM->track()->dz(avtxbs.position()));
        if (dzvtxbs<mindzvtxbs) {
          mindzvtxbs = dzvtxbs;
          thevtxbs = avtxbs;
        }
      }

      if (0) { //don't refit vertex for now
      
        if (find(thevtx.tracks_begin(), thevtx.tracks_end(), tt.trackBaseRef()) != thevtx.tracks_end()) {
            GlobalPoint linP(Basic3DVector<float> (thevtx.position()));
            KalmanVertexUpdator<5>::RefCountedLinearizedTrackState linTrack = lTrackFactory.linearizedTrackState(linP, tt);
            GlobalError err(thevtx.covariance());
            VertexState vState(linP, err);
            KalmanVertexUpdator<5>::RefCountedVertexTrack vertexTrack = vTrackFactory.vertexTrack(linTrack, vState);
        
            std::vector<KalmanVertexUpdator<5>::RefCountedVertexTrack> initialTracks(1, vertexTrack);
            CachingVertex<5> cachingVertex(linP, err, initialTracks, thevtx.chi2());
            const CachingVertex<5> &newCachingVertex = updator.remove(cachingVertex,vertexTrack);

            if (newCachingVertex.isValid()) {
              const TransientVertex &tvtx = newCachingVertex;
              thevtx = tvtx;
            }
        }

        if (find(thevtxbs.tracks_begin(), thevtxbs.tracks_end(), tt.trackBaseRef()) != thevtxbs.tracks_end()) {
            GlobalPoint linP(Basic3DVector<float> (thevtxbs.position()));
            KalmanVertexUpdator<5>::RefCountedLinearizedTrackState linTrack = lTrackFactory.linearizedTrackState(linP, tt);
            GlobalError err(thevtxbs.covariance());
            VertexState vState(linP, err);
            KalmanVertexUpdator<5>::RefCountedVertexTrack vertexTrack = vTrackFactory.vertexTrack(linTrack, vState);
        
            std::vector<KalmanVertexUpdator<5>::RefCountedVertexTrack> initialTracks(1, vertexTrack);
            CachingVertex<5> cachingVertex(linP, err, initialTracks, thevtxbs.chi2());
            const CachingVertex<5> &newCachingVertex = updator.remove(cachingVertex,vertexTrack);

            if (newCachingVertex.isValid()) {
              const TransientVertex &tvtx = newCachingVertex;
              thevtxbs = tvtx;
            }
        }
      
      }

      //preserve sign of transverse impact parameter (cross-product definition from track, not lifetime-signing)
      const double thesign   = ( (-iM->track()->dxy(thevtx.position()))   >=0 ) ? 1. : -1.;
      const double thesignbs = ( (-iM->track()->dxy(thevtxbs.position())) >=0 ) ? 1. : -1.;

      const std::pair<bool,Measurement1D> &d0pv =  IPTools::absoluteTransverseImpactParameter(tt,thevtx);
      if (d0pv.first) {
        outMuon->SetD0PV(thesign*d0pv.second.value());
        outMuon->SetD0PVErr(d0pv.second.error());
      }
      else {
        outMuon->SetD0PV(-99.0);
      }

      const std::pair<bool,Measurement1D> &ip3dpv =  IPTools::absoluteImpactParameter3D(tt,thevtx);
      if (ip3dpv.first) {
        outMuon->SetIp3dPV(thesign*ip3dpv.second.value());
        outMuon->SetIp3dPVErr(ip3dpv.second.error());
      }
      else {
        outMuon->SetIp3dPV(-99.0);
      }

      const std::pair<bool,Measurement1D> &d0pvbs =  IPTools::absoluteTransverseImpactParameter(tt,thevtxbs);
      if (d0pvbs.first) {
        outMuon->SetD0PVBS(thesignbs*d0pvbs.second.value());
        outMuon->SetD0PVBSErr(d0pvbs.second.error());
      }
      else {
        outMuon->SetD0PVBS(-99.0);
      }

      const std::pair<bool,Measurement1D> &ip3dpvbs =  IPTools::absoluteImpactParameter3D(tt,thevtxbs);
      if (ip3dpvbs.first) {
        outMuon->SetIp3dPVBS(thesignbs*ip3dpvbs.second.value());
        outMuon->SetIp3dPVBSErr(ip3dpvbs.second.error());
      }
      else {
        outMuon->SetIp3dPVBS(-99.0);
      }

      //compute compatibility with PV using taking into account also the case where muon track
      //was included in the vertex fit
      if (iM->track()->extra().isAvailable()) {
  
        const std::pair<bool,double> &pvCompat = kalmanEstimator.estimate(pvCol->at(0),tt);
        if (pvCompat.first) {
          outMuon->SetPVCompatibility(pvCompat.second);
        }
        else {
          outMuon->SetPVCompatibility(-99.0);
        }
  
        const std::pair<bool,double> &pvbsCompat = kalmanEstimator.estimate(pvBSCol->at(0),tt);
        if (pvbsCompat.first) {
          outMuon->SetPVBSCompatibility(pvbsCompat.second);
        }
        else {
          outMuon->SetPVBSCompatibility(-99.0);
        }
      }

    }

    outMuon->SetNChambers  (iM->numberOfChambers());
    outMuon->SetStationMask(iM->stationMask(reco::Muon::SegmentAndTrackArbitration));
    outMuon->SetNMatches   (iM->numberOfMatches());
    for(int i0 = 0; i0 < 4; i0++) {
      // DTs
      outMuon->SetDX(i0,            iM->dX(i0+1,1));
      outMuon->SetDY(i0,            iM->dY(i0+1,1));
      outMuon->SetPullX(i0,         iM->pullX(i0+1,1));
      outMuon->SetPullY(i0,         iM->pullY(i0+1,1));
      outMuon->SetTrackDist(i0,     iM->trackDist(i0+1,1));
      outMuon->SetTrackDistErr(i0,  iM->trackDistErr(i0+1,1));
      outMuon->SetNSegments(i0,     NumberOfSegments(&(*iM),i0+1,1));
      // CSCs
      outMuon->SetDX(4+i0,          iM->dX       (i0+1,2));
      outMuon->SetDY(4+i0,          iM->dY       (i0+1,2));
      outMuon->SetPullX(4+i0,       iM->pullX    (i0+1,2));
      outMuon->SetPullY(4+i0,       iM->pullY    (i0+1,2));
      outMuon->SetTrackDist(4+i0,   iM->trackDist(i0+1,2));
      outMuon->SetTrackDistErr(4+i0,iM->trackDistErr(i0+1,2));
      outMuon->SetNSegments(4+i0,   NumberOfSegments(&(*iM),i0+1,2));
    }

    reco::MuonRef theRef(hMuonProduct, iM - inMuons.begin());
    // fill corrected expected inner hits
    if (iM->innerTrack().isNonnull()) {
      outMuon->SetCorrectedNExpectedHitsInner(iM->innerTrack()->trackerExpectedHitsInner().numberOfHits());
    }

    // add muon to map
    edm::Ptr<reco::Muon> thePtr(hMuonProduct, iM - inMuons.begin());
    muonMap_->Add(thePtr, outMuon);
    
    if (verbose_>1) {
      if (!outMuon->HasGlobalTrk() && !outMuon->HasStandaloneTrk()) {
        printf("mithep::Muon, pt=%5f, eta=%5f, phi=%5f, mass=%5f\n",outMuon->Pt(),outMuon->Eta(),outMuon->Phi(), outMuon->Mass());
        printf("  reco::Muon, pt=%5f, eta=%5f, phi=%5f, mass=%5f\n",iM->pt(),iM->eta(),iM->phi(),iM->mass());  
      }
    }

  }
  muons_->Trim();
}

int FillerMuons::NumberOfSegments(const reco::Muon *iM, int station, int muonSubdetId, reco::Muon::ArbitrationType type ) {
  if(!iM->isMatchesValid()) return 0;
  int segments(0);
  
  for( std::vector<reco::MuonChamberMatch>::const_iterator chamberMatch = iM->matches().begin();
       chamberMatch != iM->matches().end(); chamberMatch++ )
    {
      if(chamberMatch->segmentMatches.empty()) continue;
      if(!(chamberMatch->station()==station && chamberMatch->detector()==muonSubdetId)) continue;
      if(type == reco::Muon::NoArbitration) {
        segments += chamberMatch->segmentMatches.size();
        continue;
      }
      for( std::vector<reco::MuonSegmentMatch>::const_iterator segmentMatch = chamberMatch->segmentMatches.begin();
           segmentMatch != chamberMatch->segmentMatches.end(); segmentMatch++ )
        {
          if(type == reco::Muon::SegmentArbitration)
            if(segmentMatch->isMask(reco::MuonSegmentMatch::BestInChamberByDR)) {
              segments++;
              break;
            }
          if(type == reco::Muon::SegmentAndTrackArbitration)
            if(segmentMatch->isMask(reco::MuonSegmentMatch::BestInChamberByDR) &&
               segmentMatch->isMask(reco::MuonSegmentMatch::BelongsToTrackByDR)) {
              segments++;
              break;
            }
          if(type == reco::Muon::SegmentAndTrackArbitrationCleaned)
            if(segmentMatch->isMask(reco::MuonSegmentMatch::BestInChamberByDR) &&
               segmentMatch->isMask(reco::MuonSegmentMatch::BelongsToTrackByDR) &&
               segmentMatch->isMask(reco::MuonSegmentMatch::BelongsToTrackByCleaning)) {
              segments++;
              break;
            }
          if(type > 1<<7)
            if(segmentMatch->isMask(type)) {
              segments++;
              break;
            }
        }
    }
  return segments;
}

Revision:	1.39
Committed:	Tue Mar 22 00:22:51 2011 UTC (14 years, 1 month ago) by bendavid
Content type:	text/plain
Branch:	MAIN
CVS Tags:	Mit_020d, TMit_020d, Mit_020c, Mit_021pre2, Mit_021pre1, Mit_020b, Mit_020a, Mit_020
Changes since 1.38:	+3 -3 lines
Log Message:	fix bug in impact parameter filling
#	User	Rev	Content
1	bendavid	1.39	// $Id: FillerMuons.cc,v 1.38 2011/03/13 22:16:08 bendavid Exp $
2	loizides	1.1
3			#include "MitProd/TreeFiller/interface/FillerMuons.h"
4			#include "DataFormats/MuonReco/interface/Muon.h"
5	sixie	1.26	#include "DataFormats/MuonReco/interface/MuonQuality.h"
6	loizides	1.1	#include "DataFormats/MuonReco/interface/MuonFwd.h"
7	sixie	1.26	#include "DataFormats/MuonReco/interface/MuonSelectors.h"
8	bendavid	1.15	#include "DataFormats/Common/interface/RefToPtr.h"
9	bendavid	1.27	#include "DataFormats/VertexReco/interface/VertexFwd.h"
10			#include "TrackingTools/TransientTrack/interface/TransientTrackBuilder.h"
11			#include "TrackingTools/TransientTrack/plugins/TransientTrackBuilderESProducer.h"
12			#include "TrackingTools/IPTools/interface/IPTools.h"
13	bendavid	1.28	#include "RecoVertex/KalmanVertexFit/interface/KalmanVertexTrackCompatibilityEstimator.h"
14	loizides	1.22	#include "MitAna/DataTree/interface/Names.h"
15			#include "MitAna/DataTree/interface/MuonCol.h"
16	loizides	1.1	#include "MitAna/DataTree/interface/Track.h"
17	loizides	1.22	#include "MitProd/ObjectService/interface/ObjectService.h"
18	bendavid	1.37	#include "RecoVertex/VertexTools/interface/LinearizedTrackStateFactory.h"
19			#include "RecoVertex/VertexTools/interface/VertexTrackFactory.h"
20			#include "RecoVertex/VertexPrimitives/interface/VertexTrack.h"
21			#include "RecoVertex/VertexPrimitives/interface/CachingVertex.h"
22			#include "RecoVertex/KalmanVertexFit/interface/KalmanVertexUpdator.h"
23	loizides	1.1
24			using namespace std;
25			using namespace edm;
26			using namespace mithep;
27
28	loizides	1.4	//--------------------------------------------------------------------------------------------------
29	loizides	1.18	FillerMuons::FillerMuons(const edm::ParameterSet &cfg, const char *name, bool active) :
30			BaseFiller(cfg,name,active),
31	loizides	1.1	edmName_(Conf().getUntrackedParameter<string>("edmName","muons")),
32	bendavid	1.32	expectedHitsName_(Conf().getUntrackedParameter<string>("expectedHitsName","")),
33	loizides	1.1	mitName_(Conf().getUntrackedParameter<string>("mitName",Names::gkMuonBrn)),
34	loizides	1.9	globalTrackMapName_(Conf().getUntrackedParameter<string>("globalTrackMapName","")),
35			staTrackMapName_(Conf().getUntrackedParameter<string>("staTrackMapName","")),
36			staVtxTrackMapName_(Conf().getUntrackedParameter<string>("staVtxTrackMapName","")),
37			trackerTrackMapName_(Conf().getUntrackedParameter<string>("trackerTrackMapName","")),
38	bendavid	1.19	muonMapName_(Conf().getUntrackedParameter<string>("muonMapName","")),
39	bendavid	1.27	pvEdmName_(Conf().getUntrackedParameter<string>("pvEdmName","offlinePrimaryVertices")),
40	bendavid	1.38	pvBSEdmName_(Conf().getUntrackedParameter<string>("pvBSEdmName","offlinePrimaryVerticesWithBS")),
41	bendavid	1.19	globalTrackMap_(0),
42			standaloneTrackMap_(0),
43			standaloneVtxTrackMap_(0),
44	loizides	1.9	trackerTrackMap_(0),
45	bendavid	1.19	muonMap_(new mithep::MuonMap),
46	pharris	1.12	muons_(new mithep::MuonArr(16))
47	loizides	1.1	{
48			// Constructor.
49			}
50
51	loizides	1.4	//--------------------------------------------------------------------------------------------------
52	loizides	1.20	FillerMuons::~FillerMuons()
53			{
54			// Destructor.
55
56	loizides	1.5	delete muons_;
57	bendavid	1.19	delete muonMap_;
58	loizides	1.1	}
59
60	loizides	1.4	//--------------------------------------------------------------------------------------------------
61	bendavid	1.24	void FillerMuons::BookDataBlock(TreeWriter &tws)
62	loizides	1.20	{
63	loizides	1.9	// Add muons branch to tree and get pointers to maps.
64	loizides	1.1
65	loizides	1.20	tws.AddBranch(mitName_,&muons_);
66			OS()->add<mithep::MuonArr>(muons_,mitName_);
67	bendavid	1.19
68	loizides	1.20	if (!globalTrackMapName_.empty()) {
69			globalTrackMap_ = OS()->get<TrackMap>(globalTrackMapName_);
70			if (globalTrackMap_)
71			AddBranchDep(mitName_,globalTrackMap_->GetBrName());
72			}
73			if (!staTrackMapName_.empty()) {
74			standaloneTrackMap_ = OS()->get<TrackMap>(staTrackMapName_);
75			if (standaloneTrackMap_)
76			AddBranchDep(mitName_,standaloneTrackMap_->GetBrName());
77			}
78			if (!staVtxTrackMapName_.empty()) {
79			standaloneVtxTrackMap_ = OS()->get<TrackMap>(staVtxTrackMapName_);
80			if (standaloneVtxTrackMap_)
81			AddBranchDep(mitName_,standaloneVtxTrackMap_->GetBrName());
82			}
83			if (!trackerTrackMapName_.empty()) {
84			trackerTrackMap_ = OS()->get<TrackMap>(trackerTrackMapName_);
85			if (trackerTrackMap_)
86			AddBranchDep(mitName_,trackerTrackMap_->GetBrName());
87			}
88			if (!muonMapName_.empty()) {
89			muonMap_->SetBrName(mitName_);
90			OS()->add<MuonMap>(muonMap_,muonMapName_);
91			}
92	loizides	1.1	}
93
94	loizides	1.4	//--------------------------------------------------------------------------------------------------
95	loizides	1.1	void FillerMuons::FillDataBlock(const edm::Event &event,
96	loizides	1.4	const edm::EventSetup &setup)
97	loizides	1.1	{
98			// Fill muon information.
99
100	bendavid	1.16	muons_->Delete();
101	bendavid	1.19	muonMap_->Reset();
102	loizides	1.1
103	loizides	1.6	Handle<reco::MuonCollection> hMuonProduct;
104	sixie	1.10	GetProduct(edmName_, hMuonProduct, event);
105	loizides	1.6	const reco::MuonCollection inMuons = *(hMuonProduct.product());
106	loizides	1.1
107	bendavid	1.27	edm::Handle<reco::VertexCollection> hVertex;
108			event.getByLabel(pvEdmName_, hVertex);
109			const reco::VertexCollection *pvCol = hVertex.product();
110
111			edm::Handle<reco::VertexCollection> hVertexBS;
112			event.getByLabel(pvBSEdmName_, hVertexBS);
113			const reco::VertexCollection *pvBSCol = hVertexBS.product();
114	bendavid	1.32
115	bendavid	1.27	edm::ESHandle<TransientTrackBuilder> hTransientTrackBuilder;
116			setup.get<TransientTrackRecord>().get("TransientTrackBuilder",hTransientTrackBuilder);
117			const TransientTrackBuilder *transientTrackBuilder = hTransientTrackBuilder.product();
118
119	bendavid	1.28	KalmanVertexTrackCompatibilityEstimator<5> kalmanEstimator;
120
121	bendavid	1.37	LinearizedTrackStateFactory lTrackFactory;
122			VertexTrackFactory<5> vTrackFactory;
123			KalmanVertexUpdator<5> updator;
124
125	sixie	1.10	for (reco::MuonCollection::const_iterator iM = inMuons.begin(); iM != inMuons.end(); ++iM) {
126	bendavid	1.25	mithep::Muon* outMuon = muons_->AddNew();
127
128			outMuon->SetPtEtaPhi(iM->pt(),iM->eta(),iM->phi());
129			outMuon->SetCharge(iM->charge());
130
131	sixie	1.10	outMuon->SetIsoR03SumPt(iM->isolationR03().sumPt);
132			outMuon->SetIsoR03EmEt(iM->isolationR03().emEt);
133			outMuon->SetIsoR03HadEt(iM->isolationR03().hadEt);
134			outMuon->SetIsoR03HoEt(iM->isolationR03().hoEt);
135			outMuon->SetIsoR03NTracks(iM->isolationR03().nTracks);
136			outMuon->SetIsoR03NJets(iM->isolationR03().nJets);
137			outMuon->SetIsoR05SumPt(iM->isolationR05().sumPt);
138			outMuon->SetIsoR05EmEt(iM->isolationR05().emEt);
139			outMuon->SetIsoR05HadEt(iM->isolationR05().hadEt);
140			outMuon->SetIsoR05HoEt(iM->isolationR05().hoEt);
141			outMuon->SetIsoR05NTracks(iM->isolationR05().nTracks);
142			outMuon->SetIsoR05NJets(iM->isolationR05().nJets);
143			outMuon->SetEmEnergy(iM->calEnergy().em);
144			outMuon->SetHadEnergy(iM->calEnergy().had);
145			outMuon->SetHoEnergy(iM->calEnergy().ho);
146			outMuon->SetEmS9Energy(iM->calEnergy().emS9);
147			outMuon->SetHadS9Energy(iM->calEnergy().hadS9);
148			outMuon->SetHoS9Energy(iM->calEnergy().hoS9);
149	bendavid	1.17	outMuon->SetIsGlobalMuon(iM->isGlobalMuon());
150			outMuon->SetIsTrackerMuon(iM->isTrackerMuon());
151			outMuon->SetIsStandaloneMuon(iM->isStandAloneMuon());
152			outMuon->SetIsCaloMuon(iM->isCaloMuon());
153	pharris	1.11
154	sixie	1.26	//save results from the muon selector in the MuonQuality bitmask
155			outMuon->Quality().SetQuality(MuonQuality::All);
156			if (muon::isGoodMuon(*iM,muon::AllGlobalMuons))
157			outMuon->Quality().SetQuality(MuonQuality::AllGlobalMuons);
158			if (muon::isGoodMuon(*iM,muon::AllStandAloneMuons))
159			outMuon->Quality().SetQuality(MuonQuality::AllStandAloneMuons);
160			if (muon::isGoodMuon(*iM,muon::AllTrackerMuons))
161			outMuon->Quality().SetQuality(MuonQuality::AllTrackerMuons);
162			if (muon::isGoodMuon(*iM,muon::TrackerMuonArbitrated))
163			outMuon->Quality().SetQuality(MuonQuality::TrackerMuonArbitrated);
164			if (muon::isGoodMuon(*iM,muon::AllArbitrated))
165			outMuon->Quality().SetQuality(MuonQuality::AllArbitrated);
166			if (muon::isGoodMuon(*iM,muon::GlobalMuonPromptTight))
167			outMuon->Quality().SetQuality(MuonQuality::GlobalMuonPromptTight);
168			if (muon::isGoodMuon(*iM,muon::TMLastStationLoose))
169			outMuon->Quality().SetQuality(MuonQuality::TMLastStationLoose);
170			if (muon::isGoodMuon(*iM,muon::TMLastStationTight))
171			outMuon->Quality().SetQuality(MuonQuality::TMLastStationTight);
172			if (muon::isGoodMuon(*iM,muon::TM2DCompatibilityLoose))
173			outMuon->Quality().SetQuality(MuonQuality::TM2DCompatibilityLoose);
174			if (muon::isGoodMuon(*iM,muon::TM2DCompatibilityTight))
175			outMuon->Quality().SetQuality(MuonQuality::TM2DCompatibilityTight);
176			if (muon::isGoodMuon(*iM,muon::TMOneStationLoose))
177			outMuon->Quality().SetQuality(MuonQuality::TMOneStationLoose);
178			if (muon::isGoodMuon(*iM,muon::TMOneStationTight))
179			outMuon->Quality().SetQuality(MuonQuality::TMOneStationTight);
180			if (muon::isGoodMuon(*iM,muon::TMLastStationOptimizedLowPtLoose))
181			outMuon->Quality().SetQuality(MuonQuality::TMLastStationOptimizedLowPtLoose);
182			if (muon::isGoodMuon(*iM,muon::TMLastStationOptimizedLowPtTight))
183			outMuon->Quality().SetQuality(MuonQuality::TMLastStationOptimizedLowPtTight);
184			if (muon::isGoodMuon(*iM,muon::GMTkChiCompatibility))
185			outMuon->Quality().SetQuality(MuonQuality::GMTkChiCompatibility);
186			if (muon::isGoodMuon(*iM,muon::GMStaChiCompatibility))
187			outMuon->Quality().SetQuality(MuonQuality::GMStaChiCompatibility);
188			if (muon::isGoodMuon(*iM,muon::GMTkKinkTight))
189			outMuon->Quality().SetQuality(MuonQuality::GMTkKinkTight);
190			if (muon::isGoodMuon(*iM,muon::TMLastStationAngLoose))
191			outMuon->Quality().SetQuality(MuonQuality::TMLastStationAngLoose);
192			if (muon::isGoodMuon(*iM,muon::TMLastStationAngTight))
193			outMuon->Quality().SetQuality(MuonQuality::TMLastStationAngTight);
194			if (muon::isGoodMuon(*iM,muon::TMOneStationAngLoose))
195			outMuon->Quality().SetQuality(MuonQuality::TMOneStationAngLoose);
196			if (muon::isGoodMuon(*iM,muon::TMOneStationAngTight))
197			outMuon->Quality().SetQuality(MuonQuality::TMOneStationAngTight);
198			if (muon::isGoodMuon(*iM,muon::TMLastStationOptimizedBarrelLowPtLoose))
199			outMuon->Quality().SetQuality(MuonQuality::TMLastStationOptimizedBarrelLowPtLoose);
200			if (muon::isGoodMuon(*iM,muon::TMLastStationOptimizedBarrelLowPtTight))
201			outMuon->Quality().SetQuality(MuonQuality::TMLastStationOptimizedBarrelLowPtTight);
202
203
204	bendavid	1.30	if (globalTrackMap_ && iM->combinedMuon().isNonnull()) {
205	bendavid	1.15	outMuon->SetGlobalTrk(globalTrackMap_->GetMit(refToPtr(iM->combinedMuon())));
206	bendavid	1.30	outMuon->SetNValidHits (iM->globalTrack()->hitPattern().numberOfValidMuonHits());
207			}
208	loizides	1.1	if (standaloneTrackMap_ && standaloneVtxTrackMap_ && iM->standAloneMuon().isNonnull()) {
209			Int_t refProductId = iM->standAloneMuon().id().id();
210			if ( refProductId == standaloneVtxTrackMap_->GetEdmProductId())
211	bendavid	1.15	outMuon->SetStandaloneTrk(standaloneVtxTrackMap_->GetMit(refToPtr(iM->standAloneMuon())));
212	loizides	1.1	else if ( refProductId == standaloneTrackMap_->GetEdmProductId())
213	bendavid	1.15	outMuon->SetStandaloneTrk(standaloneTrackMap_->GetMit(refToPtr(iM->standAloneMuon())));
214	loizides	1.1	else throw edm::Exception(edm::errors::Configuration, "FillerMuons:FillDataBlock()\n")
215	loizides	1.14	<< "Error! Track reference in unmapped collection " << edmName_ << endl;
216	loizides	1.1	}
217	bendavid	1.30	if (trackerTrackMap_ && iM->track().isNonnull()) {
218	bendavid	1.15	outMuon->SetTrackerTrk(trackerTrackMap_->GetMit(refToPtr(iM->track())));
219	bendavid	1.30	}
220	loizides	1.14
221	bendavid	1.27	//compute impact parameter with respect to PV
222			if (iM->track().isNonnull()) {
223			const reco::TransientTrack &tt = transientTrackBuilder->build(iM->track());
224
225	bendavid	1.38	reco::Vertex thevtx;// = pvCol->at(0);
226			reco::Vertex thevtxbs;// = pvBSCol->at(0);
227	bendavid	1.37
228	bendavid	1.38	double mindzvtx = 9999.;
229			for (uint ivtx = 0; ivtx<pvCol->size(); ++ivtx) {
230			reco::Vertex avtx = pvCol->at(ivtx);
231			double dzvtx = std::abs(iM->track()->dz(avtx.position()));
232			if (dzvtx<mindzvtx) {
233			mindzvtx = dzvtx;
234			thevtx = avtx;
235			}
236			}
237
238			double mindzvtxbs = 9999.;
239	bendavid	1.39	for (uint ivtxbs = 0; ivtxbs<pvBSCol->size(); ++ivtxbs) {
240	bendavid	1.38	reco::Vertex avtxbs = pvBSCol->at(ivtxbs);
241			double dzvtxbs = std::abs(iM->track()->dz(avtxbs.position()));
242			if (dzvtxbs<mindzvtxbs) {
243			mindzvtxbs = dzvtxbs;
244			thevtxbs = avtxbs;
245			}
246			}
247
248			if (0) { //don't refit vertex for now
249	bendavid	1.37
250	bendavid	1.38	if (find(thevtx.tracks_begin(), thevtx.tracks_end(), tt.trackBaseRef()) != thevtx.tracks_end()) {
251			GlobalPoint linP(Basic3DVector<float> (thevtx.position()));
252			KalmanVertexUpdator<5>::RefCountedLinearizedTrackState linTrack = lTrackFactory.linearizedTrackState(linP, tt);
253			GlobalError err(thevtx.covariance());
254			VertexState vState(linP, err);
255			KalmanVertexUpdator<5>::RefCountedVertexTrack vertexTrack = vTrackFactory.vertexTrack(linTrack, vState);
256
257			std::vector<KalmanVertexUpdator<5>::RefCountedVertexTrack> initialTracks(1, vertexTrack);
258			CachingVertex<5> cachingVertex(linP, err, initialTracks, thevtx.chi2());
259			const CachingVertex<5> &newCachingVertex = updator.remove(cachingVertex,vertexTrack);
260
261			if (newCachingVertex.isValid()) {
262			const TransientVertex &tvtx = newCachingVertex;
263			thevtx = tvtx;
264			}
265			}
266
267			if (find(thevtxbs.tracks_begin(), thevtxbs.tracks_end(), tt.trackBaseRef()) != thevtxbs.tracks_end()) {
268			GlobalPoint linP(Basic3DVector<float> (thevtxbs.position()));
269			KalmanVertexUpdator<5>::RefCountedLinearizedTrackState linTrack = lTrackFactory.linearizedTrackState(linP, tt);
270			GlobalError err(thevtxbs.covariance());
271			VertexState vState(linP, err);
272			KalmanVertexUpdator<5>::RefCountedVertexTrack vertexTrack = vTrackFactory.vertexTrack(linTrack, vState);
273
274			std::vector<KalmanVertexUpdator<5>::RefCountedVertexTrack> initialTracks(1, vertexTrack);
275			CachingVertex<5> cachingVertex(linP, err, initialTracks, thevtxbs.chi2());
276			const CachingVertex<5> &newCachingVertex = updator.remove(cachingVertex,vertexTrack);
277
278			if (newCachingVertex.isValid()) {
279			const TransientVertex &tvtx = newCachingVertex;
280			thevtxbs = tvtx;
281			}
282			}
283	bendavid	1.37
284			}
285
286			//preserve sign of transverse impact parameter (cross-product definition from track, not lifetime-signing)
287			const double thesign = ( (-iM->track()->dxy(thevtx.position())) >=0 ) ? 1. : -1.;
288			const double thesignbs = ( (-iM->track()->dxy(thevtxbs.position())) >=0 ) ? 1. : -1.;
289
290			const std::pair<bool,Measurement1D> &d0pv = IPTools::absoluteTransverseImpactParameter(tt,thevtx);
291	bendavid	1.27	if (d0pv.first) {
292	bendavid	1.37	outMuon->SetD0PV(thesign*d0pv.second.value());
293	bendavid	1.27	outMuon->SetD0PVErr(d0pv.second.error());
294			}
295	bendavid	1.28	else {
296			outMuon->SetD0PV(-99.0);
297			}
298	bendavid	1.27
299	bendavid	1.37	const std::pair<bool,Measurement1D> &ip3dpv = IPTools::absoluteImpactParameter3D(tt,thevtx);
300	bendavid	1.27	if (ip3dpv.first) {
301	bendavid	1.37	outMuon->SetIp3dPV(thesign*ip3dpv.second.value());
302	bendavid	1.27	outMuon->SetIp3dPVErr(ip3dpv.second.error());
303			}
304	bendavid	1.28	else {
305			outMuon->SetIp3dPV(-99.0);
306			}
307	bendavid	1.27
308	bendavid	1.37	const std::pair<bool,Measurement1D> &d0pvbs = IPTools::absoluteTransverseImpactParameter(tt,thevtxbs);
309	bendavid	1.27	if (d0pvbs.first) {
310	bendavid	1.37	outMuon->SetD0PVBS(thesignbs*d0pvbs.second.value());
311	bendavid	1.27	outMuon->SetD0PVBSErr(d0pvbs.second.error());
312			}
313	bendavid	1.28	else {
314			outMuon->SetD0PVBS(-99.0);
315			}
316	bendavid	1.27
317	bendavid	1.37	const std::pair<bool,Measurement1D> &ip3dpvbs = IPTools::absoluteImpactParameter3D(tt,thevtxbs);
318	bendavid	1.27	if (ip3dpvbs.first) {
319	bendavid	1.37	outMuon->SetIp3dPVBS(thesignbs*ip3dpvbs.second.value());
320	bendavid	1.27	outMuon->SetIp3dPVBSErr(ip3dpvbs.second.error());
321			}
322	bendavid	1.28	else {
323			outMuon->SetIp3dPVBS(-99.0);
324			}
325
326			//compute compatibility with PV using taking into account also the case where muon track
327			//was included in the vertex fit
328			if (iM->track()->extra().isAvailable()) {
329
330			const std::pair<bool,double> &pvCompat = kalmanEstimator.estimate(pvCol->at(0),tt);
331			if (pvCompat.first) {
332			outMuon->SetPVCompatibility(pvCompat.second);
333			}
334			else {
335			outMuon->SetPVCompatibility(-99.0);
336			}
337
338			const std::pair<bool,double> &pvbsCompat = kalmanEstimator.estimate(pvBSCol->at(0),tt);
339			if (pvbsCompat.first) {
340			outMuon->SetPVBSCompatibility(pvbsCompat.second);
341			}
342			else {
343			outMuon->SetPVBSCompatibility(-99.0);
344			}
345			}
346	bendavid	1.27
347			}
348	bendavid	1.39
349	loizides	1.14	outMuon->SetNChambers (iM->numberOfChambers());
350	pharris	1.11	outMuon->SetStationMask(iM->stationMask(reco::Muon::SegmentAndTrackArbitration));
351	ceballos	1.33	outMuon->SetNMatches (iM->numberOfMatches());
352	loizides	1.14	for(int i0 = 0; i0 < 4; i0++) {
353	loizides	1.20	// DTs
354	pharris	1.11	outMuon->SetDX(i0, iM->dX(i0+1,1));
355			outMuon->SetDY(i0, iM->dY(i0+1,1));
356			outMuon->SetPullX(i0, iM->pullX(i0+1,1));
357			outMuon->SetPullY(i0, iM->pullY(i0+1,1));
358			outMuon->SetTrackDist(i0, iM->trackDist(i0+1,1));
359			outMuon->SetTrackDistErr(i0, iM->trackDistErr(i0+1,1));
360	pharris	1.34	outMuon->SetNSegments(i0, NumberOfSegments(&(*iM),i0+1,1));
361	loizides	1.20	// CSCs
362	pharris	1.11	outMuon->SetDX(4+i0, iM->dX (i0+1,2));
363			outMuon->SetDY(4+i0, iM->dY (i0+1,2));
364			outMuon->SetPullX(4+i0, iM->pullX (i0+1,2));
365			outMuon->SetPullY(4+i0, iM->pullY (i0+1,2));
366			outMuon->SetTrackDist(4+i0, iM->trackDist(i0+1,2));
367			outMuon->SetTrackDistErr(4+i0,iM->trackDistErr(i0+1,2));
368	pharris	1.34	outMuon->SetNSegments(4+i0, NumberOfSegments(&(*iM),i0+1,2));
369	pharris	1.11	}
370	bendavid	1.19
371	bendavid	1.32	reco::MuonRef theRef(hMuonProduct, iM - inMuons.begin());
372			// fill corrected expected inner hits
373	bendavid	1.36	if (iM->innerTrack().isNonnull()) {
374			outMuon->SetCorrectedNExpectedHitsInner(iM->innerTrack()->trackerExpectedHitsInner().numberOfHits());
375	bendavid	1.32	}
376	bendavid	1.36
377	loizides	1.20	// add muon to map
378	bendavid	1.19	edm::Ptr<reco::Muon> thePtr(hMuonProduct, iM - inMuons.begin());
379			muonMap_->Add(thePtr, outMuon);
380	bendavid	1.21
381			if (verbose_>1) {
382			if (!outMuon->HasGlobalTrk() && !outMuon->HasStandaloneTrk()) {
383			printf("mithep::Muon, pt=%5f, eta=%5f, phi=%5f, mass=%5f\n",outMuon->Pt(),outMuon->Eta(),outMuon->Phi(), outMuon->Mass());
384			printf(" reco::Muon, pt=%5f, eta=%5f, phi=%5f, mass=%5f\n",iM->pt(),iM->eta(),iM->phi(),iM->mass());
385			}
386			}
387	bendavid	1.19
388	pharris	1.11	}
389	loizides	1.1	muons_->Trim();
390			}
391	pharris	1.34
392			int FillerMuons::NumberOfSegments(const reco::Muon *iM, int station, int muonSubdetId, reco::Muon::ArbitrationType type ) {
393			if(!iM->isMatchesValid()) return 0;
394			int segments(0);
395
396			for( std::vector<reco::MuonChamberMatch>::const_iterator chamberMatch = iM->matches().begin();
397			chamberMatch != iM->matches().end(); chamberMatch++ )
398			{
399			if(chamberMatch->segmentMatches.empty()) continue;
400			if(!(chamberMatch->station()==station && chamberMatch->detector()==muonSubdetId)) continue;
401			if(type == reco::Muon::NoArbitration) {
402			segments += chamberMatch->segmentMatches.size();
403			continue;
404			}
405			for( std::vector<reco::MuonSegmentMatch>::const_iterator segmentMatch = chamberMatch->segmentMatches.begin();
406			segmentMatch != chamberMatch->segmentMatches.end(); segmentMatch++ )
407			{
408			if(type == reco::Muon::SegmentArbitration)
409	pharris	1.35	if(segmentMatch->isMask(reco::MuonSegmentMatch::BestInChamberByDR)) {
410	pharris	1.34	segments++;
411			break;
412			}
413			if(type == reco::Muon::SegmentAndTrackArbitration)
414	pharris	1.35	if(segmentMatch->isMask(reco::MuonSegmentMatch::BestInChamberByDR) &&
415	pharris	1.34	segmentMatch->isMask(reco::MuonSegmentMatch::BelongsToTrackByDR)) {
416			segments++;
417			break;
418			}
419			if(type == reco::Muon::SegmentAndTrackArbitrationCleaned)
420	pharris	1.35	if(segmentMatch->isMask(reco::MuonSegmentMatch::BestInChamberByDR) &&
421	pharris	1.34	segmentMatch->isMask(reco::MuonSegmentMatch::BelongsToTrackByDR) &&
422			segmentMatch->isMask(reco::MuonSegmentMatch::BelongsToTrackByCleaning)) {
423			segments++;
424			break;
425			}
426			if(type > 1<<7)
427			if(segmentMatch->isMask(type)) {
428			segments++;
429			break;
430			}
431			}
432			}
433			return segments;
434			}
435