TreeFiller/src/FillerTracks.cc

// $Id: FillerTracks.cc,v 1.42 2011/09/28 16:50:07 bendavid Exp $

#include "MitProd/TreeFiller/interface/FillerTracks.h"
#include "DataFormats/RecoCandidate/interface/TrackAssociation.h"
#include "DataFormats/TrackReco/interface/HitPattern.h"
#include "DataFormats/TrackReco/interface/Track.h"
#include "DataFormats/TrackReco/interface/TrackFwd.h"
#include "DataFormats/GsfTrackReco/interface/GsfTrack.h"
#include "SimDataFormats/TrackingAnalysis/interface/TrackingParticle.h"
#include "SimDataFormats/TrackingAnalysis/interface/TrackingParticleFwd.h"
#include "MagneticField/Engine/interface/MagneticField.h"
#include "MagneticField/Records/interface/IdealMagneticFieldRecord.h"
#include "TrackingTools/TrackAssociator/interface/TrackDetectorAssociator.h"
#include "TrackingTools/TrajectoryState/interface/TrajectoryStateTransform.h"
#include "MitAna/DataTree/interface/Names.h"
#include "MitAna/DataTree/interface/TrackCol.h"
#include "MitProd/ObjectService/interface/ObjectService.h"
#include "MitEdm/DataFormats/interface/Types.h"

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

//--------------------------------------------------------------------------------------------------
FillerTracks::FillerTracks(const ParameterSet &cfg, const char *name, bool active) :
  BaseFiller(cfg,name,active),
  ecalAssocActive_(Conf().getUntrackedParameter<bool>("ecalAssocActive",0)),
  edmName_(Conf().getUntrackedParameter<string>("edmName","generalTracks")),
  mitName_(Conf().getUntrackedParameter<string>("mitName",Names::gkTrackBrn)),
  edmSimAssocName_(Conf().getUntrackedParameter<string>("edmSimAssociationName","")),
  trackingMapName_(Conf().getUntrackedParameter<string>("trackingMapName","TrackingMap")),
  barrelSuperClusterIdMapName_(Conf().getUntrackedParameter<string>
                               ("superClusterIdMapName","barrelSuperClusterIdMap")),
  endcapSuperClusterIdMapName_(Conf().getUntrackedParameter<string>
                               ("endcapClusterIdMapName","endcapSuperClusterIdMap")),
  trackMapName_(Conf().getUntrackedParameter<string>("trackMapName",
                                                     Form("%sMapName",mitName_.c_str()))),
  trackingMap_(0),
  tracks_(new mithep::TrackArr(250)), 
  trackMap_(new mithep::TrackMap)
{
  // Constructor.
  
  if (ecalAssocActive_) // initialize track associator configuration if needed
    assocParams_.loadParameters(
      cfg.getUntrackedParameter<ParameterSet>("TrackAssociatorParameters"));
}

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

  delete tracks_;
  delete trackMap_;
}

//--------------------------------------------------------------------------------------------------
void FillerTracks::BookDataBlock(TreeWriter &tws)
{
  // Add tracks branch to tree, publish and get our objects.

  tws.AddBranch(mitName_,&tracks_);
  OS()->add<TrackArr>(tracks_,mitName_);

  if (!trackingMapName_.empty()) {
    trackingMap_ = OS()->get<TrackingParticleMap>(trackingMapName_);
    if (trackingMap_)
      AddBranchDep(mitName_,trackingMap_->GetBrName());
  }
  if (ecalAssocActive_ && !barrelSuperClusterIdMapName_.empty()) {
    barrelSuperClusterIdMap_ = OS()->get<SuperClusterIdMap>(barrelSuperClusterIdMapName_);
    if (barrelSuperClusterIdMap_)
      AddBranchDep(mitName_,barrelSuperClusterIdMap_->GetBrName());
  }
  if (ecalAssocActive_ && !endcapSuperClusterIdMapName_.empty()) {
    endcapSuperClusterIdMap_ = OS()->get<SuperClusterIdMap>(endcapSuperClusterIdMapName_);
    if (endcapSuperClusterIdMap_)
      AddBranchDep(mitName_,endcapSuperClusterIdMap_->GetBrName());
  }
  if (!trackMapName_.empty()) {
    trackMap_->SetBrName(mitName_);
    OS()->add<TrackMap>(trackMap_,trackMapName_);
  }
}

//--------------------------------------------------------------------------------------------------
void FillerTracks::FillDataBlock(const edm::Event      &event, 
                                 const edm::EventSetup &setup)
{
  // Fill tracks from edm collection into our collection.

  tracks_  ->Delete();
  trackMap_->Reset();

  // initialize handle and get product,
  // this usage allows also to get collections of classes which inherit from reco::Track
  Handle<View<reco::Track> > hTrackProduct;
  GetProduct(edmName_, hTrackProduct, event);  
        
  //printf("edmName = %s, product id = %i\n",edmName_.c_str(),hTrackProduct.id().id());
  
  trackMap_->SetEdmProductId(hTrackProduct.id().id());
  const View<reco::Track> inTracks = *(hTrackProduct.product());  
  
  if (verbose_>1)
    printf("Track Collection: %s, id=%i\n",edmName_.c_str(),hTrackProduct.id().id());
  
  // for MC SimParticle association (reco->sim mappings)
  reco::RecoToSimCollection simAssociation;
  if (trackingMap_ && !edmSimAssocName_.empty()) {
    Handle<reco::RecoToSimCollection> simAssociationProduct;
    GetProduct(edmSimAssocName_, simAssociationProduct, event);  
    simAssociation = *(simAssociationProduct.product());
    if (verbose_>1)
      printf("SimAssociation Map Size = %i\n",(int)simAssociation.size());
  }
  
  // set up associator for Track-Ecal associations
  TrackDetectorAssociator trackAssociator;
  trackAssociator.useDefaultPropagator();
  edm::ESHandle<MagneticField> bField;
  if (ecalAssocActive_) {
    setup.get<IdealMagneticFieldRecord>().get(bField);
  }  


  // loop through all tracks and fill the information
  for (View<reco::Track>::const_iterator it = inTracks.begin();
         it != inTracks.end(); ++it) {
         
    mithep::Track *outTrack = tracks_->Allocate();
    // create track and set the core parameters
    new (outTrack) mithep::Track(it->qoverp(),it->lambda(),
                                 it->phi(),it->dxy(),it->dsz());
    outTrack->SetErrors(it->qoverpError(),it->lambdaError(),
                        it->phiError(),it->dxyError(),it->dszError());
                        
    outTrack->SetPtErr(it->ptError());
        
    // fill track quality information
    outTrack->SetChi2(it->chi2());
    outTrack->SetNdof(static_cast<Int_t>(it->ndof()));

    //fill algo enum
    outTrack->SetAlgo(static_cast<mithep::Track::ETrackAlgorithm>(it->algo()));

    //fill quality bitmask
    outTrack->Quality().SetQualityMask(BitMask8(UChar_t(it->qualityMask())));
    
    if (verbose_>2) {
      printf("reco::Track   high purity = %i,  ", it->quality(reco::TrackBase::highPurity));
      printf("mithep::Track high purity = %i\n",outTrack->Quality().Quality(mithep::TrackQuality::highPurity));
    }
    
    //fill gsf flag, some type gymastics needed...
    if (typeid(*it)==typeid(reco::GsfTrack))
      outTrack->SetIsGsf(kTRUE);
    else
      outTrack->SetIsGsf(kFALSE);
    
    if (verbose_>2) {
      printf("Track pt = %5f, eta = %5f, phi = %5f, nhits = %i, numberofvalidhits = %i, numberofmissinghits = %i, expectedhitsinner = %i, expectedhitsouter = %i\n",it->pt(),it->eta(),it->phi(),it->hitPattern().numberOfHits(),it->numberOfValidHits(),it->hitPattern().numberOfLostHits(),it->trackerExpectedHitsInner().numberOfHits(),it->trackerExpectedHitsOuter().numberOfHits());
    }

    //fill hit layer map and missing hits
    const reco::HitPattern &hits = it->hitPattern();
    BitMask48 hitLayers;
    BitMask48 missingHitLayers;
    for (Int_t i=0; i<hits.numberOfHits(); i++) {
      uint32_t hit = hits.getHitPattern(i);
      if (hits.validHitFilter(hit)) {
        if (hits.trackerHitFilter(hit)) {
          hitLayers.SetBit(hitReader_.Layer(hit));
          if (verbose_>2)
            printf("Found valid hit with layer %i\n",hitReader_.Layer(hit));
        }
      }

      if (hits.getHitType(hit)==1) {
        if (hits.trackerHitFilter(hit)) {
          missingHitLayers.SetBit(hitReader_.Layer(hit));
        }
      }
       
      if (verbose_>2) {
        if (hits.muonDTHitFilter(hit))
          printf("Muon DT Layer = %i\n", hits.getLayer(hit));
        if (hits.muonCSCHitFilter(hit))
          printf("Muon CSC Layer = %i\n", hits.getLayer(hit));        
        if (hits.muonRPCHitFilter(hit))
          printf("Muon RPC Layer = %i\n", hits.getLayer(hit));
      }
    }

    outTrack->SetHits(hitLayers);
    outTrack->SetMissingHits(missingHitLayers);


    //set expected inner hits
    const reco::HitPattern &expectedInnerHitPattern = it->trackerExpectedHitsInner();
    BitMask48 expectedHitsInner;
    // search for all good crossed layers (with or without hit)
    for (Int_t hi=0; hi<expectedInnerHitPattern.numberOfHits(); hi++) {
      uint32_t hit = expectedInnerHitPattern.getHitPattern(hi);
      if (expectedInnerHitPattern.getHitType(hit)<=1) {
        if (expectedInnerHitPattern.trackerHitFilter(hit)) {
          expectedHitsInner.SetBit(hitReader_.Layer(hit));
        }
      }
    }

    outTrack->SetExpectedHitsInner(expectedHitsInner);

    //set expected outer hits
    const reco::HitPattern &expectedOuterHitPattern = it->trackerExpectedHitsOuter();
    BitMask48 expectedHitsOuter;
    // search for all good crossed layers (with or without hit)
    for (Int_t hi=0; hi<expectedOuterHitPattern.numberOfHits(); hi++) {
      uint32_t hit = expectedOuterHitPattern.getHitPattern(hi);
      if (expectedOuterHitPattern.getHitType(hit)<=1) {
        if (expectedOuterHitPattern.trackerHitFilter(hit)) {
          expectedHitsOuter.SetBit(hitReader_.Layer(hit));
        }
      }
    }

    outTrack->SetExpectedHitsOuter(expectedHitsOuter);

    //fill actual hit counts
    outTrack->SetNHits(it->numberOfValidHits());
    outTrack->SetNPixelHits(it->hitPattern().numberOfValidPixelHits());
    outTrack->SetNMissingHits(it->hitPattern().numberOfLostHits());
    outTrack->SetNExpectedHitsInner(it->trackerExpectedHitsInner().numberOfHits());
    outTrack->SetNExpectedHitsOuter(it->trackerExpectedHitsOuter().numberOfHits());


    if (verbose_>2)
      printf("OutTrack NHits = %i, NMissingHits = %i, NExpectedHitsInner = %i, NExpectedHitsOuter = %i\n",outTrack->NHits(),outTrack->NMissingHits(),outTrack->NExpectedHitsInner(),outTrack->NExpectedHitsOuter()); 


    //make ecal associations
    if (ecalAssocActive_) {
      TrackDetMatchInfo matchInfo;
      //Extra check to allow propagation to work in AOD where no TrackExtra is available
      if (it->extra().isAvailable())
        matchInfo = trackAssociator.associate(event,setup,*it,assocParams_);
      else {
        FreeTrajectoryState initialState = trajectoryStateTransform::initialFreeState(*it,&*bField);
        matchInfo = trackAssociator.associate(event, setup, assocParams_, &initialState);
      }
       
      if (matchInfo.isGoodEcal) {
        outTrack->SetEtaEcal(matchInfo.trkGlobPosAtEcal.eta());
        outTrack->SetPhiEcal(matchInfo.trkGlobPosAtEcal.phi());
      }

      //fill supercluster link
      if (barrelSuperClusterIdMap_ || endcapSuperClusterIdMap_) {
        mithep::SuperCluster *cluster = 0;
        for (std::vector<const ::CaloTower*>::const_iterator iTower =
               matchInfo.crossedTowers.begin(); 
             iTower<matchInfo.crossedTowers.end() && !cluster; iTower++) {

          for (uint ihit=0; ihit<(*iTower)->constituentsSize() && !cluster; ihit++) {
            DetId hit = (*iTower)->constituent(ihit);
            if (barrelSuperClusterIdMap_ && barrelSuperClusterIdMap_->HasMit(hit))
              cluster = barrelSuperClusterIdMap_->GetMit(hit);
            else if (endcapSuperClusterIdMap_ && endcapSuperClusterIdMap_->HasMit(hit))
              cluster = endcapSuperClusterIdMap_->GetMit(hit);
          }
        }
        if (cluster)
          outTrack->SetSCluster(cluster);
      }
    }
    
    // add reference between mithep and edm object
    if (trackMap_) {
      mitedm::TrackPtr thePtr = inTracks.ptrAt(it - inTracks.begin());
      trackMap_->Add(thePtr, outTrack);
    }

    //do sim associations
    if (trackingMap_ && !edmSimAssocName_.empty()) {
      if (verbose_>1)
        printf("Trying Track-Sim association\n");
      reco::TrackBaseRef theBaseRef = inTracks.refAt(it - inTracks.begin());
      vector<pair<TrackingParticleRef, double> > simRefs;
      Bool_t noSimParticle = 0;
      try {
        simRefs = simAssociation[theBaseRef]; //try to get the sim references if existing
      }
      catch (edm::Exception &ex) {
        noSimParticle = 1;
      }

      if (!noSimParticle) { //loop through sim match candidates
        if (verbose_>1)
          printf("Applying track-sim association\n");
        for (vector<pair<TrackingParticleRef, double> >::const_iterator simRefPair=simRefs.begin(); 
             simRefPair != simRefs.end(); ++simRefPair) 
          if (simRefPair->second > 0.5) // require more than 50% shared hits between reco and sim
            outTrack->SetMCPart(trackingMap_->GetMit(simRefPair->first)); //add reco->sim reference
      }
    }
  }
  tracks_->Trim();
}
Revision:	1.43
Committed:	Fri Mar 30 01:08:41 2012 UTC (13 years, 1 month ago) by paus
Content type:	text/plain
Branch:	MAIN
CVS Tags:	Mit_032, Mit_031, Mit_030, Mit_029c, Mit_029b, Mit_030_pre1, Mit_029a, Mit_029, Mit_029_pre1, Mit_028a, Mit_028, Mit_027a, Mit_027, Mit_026, HEAD
Changes since 1.42:	+2 -3 lines
Error occurred while calculating annotation data.
Log Message:	Initial 5 version.
#	Content
1	// $Id: FillerTracks.cc,v 1.42 2011/09/28 16:50:07 bendavid Exp $
2
3	#include "MitProd/TreeFiller/interface/FillerTracks.h"
4	#include "DataFormats/RecoCandidate/interface/TrackAssociation.h"
5	#include "DataFormats/TrackReco/interface/HitPattern.h"
6	#include "DataFormats/TrackReco/interface/Track.h"
7	#include "DataFormats/TrackReco/interface/TrackFwd.h"
8	#include "DataFormats/GsfTrackReco/interface/GsfTrack.h"
9	#include "SimDataFormats/TrackingAnalysis/interface/TrackingParticle.h"
10	#include "SimDataFormats/TrackingAnalysis/interface/TrackingParticleFwd.h"
11	#include "MagneticField/Engine/interface/MagneticField.h"
12	#include "MagneticField/Records/interface/IdealMagneticFieldRecord.h"
13	#include "TrackingTools/TrackAssociator/interface/TrackDetectorAssociator.h"
14	#include "TrackingTools/TrajectoryState/interface/TrajectoryStateTransform.h"
15	#include "MitAna/DataTree/interface/Names.h"
16	#include "MitAna/DataTree/interface/TrackCol.h"
17	#include "MitProd/ObjectService/interface/ObjectService.h"
18	#include "MitEdm/DataFormats/interface/Types.h"
19
20	using namespace std;
21	using namespace edm;
22	using namespace mithep;
23
24	//--------------------------------------------------------------------------------------------------
25	FillerTracks::FillerTracks(const ParameterSet &cfg, const char *name, bool active) :
26	BaseFiller(cfg,name,active),
27	ecalAssocActive_(Conf().getUntrackedParameter<bool>("ecalAssocActive",0)),
28	edmName_(Conf().getUntrackedParameter<string>("edmName","generalTracks")),
29	mitName_(Conf().getUntrackedParameter<string>("mitName",Names::gkTrackBrn)),
30	edmSimAssocName_(Conf().getUntrackedParameter<string>("edmSimAssociationName","")),
31	trackingMapName_(Conf().getUntrackedParameter<string>("trackingMapName","TrackingMap")),
32	barrelSuperClusterIdMapName_(Conf().getUntrackedParameter<string>
33	("superClusterIdMapName","barrelSuperClusterIdMap")),
34	endcapSuperClusterIdMapName_(Conf().getUntrackedParameter<string>
35	("endcapClusterIdMapName","endcapSuperClusterIdMap")),
36	trackMapName_(Conf().getUntrackedParameter<string>("trackMapName",
37	Form("%sMapName",mitName_.c_str()))),
38	trackingMap_(0),
39	tracks_(new mithep::TrackArr(250)),
40	trackMap_(new mithep::TrackMap)
41	{
42	// Constructor.
43
44	if (ecalAssocActive_) // initialize track associator configuration if needed
45	assocParams_.loadParameters(
46	cfg.getUntrackedParameter<ParameterSet>("TrackAssociatorParameters"));
47	}
48
49	//--------------------------------------------------------------------------------------------------
50	FillerTracks::~FillerTracks()
51	{
52	// Destructor.
53
54	delete tracks_;
55	delete trackMap_;
56	}
57
58	//--------------------------------------------------------------------------------------------------
59	void FillerTracks::BookDataBlock(TreeWriter &tws)
60	{
61	// Add tracks branch to tree, publish and get our objects.
62
63	tws.AddBranch(mitName_,&tracks_);
64	OS()->add<TrackArr>(tracks_,mitName_);
65
66	if (!trackingMapName_.empty()) {
67	trackingMap_ = OS()->get<TrackingParticleMap>(trackingMapName_);
68	if (trackingMap_)
69	AddBranchDep(mitName_,trackingMap_->GetBrName());
70	}
71	if (ecalAssocActive_ && !barrelSuperClusterIdMapName_.empty()) {
72	barrelSuperClusterIdMap_ = OS()->get<SuperClusterIdMap>(barrelSuperClusterIdMapName_);
73	if (barrelSuperClusterIdMap_)
74	AddBranchDep(mitName_,barrelSuperClusterIdMap_->GetBrName());
75	}
76	if (ecalAssocActive_ && !endcapSuperClusterIdMapName_.empty()) {
77	endcapSuperClusterIdMap_ = OS()->get<SuperClusterIdMap>(endcapSuperClusterIdMapName_);
78	if (endcapSuperClusterIdMap_)
79	AddBranchDep(mitName_,endcapSuperClusterIdMap_->GetBrName());
80	}
81	if (!trackMapName_.empty()) {
82	trackMap_->SetBrName(mitName_);
83	OS()->add<TrackMap>(trackMap_,trackMapName_);
84	}
85	}
86
87	//--------------------------------------------------------------------------------------------------
88	void FillerTracks::FillDataBlock(const edm::Event &event,
89	const edm::EventSetup &setup)
90	{
91	// Fill tracks from edm collection into our collection.
92
93	tracks_ ->Delete();
94	trackMap_->Reset();
95
96	// initialize handle and get product,
97	// this usage allows also to get collections of classes which inherit from reco::Track
98	Handle<View<reco::Track> > hTrackProduct;
99	GetProduct(edmName_, hTrackProduct, event);
100
101	//printf("edmName = %s, product id = %i\n",edmName_.c_str(),hTrackProduct.id().id());
102
103	trackMap_->SetEdmProductId(hTrackProduct.id().id());
104	const View<reco::Track> inTracks = *(hTrackProduct.product());
105
106	if (verbose_>1)
107	printf("Track Collection: %s, id=%i\n",edmName_.c_str(),hTrackProduct.id().id());
108
109	// for MC SimParticle association (reco->sim mappings)
110	reco::RecoToSimCollection simAssociation;
111	if (trackingMap_ && !edmSimAssocName_.empty()) {
112	Handle<reco::RecoToSimCollection> simAssociationProduct;
113	GetProduct(edmSimAssocName_, simAssociationProduct, event);
114	simAssociation = *(simAssociationProduct.product());
115	if (verbose_>1)
116	printf("SimAssociation Map Size = %i\n",(int)simAssociation.size());
117	}
118
119	// set up associator for Track-Ecal associations
120	TrackDetectorAssociator trackAssociator;
121	trackAssociator.useDefaultPropagator();
122	edm::ESHandle<MagneticField> bField;
123	if (ecalAssocActive_) {
124	setup.get<IdealMagneticFieldRecord>().get(bField);
125	}
126
127
128	// loop through all tracks and fill the information
129	for (View<reco::Track>::const_iterator it = inTracks.begin();
130	it != inTracks.end(); ++it) {
131
132	mithep::Track *outTrack = tracks_->Allocate();
133	// create track and set the core parameters
134	new (outTrack) mithep::Track(it->qoverp(),it->lambda(),
135	it->phi(),it->dxy(),it->dsz());
136	outTrack->SetErrors(it->qoverpError(),it->lambdaError(),
137	it->phiError(),it->dxyError(),it->dszError());
138
139	outTrack->SetPtErr(it->ptError());
140
141	// fill track quality information
142	outTrack->SetChi2(it->chi2());
143	outTrack->SetNdof(static_cast<Int_t>(it->ndof()));
144
145	//fill algo enum
146	outTrack->SetAlgo(static_cast<mithep::Track::ETrackAlgorithm>(it->algo()));
147
148	//fill quality bitmask
149	outTrack->Quality().SetQualityMask(BitMask8(UChar_t(it->qualityMask())));
150
151	if (verbose_>2) {
152	printf("reco::Track high purity = %i, ", it->quality(reco::TrackBase::highPurity));
153	printf("mithep::Track high purity = %i\n",outTrack->Quality().Quality(mithep::TrackQuality::highPurity));
154	}
155
156	//fill gsf flag, some type gymastics needed...
157	if (typeid(*it)==typeid(reco::GsfTrack))
158	outTrack->SetIsGsf(kTRUE);
159	else
160	outTrack->SetIsGsf(kFALSE);
161
162	if (verbose_>2) {
163	printf("Track pt = %5f, eta = %5f, phi = %5f, nhits = %i, numberofvalidhits = %i, numberofmissinghits = %i, expectedhitsinner = %i, expectedhitsouter = %i\n",it->pt(),it->eta(),it->phi(),it->hitPattern().numberOfHits(),it->numberOfValidHits(),it->hitPattern().numberOfLostHits(),it->trackerExpectedHitsInner().numberOfHits(),it->trackerExpectedHitsOuter().numberOfHits());
164	}
165
166	//fill hit layer map and missing hits
167	const reco::HitPattern &hits = it->hitPattern();
168	BitMask48 hitLayers;
169	BitMask48 missingHitLayers;
170	for (Int_t i=0; i<hits.numberOfHits(); i++) {
171	uint32_t hit = hits.getHitPattern(i);
172	if (hits.validHitFilter(hit)) {
173	if (hits.trackerHitFilter(hit)) {
174	hitLayers.SetBit(hitReader_.Layer(hit));
175	if (verbose_>2)
176	printf("Found valid hit with layer %i\n",hitReader_.Layer(hit));
177	}
178	}
179
180	if (hits.getHitType(hit)==1) {
181	if (hits.trackerHitFilter(hit)) {
182	missingHitLayers.SetBit(hitReader_.Layer(hit));
183	}
184	}
185
186	if (verbose_>2) {
187	if (hits.muonDTHitFilter(hit))
188	printf("Muon DT Layer = %i\n", hits.getLayer(hit));
189	if (hits.muonCSCHitFilter(hit))
190	printf("Muon CSC Layer = %i\n", hits.getLayer(hit));
191	if (hits.muonRPCHitFilter(hit))
192	printf("Muon RPC Layer = %i\n", hits.getLayer(hit));
193	}
194	}
195
196	outTrack->SetHits(hitLayers);
197	outTrack->SetMissingHits(missingHitLayers);
198
199
200	//set expected inner hits
201	const reco::HitPattern &expectedInnerHitPattern = it->trackerExpectedHitsInner();
202	BitMask48 expectedHitsInner;
203	// search for all good crossed layers (with or without hit)
204	for (Int_t hi=0; hi<expectedInnerHitPattern.numberOfHits(); hi++) {
205	uint32_t hit = expectedInnerHitPattern.getHitPattern(hi);
206	if (expectedInnerHitPattern.getHitType(hit)<=1) {
207	if (expectedInnerHitPattern.trackerHitFilter(hit)) {
208	expectedHitsInner.SetBit(hitReader_.Layer(hit));
209	}
210	}
211	}
212
213	outTrack->SetExpectedHitsInner(expectedHitsInner);
214
215	//set expected outer hits
216	const reco::HitPattern &expectedOuterHitPattern = it->trackerExpectedHitsOuter();
217	BitMask48 expectedHitsOuter;
218	// search for all good crossed layers (with or without hit)
219	for (Int_t hi=0; hi<expectedOuterHitPattern.numberOfHits(); hi++) {
220	uint32_t hit = expectedOuterHitPattern.getHitPattern(hi);
221	if (expectedOuterHitPattern.getHitType(hit)<=1) {
222	if (expectedOuterHitPattern.trackerHitFilter(hit)) {
223	expectedHitsOuter.SetBit(hitReader_.Layer(hit));
224	}
225	}
226	}
227
228	outTrack->SetExpectedHitsOuter(expectedHitsOuter);
229
230	//fill actual hit counts
231	outTrack->SetNHits(it->numberOfValidHits());
232	outTrack->SetNPixelHits(it->hitPattern().numberOfValidPixelHits());
233	outTrack->SetNMissingHits(it->hitPattern().numberOfLostHits());
234	outTrack->SetNExpectedHitsInner(it->trackerExpectedHitsInner().numberOfHits());
235	outTrack->SetNExpectedHitsOuter(it->trackerExpectedHitsOuter().numberOfHits());
236
237
238	if (verbose_>2)
239	printf("OutTrack NHits = %i, NMissingHits = %i, NExpectedHitsInner = %i, NExpectedHitsOuter = %i\n",outTrack->NHits(),outTrack->NMissingHits(),outTrack->NExpectedHitsInner(),outTrack->NExpectedHitsOuter());
240
241
242	//make ecal associations
243	if (ecalAssocActive_) {
244	TrackDetMatchInfo matchInfo;
245	//Extra check to allow propagation to work in AOD where no TrackExtra is available
246	if (it->extra().isAvailable())
247	matchInfo = trackAssociator.associate(event,setup,*it,assocParams_);
248	else {
249	FreeTrajectoryState initialState = trajectoryStateTransform::initialFreeState(it,&bField);
250	matchInfo = trackAssociator.associate(event, setup, assocParams_, &initialState);
251	}
252
253	if (matchInfo.isGoodEcal) {
254	outTrack->SetEtaEcal(matchInfo.trkGlobPosAtEcal.eta());
255	outTrack->SetPhiEcal(matchInfo.trkGlobPosAtEcal.phi());
256	}
257
258	//fill supercluster link
259	if (barrelSuperClusterIdMap_ \|\| endcapSuperClusterIdMap_) {
260	mithep::SuperCluster *cluster = 0;
261	for (std::vector<const ::CaloTower*>::const_iterator iTower =
262	matchInfo.crossedTowers.begin();
263	iTower<matchInfo.crossedTowers.end() && !cluster; iTower++) {
264
265	for (uint ihit=0; ihit<(*iTower)->constituentsSize() && !cluster; ihit++) {
266	DetId hit = (*iTower)->constituent(ihit);
267	if (barrelSuperClusterIdMap_ && barrelSuperClusterIdMap_->HasMit(hit))
268	cluster = barrelSuperClusterIdMap_->GetMit(hit);
269	else if (endcapSuperClusterIdMap_ && endcapSuperClusterIdMap_->HasMit(hit))
270	cluster = endcapSuperClusterIdMap_->GetMit(hit);
271	}
272	}
273	if (cluster)
274	outTrack->SetSCluster(cluster);
275	}
276	}
277
278	// add reference between mithep and edm object
279	if (trackMap_) {
280	mitedm::TrackPtr thePtr = inTracks.ptrAt(it - inTracks.begin());
281	trackMap_->Add(thePtr, outTrack);
282	}
283
284	//do sim associations
285	if (trackingMap_ && !edmSimAssocName_.empty()) {
286	if (verbose_>1)
287	printf("Trying Track-Sim association\n");
288	reco::TrackBaseRef theBaseRef = inTracks.refAt(it - inTracks.begin());
289	vector<pair<TrackingParticleRef, double> > simRefs;
290	Bool_t noSimParticle = 0;
291	try {
292	simRefs = simAssociation[theBaseRef]; //try to get the sim references if existing
293	}
294	catch (edm::Exception &ex) {
295	noSimParticle = 1;
296	}
297
298	if (!noSimParticle) { //loop through sim match candidates
299	if (verbose_>1)
300	printf("Applying track-sim association\n");
301	for (vector<pair<TrackingParticleRef, double> >::const_iterator simRefPair=simRefs.begin();
302	simRefPair != simRefs.end(); ++simRefPair)
303	if (simRefPair->second > 0.5) // require more than 50% shared hits between reco and sim
304	outTrack->SetMCPart(trackingMap_->GetMit(simRefPair->first)); //add reco->sim reference
305	}
306	}
307	}
308	tracks_->Trim();
309	}