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CSCRecHitDBuilder Class Reference

#include <CSCRecHitDBuilder.h>

Public Member Functions

void build (const CSCStripDigiCollection *stripds, const CSCWireDigiCollection *wireds, CSCRecHit2DCollection &oc)
 
 CSCRecHitDBuilder (const edm::ParameterSet &ps)
 
const CSCLayergetLayer (const CSCDetId &detId)
 
void setConditions (CSCRecoConditions *reco)
 
void setGeometry (const CSCGeometry *geom)
 
 ~CSCRecHitDBuilder ()
 

Private Attributes

const CSCGeometrygeom_
 
CSCHitFromStripOnlyhitsFromStripOnly_
 
CSCHitFromWireOnlyhitsFromWireOnly_
 
CSCMake2DRecHitmake2DHits_
 
bool makePseudo2DHits
 
CSCRecoConditionsrecoConditions_
 
int stripWireDeltaT
 
bool useCalib
 

Detailed Description

Algorithm to build 2-D RecHit from wire and strip digis in endcap muon CSCs by implementing a 'build' function required by CSCRecHitDProducer.

The builder goes through many stages before building 2-D hits: 1) It finds wire clusters and form wire hits which it stores in CSCWireHit. 2) From these wire hits, it builds pseudo-wire segments to clean up the wire hit collection from noisy hits. Only the hits falling on the segment or far away from existing segments are retained. 1) It then finds strip cluster and hits which it stores in CSCStripHit. 2) Similary to the wire hits, segments are build using the strip hits. Because of the trapezoidal geometry of the strips, all strip hits falling close to the pseudo-strip segments are retained.

Author
Stoyan Stoynev - NU

Definition at line 39 of file CSCRecHitDBuilder.h.

Constructor & Destructor Documentation

CSCRecHitDBuilder::CSCRecHitDBuilder ( const edm::ParameterSet ps)
explicit

Configure the algorithm via ctor. Receives ParameterSet percolated down from EDProducer which owns this Builder.

Definition at line 30 of file CSCRecHitDBuilder.cc.

References edm::ParameterSet::getParameter(), hitsFromStripOnly_, hitsFromWireOnly_, make2DHits_, stripWireDeltaT, and useCalib.

30  : geom_(0) {
31 
32  // Receives ParameterSet percolated down from EDProducer
33 
34  useCalib = ps.getParameter<bool>("CSCUseCalibrations");
35  stripWireDeltaT = ps.getParameter<int>("CSCstripWireDeltaTime");
36 
39  make2DHits_ = new CSCMake2DRecHit( ps );
40 }
T getParameter(std::string const &) const
const CSCGeometry * geom_
CSCHitFromWireOnly * hitsFromWireOnly_
CSCHitFromStripOnly * hitsFromStripOnly_
CSCMake2DRecHit * make2DHits_
CSCRecHitDBuilder::~CSCRecHitDBuilder ( )

Definition at line 43 of file CSCRecHitDBuilder.cc.

References hitsFromStripOnly_, hitsFromWireOnly_, and make2DHits_.

43  {
44  delete hitsFromStripOnly_;
45  delete hitsFromWireOnly_;
46  delete make2DHits_;
47 }
CSCHitFromWireOnly * hitsFromWireOnly_
CSCHitFromStripOnly * hitsFromStripOnly_
CSCMake2DRecHit * make2DHits_

Member Function Documentation

void CSCRecHitDBuilder::build ( const CSCStripDigiCollection stripds,
const CSCWireDigiCollection wireds,
CSCRecHit2DCollection oc 
)

Find digis in each CSCLayer, build strip and wire proto-hits in each layer from which pseudo-segments are build to select hits. Then, strip/wire hits are combined to form 2-D hits, whereas remaining "good" strip and wire only hits are also stored into output collection.

Definition at line 50 of file CSCRecHitDBuilder.cc.

References CSCDetId::chamber(), Reference_intrackfit_cff::endcap, CSCDetId::endcap(), Exception, CSCRecoConditions::fillBadChannelWords(), geom_, getLayer(), CSCMake2DRecHit::hitFromStripAndWire(), hitsFromStripOnly_, hitsFromWireOnly_, CSCMake2DRecHit::isHitInFiducial(), CSCDetId::layer(), LogTrace, make2DHits_, recoConditions_, CSCDetId::ring(), CSCHitFromStripOnly::runStrip(), CSCHitFromWireOnly::runWire(), and CSCDetId::station().

Referenced by CSCRecHitDProducer::produce().

51  {
52  LogTrace("CSCRecHitDBuilder") << "[CSCRecHitDBuilder] build entered";
53 
54  if ( !geom_ ) throw cms::Exception("MissingGeometry") << "[CSCRecHitDBuilder::getLayer] Missing geometry" << std::endl;
55 
56 
57 
58 
59  // create 2-D hits by looking at superposition of strip and wire hit in a layer
60  //
61  // N.B. I've sorted the hits from layer 1-6 always, so can test if there are "holes",
62  // that is layers without hits for a given chamber.
63 
64  // Vector to store rechit within layer
65  std::vector<CSCRecHit2D> hitsInLayer;
66 
67  int layer_idx = 0;
68  int hits_in_layer = 0;
69  CSCDetId old_id;
70 
71 
72  for ( CSCStripDigiCollection::DigiRangeIterator it = stripdc->begin(); it != stripdc->end(); ++it ){
73  const CSCDetId& id = (*it).first;
74  const CSCLayer* layer = getLayer( id );
75  const CSCStripDigiCollection::Range& rstripd = (*it).second;
76 
77  // Skip if no strip digis in this layer
78  if ( rstripd.second == rstripd.first ) continue;
79 
80  const CSCDetId& sDetId = id;
81 
82  // This is used to test for gaps in layers and needs to be initialized here
83  if ( layer_idx == 0 ) {
84  old_id = sDetId;
85  }
86 
87 
88  CSCDetId compId = sDetId;
89  CSCWireDigiCollection::Range rwired = wiredc->get( sDetId );
90  // Skip if no wire digis in this layer
91  // But for ME11, real wire digis are labelled as belonging to ME1b, so that's where ME1a must look
92  // (We try ME1a - above - anyway, because simulated wire digis are labelled as ME1a.)
93  if ( rwired.second == rwired.first ) {
94  if ( sDetId.station()!=1 || sDetId.ring()!=4 ){
95  continue; // not ME1a, skip to next layer
96  }
97  // So if ME1a has no wire digis (always the case for data) make the
98  // wire digi ID point to ME1b. This is what is compared to the
99  // strip digi ID below (and not used anywhere else).
100  // Later, rechits use the strip digi ID for construction.
101 
102  // It is ME1a but no wire digis there, so try ME1b...
103  int endcap = sDetId.endcap();
104  int chamber = sDetId.chamber();
105  int layer = sDetId.layer();
106  CSCDetId idw( endcap, 1, 1, chamber, layer ); // Set idw to same layer in ME1b
107  compId = idw;
108  rwired = wiredc->get( compId );
109  }
110 
111  // Fill bad channel bitsets for this layer
113 
114  // Build strip hits for this layer
115  std::vector<CSCStripHit> const & cscStripHit = hitsFromStripOnly_->runStrip( id, layer, rstripd);
116 
117  if (cscStripHit.empty()) continue;
118 
119  hitsInLayer.clear();
120  hits_in_layer = 0;
121 
122 
123  // now build collection of wire only hits !
124  std::vector<CSCWireHit> const & cscWireHit = hitsFromWireOnly_->runWire(compId, layer, rwired);
125 
126 
127 
128  // Build 2D hit for all possible strip-wire pairs
129  // overlapping within this layer
130 
131  LogTrace("CSCRecHitBuilder")<< "[CSCRecHitDBuilder] found " << cscStripHit.size() << " strip and "
132  << cscWireHit.size() << " wire hits in layer " << sDetId;
133 
134  for (auto const & s_hit : cscStripHit) {
135  for (auto const & w_hit : cscWireHit) {
136  CSCRecHit2D rechit = make2DHits_->hitFromStripAndWire(sDetId, layer, w_hit, s_hit);
137 
138  bool isInFiducial = make2DHits_->isHitInFiducial( layer, rechit );
139  if ( isInFiducial ) {
140  hitsInLayer.push_back( rechit );
141  hits_in_layer++;
142  }
143  }
144  }
145 
146 
147 
148 
149  LogTrace("CSCRecHitDBuilder") << "[CSCRecHitDBuilder] " << hits_in_layer << " rechits found in layer " << sDetId;
150  // std::cout << "[CSCRecHitDBuilder] " << hits_in_layer << " rechits found in layer " << sDetId << std::endl;
151 
152  // output vector of 2D rechits to collection
153  if (hits_in_layer > 0) {
154  oc.put( sDetId, hitsInLayer.begin(), hitsInLayer.end() );
155  hitsInLayer.clear();
156  }
157  hits_in_layer = 0;
158  layer_idx++;
159  old_id = sDetId;
160  }
161 
162  LogTrace("CSCRecHitDBuilder") << "[CSCRecHitDBuilder] " << oc.size() << " 2d rechits created in this event.";
163 
164 }
int chamber() const
Definition: CSCDetId.h:68
const CSCGeometry * geom_
std::vector< CSCStripHit > runStrip(const CSCDetId &id, const CSCLayer *layer, const CSCStripDigiCollection::Range &rstripd)
int layer() const
Definition: CSCDetId.h:61
const CSCLayer * getLayer(const CSCDetId &detId)
int endcap() const
Definition: CSCDetId.h:93
void fillBadChannelWords(const CSCDetId &id)
fill bad strip &amp; bad wiregroup bitsets from conditions data
CSCHitFromWireOnly * hitsFromWireOnly_
CSCRecoConditions * recoConditions_
bool isHitInFiducial(const CSCLayer *layer, const CSCRecHit2D &rh)
Test if rechit is in fiducial volume.
#define LogTrace(id)
CSCHitFromStripOnly * hitsFromStripOnly_
int ring() const
Definition: CSCDetId.h:75
std::vector< CSCWireHit > runWire(const CSCDetId &id, const CSCLayer *layer, const CSCWireDigiCollection::Range &rwired)
CSCRecHit2D hitFromStripAndWire(const CSCDetId &id, const CSCLayer *layer, const CSCWireHit &wHit, const CSCStripHit &sHit)
Make 2D hits when have both wire and strip hit available in same layer.
CSCMake2DRecHit * make2DHits_
int station() const
Definition: CSCDetId.h:86
std::pair< const_iterator, const_iterator > Range
const CSCLayer * CSCRecHitDBuilder::getLayer ( const CSCDetId detId)

Definition at line 167 of file CSCRecHitDBuilder.cc.

References geom_, and CSCGeometry::layer().

Referenced by build().

167  {
168  return geom_->layer(detId);
169 }
const CSCGeometry * geom_
const CSCLayer * layer(CSCDetId id) const
Return the layer corresponding to given DetId.
Definition: CSCGeometry.cc:124
void CSCRecHitDBuilder::setConditions ( CSCRecoConditions reco)

Pass conditions downstream

Definition at line 172 of file CSCRecHitDBuilder.cc.

References hitsFromStripOnly_, hitsFromWireOnly_, make2DHits_, dt_dqm_sourceclient_common_cff::reco, recoConditions_, CSCMake2DRecHit::setConditions(), CSCHitFromStripOnly::setConditions(), and CSCHitFromWireOnly::setConditions().

Referenced by CSCRecHitDProducer::CSCRecHitDProducer().

172  {
176  make2DHits_->setConditions( reco );
177 }
void setConditions(const CSCRecoConditions *reco)
Pass pointer to conditions data onwards.
void setConditions(const CSCRecoConditions *reco)
CSCHitFromWireOnly * hitsFromWireOnly_
CSCRecoConditions * recoConditions_
CSCHitFromStripOnly * hitsFromStripOnly_
void setConditions(const CSCRecoConditions *reco)
CSCMake2DRecHit * make2DHits_
void CSCRecHitDBuilder::setGeometry ( const CSCGeometry geom)
inline

Cache pointer to geometry so it can be passed downstream

Definition at line 65 of file CSCRecHitDBuilder.h.

References relativeConstraints::geom, and geom_.

Referenced by CSCRecHitDProducer::produce().

65 {geom_ = geom;}
const CSCGeometry * geom_

Member Data Documentation

const CSCGeometry* CSCRecHitDBuilder::geom_
private

Definition at line 94 of file CSCRecHitDBuilder.h.

Referenced by build(), getLayer(), and setGeometry().

CSCHitFromStripOnly* CSCRecHitDBuilder::hitsFromStripOnly_
private

The Program first constructs proto wire/strip hits which it stores in a special collection. Proto strip/wire segments are then build from these hits and allow to clean up up the list of hits.

Definition at line 86 of file CSCRecHitDBuilder.h.

Referenced by build(), CSCRecHitDBuilder(), setConditions(), and ~CSCRecHitDBuilder().

CSCHitFromWireOnly* CSCRecHitDBuilder::hitsFromWireOnly_
private

Definition at line 87 of file CSCRecHitDBuilder.h.

Referenced by build(), CSCRecHitDBuilder(), setConditions(), and ~CSCRecHitDBuilder().

CSCMake2DRecHit* CSCRecHitDBuilder::make2DHits_
private

Definition at line 89 of file CSCRecHitDBuilder.h.

Referenced by build(), CSCRecHitDBuilder(), setConditions(), and ~CSCRecHitDBuilder().

bool CSCRecHitDBuilder::makePseudo2DHits
private

Definition at line 79 of file CSCRecHitDBuilder.h.

CSCRecoConditions* CSCRecHitDBuilder::recoConditions_
private

Definition at line 98 of file CSCRecHitDBuilder.h.

Referenced by build(), and setConditions().

int CSCRecHitDBuilder::stripWireDeltaT
private

Definition at line 78 of file CSCRecHitDBuilder.h.

Referenced by CSCRecHitDBuilder().

bool CSCRecHitDBuilder::useCalib
private

Definition at line 77 of file CSCRecHitDBuilder.h.

Referenced by CSCRecHitDBuilder().