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DTSegment2DQuality.cc
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1 /*
2  * See header file for a description of this class.
3  *
4  * \author S. Bolognesi and G. Cerminara - INFN Torino
5  */
6 
7 #include <iostream>
8 #include <map>
9 
21 
22 #include "DTSegment2DQuality.h"
23 #include "Histograms.h"
24 
25 using namespace std;
26 using namespace edm;
27 
28 namespace dtsegment2d {
29  struct Histograms {
30  std::unique_ptr<HRes2DHit> h2DHitRPhi;
31  std::unique_ptr<HRes2DHit> h2DHitRZ;
32  std::unique_ptr<HRes2DHit> h2DHitRZ_W0;
33  std::unique_ptr<HRes2DHit> h2DHitRZ_W1;
34  std::unique_ptr<HRes2DHit> h2DHitRZ_W2;
35 
36  std::unique_ptr<HEff2DHit> h2DHitEff_RPhi;
37  std::unique_ptr<HEff2DHit> h2DHitEff_RZ;
38  std::unique_ptr<HEff2DHit> h2DHitEff_RZ_W0;
39  std::unique_ptr<HEff2DHit> h2DHitEff_RZ_W1;
40  std::unique_ptr<HEff2DHit> h2DHitEff_RZ_W2;
41  };
42 } // namespace dtsegment2d
43 
44 using namespace dtsegment2d;
45 
46 // Constructor
48  // get the debug parameter for verbose output
49  debug_ = pset.getUntrackedParameter<bool>("debug");
50  DTHitQualityUtils::debug = debug_;
51  // the name of the simhit collection
52  simHitLabel_ = pset.getUntrackedParameter<InputTag>("simHitLabel");
53  simHitToken_ = consumes<PSimHitContainer>(pset.getUntrackedParameter<InputTag>("simHitLabel"));
54  // the name of the 2D rec hit collection
55  segment2DLabel_ = pset.getUntrackedParameter<InputTag>("segment2DLabel");
56  segment2DToken_ = consumes<DTRecSegment2DCollection>(pset.getUntrackedParameter<InputTag>("segment2DLabel"));
57 
58  // sigma resolution on position
59  sigmaResPos_ = pset.getParameter<double>("sigmaResPos");
60  // sigma resolution on angle
61  sigmaResAngle_ = pset.getParameter<double>("sigmaResAngle");
62 
63  if (debug_) {
64  cout << "[DTSegment2DQuality] Constructor called " << endl;
65  }
66 }
67 
69  edm::Run const &run,
70  edm::EventSetup const &setup,
71  Histograms &histograms) const {
72  histograms.h2DHitRPhi = std::make_unique<HRes2DHit>("RPhi", booker, true, true);
73  histograms.h2DHitRZ = std::make_unique<HRes2DHit>("RZ", booker, true, true);
74  histograms.h2DHitRZ_W0 = std::make_unique<HRes2DHit>("RZ_W0", booker, true, true);
75  histograms.h2DHitRZ_W1 = std::make_unique<HRes2DHit>("RZ_W1", booker, true, true);
76  histograms.h2DHitRZ_W2 = std::make_unique<HRes2DHit>("RZ_W2", booker, true, true);
77 
78  histograms.h2DHitEff_RPhi = std::make_unique<HEff2DHit>("RPhi", booker);
79  histograms.h2DHitEff_RZ = std::make_unique<HEff2DHit>("RZ", booker);
80  histograms.h2DHitEff_RZ_W0 = std::make_unique<HEff2DHit>("RZ_W0", booker);
81  histograms.h2DHitEff_RZ_W1 = std::make_unique<HEff2DHit>("RZ_W1", booker);
82  histograms.h2DHitEff_RZ_W2 = std::make_unique<HEff2DHit>("RZ_W2", booker);
83  if (debug_) {
84  cout << "[DTSegment2DQuality] hitsos created " << endl;
85  }
86 }
87 
88 // The real analysis
90  edm::EventSetup const &setup,
91  Histograms const &histograms) const {
92  // Get the DT Geometry
93  ESHandle<DTGeometry> dtGeom;
94  setup.get<MuonGeometryRecord>().get(dtGeom);
95 
96  // Get the SimHit collection from the event
98  event.getByToken(simHitToken_, simHits); // FIXME: second string to be removed
99 
100  // Map simHits by sl
101  map<DTSuperLayerId, PSimHitContainer> simHitsPerSl;
102  for (const auto &simHit : *simHits) {
103  // Create the id of the sl (the simHits in the DT known their wireId)
104  DTSuperLayerId slId = ((DTWireId(simHit.detUnitId())).layerId()).superlayerId();
105  // Fill the map
106  simHitsPerSl[slId].push_back(simHit);
107  }
108 
109  // Get the 2D rechits from the event
111  event.getByToken(segment2DToken_, segment2Ds);
112 
113  if (not segment2Ds.isValid()) {
114  if (debug_) {
115  cout << "[DTSegment2DQuality]**Warning: no 2DSegments with label: " << segment2DLabel_
116  << " in this event, skipping !" << endl;
117  }
118  return;
119  }
120 
121  // Loop over all superlayers containing a segment
123  for (slId = segment2Ds->id_begin(); slId != segment2Ds->id_end(); ++slId) {
124  //------------------------- simHits ---------------------------//
125  // Get simHits of each superlayer
126  PSimHitContainer simHits = simHitsPerSl[(*slId)];
127 
128  // Map simhits per wire
129  map<DTWireId, PSimHitContainer> simHitsPerWire = DTHitQualityUtils::mapSimHitsPerWire(simHits);
130  map<DTWireId, const PSimHit *> muSimHitPerWire = DTHitQualityUtils::mapMuSimHitsPerWire(simHitsPerWire);
131  int nMuSimHit = muSimHitPerWire.size();
132  if (nMuSimHit == 0 or nMuSimHit == 1) {
133  if (debug_ and nMuSimHit == 1) {
134  cout << "[DTSegment2DQuality] Only " << nMuSimHit << " mu SimHit in this SL, skipping !" << endl;
135  }
136  continue; // If no or only one mu SimHit is found skip this SL
137  }
138  if (debug_) {
139  cout << "=== SL " << (*slId) << " has " << nMuSimHit << " SimHits" << endl;
140  }
141 
142  // Find outer and inner mu SimHit to build a segment
143  pair<const PSimHit *, const PSimHit *> inAndOutSimHit = DTHitQualityUtils::findMuSimSegment(muSimHitPerWire);
144  // Check that outermost and innermost SimHit are not the same
145  if (inAndOutSimHit.first == inAndOutSimHit.second) {
146  cout << "[DTHitQualityUtils]***Warning: outermost and innermost SimHit "
147  "are the same !"
148  << endl;
149  continue;
150  }
151 
152  // Find direction and position of the sim Segment in SL RF
153  pair<LocalVector, LocalPoint> dirAndPosSimSegm =
154  DTHitQualityUtils::findMuSimSegmentDirAndPos(inAndOutSimHit, (*slId), &(*dtGeom));
155 
156  LocalVector simSegmLocalDir = dirAndPosSimSegm.first;
157  LocalPoint simSegmLocalPos = dirAndPosSimSegm.second;
158  if (debug_) {
159  cout << " Simulated segment: local direction " << simSegmLocalDir << endl
160  << " local position " << simSegmLocalPos << endl;
161  }
162  const DTSuperLayer *superLayer = dtGeom->superLayer(*slId);
163  GlobalPoint simSegmGlobalPos = superLayer->toGlobal(simSegmLocalPos);
164 
165  // Atan(x/z) angle and x position in SL RF
166  float angleSimSeg = DTHitQualityUtils::findSegmentAlphaAndBeta(simSegmLocalDir).first;
167  float posSimSeg = simSegmLocalPos.x();
168  // Position (in eta, phi coordinates) in the global RF
169  float etaSimSeg = simSegmGlobalPos.eta();
170  float phiSimSeg = simSegmGlobalPos.phi();
171 
172  //---------------------------- recHits --------------------------//
173  // Get the range of rechit for the corresponding slId
174  bool recHitFound = false;
175  DTRecSegment2DCollection::range range = segment2Ds->get(*slId);
176  int nsegm = distance(range.first, range.second);
177  if (debug_) {
178  cout << " Sl: " << *slId << " has " << nsegm << " 2D segments" << endl;
179  }
180 
181  if (nsegm != 0) {
182  // Find the best RecHit: look for the 2D RecHit with the angle closest
183  // to that of segment made of SimHits.
184  // RecHits must have delta alpha and delta position within 5 sigma of
185  // the residual distribution (we are looking for residuals of segments
186  // usefull to the track fit) for efficency purpose
187  const DTRecSegment2D *bestRecHit = nullptr;
188  bool bestRecHitFound = false;
189  double deltaAlpha = 99999;
190 
191  // Loop over the recHits of this slId
192  for (DTRecSegment2DCollection::const_iterator segment2D = range.first; segment2D != range.second; ++segment2D) {
193  // Check the dimension
194  if ((*segment2D).dimension() != 2) {
195  if (debug_) {
196  cout << "[DTSegment2DQuality]***Error: This is not 2D segment !!!" << endl;
197  }
198  abort();
199  }
200  // Segment Local Direction and position (in SL RF)
201  LocalVector recSegDirection = (*segment2D).localDirection();
202  LocalPoint recSegPosition = (*segment2D).localPosition();
203 
204  float recSegAlpha = DTHitQualityUtils::findSegmentAlphaAndBeta(recSegDirection).first;
205  if (debug_) {
206  cout << " RecSegment direction: " << recSegDirection << endl
207  << " position : " << recSegPosition << endl
208  << " alpha : " << recSegAlpha << endl;
209  }
210 
211  if (fabs(recSegAlpha - angleSimSeg) < deltaAlpha) {
212  deltaAlpha = fabs(recSegAlpha - angleSimSeg);
213  bestRecHit = &(*segment2D);
214  bestRecHitFound = true;
215  }
216  } // End of Loop over all 2D RecHits
217 
218  if (bestRecHitFound) {
219  // Best rechit direction and position in SL RF
220  LocalPoint bestRecHitLocalPos = bestRecHit->localPosition();
221  LocalVector bestRecHitLocalDir = bestRecHit->localDirection();
222 
223  LocalError bestRecHitLocalPosErr = bestRecHit->localPositionError();
224  LocalError bestRecHitLocalDirErr = bestRecHit->localDirectionError();
225 
226  float angleBestRHit = DTHitQualityUtils::findSegmentAlphaAndBeta(bestRecHitLocalDir).first;
227 
228  if (fabs(angleBestRHit - angleSimSeg) < 5 * sigmaResAngle_ and
229  fabs(bestRecHitLocalPos.x() - posSimSeg) < 5 * sigmaResPos_) {
230  recHitFound = true;
231  }
232 
233  // Fill Residual histos
234  HRes2DHit *hRes = nullptr;
235  if ((*slId).superlayer() == 1 or (*slId).superlayer() == 3) { // RPhi SL
236  hRes = histograms.h2DHitRPhi.get();
237  } else if ((*slId).superlayer() == 2) { // RZ SL
238  histograms.h2DHitRZ->fill(angleSimSeg,
239  angleBestRHit,
240  posSimSeg,
241  bestRecHitLocalPos.x(),
242  etaSimSeg,
243  phiSimSeg,
244  sqrt(bestRecHitLocalPosErr.xx()),
245  sqrt(bestRecHitLocalDirErr.xx()));
246  if (abs((*slId).wheel()) == 0) {
247  hRes = histograms.h2DHitRZ_W0.get();
248  } else if (abs((*slId).wheel()) == 1) {
249  hRes = histograms.h2DHitRZ_W1.get();
250  } else if (abs((*slId).wheel()) == 2) {
251  hRes = histograms.h2DHitRZ_W2.get();
252  }
253  }
254  hRes->fill(angleSimSeg,
255  angleBestRHit,
256  posSimSeg,
257  bestRecHitLocalPos.x(),
258  etaSimSeg,
259  phiSimSeg,
260  sqrt(bestRecHitLocalPosErr.xx()),
261  sqrt(bestRecHitLocalDirErr.xx()));
262  }
263  } // end of if (nsegm != 0)
264 
265  // Fill Efficiency plot
266  HEff2DHit *hEff = nullptr;
267  if ((*slId).superlayer() == 1 or (*slId).superlayer() == 3) { // RPhi SL
268  hEff = histograms.h2DHitEff_RPhi.get();
269  } else if ((*slId).superlayer() == 2) { // RZ SL
270  histograms.h2DHitEff_RZ->fill(etaSimSeg, phiSimSeg, posSimSeg, angleSimSeg, recHitFound);
271  if (abs((*slId).wheel()) == 0) {
272  hEff = histograms.h2DHitEff_RZ_W0.get();
273  } else if (abs((*slId).wheel()) == 1) {
274  hEff = histograms.h2DHitEff_RZ_W1.get();
275  } else if (abs((*slId).wheel()) == 2) {
276  hEff = histograms.h2DHitEff_RZ_W2.get();
277  }
278  }
279  hEff->fill(etaSimSeg, phiSimSeg, posSimSeg, angleSimSeg, recHitFound);
280  } // End of loop over superlayers
281 }
282 
283 // declare this as a framework plugin
Vector3DBase< float, LocalTag >
DTSegment2DQuality.h
DTRecSegment2DCollection.h
DTSuperLayerId
Definition: DTSuperLayerId.h:12
FastTimerService_cff.range
range
Definition: FastTimerService_cff.py:34
ESHandle.h
DTRecHitCollection.h
dtsegment2d::Histograms::h2DHitRZ_W0
std::unique_ptr< HRes2DHit > h2DHitRZ_W0
Definition: DTSegment2DQuality.cc:32
PV3DBase::x
T x() const
Definition: PV3DBase.h:59
edm::Run
Definition: Run.h:45
DTHitQualityUtils::mapMuSimHitsPerWire
std::map< DTWireId, const PSimHit * > mapMuSimHitsPerWire(const std::map< DTWireId, edm::PSimHitContainer > &simHitWireMap)
Create a map between the Mu SimHits and corresponding MuBarWireId ;.
edm
HLT enums.
Definition: AlignableModifier.h:19
DTHitQualityUtils::debug
std::atomic< bool > debug
Definition: DTHitQualityUtils.h:50
gather_cfg.cout
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Definition: gather_cfg.py:144
PSimHitContainer.h
dtsegment2d::Histograms::h2DHitEff_RZ_W2
std::unique_ptr< HEff2DHit > h2DHitEff_RZ_W2
Definition: DTSegment2DQuality.cc:40
DTRecSegment2D::localDirectionError
LocalError localDirectionError() const override
the local direction error (xx,xy,yy) in SL frame: only xx is not 0.
Definition: DTRecSegment2D.cc:76
FastTrackerRecHitCombiner_cfi.simHits
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Definition: FastTrackerRecHitCombiner_cfi.py:5
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Definition: DTSuperLayer.h:24
Histograms.h
DTHitQualityUtils::findSegmentAlphaAndBeta
std::pair< double, double > findSegmentAlphaAndBeta(const LocalVector &direction)
DTRecSegment2D::localPositionError
LocalError localPositionError() const override
local position error in SL frame
Definition: DTRecSegment2D.cc:74
edm::Handle
Definition: AssociativeIterator.h:50
edm::RangeMap::id_iterator
identifier iterator
Definition: RangeMap.h:130
DTSegment2DQuality
Definition: DTSegment2DQuality.h:32
singleTopDQM_cfi.setup
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Definition: singleTopDQM_cfi.py:37
dtsegment2d::Histograms::h2DHitRZ_W2
std::unique_ptr< HRes2DHit > h2DHitRZ_W2
Definition: DTSegment2DQuality.cc:34
HEff2DHit::fill
void fill(float etaSimSegm, float phiSimSegm, float posSimSegm, float angleSimSegm, bool fillRecHit)
Definition: Histograms.h:354
DTHitQualityUtils::findMuSimSegment
std::pair< const PSimHit *, const PSimHit * > findMuSimSegment(const std::map< DTWireId, const PSimHit * > &mapWireAndMuSimHit)
MakerMacros.h
dtsegment2d::Histograms
Definition: DTSegment2DQuality.cc:29
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Definition: Histograms.h:331
DEFINE_FWK_MODULE
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:16
PixelMapPlotter.hRes
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Definition: PixelMapPlotter.py:31
DTSegment2DQuality::DTSegment2DQuality
DTSegment2DQuality(const edm::ParameterSet &pset)
Constructor.
Definition: DTSegment2DQuality.cc:47
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Definition: DTWireId.h:12
LocalError::xx
float xx() const
Definition: LocalError.h:22
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Definition: DTSegment2DQuality.cc:38
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std::pair< LocalVector, LocalPoint > findMuSimSegmentDirAndPos(const std::pair< const PSimHit *, const PSimHit * > &inAndOutSimHit, const DetId detId, const DTGeometry *muonGeom)
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Definition: DTSegment2DQuality.cc:36
DTSegment2DQuality::bookHistograms
void bookHistograms(DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &, dtsegment2d::Histograms &) const override
Book the DQM plots.
Definition: DTSegment2DQuality.cc:68
GeomDet::toGlobal
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Conversion to the global R.F. from the R.F. of the GeomDet.
Definition: GeomDet.h:49
DTHitQualityUtils::mapSimHitsPerWire
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Definition: DTRecSegment2D.h:45
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Definition: RangeMap.h:43
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Definition: PV3DBase.h:73
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Definition: DTRecSegment2D.h:84
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Definition: DTSegment2DQuality.cc:30
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Definition: DTSegment2DQuality.cc:39
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Perform the real analysis.
Definition: DTSegment2DQuality.cc:89
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Definition: EventSetup.h:57
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Definition: histograms.py:1
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Definition: DTSegment2DQuality.cc:28
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Definition: DTSegment2DQuality.cc:31
or
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e< void, edm::EventID const &, edm::Timestamp const & > We also list in braces which AR_WATCH_USING_METHOD_ is used for those or
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Definition: DQMStore.h:43
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Definition: DTGeometry.cc:92
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Definition: DTRecSegment2D.h:90
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