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CAHitTripletGenerator.cc
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1 #include <unordered_map>
2 
13 
14 #include "CAGraph.h"
15 #include "CellularAutomaton.h"
16 
17 namespace {
18  template <typename T>
19  T sqr(T x) {
20  return x * x;
21  }
22 } // namespace
23 
24 using namespace std;
25 
26 constexpr unsigned int CAHitTripletGenerator::minLayers;
27 
30  : extraHitRPhitolerance(cfg.getParameter<double>(
31  "extraHitRPhitolerance")), //extra window in ThirdHitPredictionFromCircle range (divide by R to get phi)
32  maxChi2(cfg.getParameter<edm::ParameterSet>("maxChi2")),
33  useBendingCorrection(cfg.getParameter<bool>("useBendingCorrection")),
34  caThetaCut(cfg.getParameter<double>("CAThetaCut"),
35  cfg.getParameter<std::vector<edm::ParameterSet>>("CAThetaCut_byTriplets")),
36  caPhiCut(cfg.getParameter<double>("CAPhiCut"),
37  cfg.getParameter<std::vector<edm::ParameterSet>>("CAPhiCut_byTriplets")),
38  caHardPtCut(cfg.getParameter<double>("CAHardPtCut")) {
39  edm::ParameterSet comparitorPSet = cfg.getParameter<edm::ParameterSet>("SeedComparitorPSet");
40  std::string comparitorName = comparitorPSet.getParameter<std::string>("ComponentName");
41  if (comparitorName != "none") {
42  theComparitor = SeedComparitorFactory::get()->create(comparitorName, comparitorPSet, iC);
43  }
44 }
45 
47  desc.add<double>("extraHitRPhitolerance", 0.06);
48  desc.add<bool>("useBendingCorrection", false);
49  desc.add<double>("CAThetaCut", 0.00125);
50  desc.add<double>("CAPhiCut", 0.1);
51 
52  edm::ParameterSetDescription validatorCACut;
53  validatorCACut.add<string>("seedingLayers", "BPix1+BPix2+BPix3");
54  validatorCACut.add<double>("cut", 0.00125);
55  std::vector<edm::ParameterSet> defaultCACutVector;
56  edm::ParameterSet defaultCACut;
57  defaultCACut.addParameter<string>("seedingLayers", "");
58  defaultCACut.addParameter<double>("cut", -1.);
59  defaultCACutVector.push_back(defaultCACut);
60  desc.addVPSet("CAThetaCut_byTriplets", validatorCACut, defaultCACutVector);
61  desc.addVPSet("CAPhiCut_byTriplets", validatorCACut, defaultCACutVector);
62 
63  desc.add<double>("CAHardPtCut", 0);
64 
65  edm::ParameterSetDescription descMaxChi2;
66  descMaxChi2.add<double>("pt1", 0.8);
67  descMaxChi2.add<double>("pt2", 2);
68  descMaxChi2.add<double>("value1", 50);
69  descMaxChi2.add<double>("value2", 8);
70  descMaxChi2.add<bool>("enabled", true);
71  desc.add<edm::ParameterSetDescription>("maxChi2", descMaxChi2);
72 
73  edm::ParameterSetDescription descComparitor;
74  descComparitor.add<std::string>("ComponentName", "none");
75  descComparitor.setAllowAnything(); // until we have moved SeedComparitor too to EDProducers
76  desc.add<edm::ParameterSetDescription>("SeedComparitorPSet", descComparitor);
77 }
78 
80  if (theComparitor)
81  theComparitor->init(ev, es);
82 }
83 
84 namespace {
85  void createGraphStructure(const SeedingLayerSetsHits& layers, CAGraph& g) {
86  for (unsigned int i = 0; i < layers.size(); i++) {
87  for (unsigned int j = 0; j < 3; ++j) {
88  auto vertexIndex = 0;
89  auto foundVertex = std::find(g.theLayers.begin(), g.theLayers.end(), layers[i][j].name());
90  if (foundVertex == g.theLayers.end()) {
91  g.theLayers.emplace_back(layers[i][j].name(), layers[i][j].detLayer()->seqNum(), layers[i][j].hits().size());
92  vertexIndex = g.theLayers.size() - 1;
93  } else {
94  vertexIndex = foundVertex - g.theLayers.begin();
95  }
96  if (j == 0) {
97  if (std::find(g.theRootLayers.begin(), g.theRootLayers.end(), vertexIndex) == g.theRootLayers.end()) {
98  g.theRootLayers.emplace_back(vertexIndex);
99  }
100  }
101  }
102  }
103  }
104 
105  void clearGraphStructure(const SeedingLayerSetsHits& layers, CAGraph& g) {
106  g.theLayerPairs.clear();
107  for (unsigned int i = 0; i < g.theLayers.size(); i++) {
108  g.theLayers[i].theInnerLayers.clear();
109  g.theLayers[i].theInnerLayerPairs.clear();
110  g.theLayers[i].theOuterLayers.clear();
111  g.theLayers[i].theOuterLayerPairs.clear();
112  for (auto& v : g.theLayers[i].isOuterHitOfCell)
113  v.clear();
114  }
115  }
116 
117  void fillGraph(const SeedingLayerSetsHits& layers,
118  const IntermediateHitDoublets::RegionLayerSets& regionLayerPairs,
119  CAGraph& g,
120  std::vector<const HitDoublets*>& hitDoublets) {
121  for (unsigned int i = 0; i < layers.size(); i++) {
122  for (unsigned int j = 0; j < 3; ++j) {
123  auto vertexIndex = 0;
124  auto foundVertex = std::find(g.theLayers.begin(), g.theLayers.end(), layers[i][j].name());
125 
126  if (foundVertex == g.theLayers.end()) {
127  vertexIndex = g.theLayers.size() - 1;
128  } else {
129  vertexIndex = foundVertex - g.theLayers.begin();
130  }
131 
132  if (j > 0) {
133  auto innerVertex = std::find(g.theLayers.begin(), g.theLayers.end(), layers[i][j - 1].name());
134 
135  CALayerPair tmpInnerLayerPair(innerVertex - g.theLayers.begin(), vertexIndex);
136 
137  if (std::find(g.theLayerPairs.begin(), g.theLayerPairs.end(), tmpInnerLayerPair) == g.theLayerPairs.end()) {
138  auto found = std::find_if(regionLayerPairs.begin(),
139  regionLayerPairs.end(),
141  return pair.innerLayerIndex() == layers[i][j - 1].index() &&
142  pair.outerLayerIndex() == layers[i][j].index();
143  });
144  if (found != regionLayerPairs.end()) {
145  hitDoublets.emplace_back(&(found->doublets()));
146  g.theLayerPairs.push_back(tmpInnerLayerPair);
147  g.theLayers[vertexIndex].theInnerLayers.push_back(innerVertex - g.theLayers.begin());
148  innerVertex->theOuterLayers.push_back(vertexIndex);
149  g.theLayers[vertexIndex].theInnerLayerPairs.push_back(g.theLayerPairs.size() - 1);
150  innerVertex->theOuterLayerPairs.push_back(g.theLayerPairs.size() - 1);
151  }
152  }
153  }
154  }
155  }
156  }
157 } // namespace
158 
160  std::vector<OrderedHitSeeds>& result,
161  const edm::EventSetup& es,
162  const SeedingLayerSetsHits& layers) {
163  CAGraph g;
164 
165  std::vector<const HitDoublets*> hitDoublets;
166 
167  std::vector<CACell::CAntuplet> foundTriplets;
168 
169  int index = 0;
170  for (const auto& regionLayerPairs : regionDoublets) {
171  const TrackingRegion& region = regionLayerPairs.region();
172  hitDoublets.clear();
173  foundTriplets.clear();
174 
175  if (index == 0) {
176  createGraphStructure(layers, g);
179  } else {
180  clearGraphStructure(layers, g);
181  }
182  fillGraph(layers, regionLayerPairs, g, hitDoublets);
183  CellularAutomaton ca(g);
184  ca.findTriplets(hitDoublets, foundTriplets, region, caThetaCut, caPhiCut, caHardPtCut);
185 
186  auto& allCells = ca.getAllCells();
187 
188  const QuantityDependsPtEval maxChi2Eval = maxChi2.evaluator(es);
189 
190  // re-used thoughout, need to be vectors because of RZLine interface
191  std::array<float, 3> bc_r;
192  std::array<float, 3> bc_z;
193  std::array<float, 3> bc_errZ2;
194  std::array<GlobalPoint, 3> gps;
195  std::array<GlobalError, 3> ges;
196  std::array<bool, 3> barrels;
197 
198  unsigned int numberOfFoundTriplets = foundTriplets.size();
199  for (unsigned int tripletId = 0; tripletId < numberOfFoundTriplets; ++tripletId) {
200  OrderedHitTriplet tmpTriplet(allCells[foundTriplets[tripletId][0]].getInnerHit(),
201  allCells[foundTriplets[tripletId][0]].getOuterHit(),
202  allCells[foundTriplets[tripletId][1]].getOuterHit());
203 
204  auto isBarrel = [](const unsigned id) -> bool { return id == PixelSubdetector::PixelBarrel; };
205  for (unsigned int i = 0; i < 2; ++i) {
206  auto const& ahit = allCells[foundTriplets[tripletId][i]].getInnerHit();
207  gps[i] = ahit->globalPosition();
208  ges[i] = ahit->globalPositionError();
209  barrels[i] = isBarrel(ahit->geographicalId().subdetId());
210  }
211 
212  auto const& ahit = allCells[foundTriplets[tripletId][1]].getOuterHit();
213  gps[2] = ahit->globalPosition();
214  ges[2] = ahit->globalPositionError();
215  barrels[2] = isBarrel(ahit->geographicalId().subdetId());
216 
217  PixelRecoLineRZ line(gps[0], gps[2]);
218  ThirdHitPredictionFromCircle predictionRPhi(gps[0], gps[2], extraHitRPhitolerance);
219  const float curvature = predictionRPhi.curvature(ThirdHitPredictionFromCircle::Vector2D(gps[1].x(), gps[1].y()));
220  const float abscurv = std::abs(curvature);
221  const float thisMaxChi2 = maxChi2Eval.value(abscurv);
222  float chi2 = std::numeric_limits<float>::quiet_NaN();
223  // TODO: Do we have any use case to not use bending correction?
224 
225  if (useBendingCorrection) {
226  // Following PixelFitterByConformalMappingAndLine
227  const float simpleCot = (gps.back().z() - gps.front().z()) / (gps.back().perp() - gps.front().perp());
228  const float pt = 1.f / PixelRecoUtilities::inversePt(abscurv, es);
229  for (int i = 0; i < 3; ++i) {
230  const GlobalPoint& point = gps[i];
231  const GlobalError& error = ges[i];
232  bc_r[i] = sqrt(sqr(point.x() - region.origin().x()) + sqr(point.y() - region.origin().y()));
234  bc_z[i] = point.z() - region.origin().z();
235  bc_errZ2[i] = (barrels[i]) ? error.czz() : error.rerr(point) * sqr(simpleCot);
236  }
237  RZLine rzLine(bc_r, bc_z, bc_errZ2, RZLine::ErrZ2_tag());
238  chi2 = rzLine.chi2();
239  } else {
240  RZLine rzLine(gps, ges, barrels);
241  chi2 = rzLine.chi2();
242  }
243 
244  if (edm::isNotFinite(chi2) || chi2 > thisMaxChi2) {
245  continue;
246  }
247 
248  if (theComparitor) {
249  if (!theComparitor->compatible(tmpTriplet)) {
250  continue;
251  }
252  }
253  result[index].emplace_back(tmpTriplet);
254  }
255  index++;
256  }
257 }
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const TrackingRegion & region() const
Definition: IntermediateHitDoublets.h:61
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Definition: CAHitTripletGenerator.h:105
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Definition: CAHitTripletGenerator.h:130
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