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GenericTripletGenerator.cc
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4 
7 #include <map>
8 
10  : theSeedingLayerToken(iC.consumes<SeedingLayerSetsHits>(conf.getParameter<edm::InputTag>("LayerSrc"))) {
11  edm::LogInfo("CtfSpecialSeedGenerator|GenericTripletGenerator") << "Constructing GenericTripletGenerator";
12 }
13 
15  const edm::Event& e,
16  const edm::EventSetup& es) {
17  hitTriplets.clear();
18  hitTriplets.reserve(0);
20  e.getByToken(theSeedingLayerToken, hlayers);
21  const SeedingLayerSetsHits& layers = *hlayers;
22  if (layers.numberOfLayersInSet() != 3)
23  throw cms::Exception("CtfSpecialSeedGenerator")
24  << "You are using " << layers.numberOfLayersInSet() << " layers in set instead of 3 ";
25  std::map<float, OrderedHitTriplet> radius_triplet_map;
27  auto innerHits = region.hits(es, ls[0]);
28  //std::cout << "innerHits.size()=" << innerHits.size() << std::endl;
29  auto middleHits = region.hits(es, ls[1]);
30  //std::cout << "middleHits.size()=" << middleHits.size() << std::endl;
31  auto outerHits = region.hits(es, ls[2]);
32  //std::cout << "outerHits.size()=" << outerHits.size() << std::endl;
33  //std::cout << "trying " << innerHits.size()*middleHits.size()*outerHits.size() << " combinations "<<std::endl;
34  for (auto iOuterHit = outerHits.begin(); iOuterHit != outerHits.end(); iOuterHit++) {
35  for (auto iMiddleHit = middleHits.begin(); iMiddleHit != middleHits.end(); iMiddleHit++) {
36  for (auto iInnerHit = innerHits.begin(); iInnerHit != innerHits.end(); iInnerHit++) {
37  //GlobalPoint innerpos = ls[0].hitBuilder()->build(&(**iInnerHit))->globalPosition();
38  //GlobalPoint middlepos = ls[1].hitBuilder()->build(&(**iMiddleHit))->globalPosition();
39  //GlobalPoint outerpos = ls[2].hitBuilder()->build(&(**iOuterHit))->globalPosition();
40  //FastCircle circle(innerpos,
41  // middlepos,
42  // outerpos);
43  //do a first check on the radius of curvature to reduce the combinatorics
44  OrderedHitTriplet oht(&(**iInnerHit), &(**iMiddleHit), &(**iOuterHit));
45  std::pair<bool, float> val_radius = qualityFilter(oht, radius_triplet_map, ls);
46  if (val_radius.first) {
47  //if (circle.rho() > 200 || circle.rho() == 0) { //0 radius means straight line
48  //hitTriplets.push_back(OrderedHitTriplet(*iInnerHit,
49  // *iMiddleHit,
50  // *iOuterHit));
51  hitTriplets.push_back(oht);
52  radius_triplet_map.insert(std::make_pair(val_radius.second, oht));
53  }
54  }
55  }
56  }
57  }
58  //std::cout << "ending with " << hitTriplets.size() << " triplets" << std::endl;
59  return hitTriplets;
60 }
61 
63  const std::map<float, OrderedHitTriplet>& map,
65  //first check the radius
66  GlobalPoint innerpos = oht.inner()->globalPosition();
67  GlobalPoint middlepos = oht.middle()->globalPosition();
68  GlobalPoint outerpos = oht.outer()->globalPosition();
69  std::vector<const TrackingRecHit*> ohttrh;
70  ohttrh.push_back(&(*(oht.inner())));
71  ohttrh.push_back(&(*(oht.middle())));
72  ohttrh.push_back(&(*(oht.outer())));
73  std::vector<const TrackingRecHit*>::const_iterator ioht;
74  //now chech that the change in phi is reasonable. the limiting angular distance is the one in case
75  //one of the two points is a tangent point.
76  float limit_phi_distance1 = sqrt((middlepos.x() - outerpos.x()) * (middlepos.x() - outerpos.x()) +
77  (middlepos.y() - outerpos.y()) * (middlepos.y() - outerpos.y())) /
78  middlepos.mag(); //actually this is the tangent of the limiting angle
79  float limit_phi_distance2 = sqrt((middlepos.x() - innerpos.x()) * (middlepos.x() - innerpos.x()) +
80  (middlepos.y() - innerpos.y()) * (middlepos.y() - innerpos.y())) /
81  innerpos.mag();
82  //if (fabs(tan(outerpos.phi()-middlepos.phi()))>limit_phi_distance1 ||
83  // fabs(tan(innerpos.phi()-middlepos.phi()))>limit_phi_distance2) {
84  if (fabs(outerpos.phi() - middlepos.phi()) > fabs(atan(limit_phi_distance1)) ||
85  fabs(innerpos.phi() - middlepos.phi()) > fabs(atan(limit_phi_distance2))) {
86  //std::cout << "rejected because phi" << std::endl;
87  return std::make_pair(false, 0.);
88  }
89  //should we add a control on the r-z plane too?
90  /*
91  //now check that there is no big change in the r-z projection
92  float dz1 = outerpos.z()-middlepos.z();
93  float dr1 = sqrt(outerpos.x()*outerpos.x()+outerpos.y()*outerpos.y())-
94  sqrt(middlepos.x()*middlepos.x()+middlepos.y()*middlepos.y());
95  float dz2 = middlepos.z()-innerpos.z();
96  float dr2 = sqrt(middlepos.x()*middlepos.x()+middlepos.y()*middlepos.y())-
97  sqrt(innerpos.x()*innerpos.x()+innerpos.y()*innerpos.y());
98  float tan1 = dz1/dr1;
99  float tan2 = dz2/dr2;
100  //how much should we allow? should we make it configurable?
101  if (fabs(tan1-tan2)/tan1>0.5){
102  //std::cout << "rejected because z" << std::endl;
103  return std::make_pair(false, 0.);
104  }
105  */
106  //now check the radius is not too small
107  FastCircle circle(innerpos, middlepos, outerpos);
108  if (circle.rho() < 200 && circle.rho() != 0)
109  return std::make_pair(false, circle.rho()); //to small radius
110  //now check if at least 2 hits are shared with an existing triplet
111  //look for similar radii in the map
112  std::map<float, OrderedHitTriplet>::const_iterator lower_bound = map.lower_bound((1 - 0.01) * circle.rho());
113  std::map<float, OrderedHitTriplet>::const_iterator upper_bound = map.upper_bound((1 + 0.01) * circle.rho());
114  std::map<float, OrderedHitTriplet>::const_iterator iter;
115  for (iter = lower_bound; iter != upper_bound && iter->first <= upper_bound->first; iter++) {
116  int shared = 0;
117  std::vector<const TrackingRecHit*> curtrh;
118  curtrh.push_back(&*(iter->second.inner()));
119  curtrh.push_back(&*(iter->second.middle()));
120  curtrh.push_back(&*(iter->second.outer()));
121  std::vector<const TrackingRecHit*>::const_iterator curiter;
122  for (curiter = curtrh.begin(); curiter != curtrh.end(); curiter++) {
123  for (ioht = ohttrh.begin(); ioht != ohttrh.end(); ioht++) {
124  if ((*ioht)->geographicalId() == (*curiter)->geographicalId() &&
125  ((*ioht)->localPosition() - (*curiter)->localPosition()).mag() < 1e-5)
126  shared++;
127  }
128  }
129  if (shared > 1)
130  return std::make_pair(false, circle.rho());
131  }
132 
133  return std::make_pair(true, circle.rho());
134 }
GenericTripletGenerator.h
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SeedingHitSet::ConstRecHitPointer
BaseTrackerRecHit const * ConstRecHitPointer
Definition: SeedingHitSet.h:10
GenericTripletGenerator::theSeedingLayerToken
edm::EDGetTokenT< SeedingLayerSetsHits > theSeedingLayerToken
Definition: GenericTripletGenerator.h:26
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Definition: OrderedHitTriplet.h:20
OrderedHitTriplet::outer
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Definition: OrderedHitTriplet.h:21
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GenericTripletGenerator::qualityFilter
std::pair< bool, float > qualityFilter(const OrderedHitTriplet &oht, const std::map< float, OrderedHitTriplet > &map, const SeedingLayerSetsHits::SeedingLayerSet &ls) const
Definition: GenericTripletGenerator.cc:62
GenericTripletGenerator::run
const OrderedSeedingHits & run(const TrackingRegion &region, const edm::Event &ev, const edm::EventSetup &es) override
Definition: GenericTripletGenerator.cc:14
PV3DBase::y
T y() const
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Definition: GenericTripletGenerator.cc:3
GenericTripletGenerator::GenericTripletGenerator
GenericTripletGenerator(const edm::ParameterSet &conf, edm::ConsumesCollector &iC)
Definition: GenericTripletGenerator.cc:9
PV3DBase::mag
T mag() const
Definition: PV3DBase.h:64
mag
T mag() const
The vector magnitude. Equivalent to sqrt(vec.mag2())
Definition: Basic3DVectorLD.h:127
OrderedHitTriplet::inner
InnerRecHit inner() const
Definition: OrderedHitTriplet.h:19
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GenericTripletGenerator::hitTriplets
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Definition: GenericTripletGenerator.h:27
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