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KinematicConstrainedVertexUpdatorT.h
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1 #ifndef KinematicConstrainedVertexUpdatorT_H
2 #define KinematicConstrainedVertexUpdatorT_H
3 
4 #include <atomic>
5 #include <cassert>
6 #include <iostream>
7 
13 
14 // the usual stupid counter
15 namespace KineDebug3 {
16  struct Count {
17  std::atomic<int> n;
18  Count() : n(0) {}
19  ~Count() {}
20  };
21  inline void count() {
22  CMS_THREAD_SAFE static Count c;
23  ++c.n;
24  }
25 
26 } // namespace KineDebug3
27 
33 template <int nTrk, int nConstraint>
35 public:
40 
42 
52  const ROOT::Math::SVector<double, 3 + 7 * nTrk>& inState,
53  ROOT::Math::SMatrix<double, 3 + 7 * nTrk, 3 + 7 * nTrk, ROOT::Math::MatRepSym<double, 3 + 7 * nTrk> >& inCov,
54  std::vector<KinematicState>& lStates,
55  const GlobalPoint& lPoint,
56  GlobalVector const& fieldValue,
58 
59 private:
62  ROOT::Math::SVector<double, 3 + 7 * nTrk> delta_alpha;
63  ROOT::Math::SMatrix<double, nConstraint + 4, 3 + 7 * nTrk> g;
64  ROOT::Math::SVector<double, nConstraint + 4> val;
65  ROOT::Math::SVector<double, 3 + 7 * nTrk> finPar;
66  ROOT::Math::SVector<double, nConstraint + 4> lambda;
67  ROOT::Math::SMatrix<double, 3, 3, ROOT::Math::MatRepSym<double, 3> > pCov = ROOT::Math::SMatrixNoInit();
68  ROOT::Math::SMatrix<double, 7, 7, ROOT::Math::MatRepSym<double, 7> > nCovariance = ROOT::Math::SMatrixNoInit();
69  ROOT::Math::SMatrix<double, nConstraint + 4, nConstraint + 4, ROOT::Math::MatRepSym<double, nConstraint + 4> >
70  v_g_sym = ROOT::Math::SMatrixNoInit();
71 };
72 
74 
75 template <int nTrk, int nConstraint>
77 
78 template <int nTrk, int nConstraint>
80 
81 template <int nTrk, int nConstraint>
83  const ROOT::Math::SVector<double, 3 + 7 * nTrk>& inPar,
84  ROOT::Math::SMatrix<double, 3 + 7 * nTrk, 3 + 7 * nTrk, ROOT::Math::MatRepSym<double, 3 + 7 * nTrk> >& inCov,
85  std::vector<KinematicState>& lStates,
86  const GlobalPoint& lPoint,
87  GlobalVector const& fieldValue,
90 
91  int vSize = lStates.size();
92 
93  assert(nConstraint == 0 || cs != nullptr);
94  assert(vSize == nConstraint);
95 
96  const MagneticField* field = lStates.front().magneticField();
97 
98  delta_alpha = inPar;
99  delta_alpha(0) -= lPoint.x();
100  delta_alpha(1) -= lPoint.y();
101  delta_alpha(2) -= lPoint.z();
102  int cst = 3;
103  for (std::vector<KinematicState>::const_iterator i = lStates.begin(); i != lStates.end(); i++)
104  for (int j = 0; j < 7; j++) {
105  delta_alpha(cst) -= i->kinematicParameters()(j);
106  cst++;
107  }
108 
109  // cout<<"delta_alpha"<<delta_alpha<<endl;
110  //resulting matrix of derivatives and vector of values.
111  //their size depends of number of tracks to analyze and number of
112  //additional constraints to apply
113 
114  if (nConstraint != 0) {
115  cs->init(lStates, lPoint, fieldValue);
116  val.Place_at(cs->value(), 0);
117  g.Place_at(cs->positionDerivative(), 0, 0);
118  g.Place_at(cs->parametersDerivative(), 0, 3);
119  }
120 
121  vConstraint.init(lStates, lPoint, fieldValue);
122  val.Place_at(vConstraint.value(), nConstraint);
123  g.Place_at(vConstraint.positionDerivative(), nConstraint, 0);
124  g.Place_at(vConstraint.parametersDerivative(), nConstraint, 3);
125 
126  //debug code
127  v_g_sym = ROOT::Math::Similarity(g, inCov);
128 
129  // bool ifl1 = v_g_sym.Invert();
130  bool ifl1 = invertPosDefMatrix(v_g_sym);
131  if (!ifl1) {
132  edm::LogWarning("KinematicConstrainedVertexUpdatorFailed") << "invert failed\n" << v_g_sym;
133  LogDebug("KinematicConstrainedVertexFitter3") << "Fit failed: unable to invert SYM gain matrix\n";
134  return RefCountedKinematicVertex();
135  }
136 
137  // delta alpha is now valid!
138  //full math case now!
139  val += g * delta_alpha;
140  lambda = v_g_sym * val;
141 
142  //final parameters
143  finPar = inPar - inCov * (ROOT::Math::Transpose(g) * lambda);
144 
145  //refitted covariance
146  ROOT::Math::SMatrix<double, 3 + 7 * nTrk, 3 + 7 * nTrk, ROOT::Math::MatRepSym<double, 3 + 7 * nTrk> > prod =
147  ROOT::Math::SimilarityT(g, v_g_sym);
148  ROOT::Math::SMatrix<double, 3 + 7 * nTrk, 3 + 7 * nTrk, ROOT::Math::MatRepSym<double, 3 + 7 * nTrk> > prod1;
149  ROOT::Math::AssignSym::Evaluate(prod1, inCov * prod * inCov);
150  // ROOT::Math::AssignSym::Evaluate(prod, prod1 * inCov);
151  inCov -= prod1;
152 
153  pCov = inCov.template Sub<ROOT::Math::SMatrix<double, 3, 3, ROOT::Math::MatRepSym<double, 3> > >(0, 0);
154 
155  // chi2
156  double chi = ROOT::Math::Dot(lambda, val); //??
157 
158  //this is ndf without significant prior
159  //vertex so -3 factor exists here
160  float ndf = 2 * vSize - 3;
161  ndf += nConstraint;
162 
163  //making resulting vertex
164  GlobalPoint vPos(finPar(0), finPar(1), finPar(2));
165  VertexState st(vPos, GlobalError(pCov));
166  RefCountedKinematicVertex rVtx = vFactory.vertex(st, chi, ndf);
167 
168  //making refitted states of Kinematic Particles
169  AlgebraicVector7 newPar;
170  int i_int = 0;
171  for (std::vector<KinematicState>::iterator i_st = lStates.begin(); i_st != lStates.end(); i_st++) {
172  for (int i = 0; i < 7; i++) {
173  newPar(i) = finPar(3 + i_int * 7 + i);
174  }
175 
176  nCovariance = inCov.template Sub<ROOT::Math::SMatrix<double, 7, 7, ROOT::Math::MatRepSym<double, 7> > >(
177  3 + i_int * 7, 3 + i_int * 7);
178  TrackCharge chl = i_st->particleCharge();
179  KinematicParameters nrPar(newPar);
180  KinematicParametersError nrEr(nCovariance);
181  KinematicState newState(nrPar, nrEr, chl, field);
182  (*i_st) = newState;
183  i_int++;
184  }
185  return rVtx;
186 }
187 
188 #endif
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Definition: KinematicConstrainedVertexUpdatorT.h:70
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Definition: KinematicConstrainedVertexUpdatorT.h:68
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Definition: KinematicConstrainedVertexUpdatorT.h:66
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Definition: KinematicConstrainedVertexUpdatorT.h:19
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