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KinematicConstrainedVertexUpdator.cc
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4 
8 }
9 
11  delete vFactory;
12  delete vConstraint;
13 }
14 
15 std::pair<std::pair<std::vector<KinematicState>, AlgebraicMatrix>, RefCountedKinematicVertex>
17  const AlgebraicMatrix& inCov,
18  const std::vector<KinematicState>& lStates,
19  const GlobalPoint& lPoint,
21  const MagneticField* field = lStates.front().magneticField();
22  AlgebraicMatrix d_matrix = vConstraint->parametersDerivative(lStates, lPoint);
23  AlgebraicMatrix e_matrix = vConstraint->positionDerivative(lStates, lPoint);
24  AlgebraicVector val_s = vConstraint->value(lStates, lPoint);
25  int vSize = lStates.size();
26 
27  //delta alpha
28  AlgebraicVector d_a(7 * vSize + 3);
29  d_a(1) = lPoint.x();
30  d_a(2) = lPoint.y();
31  d_a(3) = lPoint.z();
32 
33  int cst = 0;
34  for (std::vector<KinematicState>::const_iterator i = lStates.begin(); i != lStates.end(); i++) {
35  AlgebraicVector lst_par = asHepVector<7>(i->kinematicParameters().vector());
36  for (int j = 1; j < lst_par.num_row() + 1; j++) {
37  d_a(3 + 7 * cst + j) = lst_par(j);
38  }
39  cst++;
40  }
41 
42  AlgebraicVector delta_alpha = inPar - d_a;
43 
44  // cout<<"delta_alpha"<<delta_alpha<<endl;
45  //resulting matrix of derivatives and vector of values.
46  //their size depends of number of tracks to analyze and number of
47  //additional constraints to apply
50  if (cs == nullptr) {
51  //unconstrained vertex fitter case
52  g = AlgebraicMatrix(2 * vSize, 7 * vSize + 3, 0);
53  val = AlgebraicVector(2 * vSize);
54 
55  //filling the derivative matrix
56  g.sub(1, 1, e_matrix);
57  g.sub(1, 4, d_matrix);
58 
59  //filling the vector of values
60  val = val_s;
61  } else {
62  //constrained vertex fitter case
63  int n_eq = cs->numberOfEquations();
64  g = AlgebraicMatrix(n_eq + 2 * vSize, 7 * vSize + 3, 0);
65  val = AlgebraicVector(n_eq + 2 * vSize);
66  AlgebraicMatrix n_x = cs->positionDerivative(lStates, lPoint);
67  AlgebraicMatrix n_alpha = cs->parametersDerivative(lStates, lPoint);
68  AlgebraicVector c_val = cs->value(lStates, lPoint);
69 
70  //filling the derivative matrix
71  // cout<<"n_x:"<<n_x<<endl;
72  // cout<<"n_alpha"<<n_alpha<<endl;
73 
74  g.sub(1, 1, n_x);
75  g.sub(1, 4, n_alpha);
76  g.sub(n_eq + 1, 1, e_matrix);
77  g.sub(n_eq + 1, 4, d_matrix);
78 
79  //filling the vector of values
80  for (int i = 1; i < n_eq + 1; i++) {
81  val(i) = c_val(i);
82  }
83  for (int i = 1; i < (2 * vSize + 1); i++) {
84  val(i + n_eq) = val_s(i);
85  }
86  }
87 
88  //check for NaN
89  for (int i = 1; i <= val.num_row(); ++i) {
90  if (edm::isNotFinite(val(i))) {
91  LogDebug("KinematicConstrainedVertexUpdator") << "catched NaN.\n";
92  return std::pair<std::pair<std::vector<KinematicState>, AlgebraicMatrix>, RefCountedKinematicVertex>(
93  std::pair<std::vector<KinematicState>, AlgebraicMatrix>(std::vector<KinematicState>(), AlgebraicMatrix(1, 0)),
95  }
96  }
97 
98  //debug feature
99  AlgebraicSymMatrix in_cov_sym(7 * vSize + 3, 0);
100 
101  for (int i = 1; i < 7 * vSize + 4; ++i) {
102  for (int j = 1; j < 7 * vSize + 4; ++j) {
103  if (i <= j)
104  in_cov_sym(i, j) = inCov(i, j);
105  }
106  }
107 
108  //debug code
109  AlgebraicSymMatrix v_g_sym = in_cov_sym.similarity(g);
110 
111  int ifl1 = 0;
112  v_g_sym.invert(ifl1);
113  if (ifl1 != 0) {
114  LogDebug("KinematicConstrainedVertexFitter") << "Fit failed: unable to invert SYM gain matrix\n";
115  return std::pair<std::pair<std::vector<KinematicState>, AlgebraicMatrix>, RefCountedKinematicVertex>(
116  std::pair<std::vector<KinematicState>, AlgebraicMatrix>(std::vector<KinematicState>(), AlgebraicMatrix(1, 0)),
118  }
119 
120  // delta alpha is now valid!
121  //full math case now!
122  AlgebraicVector lambda = v_g_sym * (g * delta_alpha + val);
123 
124  //final parameters
125  AlgebraicVector finPar = inPar - in_cov_sym * g.T() * lambda;
126 
127  //covariance matrix business:
128  AlgebraicMatrix mFactor = in_cov_sym * (v_g_sym.similarityT(g)) * in_cov_sym;
129 
130  //refitted covariance
131  AlgebraicMatrix rCov = in_cov_sym - mFactor;
132 
133  //symmetric covariance:
134  AlgebraicSymMatrix r_cov_sym(7 * vSize + 3, 0);
135  for (int i = 1; i < 7 * vSize + 4; ++i) {
136  for (int j = 1; j < 7 * vSize + 4; ++j) {
137  if (i <= j)
138  r_cov_sym(i, j) = rCov(i, j);
139  }
140  }
141 
142  AlgebraicSymMatrix pCov = r_cov_sym.sub(1, 3);
143 
144  // chi2
145  AlgebraicVector chi = lambda.T() * (g * delta_alpha + val);
146 
147  //this is ndf without significant prior
148  //vertex so -3 factor exists here
149  float ndf = 2 * vSize - 3;
150  if (cs != nullptr) {
151  ndf += cs->numberOfEquations();
152  }
153 
154  //making resulting vertex
155  GlobalPoint vPos(finPar(1), finPar(2), finPar(3));
156  VertexState st(vPos, GlobalError(asSMatrix<3>(pCov)));
157  RefCountedKinematicVertex rVtx = vFactory->vertex(st, chi(1), ndf);
158 
159  //making refitted states of Kinematic Particles
160  int i_int = 0;
161  std::vector<KinematicState> ns;
162  for (std::vector<KinematicState>::const_iterator i_st = lStates.begin(); i_st != lStates.end(); i_st++) {
163  AlgebraicVector7 newPar;
164  for (int i = 0; i < 7; i++) {
165  newPar(i) = finPar(4 + i_int * 7 + i);
166  }
167 
168  AlgebraicSymMatrix nCovariance = r_cov_sym.sub(4 + i_int * 7, 10 + i_int * 7);
169  TrackCharge chl = i_st->particleCharge();
170  KinematicParameters nrPar(newPar);
171  KinematicParametersError nrEr(asSMatrix<7>(nCovariance));
172  KinematicState newState(nrPar, nrEr, chl, field);
173  ns.push_back(newState);
174  i_int++;
175  }
176  std::pair<std::vector<KinematicState>, AlgebraicMatrix> ns_m(ns, rCov);
177  return std::pair<std::pair<std::vector<KinematicState>, AlgebraicMatrix>, RefCountedKinematicVertex>(ns_m, rVtx);
178 }
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Definition: TrackCharge.h:4
VertexKinematicConstraint::value
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Definition: VertexKinematicConstraint.cc:9
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Definition: KinematicConstrainedVertexUpdator.h:38
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Definition: MultiTrackKinematicConstraint.h:23
KinematicConstrainedVertexUpdator::vConstraint
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Definition: KinematicConstrainedVertexUpdator.h:39
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Definition: VertexKinematicConstraint.cc:50
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VertexKinematicConstraint::positionDerivative
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Definition: VertexKinematicConstraint.cc:112
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Definition: KinematicConstrainedVertexUpdator.cc:10
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KinematicConstrainedVertexUpdator::update
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