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LagrangeParentParticleFitter.cc
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5 
7 
8 /*
9 RefCountedKinematicTree LagrangeParentParticleFitter::fit(RefCountedKinematicTree tree, KinematicConstraint * cs) const
10 {
11 //fitting top paticle only
12  tree->movePointerToTheTop();
13  RefCountedKinematicParticle particle = tree->currentParticle();
14  RefCountedKinematicVertex inVertex = tree->currentDecayVertex();
15 
16 //parameters and covariance matrix of the particle to fit
17  AlgebraicVector par = particle->currentState().kinematicParameters().vector();
18  AlgebraicSymMatrix cov = particle->currentState().kinematicParametersError().matrix();
19 
20 //chi2 and ndf
21  float chi = 0.;
22  float ndf = 0.;
23 
24 //constraint
25 //here it is defined at 7-point
26 //taken just at current state parameters
27  AlgebraicVector vl;
28  AlgebraicMatrix dr;
29  AlgebraicVector dev;
30 
31 //initial expansion point
32  AlgebraicVector exPoint = particle->currentState().kinematicParameters().vector();
33 
34 //refitted parameters and covariance matrix:
35 //simple and symmetric
36  AlgebraicVector refPar;
37  AlgebraicSymMatrix refCovS;
38 
39  int nstep = 0;
40  double df = 0.;
41  do{
42  chi = particle->chiSquared();
43  ndf = particle->degreesOfFreedom();
44  df = 0.;
45 
46 //derivative and value at expansion point
47  vl = cs->value(exPoint).first;
48  dr = cs->derivative(exPoint).first;
49  dev = cs->deviations();
50 
51 //residual between expansion and current parameters
52 //0 at the first step
53  AlgebraicVector delta_alpha = par - exPoint;
54 
55 //parameters needed for refit
56 // v_d = (D * V_alpha & * D.T)^(-1)
57  AlgebraicMatrix drt = dr.T();
58  AlgebraicMatrix v_d = dr * cov * drt;
59  int ifail = 0;
60  v_d.invert(ifail);
61  if(ifail != 0) throw VertexException("ParentParticleFitter::error inverting covariance matrix");
62 
63 //lagrangian multipliers
64 //lambda = V_d * (D * delta_alpha + d)
65  AlgebraicVector lambda = v_d * (dr*delta_alpha + vl);
66 
67 //refitted parameters
68  refPar = par - (cov * drt * lambda);
69 
70 //refitted covariance: simple and SymMatrix
71  refCovS = cov;
72  AlgebraicMatrix sPart = drt * v_d * dr;
73  AlgebraicMatrix covF = cov * sPart * cov;
74  AlgebraicSymMatrix sCovF(7,0);
75 
76  for(int i = 1; i<8; i++)
77  {
78  for(int j = 1; j<8; j++)
79  {if(i<=j) sCovF(i,j) = covF(i,j);}
80  }
81  refCovS -= sCovF;
82 
83  for(int i = 1; i < 8; i++)
84  {refCovS(i,i) += dev(i);}
85 
86 //chiSquared
87  chi += (lambda.T() * (dr*delta_alpha + vl))(1);
88  ndf += cs->numberOfEquations();
89 
90 //new expansionPoint
91  exPoint = refPar;
92  AlgebraicVector vlp = cs->value(exPoint).first;
93  for(int i = 1; i< vl.num_row();i++)
94  {df += std::abs(vlp(i));}
95  nstep++;
96  }while(df>theMaxDiff && nstep<theMaxStep);
97 
99 //creating an output KinematicParticle
100 //and putting it on its place in the tree
101  KinematicParameters param(refPar);
102  KinematicParametersError er(refCovS);
103  KinematicState kState(param,er,particle->initialState().particleCharge());
104  RefCountedKinematicParticle refParticle = particle->refittedParticle(kState,chi,ndf,cs->clone());
105  tree->replaceCurrentParticle(refParticle);
106 
107 //replacing the vertex with its refitted version
108  GlobalPoint nvPos(param.vector()(1), param.vector()(2), param.vector()(3));
109  AlgebraicSymMatrix nvMatrix = er.matrix().sub(1,3);
110  GlobalError nvError(asSMatrix<3>(nvMatrix));
111  VertexState vState(nvPos, nvError, 1.0);
112  KinematicVertexFactory vFactory;
113  RefCountedKinematicVertex nVertex = vFactory.vertex(vState, inVertex,chi,ndf);
114  tree->replaceCurrentVertex(nVertex);
115 
116  return tree;
117 }
118 */
119 
120 std::vector<RefCountedKinematicTree> LagrangeParentParticleFitter::fit(
121  const std::vector<RefCountedKinematicTree>& trees, KinematicConstraint* cs) const {
122  InputSort iSort;
123  std::vector<RefCountedKinematicParticle> prt = iSort.sort(trees);
124  int nStates = prt.size();
125 
126  //making full initial parameters and covariance
127  AlgebraicVector part(7 * nStates, 0);
128  AlgebraicSymMatrix cov(7 * nStates, 0);
129 
130  AlgebraicVector chi_in(nStates, 0);
131  AlgebraicVector ndf_in(nStates, 0);
132  int l_c = 0;
133  for (std::vector<RefCountedKinematicParticle>::const_iterator i = prt.begin(); i != prt.end(); i++) {
134  AlgebraicVector7 lp = (*i)->currentState().kinematicParameters().vector();
135  for (int j = 1; j != 8; j++) {
136  part(7 * l_c + j) = lp(j - 1);
137  }
138  AlgebraicSymMatrix lc = asHepMatrix<7>((*i)->currentState().kinematicParametersError().matrix());
139  cov.sub(7 * l_c + 1, lc);
140  chi_in(l_c + 1) = (*i)->chiSquared();
141  ndf_in(l_c + 1) = (*i)->degreesOfFreedom();
142  l_c++;
143  }
144  //refitted parameters and covariance matrix:
145  //simple and symmetric
146  AlgebraicVector refPar;
147  AlgebraicSymMatrix refCovS;
148 
149  //constraint values, derivatives and deviations:
150  AlgebraicVector vl;
152  AlgebraicVector dev;
153  int nstep = 0;
154  double df = 0.;
155  AlgebraicVector exPoint = part;
156 
157  //this piece of code should later be refactored:
158  // The algorithm is the same as above, but the
159  // number of refitted particles is >1. Smart way of
160  // refactoring should be chosen for it.
161  AlgebraicVector chi;
162  AlgebraicVector ndf;
163  // cout<<"Starting the main loop"<<endl;
164  do {
165  df = 0.;
166  chi = chi_in;
167  ndf = ndf_in;
168  // cout<<"Iterational linearization point: "<<exPoint<<endl;
169  vl = cs->value(exPoint).first;
170  dr = cs->derivative(exPoint).first;
171  dev = cs->deviations(nStates);
172 
173  // cout<<"The value : "<<vl<<endl;
174  // cout<<"The derivative: "<<dr<<endl;
175  // cout<<"deviations: "<<dev<<endl;
176  // cout<<"covariance "<<cov<<endl;
177 
178  //residual between expansion and current parameters
179  //0 at the first step
180  AlgebraicVector delta_alpha = part - exPoint;
181 
182  //parameters needed for refit
183  // v_d = (D * V_alpha & * D.T)^(-1)
184  AlgebraicMatrix drt = dr.T();
185  AlgebraicMatrix v_d = dr * cov * drt;
186  int ifail = 0;
187  v_d.invert(ifail);
188  if (ifail != 0) {
189  LogDebug("KinematicConstrainedVertexFitter") << "Fit failed: unable to invert covariance matrix\n";
190  return std::vector<RefCountedKinematicTree>();
191  }
192 
193  //lagrangian multipliers
194  //lambda = V_d * (D * delta_alpha + d)
195  AlgebraicVector lambda = v_d * (dr * delta_alpha + vl);
196 
197  //refitted parameters
198  refPar = part - (cov * drt * lambda);
199 
200  //refitted covariance: simple and SymMatrix
201  refCovS = cov;
202  AlgebraicMatrix sPart = drt * v_d * dr;
203  AlgebraicMatrix covF = cov * sPart * cov;
204 
205  //total covariance symmatrix
206  AlgebraicSymMatrix sCovF(nStates * 7, 0);
207  for (int i = 1; i < nStates * 7 + 1; ++i) {
208  for (int j = 1; j < nStates * 7 + 1; j++) {
209  if (i <= j)
210  sCovF(i, j) = covF(i, j);
211  }
212  }
213 
214  refCovS -= sCovF;
215 
216  // cout<<"Fitter: refitted covariance "<<refCovS<<endl;
217  for (int i = 1; i < nStates + 1; i++) {
218  for (int j = 1; j < 8; j++) {
219  refCovS((i - 1) + j, (i - 1) + j) += dev(j);
220  }
221  }
222 
223  //chiSquared
224  for (int k = 1; k < nStates + 1; k++) {
225  chi(k) += (lambda.T() * (dr * delta_alpha + vl))(1);
226  ndf(k) += cs->numberOfEquations();
227  }
228  //new expansionPoint
229  exPoint = refPar;
230  AlgebraicVector vlp = cs->value(exPoint).first;
231  for (int i = 1; i < vl.num_row(); i++) {
232  df += std::abs(vlp(i));
233  }
234  nstep++;
235  } while (df > theMaxDiff && nstep < theMaxStep);
236  //here math and iterative part is finished, starting an output production
237  //creating an output KinematicParticle and putting it on its place in the tree
238 
239  //vector of refitted particles and trees
240  std::vector<RefCountedKinematicParticle> refPart;
241  std::vector<RefCountedKinematicTree> refTrees = trees;
242 
243  int j = 1;
244  std::vector<RefCountedKinematicTree>::const_iterator tr = refTrees.begin();
245  for (std::vector<RefCountedKinematicParticle>::const_iterator i = prt.begin(); i != prt.end(); i++) {
246  AlgebraicVector7 lRefPar;
247  for (int k = 1; k < 8; k++) {
248  lRefPar(k - 1) = refPar((j - 1) * 7 + k);
249  }
250  AlgebraicSymMatrix77 lRefCovS = asSMatrix<7>(refCovS.sub((j - 1) * 7 + 1, (j - 1) * 7 + 7));
251 
252  //new refitted parameters and covariance
253  KinematicParameters param(lRefPar);
254  KinematicParametersError er(lRefCovS);
255  KinematicState kState(param, er, (*i)->initialState().particleCharge(), (**i).magneticField());
256  RefCountedKinematicParticle refParticle = (*i)->refittedParticle(kState, chi(j), ndf(j), cs->clone());
257 
258  //replacing particle itself
259  (*tr)->findParticle(*i);
260  RefCountedKinematicVertex inVertex = (*tr)->currentDecayVertex();
261  (*tr)->replaceCurrentParticle(refParticle);
262 
263  //replacing the vertex with its refitted version
264  GlobalPoint nvPos(param.position());
265  AlgebraicSymMatrix nvMatrix = asHepMatrix<7>(er.matrix()).sub(1, 3);
266  GlobalError nvError(asSMatrix<3>(nvMatrix));
267  VertexState vState(nvPos, nvError, 1.0);
268  KinematicVertexFactory vFactory;
269  RefCountedKinematicVertex nVertex = vFactory.vertex(vState, inVertex, chi(j), ndf(j));
270  (*tr)->replaceCurrentVertex(nVertex);
271  tr++;
272  j++;
273  }
274  return refTrees;
275 }
276 
278  theMaxDiff = pSet.getParameter<double>("maxDistance");
279  theMaxStep = pSet.getParameter<int>("maxNbrOfIterations");
280  ;
281 }
282 
284  theMaxDiff = 0.001;
285  theMaxStep = 100;
286 }
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