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List of all members | Public Member Functions | Private Member Functions | Static Private Member Functions | Private Attributes
ConstrainedTreeBuilderT Class Reference

#include <ConstrainedTreeBuilderT.h>

Public Member Functions

template<int nTrk>
RefCountedKinematicTree buildTree (const std::vector< RefCountedKinematicParticle > &initialParticles, const std::vector< KinematicState > &finalStates, const RefCountedKinematicVertex vtx, const ROOT::Math::SMatrix< double, 3+7 *nTrk, 3+7 *nTrk, ROOT::Math::MatRepSym< double, 3+7 *nTrk > > &fCov) const
 
 ConstrainedTreeBuilderT ()
 
 ~ConstrainedTreeBuilderT ()
 

Private Member Functions

RefCountedKinematicTree buildRealTree (const RefCountedKinematicParticle virtualParticle, const RefCountedKinematicVertex vtx, const std::vector< RefCountedKinematicParticle > &particles) const
 

Static Private Member Functions

template<int nTrk>
static AlgebraicSymMatrix77 covarianceMatrix (const std::vector< RefCountedKinematicParticle > &rPart, const AlgebraicVector7 &newPar, const ROOT::Math::SMatrix< double, 3+7 *nTrk, 3+7 *nTrk, ROOT::Math::MatRepSym< double, 3+7 *nTrk > > &fitCov)
 

Private Attributes

VirtualKinematicParticleFactory pFactory
 
KinematicVertexFactory vFactory
 

Detailed Description

Class constructing te final output tree for the constrained vertex fitter. To be used by corresponding fitter only. Tree builders are scheduled for generalization: They should be inherited from the single generic class in the next version of the library.

Definition at line 15 of file ConstrainedTreeBuilderT.h.

Constructor & Destructor Documentation

ConstrainedTreeBuilderT::ConstrainedTreeBuilderT ( )
inline

Definition at line 20 of file ConstrainedTreeBuilderT.h.

20 {}
ConstrainedTreeBuilderT::~ConstrainedTreeBuilderT ( )
inline

Definition at line 22 of file ConstrainedTreeBuilderT.h.

22 {}

Member Function Documentation

RefCountedKinematicTree ConstrainedTreeBuilderT::buildRealTree ( const RefCountedKinematicParticle  virtualParticle,
const RefCountedKinematicVertex  vtx,
const std::vector< RefCountedKinematicParticle > &  particles 
) const
private

Definition at line 8 of file ConstrainedTreeBuilderT.cc.

References KinematicTree::movePointerToTheTop(), KinematicTree::replaceCurrentParticle(), MainPageGenerator::tree, KinematicVertexFactory::vertex(), and vFactory.

Referenced by buildTree().

10 {
11 
12 //making a resulting tree:
14 
15 //fake production vertex:
17  resTree->addParticle(fVertex, vtx, virtualParticle);
18 
19 //adding final state
20  for(std::vector<RefCountedKinematicParticle>::const_iterator il = particles.begin(); il != particles.end(); il++)
21  {
22  if((*il)->previousParticle()->correspondingTree() != 0)
23  {
24  KinematicTree * tree = (*il)->previousParticle()->correspondingTree();
25  tree->movePointerToTheTop();
26  tree->replaceCurrentParticle(*il);
27  RefCountedKinematicVertex cdVertex = resTree->currentDecayVertex();
28  resTree->addTree(cdVertex, tree);
29  }else{
31  resTree->addParticle(vtx,ffVertex,*il);
32  }
33  }
34  return resTree;
35 }
void replaceCurrentParticle(RefCountedKinematicParticle newPart) const
KinematicVertexFactory vFactory
void movePointerToTheTop() const
static RefCountedKinematicVertex vertex(const VertexState &state, float totalChiSq, float degreesOfFr)
template<int nTrk>
RefCountedKinematicTree ConstrainedTreeBuilderT::buildTree ( const std::vector< RefCountedKinematicParticle > &  initialParticles,
const std::vector< KinematicState > &  finalStates,
const RefCountedKinematicVertex  vtx,
const ROOT::Math::SMatrix< double, 3+7 *nTrk, 3+7 *nTrk, ROOT::Math::MatRepSym< double, 3+7 *nTrk > > &  fCov 
) const

Method constructing tree out of set of refitted states, vertex, and full covariance matrix.

Definition at line 60 of file ConstrainedTreeBuilderT.h.

References a, buildRealTree(), RecoTauCleanerPlugins::charge, beam_dqm_sourceclient-live_cfg::chi2, i, LogDebug, HLT_FULL_cff::magneticField, gen::n, hcaldqm::flag::nState, AlCaHLTBitMon_ParallelJobs::p, VirtualKinematicParticleFactory::particle(), pFactory, mathSSE::sqrt(), and z.

64 {
65  if (!vertex->vertexIsValid()) {
66  LogDebug("RecoVertex/ConstrainedTreeBuilder")
67  << "Vertex is invalid\n";
69  }
70  AlgebraicVector3 vtx;
71  vtx(0) = vertex->position().x();
72  vtx(1) = vertex->position().y();
73  vtx(2) = vertex->position().z();
74  AlgebraicMatrix33 vertexCov = fullCov.template Sub<ROOT::Math::SMatrix<double, 3> >(0,0);
75 
76 // cout << fullCov<<endl;
77 // cout << "RecoVertex/ConstrainedTreeBuilder"<<vtx<<endl;
78 
79  double ent = 0.;
80  int charge = 0;
81  AlgebraicVector7 virtualPartPar;
82  virtualPartPar(0) = vertex->position().x();
83  virtualPartPar(1) = vertex->position().y();
84  virtualPartPar(2) = vertex->position().z();
85 
86 //making refitted particles out of refitted states.
87 //none of the operations above violates the order of particles
88 
89  ROOT::Math::SMatrix<double,7,7,ROOT::Math::MatRepStd<double,7,7> > aMatrix;
90  ROOT::Math::SMatrix<double,7,7,ROOT::Math::MatRepStd<double,7,7> > aMatrixT;
91  aMatrix(3,3) = aMatrixT(3,3) = 1;
92  aMatrix(4,4) = aMatrixT(4,4) = 1;
93  aMatrix(5,5) = aMatrixT(5,5) = 1;
94  aMatrix(6,6) = aMatrixT(6,6) = 1;
95  ROOT::Math::SMatrix<double,7,3,ROOT::Math::MatRepStd<double,7,3> > bMatrix;
96  ROOT::Math::SMatrix<double,3,7,ROOT::Math::MatRepStd<double,3,7> > bMatrixT;
97  bMatrix(0,0) = bMatrixT(0,0) = 1;
98  bMatrix(1,1) = bMatrixT(1,1) = 1;
99  bMatrix(2,2) = bMatrixT(2,2) = 1;
100  AlgebraicSymMatrix77 trackParCov;
101  ROOT::Math::SMatrix<double,3,7,ROOT::Math::MatRepStd<double,3,7> > vtxTrackCov;
102  AlgebraicSymMatrix77 nCovariance;
103  // AlgebraicSymMatrix77 tmp;
104 
105  std::vector<RefCountedKinematicParticle>::const_iterator i = initialParticles.begin();
106  std::vector<KinematicState>::const_iterator iStates = finalStates.begin();
107  std::vector<RefCountedKinematicParticle> rParticles;
108  int n=0;
109  // assert(initialParticles.size()==nTrk);
110  for( ; i != initialParticles.end() && iStates != finalStates.end(); ++i,++iStates)
111  {
112  AlgebraicVector7 p = iStates->kinematicParameters().vector();
113  double a = - iStates->particleCharge() *
114  iStates->magneticField()->inInverseGeV(iStates->globalPosition()).z();
115 
116  aMatrix(4,0) = aMatrixT(0,4) = -a;
117  aMatrix(3,1) = aMatrixT(1,3) = a;
118  bMatrix(4,0) = bMatrixT(0,4) = a;
119  bMatrix(3,1) = bMatrixT(1,3) = -a;
120 
121  AlgebraicVector7 par = aMatrix*p + bMatrix * vtx;
122 
123  trackParCov = fullCov.template Sub<AlgebraicSymMatrix77>(3+n*7,3+n*7);
124  vtxTrackCov = fullCov.template Sub<ROOT::Math::SMatrix<double, 3, 7> >(0,3+n*7);
125  ROOT::Math::AssignSym::Evaluate(nCovariance,
126  aMatrix * trackParCov * aMatrixT
127  + aMatrix * ROOT::Math::Transpose(vtxTrackCov) * bMatrixT
128  + bMatrix * vtxTrackCov * aMatrixT
129  + bMatrix * vertexCov * bMatrixT
130  );
131  /*
132  ROOT::Math::AssignSym::Evaluate(tmp, aMatrix * ROOT::Math::Transpose(vtxTrackCov) * bMatrixT);
133  nCovariance+=tmp;
134  ROOT::Math::AssignSym::Evaluate(tmp, bMatrix * vtxTrackCov * aMatrixT);
135  nCovariance+=tmp;
136  ROOT::Math::AssignSym::Evaluate(tmp, bMatrix * vertexCov * bMatrixT);
137  nCovariance+=tmp;
138  */
139 
140  KinematicState stateAtVertex(KinematicParameters(par),
141  KinematicParametersError(nCovariance),
142  iStates->particleCharge(), iStates->magneticField());
143  rParticles.push_back((*i)->refittedParticle(stateAtVertex, vertex->chiSquared(), vertex->degreesOfFreedom()));
144 
145  virtualPartPar(3) += par(3);
146  virtualPartPar(4) += par(4);
147  virtualPartPar(5) += par(5);
148  ent += sqrt(par(6)*par(6) + par(3)*par(3)+par(4)*par(4)+par(5)*par(5) );
149  charge += iStates->particleCharge();
150 
151  ++n;
152 
153  }
154 
155  //total reconstructed mass
156  double differ = ent*ent - (virtualPartPar(3)*virtualPartPar(3) + virtualPartPar(5)*virtualPartPar(5) + virtualPartPar(4)*virtualPartPar(4));
157  if(differ>0.) {
158  virtualPartPar(6) = sqrt(differ);
159  } else {
160  LogDebug("ConstrainedTreeBuilder")
161  << "Fit failed: Current precision does not allow to calculate the mass\n";
163  }
164 
165  // covariance matrix:
166 
167  AlgebraicSymMatrix77 cov = this->covarianceMatrix<nTrk>(rParticles,virtualPartPar,fullCov);
168 
169  KinematicState nState(KinematicParameters(virtualPartPar),
171  charge, initialParticles[0]->magneticField());
172 
173  //newborn kinematic particle
174  float chi2 = vertex->chiSquared();
175  float ndf = vertex->degreesOfFreedom();
176  KinematicParticle * zp = 0;
177  RefCountedKinematicParticle virtualParticle = pFactory.particle(nState,chi2,ndf,zp);
178 
179  return buildRealTree(virtualParticle, vertex, rParticles);
180 }
#define LogDebug(id)
int i
Definition: DBlmapReader.cc:9
VirtualKinematicParticleFactory pFactory
RefCountedKinematicParticle particle(const KinematicState &kineState, float &chiSquared, float &degreesOfFr, ReferenceCountingPointer< KinematicParticle > previousParticle, KinematicConstraint *lastConstraint=0) const
tuple magneticField
ROOT::Math::SMatrix< double, 7, 7, ROOT::Math::MatRepSym< double, 7 > > AlgebraicSymMatrix77
Definition: Matrices.h:9
ROOT::Math::SVector< double, 7 > AlgebraicVector7
Definition: Matrices.h:8
T sqrt(T t)
Definition: SSEVec.h:18
ROOT::Math::SVector< double, 3 > AlgebraicVector3
RefCountedKinematicTree buildRealTree(const RefCountedKinematicParticle virtualParticle, const RefCountedKinematicVertex vtx, const std::vector< RefCountedKinematicParticle > &particles) const
double a
Definition: hdecay.h:121
ROOT::Math::SMatrix< double, 3, 3, ROOT::Math::MatRepStd< double, 3, 3 > > AlgebraicMatrix33
template<int nTrk>
AlgebraicSymMatrix77 ConstrainedTreeBuilderT::covarianceMatrix ( const std::vector< RefCountedKinematicParticle > &  rPart,
const AlgebraicVector7 newPar,
const ROOT::Math::SMatrix< double, 3+7 *nTrk, 3+7 *nTrk, ROOT::Math::MatRepSym< double, 3+7 *nTrk > > &  fitCov 
)
staticprivate

Metod to reconstruct the full covariance matrix of the resulting particle.

Definition at line 184 of file ConstrainedTreeBuilderT.h.

References i, j, HLT_FULL_cff::magneticField, runTheMatrix::ret, findQualityFiles::size, mathSSE::sqrt(), create_public_lumi_plots::transform, and pileupCalc::upper.

187  {
188 
189  typedef ROOT::Math::SMatrix<double,3+7*nTrk,3+7*nTrk,ROOT::Math::MatRepSym<double,3+7*nTrk> > FitCov;
190  //constructing the full matrix using the simple fact
191  //that we have never broken the order of tracks
192  // during our fit.
193 
194  int size = nTrk;
195 
196  if ( int(rPart.size())!=size) throw "error in ConstrainedTreeBuilderT ";
197 
198  //global propagation to the vertex position
199  //Jacobian is done for all the parameters together
200  ROOT::Math::SMatrix<double,3+7*nTrk> jac;
201  jac(0,0) = 1;
202  jac(1,1) = 1;
203  jac(2,2) = 1;
204  ROOT::Math::SMatrix<double,3,7> upper;
205  ROOT::Math::SMatrix<double,7> diagonal;
206  for( int i_int=0; i_int!=size; ++i_int) {
207  RefCountedKinematicParticle const & i = rPart[i_int];
208  //vertex position related components of the matrix
209  double a_i = - (i)->currentState().particleCharge() *
210  (i)->magneticField()->inInverseGeV((i)->currentState().globalPosition()).z();
211  upper(0,0) = 1;
212  upper(1,1) = 1;
213  upper(2,2) = 1;
214  upper(1,3) = -a_i;
215  upper(0,4) = a_i;
216  jac.Place_at(upper,0,3+i_int*7);
217 
218  diagonal(3,3) = 1;
219  diagonal(4,4) = 1;
220  diagonal(5,5) = 1;
221  diagonal(6,6) = 1;
222  diagonal(1,3) = a_i;
223  diagonal(0,4) = -a_i;
224  jac.Place_at(diagonal,3+i_int*7,3+i_int*7);
225  }
226 
227  // jacobian is constructed in such a way, that
228  // right operation for transformation will be
229  // fitCov.similarityT(jac)
230  // WARNING: normal similarity operation is
231  // not valid in this case
232  //now making reduced matrix:
233  // int vSize = rPart.size();
234  FitCov const & fit_cov_sym = fitCov;
235  /*
236  for(int i = 0; i<7*vSize+3; ++i)
237  {
238  for(int j = 0; j<7*vSize+3; ++j)
239  {if(i<=j) fit_cov_sym(i,j) = fitCov(i,j);}
240  }
241  */
242 
243  ROOT::Math::SMatrix<double,4*nTrk+3,4*nTrk+3, ROOT::Math::MatRepSym<double,4*nTrk+3> > reduced;
244  FitCov transform=ROOT::Math::SimilarityT(jac,fit_cov_sym); // similarityT???
245 
246  //jacobian to add matrix components
247  ROOT::Math::SMatrix<double,7,4*nTrk+3> jac_t;
248  jac_t(0,0) = 1.;
249  jac_t(1,1) = 1.;
250  jac_t(2,2) = 1.;
251 
252 
253 
254  double energy_global = sqrt(newPar(3)*newPar(3)+newPar(4)*newPar(4) + newPar(5)*newPar(5)+newPar(6)*newPar(6));
255  for(int il_int = 0; il_int!=size; ++il_int) {
256  RefCountedKinematicParticle const & rs = rPart[il_int];
257  //jacobian components:
258  int off1=3; int off2=il_int*4+3;
259  jac_t(off1+0,off2+0) = 1.;
260  jac_t(off1+1,off2+1) = 1.;
261  jac_t(off1+2,off2+2) = 1.;
262 
263  //non-trival elements: mass correlations:
264  AlgebraicVector7 l_Par = (rs)->currentState().kinematicParameters().vector();
265  double energy_local = sqrt(l_Par(6)*l_Par(6) + l_Par(3)*l_Par(3) + l_Par(4)*l_Par(4) + l_Par(5)*l_Par(5));
266  jac_t(off1+3,off2+3) = energy_global*l_Par(6)/(newPar(6)*energy_local);
267  jac_t(off1+3,off2+0) = ((energy_global*l_Par(3)/energy_local) - newPar(3))/newPar(6);
268  jac_t(off1+3,off2+1) = ((energy_global*l_Par(4)/energy_local) - newPar(4))/newPar(6);
269  jac_t(off1+3,off2+2) = ((energy_global*l_Par(5)/energy_local) - newPar(5))/newPar(6);
270  }
271 
272  for(int i = 0; i<7;++i)
273  for(int j =0; j<7; ++j)
274  reduced(i,j) = transform(i+3, j+3);
275 
276  for(int i = 1; i<size; i++) {
277  //non-trival elements: mass correlations:
278  //upper row and right column
279 
280  int off1=0;
281  int off2=3+4*i;
282  for(int l1 = 0; l1<3;++l1)
283  for(int l2 = 0; l2<4;++l2)
284  reduced(off1+l1,off2+l2) = transform(3+l1,6+7*i +l2);
285 
286  //diagonal elements
287  off1=off2=3+4*i;
288  for(int l1 = 0; l1<4;++l1)
289  for(int l2 = 0; l2<4;++l2)
290  reduced(off1+l1,off2+l2) = transform(6+7*i+l1, 6+7*i+l2);
291 
292  //off diagonal elements
293  for(int j = 1; j<size; j++) {
294  off1 = 3+4*(i-1); off2=3+4*j;
295  for(int l1 = 0; l1<4;++l1)
296  for(int l2 = 0; l2<4;++l2)
297  reduced(off1+l1,off2+l2) = transform(6+7*(i-1)+l1,6+7*j+l2);
298  }
299 
300  }
301 
303  ROOT::Math::AssignSym::Evaluate(ret, jac_t*reduced*ROOT::Math::Transpose(jac_t));
304  return ret;
305 }
int i
Definition: DBlmapReader.cc:9
tuple ret
prodAgent to be discontinued
tuple magneticField
ROOT::Math::SMatrix< double, 7, 7, ROOT::Math::MatRepSym< double, 7 > > AlgebraicSymMatrix77
Definition: Matrices.h:9
ROOT::Math::SVector< double, 7 > AlgebraicVector7
Definition: Matrices.h:8
T sqrt(T t)
Definition: SSEVec.h:18
int j
Definition: DBlmapReader.cc:9
tuple size
Write out results.

Member Data Documentation

VirtualKinematicParticleFactory ConstrainedTreeBuilderT::pFactory
private

Definition at line 50 of file ConstrainedTreeBuilderT.h.

Referenced by buildTree().

KinematicVertexFactory ConstrainedTreeBuilderT::vFactory
private

Definition at line 51 of file ConstrainedTreeBuilderT.h.

Referenced by buildRealTree().