Belle II Software  release-08-01-10
MassPointingVertexFitKFit.cc
1 /**************************************************************************
2  * basf2 (Belle II Analysis Software Framework) *
3  * Author: The Belle II Collaboration *
4  * *
5  * See git log for contributors and copyright holders. *
6  * This file is licensed under LGPL-3.0, see LICENSE.md. *
7  **************************************************************************/
8 
9 #include <analysis/VertexFitting/KFit/MakeMotherKFit.h>
10 #include <analysis/VertexFitting/KFit/MassPointingVertexFitKFit.h>
11 #include <analysis/utility/CLHEPToROOT.h>
12 #include <framework/gearbox/Const.h>
13 
14 #include <TMath.h>
15 
16 using namespace std;
17 using namespace Belle2;
18 using namespace Belle2::analysis;
19 using namespace CLHEP;
20 
21 MassPointingVertexFitKFit::MassPointingVertexFitKFit():
22  m_BeforeVertex(HepPoint3D(0., 0., 0.)),
23  m_AfterVertexError(HepSymMatrix(3, 0)),
24  m_ProductionVertex(HepPoint3D(0., 0., 0.))
25 {
26  m_FlagFitted = false;
27  m_NecessaryTrackCount = 2;
28  m_V_E = HepMatrix(3, 3, 0);
29  m_v = HepMatrix(3, 1, 0);
30  m_v_a = HepMatrix(3, 1, 0);
31  m_InvariantMass = -1.0;
32 }
33 
34 
35 MassPointingVertexFitKFit::~MassPointingVertexFitKFit() = default;
36 
37 
38 enum KFitError::ECode
39 MassPointingVertexFitKFit::setInitialVertex(const HepPoint3D& v) {
40  m_BeforeVertex = v;
41 
42  return m_ErrorCode = KFitError::kNoError;
43 }
44 
45 
46 enum KFitError::ECode
47 MassPointingVertexFitKFit::setInvariantMass(const double m) {
48  m_InvariantMass = m;
49 
50  return m_ErrorCode = KFitError::kNoError;
51 }
52 
53 
54 enum KFitError::ECode
55 MassPointingVertexFitKFit::setProductionVertex(const HepPoint3D& v) {
56  m_ProductionVertex = v;
57 
58  return m_ErrorCode = KFitError::kNoError;
59 }
60 
61 
62 enum KFitError::ECode
63 MassPointingVertexFitKFit::fixMass() {
64  m_IsFixMass.push_back(true);
65 
66  return m_ErrorCode = KFitError::kNoError;
67 }
68 
69 
70 enum KFitError::ECode
71 MassPointingVertexFitKFit::unfixMass() {
72  m_IsFixMass.push_back(false);
73 
74  return m_ErrorCode = KFitError::kNoError;
75 }
76 
77 
78 enum KFitError::ECode
79 MassPointingVertexFitKFit::setCorrelation(const HepMatrix& m) {
80  return KFitBase::setCorrelation(m);
81 }
82 
83 
84 enum KFitError::ECode
85 MassPointingVertexFitKFit::setZeroCorrelation() {
86  return KFitBase::setZeroCorrelation();
87 }
88 
89 
90 const HepPoint3D
91 MassPointingVertexFitKFit::getVertex(const int flag) const
92 {
93  if (flag == KFitConst::kAfterFit && !isFitted()) return HepPoint3D();
94 
95  switch (flag) {
96  case KFitConst::kBeforeFit:
97  return m_BeforeVertex;
98 
99  case KFitConst::kAfterFit:
100  return m_AfterVertex;
101 
102  default:
103  KFitError::displayError(__FILE__, __LINE__, __func__, KFitError::kOutOfRange);
104  return HepPoint3D();
105  }
106 }
107 
108 
109 const HepSymMatrix
110 MassPointingVertexFitKFit::getVertexError() const
111 {
112  return m_AfterVertexError;
113 }
114 
115 
116 double
117 MassPointingVertexFitKFit::getInvariantMass() const
118 {
119  return m_InvariantMass;
120 }
121 
122 
123 double
124 MassPointingVertexFitKFit::getCHIsq() const
125 {
126  return m_CHIsq;
127 }
128 
129 
130 const HepMatrix
131 MassPointingVertexFitKFit::getTrackVertexError(const int id) const
132 {
133  if (!isTrackIDInRange(id)) return HepMatrix(3, KFitConst::kNumber7, 0);
134 
135  return m_AfterTrackVertexError[id];
136 }
137 
138 
139 double
140 MassPointingVertexFitKFit::getTrackCHIsq(const int id) const
141 {
142  if (!isFitted()) return -1;
143  if (!isTrackIDInRange(id)) return -1;
144 
145  if (m_IsFixMass[id]) {
146 
147  HepMatrix da(m_Tracks[id].getFitParameter(KFitConst::kBeforeFit) - m_Tracks[id].getFitParameter(KFitConst::kAfterFit));
148  int err_inverse = 0;
149  const double chisq = (da.T() * (m_Tracks[id].getFitError(KFitConst::kBeforeFit).inverse(err_inverse)) * da)[0][0];
150 
151  if (err_inverse) {
152  KFitError::displayError(__FILE__, __LINE__, __func__, KFitError::kCannotGetMatrixInverse);
153  return -1;
154  }
155 
156  return chisq;
157 
158  } else {
159 
160  HepMatrix da(m_Tracks[id].getMomPos(KFitConst::kBeforeFit) - m_Tracks[id].getMomPos(KFitConst::kAfterFit));
161  int err_inverse = 0;
162  const double chisq = (da.T() * (m_Tracks[id].getError(KFitConst::kBeforeFit).inverse(err_inverse)) * da)[0][0];
163 
164  if (err_inverse) {
165  KFitError::displayError(__FILE__, __LINE__, __func__, KFitError::kCannotGetMatrixInverse);
166  return -1;
167  }
168 
169  return chisq;
170  }
171 }
172 
173 
174 const HepMatrix
175 MassPointingVertexFitKFit::getCorrelation(const int id1, const int id2, const int flag) const
176 {
177  if (flag == KFitConst::kAfterFit && !isFitted()) return HepMatrix(KFitConst::kNumber7, KFitConst::kNumber7, 0);
178  if (!isTrackIDInRange(id1)) return HepMatrix(KFitConst::kNumber7, KFitConst::kNumber7, 0);
179  if (!isTrackIDInRange(id2)) return HepMatrix(KFitConst::kNumber7, KFitConst::kNumber7, 0);
180 
181  switch (flag) {
182  case KFitConst::kBeforeFit:
183  return KFitBase::getCorrelation(id1, id2, flag);
184 
185  case KFitConst::kAfterFit:
186  return makeError3(
187  this->getTrackMomentum(id1),
188  this->getTrackMomentum(id2),
189  m_V_al_1.sub(KFitConst::kNumber7 * id1 + 1, KFitConst::kNumber7 * (id1 + 1), KFitConst::kNumber7 * id2 + 1,
190  KFitConst::kNumber7 * (id2 + 1)),
191  m_IsFixMass[id1],
192  m_IsFixMass[id2]);
193 
194  default:
195  KFitError::displayError(__FILE__, __LINE__, __func__, KFitError::kOutOfRange);
196  return HepMatrix(KFitConst::kNumber7, KFitConst::kNumber7, 0);
197  }
198 }
199 
200 
201 enum KFitError::ECode
202 MassPointingVertexFitKFit::doFit() {
203  return KFitBase::doFit2();
204 }
205 
206 
207 enum KFitError::ECode
208 MassPointingVertexFitKFit::prepareInputMatrix() {
209  if (m_TrackCount > KFitConst::kMaxTrackCount)
210  {
211  m_ErrorCode = KFitError::kBadTrackSize;
212  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
213  return m_ErrorCode;
214  }
215 
216 
217  if (m_IsFixMass.size() == 0)
218  {
219  // If no fix_mass flag at all,
220  // all tracks are considered to be fixed at mass.
221  for (int i = 0; i < m_TrackCount; i++) this->fixMass();
222  } else if (m_IsFixMass.size() != (unsigned int)m_TrackCount)
223  {
224  m_ErrorCode = KFitError::kBadTrackSize;
225  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
226  return m_ErrorCode;
227  }
228 
229 
230  int index = 0;
231  m_al_0 = HepMatrix(KFitConst::kNumber7 * m_TrackCount, 1, 0);
232  m_property = HepMatrix(m_TrackCount, 3, 0);
233  m_V_al_0 = HepSymMatrix(KFitConst::kNumber7 * m_TrackCount, 0);
234 
235  for (auto& track : m_Tracks)
236  {
237  // momentum x,y,z,E and position x,y,z
238  m_al_0[index * KFitConst::kNumber7 + 0][0] = track.getMomentum(KFitConst::kBeforeFit).x();
239  m_al_0[index * KFitConst::kNumber7 + 1][0] = track.getMomentum(KFitConst::kBeforeFit).y();
240  m_al_0[index * KFitConst::kNumber7 + 2][0] = track.getMomentum(KFitConst::kBeforeFit).z();
241  m_al_0[index * KFitConst::kNumber7 + 3][0] = track.getMomentum(KFitConst::kBeforeFit).t();
242  m_al_0[index * KFitConst::kNumber7 + 4][0] = track.getPosition(KFitConst::kBeforeFit).x();
243  m_al_0[index * KFitConst::kNumber7 + 5][0] = track.getPosition(KFitConst::kBeforeFit).y();
244  m_al_0[index * KFitConst::kNumber7 + 6][0] = track.getPosition(KFitConst::kBeforeFit).z();
245  // these error
246  m_V_al_0.sub(index * KFitConst::kNumber7 + 1, track.getError(KFitConst::kBeforeFit));
247  // charge, mass, a
248  m_property[index][0] = track.getCharge();
249  m_property[index][1] = track.getMass();
250  const double c = Belle2::Const::speedOfLight * 1e-4;
251  m_property[index][2] = -c * m_MagneticField * track.getCharge();
252  index++;
253  }
254 
255  // error between track and track
256  if (m_FlagCorrelation)
257  {
258  this->prepareCorrelation();
259  if (m_ErrorCode != KFitError::kNoError) {
260  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
261  return m_ErrorCode;
262  }
263  }
264 
265  // vertex
266  m_v_a[0][0] = m_BeforeVertex.x();
267  m_v_a[1][0] = m_BeforeVertex.y();
268  m_v_a[2][0] = m_BeforeVertex.z();
269 
270  // set member matrix
271  m_al_1 = m_al_0;
272 
273  m_V_al_1 = HepMatrix(KFitConst::kNumber7 * m_TrackCount, KFitConst::kNumber7 * m_TrackCount, 0);
274  m_D = m_V_al_1.sub(1, m_TrackCount * 2 + 3, 1, KFitConst::kNumber7 * m_TrackCount);
275  m_E = m_V_al_1.sub(1, m_TrackCount * 2 + 3, 1, 3);
276  m_d = m_V_al_1.sub(1, m_TrackCount * 2 + 3, 1, 1);
277  m_V_D = m_V_al_1.sub(1, m_TrackCount * 2 + 3, 1, m_TrackCount * 2 + 3);
278  m_lam = m_V_al_1.sub(1, m_TrackCount * 2 + 3, 1, 1);
279  m_lam0 = m_V_al_1.sub(1, m_TrackCount * 2 + 3, 1, 1);
280  m_V_Dt = m_V_al_1.sub(1, m_TrackCount * 2 + 3, 1, m_TrackCount * 2 + 3);
281  m_Cov_v_al_1 = m_V_al_1.sub(1, 3, 1, KFitConst::kNumber7 * m_TrackCount);
282 
283  return m_ErrorCode = KFitError::kNoError;
284 }
285 
286 
287 enum KFitError::ECode
288 MassPointingVertexFitKFit::prepareInputSubMatrix() {
289  // vertex
290  for (int i = 0; i < 3; i++) m_v[i][0] = m_v_a[i][0];
291 
292  return m_ErrorCode = KFitError::kNoError;
293 }
294 
295 
296 enum KFitError::ECode
297 MassPointingVertexFitKFit::prepareCorrelation() {
298  if (m_BeforeCorrelation.size() != static_cast<unsigned int>(m_TrackCount * (m_TrackCount - 1) / 2))
299  {
300  m_ErrorCode = KFitError::kBadCorrelationSize;
301  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
302  return m_ErrorCode;
303  }
304 
305  int row = 0, col = 0;
306 
307  for (auto& hm : m_BeforeCorrelation)
308  {
309  // counter
310  row++;
311  if (row == m_TrackCount) {
312  col++;
313  row = col + 1;
314  }
315 
316  int ii = 0, jj = 0;
317  for (int i = KFitConst::kNumber7 * row; i < KFitConst::kNumber7 * (row + 1); i++) {
318  for (int j = KFitConst::kNumber7 * col; j < KFitConst::kNumber7 * (col + 1); j++) {
319  m_V_al_0[i][j] = hm[ii][jj];
320  jj++;
321  }
322  jj = 0;
323  ii++;
324  }
325  }
326 
327  return m_ErrorCode = KFitError::kNoError;
328 }
329 
330 
331 enum KFitError::ECode
332 MassPointingVertexFitKFit::prepareOutputMatrix() {
333  Hep3Vector h3v;
334  int index = 0;
335  for (auto& pdata : m_Tracks)
336  {
337  // tracks
338  // momentum
339  h3v.setX(m_al_1[index * KFitConst::kNumber7 + 0][0]);
340  h3v.setY(m_al_1[index * KFitConst::kNumber7 + 1][0]);
341  h3v.setZ(m_al_1[index * KFitConst::kNumber7 + 2][0]);
342  if (m_IsFixMass[index])
343  pdata.setMomentum(HepLorentzVector(h3v, sqrt(h3v.mag2() + pdata.getMass()*pdata.getMass())), KFitConst::kAfterFit);
344  else
345  pdata.setMomentum(HepLorentzVector(h3v, m_al_1[index * KFitConst::kNumber7 + 3][0]), KFitConst::kAfterFit);
346  // position
347  pdata.setPosition(HepPoint3D(
348  m_al_1[index * KFitConst::kNumber7 + 4][0],
349  m_al_1[index * KFitConst::kNumber7 + 5][0],
350  m_al_1[index * KFitConst::kNumber7 + 6][0]), KFitConst::kAfterFit);
351  // error of the tracks
352  pdata.setError(this->makeError3(pdata.getMomentum(),
353  m_V_al_1.sub(
354  index * KFitConst::kNumber7 + 1,
355  (index + 1)*KFitConst::kNumber7,
356  index * KFitConst::kNumber7 + 1,
357  (index + 1)*KFitConst::kNumber7), m_IsFixMass[index]),
358  KFitConst::kAfterFit);
359  if (m_ErrorCode != KFitError::kNoError) break;
360  index++;
361  }
362 
363  // vertex
364  m_AfterVertex.setX(m_v_a[0][0]);
365  m_AfterVertex.setY(m_v_a[1][0]);
366  m_AfterVertex.setZ(m_v_a[2][0]);
367  // error of the vertex
368  for (int i = 0; i < 3; i++) for (int j = i; j < 3; j++)
369  {
370  m_AfterVertexError[i][j] = m_V_E[i][j];
371  }
372  // error between vertex and tracks
373  for (int i = 0; i < m_TrackCount; i++)
374  {
375  HepMatrix hm(3, KFitConst::kNumber7, 0);
376  for (int j = 0; j < 3; j++) for (int k = 0; k < KFitConst::kNumber7; k++) {
377  hm[j][k] = m_Cov_v_al_1[j][KFitConst::kNumber7 * i + k];
378  }
379  if (m_IsFixMass[i])
380  m_AfterTrackVertexError.push_back(this->makeError4(m_Tracks[i].getMomentum(), hm));
381  else
382  m_AfterTrackVertexError.push_back(hm);
383  }
384 
385  return m_ErrorCode = KFitError::kNoError;
386 }
387 
388 
389 enum KFitError::ECode
390 MassPointingVertexFitKFit::makeCoreMatrix() {
391  // Mass Constraint
392  HepMatrix al_1_prime(m_al_1);
393  HepMatrix Sum_al_1(4, 1, 0);
394  std::vector<double> energy(m_TrackCount);
395  double a;
396 
397  for (int i = 0; i < m_TrackCount; i++)
398  {
399  a = m_property[i][2];
400  al_1_prime[i * KFitConst::kNumber7 + 0][0] -= a * (m_v_a[1][0] - al_1_prime[i * KFitConst::kNumber7 + 5][0]);
401  al_1_prime[i * KFitConst::kNumber7 + 1][0] += a * (m_v_a[0][0] - al_1_prime[i * KFitConst::kNumber7 + 4][0]);
402  energy[i] = sqrt(al_1_prime[i * KFitConst::kNumber7 + 0][0] * al_1_prime[i * KFitConst::kNumber7 + 0][0] +
403  al_1_prime[i * KFitConst::kNumber7 + 1][0] * al_1_prime[i * KFitConst::kNumber7 + 1][0] +
404  al_1_prime[i * KFitConst::kNumber7 + 2][0] * al_1_prime[i * KFitConst::kNumber7 + 2][0] +
405  m_property[i][1] * m_property[i][1]);
406  if (m_IsFixMass[i])
407  Sum_al_1[3][0] += energy[i];
408  else
409  Sum_al_1[3][0] += al_1_prime[i * KFitConst::kNumber7 + 3][0];
410  }
411 
412  for (int i = 0; i < m_TrackCount; i++)
413  {
414  for (int j = 0; j < 3; j++) Sum_al_1[j][0] += al_1_prime[i * KFitConst::kNumber7 + j][0];
415  }
416 
417  double vtx = sqrt((m_v_a[0][0] - m_ProductionVertex.x()) * (m_v_a[0][0] - m_ProductionVertex.x())
418  + (m_v_a[1][0] - m_ProductionVertex.y()) * (m_v_a[1][0] - m_ProductionVertex.y())
419  + (m_v_a[2][0] - m_ProductionVertex.z()) * (m_v_a[2][0] - m_ProductionVertex.z()));
420  double vtxpt2 = (m_ProductionVertex.x() - m_v_a[0][0]) * (m_ProductionVertex.x() - m_v_a[0][0]) + (m_ProductionVertex.y() - m_v_a[1][0]) * (m_ProductionVertex.y() - m_v_a[1][0]);
421  double mom = sqrt(Sum_al_1[0][0] * Sum_al_1[0][0] + Sum_al_1[1][0] * Sum_al_1[1][0] + Sum_al_1[2][0] * Sum_al_1[2][0]);
422  double Pt2 = Sum_al_1[0][0] * Sum_al_1[0][0] + Sum_al_1[1][0] * Sum_al_1[1][0];
423 
424  m_d[2 * m_TrackCount][0] =
425  + Sum_al_1[3][0] * Sum_al_1[3][0] - Sum_al_1[0][0] * Sum_al_1[0][0]
426  - Sum_al_1[1][0] * Sum_al_1[1][0] - Sum_al_1[2][0] * Sum_al_1[2][0]
427  - m_InvariantMass * m_InvariantMass;
428 
429  double phiPointingConstraint = atan2(m_v_a[1][0] - m_ProductionVertex.y(), m_v_a[0][0] - m_ProductionVertex.x()) - atan2(Sum_al_1[1][0], Sum_al_1[0][0]);
430  phiPointingConstraint = std::fmod(phiPointingConstraint + TMath::Pi(), TMath::TwoPi());
431  if (phiPointingConstraint < 0) phiPointingConstraint += TMath::TwoPi();
432  phiPointingConstraint -= TMath::Pi();
433 
434  m_d[2 * m_TrackCount + 1][0] = phiPointingConstraint;
435  m_d[2 * m_TrackCount + 2][0] = acos((m_v_a[2][0] - m_ProductionVertex.z()) / vtx) - acos(Sum_al_1[2][0] / mom);
436 
437  double Sum_a = 0., Sum_tmpx = 0., Sum_tmpy = 0.;
438  for (int i = 0; i < m_TrackCount; i++)
439  {
440  if (energy[i] == 0) {
441  m_ErrorCode = KFitError::kDivisionByZero;
442  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
443  return m_ErrorCode;
444  }
445 
446  a = m_property[i][2];
447 
448  if (m_IsFixMass[i]) {
449  double invE = 1. / energy[i];
450  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 0] = 2.*(Sum_al_1[3][0] * al_1_prime[i * KFitConst::kNumber7 + 0][0] * invE -
451  Sum_al_1[0][0]);
452  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 1] = 2.*(Sum_al_1[3][0] * al_1_prime[i * KFitConst::kNumber7 + 1][0] * invE -
453  Sum_al_1[1][0]);
454  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 2] = 2.*(Sum_al_1[3][0] * al_1_prime[i * KFitConst::kNumber7 + 2][0] * invE -
455  Sum_al_1[2][0]);
456  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 3] = 0.;
457  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 4] = -2.*(Sum_al_1[3][0] * al_1_prime[i * KFitConst::kNumber7 + 1][0] * invE -
458  Sum_al_1[1][0]) * a;
459  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 5] = 2.*(Sum_al_1[3][0] * al_1_prime[i * KFitConst::kNumber7 + 0][0] * invE -
460  Sum_al_1[0][0]) * a;
461  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 6] = 0.;
462  Sum_tmpx += al_1_prime[i * KFitConst::kNumber7 + 0][0] * invE * a;
463  Sum_tmpy += al_1_prime[i * KFitConst::kNumber7 + 1][0] * invE * a;
464  } else {
465  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 0] = -2.*Sum_al_1[0][0];
466  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 1] = -2.*Sum_al_1[1][0];
467  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 2] = -2.*Sum_al_1[2][0];
468  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 3] = 2.*Sum_al_1[3][0];
469  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 4] = 2.*Sum_al_1[1][0] * a;
470  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 5] = -2.*Sum_al_1[0][0] * a;
471  m_D[2 * m_TrackCount][i * KFitConst::kNumber7 + 6] = 0.;
472  }
473  m_D[2 * m_TrackCount + 1][i * KFitConst::kNumber7 + 0] = Sum_al_1[1][0] / Pt2;
474  m_D[2 * m_TrackCount + 1][i * KFitConst::kNumber7 + 1] = - Sum_al_1[0][0] / Pt2;
475  m_D[2 * m_TrackCount + 1][i * KFitConst::kNumber7 + 2] = 0.;
476  m_D[2 * m_TrackCount + 1][i * KFitConst::kNumber7 + 3] = 0.;
477  m_D[2 * m_TrackCount + 1][i * KFitConst::kNumber7 + 4] = a * Sum_al_1[0][0] / Pt2;
478  m_D[2 * m_TrackCount + 1][i * KFitConst::kNumber7 + 5] = a * Sum_al_1[1][0] / Pt2;
479  m_D[2 * m_TrackCount + 1][i * KFitConst::kNumber7 + 6] = 0.;
480  m_D[2 * m_TrackCount + 2][i * KFitConst::kNumber7 + 0] = - Sum_al_1[0][0] * Sum_al_1[2][0] / (sqrt(Pt2) * mom * mom);
481  m_D[2 * m_TrackCount + 2][i * KFitConst::kNumber7 + 1] = - Sum_al_1[1][0] * Sum_al_1[2][0] / (sqrt(Pt2) * mom * mom);
482  m_D[2 * m_TrackCount + 2][i * KFitConst::kNumber7 + 2] = sqrt(Pt2) / (mom * mom);
483  m_D[2 * m_TrackCount + 2][i * KFitConst::kNumber7 + 3] = 0.;
484  m_D[2 * m_TrackCount + 2][i * KFitConst::kNumber7 + 4] = a * Sum_al_1[1][0] * Sum_al_1[2][0] / (sqrt(Pt2) * mom * mom);
485  m_D[2 * m_TrackCount + 2][i * KFitConst::kNumber7 + 5] = - a * Sum_al_1[0][0] * Sum_al_1[2][0] / (sqrt(Pt2) * mom * mom);
486  m_D[2 * m_TrackCount + 2][i * KFitConst::kNumber7 + 6] = 0.;
487  Sum_a += a;
488  }
489 
490  // m_E
491  m_E[2 * m_TrackCount][0] = -2.*Sum_al_1[1][0] * Sum_a + 2.*Sum_al_1[3][0] * Sum_tmpy;
492  m_E[2 * m_TrackCount][1] = 2.*Sum_al_1[0][0] * Sum_a - 2.*Sum_al_1[3][0] * Sum_tmpx;
493  m_E[2 * m_TrackCount][2] = 0.;
494  m_E[2 * m_TrackCount + 1][0] = (m_ProductionVertex.y() - m_v_a[1][0]) / vtxpt2 - Sum_a * Sum_al_1[0][0] / Pt2;
495  m_E[2 * m_TrackCount + 1][1] = (m_v_a[0][0] - m_ProductionVertex.x()) / vtxpt2 - Sum_a * Sum_al_1[1][0] / Pt2;
496  m_E[2 * m_TrackCount + 1][2] = 0.;
497  m_E[2 * m_TrackCount + 2][0] = (m_v_a[0][0] - m_ProductionVertex.x()) * (m_v_a[2][0] - m_ProductionVertex.z()) / (vtx* vtx * sqrt(vtxpt2)) - Sum_a * Sum_al_1[1][0] * Sum_al_1[2][0] / (sqrt(Pt2) * mom * mom);
498  m_E[2 * m_TrackCount + 2][1] = (m_v_a[1][0] - m_ProductionVertex.y()) * (m_v_a[2][0] - m_ProductionVertex.z()) / (vtx* vtx * sqrt(vtxpt2)) + Sum_a * Sum_al_1[0][0] * Sum_al_1[2][0] / (sqrt(Pt2) * mom * mom);
499  m_E[2 * m_TrackCount + 2][2] = - sqrt(vtxpt2) / (vtx * vtx);
500 
501  for (int i = 0; i < m_TrackCount; i++)
502  {
503  double S, U;
504  double sininv;
505 
506  double px = m_al_1[i * KFitConst::kNumber7 + 0][0];
507  double py = m_al_1[i * KFitConst::kNumber7 + 1][0];
508  double pz = m_al_1[i * KFitConst::kNumber7 + 2][0];
509  double x = m_al_1[i * KFitConst::kNumber7 + 4][0];
510  double y = m_al_1[i * KFitConst::kNumber7 + 5][0];
511  double z = m_al_1[i * KFitConst::kNumber7 + 6][0];
512  a = m_property[i][2];
513 
514  double pt = sqrt(px * px + py * py);
515 
516  if (pt == 0) {
517  m_ErrorCode = KFitError::kDivisionByZero;
518  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
519  return m_ErrorCode;
520  }
521 
522  double invPt = 1. / pt;
523  double invPt2 = invPt * invPt;
524  double dlx = m_v_a[0][0] - x;
525  double dly = m_v_a[1][0] - y;
526  double dlz = m_v_a[2][0] - z;
527  double a1 = -dlx * py + dly * px;
528  double a2 = dlx * px + dly * py;
529  double r2d2 = dlx * dlx + dly * dly;
530  double Rx = dlx - 2.*px * a2 * invPt2;
531  double Ry = dly - 2.*py * a2 * invPt2;
532 
533  if (a != 0.) { // charged
534 
535  double B = a * a2 * invPt2;
536  if (fabs(B) > 1.) {
537  m_ErrorCode = KFitError::kDivisionByZero;
538  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
539  return m_ErrorCode;
540  }
541  // sin^(-1)(B)
542  sininv = asin(B);
543  double tmp0 = 1.0 - B * B;
544  if (tmp0 == 0) {
545  m_ErrorCode = KFitError::kDivisionByZero;
546  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
547  return m_ErrorCode;
548  }
549  // 1/sqrt(1-B^2)
550  double sqrtag = 1.0 / sqrt(tmp0);
551  S = sqrtag * invPt2;
552  U = dlz - pz * sininv / a;
553 
554  } else { // neutral
555 
556  sininv = 0.0;
557  S = invPt2;
558  U = dlz - pz * a2 * invPt2;
559 
560  }
561 
562  // d
563  m_d[i * 2 + 0][0] = a1 - 0.5 * a * r2d2;
564  m_d[i * 2 + 1][0] = U * pt;
565 
566  // D
567  m_D[i * 2 + 0][i * KFitConst::kNumber7 + 0] = dly;
568  m_D[i * 2 + 0][i * KFitConst::kNumber7 + 1] = -dlx;
569  m_D[i * 2 + 0][i * KFitConst::kNumber7 + 2] = 0.0;
570  m_D[i * 2 + 0][i * KFitConst::kNumber7 + 4] = py + a * dlx;
571  m_D[i * 2 + 0][i * KFitConst::kNumber7 + 5] = -px + a * dly;
572  m_D[i * 2 + 0][i * KFitConst::kNumber7 + 6] = 0.0;
573  m_D[i * 2 + 1][i * KFitConst::kNumber7 + 0] = -pz * pt * S * Rx + U * px * invPt;
574  m_D[i * 2 + 1][i * KFitConst::kNumber7 + 1] = -pz * pt * S * Ry + U * py * invPt;
575  if (a != 0.)
576  m_D[i * 2 + 1][i * KFitConst::kNumber7 + 2] = -sininv * pt / a;
577  else
578  m_D[i * 2 + 1][i * KFitConst::kNumber7 + 2] = -a2 * invPt;
579  m_D[i * 2 + 1][i * KFitConst::kNumber7 + 4] = px * pz * pt * S;
580  m_D[i * 2 + 1][i * KFitConst::kNumber7 + 5] = py * pz * pt * S;
581  m_D[i * 2 + 1][i * KFitConst::kNumber7 + 6] = -pt;
582 
583  // E
584  m_E[i * 2 + 0][0] = -py - a * dlx;
585  m_E[i * 2 + 0][1] = px - a * dly;
586  m_E[i * 2 + 0][2] = 0.0;
587  m_E[i * 2 + 1][0] = -px * pz * pt * S;
588  m_E[i * 2 + 1][1] = -py * pz * pt * S;
589  m_E[i * 2 + 1][2] = pt;
590  }
591 
592  return m_ErrorCode = KFitError::kNoError;
593 }
594 
595 
596 enum KFitError::ECode
597 MassPointingVertexFitKFit::calculateNDF() {
598  m_NDF = 2 * m_TrackCount - 3 + 3;
599 
600  return m_ErrorCode = KFitError::kNoError;
601 }
602 
603 enum KFitError::ECode MassPointingVertexFitKFit::updateMother(Particle* mother)
604 {
605  MakeMotherKFit kmm;
606  kmm.setMagneticField(m_MagneticField);
607  unsigned n = getTrackCount();
608  for (unsigned i = 0; i < n; ++i) {
609  kmm.addTrack(getTrackMomentum(i), getTrackPosition(i), getTrackError(i),
610  getTrack(i).getCharge());
611  kmm.setTrackVertexError(getTrackVertexError(i));
612  for (unsigned j = i + 1; j < n; ++j) {
613  kmm.setCorrelation(getCorrelation(i, j));
614  }
615  }
616  kmm.setVertex(getVertex());
617  kmm.setVertexError(getVertexError());
618  m_ErrorCode = kmm.doMake();
619  if (m_ErrorCode != KFitError::kNoError) {
620  B2DEBUG(2, "Error in doMake");
621  return m_ErrorCode;
622  }
623  double chi2 = getCHIsq();
624  int ndf = getNDF();
625  double prob = TMath::Prob(chi2, ndf);
626  mother->addExtraInfo("ndf", ndf);
627  mother->addExtraInfo("chiSquared", chi2);
628  mother->updateMomentum(
629  CLHEPToROOT::getLorentzVector(kmm.getMotherMomentum()),
630  CLHEPToROOT::getXYZVector(kmm.getMotherPosition()),
631  CLHEPToROOT::getTMatrixFSym(kmm.getMotherError()),
632  prob);
633  m_ErrorCode = KFitError::kNoError;
634  return m_ErrorCode;
635 }
Belle2::Const::speedOfLight
static const double speedOfLight
[cm/ns]
Definition: Const.h:686
Belle2::Particle
Class to store reconstructed particles.
Definition: Particle.h:75
Belle2::analysis::KFitBase::m_NecessaryTrackCount
int m_NecessaryTrackCount
Number needed tracks to perform fit.
Definition: KFitBase.h:303
Belle2::analysis::KFitBase::m_MagneticField
double m_MagneticField
Magnetic field.
Definition: KFitBase.h:311
Belle2::analysis::KFitBase::m_al_1
CLHEP::HepMatrix m_al_1
See J.Tanaka Ph.D (2001) p136 for definition.
Definition: KFitBase.h:259
Belle2::analysis::KFitBase::m_V_Dt
CLHEP::HepMatrix m_V_Dt
See J.Tanaka Ph.D (2001) p138 for definition.
Definition: KFitBase.h:289
Belle2::analysis::KFitBase::setCorrelation
virtual enum KFitError::ECode setCorrelation(const CLHEP::HepMatrix &c)
Set a correlation matrix.
Definition: KFitBase.cc:70
Belle2::analysis::KFitBase::getTrackError
const CLHEP::HepSymMatrix getTrackError(const int id) const
Get an error matrix of the track.
Definition: KFitBase.cc:168
Belle2::analysis::KFitBase::getTrackMomentum
const CLHEP::HepLorentzVector getTrackMomentum(const int id) const
Get a Lorentz vector of the track.
Definition: KFitBase.cc:154
Belle2::analysis::KFitBase::m_lam
CLHEP::HepMatrix m_lam
See J.Tanaka Ph.D (2001) p137 for definition.
Definition: KFitBase.h:276
Belle2::analysis::KFitBase::doFit2
enum KFitError::ECode doFit2(void)
Perform a fit (used in VertexFitKFit::doFit() and MassVertexFitKFit::doFit()).
Definition: KFitBase.cc:577
Belle2::analysis::KFitBase::m_E
CLHEP::HepMatrix m_E
See J.Tanaka Ph.D (2001) p137 for definition.
Definition: KFitBase.h:279
Belle2::analysis::KFitBase::getTrackPosition
const HepPoint3D getTrackPosition(const int id) const
Get a position of the track.
Definition: KFitBase.cc:161
Belle2::analysis::KFitBase::m_property
CLHEP::HepMatrix m_property
Container of charges and masses.
Definition: KFitBase.h:263
Belle2::analysis::KFitBase::m_ErrorCode
enum KFitError::ECode m_ErrorCode
Error code.
Definition: KFitBase.h:243
Belle2::analysis::KFitBase::setZeroCorrelation
virtual enum KFitError::ECode setZeroCorrelation(void)
Indicate no correlation between tracks.
Definition: KFitBase.cc:85
Belle2::analysis::KFitBase::makeError3
const CLHEP::HepSymMatrix makeError3(const CLHEP::HepLorentzVector &p, const CLHEP::HepMatrix &e, const bool is_fix_mass) const
Rebuild an error matrix from a Lorentz vector and an error matrix.
Belle2::analysis::KFitBase::m_V_al_1
CLHEP::HepMatrix m_V_al_1
See J.Tanaka Ph.D (2001) p138 for definition.
Definition: KFitBase.h:274
Belle2::analysis::KFitBase::getNDF
virtual int getNDF(void) const
Get an NDF of the fit.
Definition: KFitBase.cc:114
Belle2::analysis::KFitBase::m_d
CLHEP::HepMatrix m_d
See J.Tanaka Ph.D (2001) p137 for definition.
Definition: KFitBase.h:268
Belle2::analysis::KFitBase::m_lam0
CLHEP::HepMatrix m_lam0
See J.Tanaka Ph.D (2001) p138 for definition.
Definition: KFitBase.h:283
Belle2::analysis::KFitBase::isFitted
bool isFitted(void) const
Return false if fit is not performed yet or performed fit is failed; otherwise true.
Definition: KFitBase.cc:727
Belle2::analysis::KFitBase::m_D
CLHEP::HepMatrix m_D
See J.Tanaka Ph.D (2001) p137 for definition.
Definition: KFitBase.h:266
Belle2::analysis::KFitBase::m_V_D
CLHEP::HepMatrix m_V_D
See J.Tanaka Ph.D (2001) p138 for definition.
Definition: KFitBase.h:271
Belle2::analysis::KFitBase::isTrackIDInRange
bool isTrackIDInRange(const int id) const
Check if the id is in the range.
Definition: KFitBase.cc:738
Belle2::analysis::KFitBase::m_v_a
CLHEP::HepMatrix m_v_a
See J.Tanaka Ph.D (2001) p137 for definition.
Definition: KFitBase.h:287
Belle2::analysis::KFitBase::getCorrelation
virtual const CLHEP::HepMatrix getCorrelation(const int id1, const int id2, const int flag=KFitConst::kAfterFit) const
Get a correlation matrix between two tracks.
Definition: KFitBase.cc:183
Belle2::analysis::KFitBase::m_FlagCorrelation
bool m_FlagCorrelation
Flag whether a correlation among tracks exists.
Definition: KFitBase.h:306
Belle2::analysis::KFitBase::m_V_al_0
CLHEP::HepSymMatrix m_V_al_0
See J.Tanaka Ph.D (2001) p137 for definition.
Definition: KFitBase.h:255
Belle2::analysis::KFitBase::m_V_E
CLHEP::HepMatrix m_V_E
See J.Tanaka Ph.D (2001) p138 for definition.
Definition: KFitBase.h:281
Belle2::analysis::KFitBase::m_Cov_v_al_1
CLHEP::HepMatrix m_Cov_v_al_1
See J.Tanaka Ph.D (2001) p137 for definition.
Definition: KFitBase.h:291
Belle2::analysis::KFitBase::getTrack
const KFitTrack getTrack(const int id) const
Get a specified track object.
Definition: KFitBase.cc:175
Belle2::analysis::KFitBase::m_BeforeCorrelation
std::vector< CLHEP::HepMatrix > m_BeforeCorrelation
Container of input correlation matrices.
Definition: KFitBase.h:251
Belle2::analysis::KFitBase::m_FlagFitted
bool m_FlagFitted
Flag to indicate if the fit is performed and succeeded.
Definition: KFitBase.h:245
Belle2::analysis::KFitBase::m_CHIsq
double m_CHIsq
chi-square of the fit.
Definition: KFitBase.h:297
Belle2::analysis::KFitBase::getTrackCount
int getTrackCount(void) const
Get the number of added tracks.
Definition: KFitBase.cc:107
Belle2::analysis::KFitBase::m_NDF
int m_NDF
NDF of the fit.
Definition: KFitBase.h:295
Belle2::analysis::KFitBase::m_Tracks
std::vector< KFitTrack > m_Tracks
Container of input tracks.
Definition: KFitBase.h:249
Belle2::analysis::KFitBase::m_v
CLHEP::HepMatrix m_v
See J.Tanaka Ph.D (2001) p137 for definition.
Definition: KFitBase.h:285
Belle2::analysis::KFitBase::makeError4
const CLHEP::HepMatrix makeError4(const CLHEP::HepLorentzVector &p, const CLHEP::HepMatrix &e) const
Rebuild an error matrix from a Lorentz vector and an error matrix.
Definition: KFitBase.cc:438
Belle2::analysis::KFitBase::m_TrackCount
int m_TrackCount
Number of tracks.
Definition: KFitBase.h:301
Belle2::analysis::KFitBase::m_al_0
CLHEP::HepMatrix m_al_0
See J.Tanaka Ph.D (2001) p136 for definition.
Definition: KFitBase.h:257
Belle2::analysis::KFitError::displayError
static void displayError(const char *file, const int line, const char *func, const enum ECode code)
Display a description of error and its location.
Definition: KFitError.h:72
Belle2::analysis::KFitError::ECode
ECode
ECode is a error code enumerate.
Definition: KFitError.h:34
Belle2::analysis::KFitError::kCannotGetMatrixInverse
@ kCannotGetMatrixInverse
Cannot calculate matrix inverse (bad track property or internal error)
Definition: KFitError.h:58
Belle2::analysis::KFitError::kOutOfRange
@ kOutOfRange
Specified track-id out of range.
Definition: KFitError.h:42
Belle2::analysis::KFitError::kDivisionByZero
@ kDivisionByZero
Division by zero (bad track property or internal error)
Definition: KFitError.h:56
Belle2::analysis::KFitError::kBadTrackSize
@ kBadTrackSize
Track count too small to perform fit.
Definition: KFitError.h:47
Belle2::analysis::KFitError::kBadCorrelationSize
@ kBadCorrelationSize
Wrong correlation matrix size (internal error)
Definition: KFitError.h:51
Belle2::analysis::MakeMotherKFit
MakeMotherKFit is a class to build mother particle from kinematically fitted daughters.
Definition: MakeMotherKFit.h:40
Belle2::analysis::MakeMotherKFit::setVertex
enum KFitError::ECode setVertex(const HepPoint3D &v)
Set a vertex position of the mother particle.
Definition: MakeMotherKFit.cc:70
Belle2::analysis::MakeMotherKFit::addTrack
enum KFitError::ECode addTrack(const KFitTrack &kp)
Add a track to the make-mother object.
Definition: MakeMotherKFit.cc:39
Belle2::analysis::MakeMotherKFit::doMake
enum KFitError::ECode doMake(void)
Perform a reconstruction of mother particle.
Definition: MakeMotherKFit.cc:191
Belle2::analysis::MakeMotherKFit::getMotherError
const CLHEP::HepSymMatrix getMotherError(void) const
Get an error matrix of the mother particle.
Definition: MakeMotherKFit.cc:184
Belle2::analysis::MakeMotherKFit::setCorrelation
enum KFitError::ECode setCorrelation(const CLHEP::HepMatrix &e)
Set a correlation matrix.
Definition: MakeMotherKFit.cc:118
Belle2::analysis::MakeMotherKFit::getMotherPosition
const HepPoint3D getMotherPosition(void) const
Get a position of the mother particle.
Definition: MakeMotherKFit.cc:177
Belle2::analysis::MakeMotherKFit::setVertexError
enum KFitError::ECode setVertexError(const CLHEP::HepSymMatrix &e)
Set a vertex error matrix of the mother particle.
Definition: MakeMotherKFit.cc:78
Belle2::analysis::MakeMotherKFit::setTrackVertexError
enum KFitError::ECode setTrackVertexError(const CLHEP::HepMatrix &e)
Set a vertex error matrix of the child particle in the addTrack'ed order.
Definition: MakeMotherKFit.cc:94
Belle2::analysis::MakeMotherKFit::getMotherMomentum
const CLHEP::HepLorentzVector getMotherMomentum(void) const
Get a Lorentz vector of the mother particle.
Definition: MakeMotherKFit.cc:170
Belle2::analysis::MakeMotherKFit::setMagneticField
enum KFitError::ECode setMagneticField(const double mf)
Change a magnetic field from the default value KFitConst::kDefaultMagneticField.
Definition: MakeMotherKFit.cc:62
Belle2::analysis::MassPointingVertexFitKFit::setZeroCorrelation
enum KFitError::ECode setZeroCorrelation(void) override
Indicate no correlation between tracks.
Definition: MassPointingVertexFitKFit.cc:85
Belle2::analysis::MassPointingVertexFitKFit::prepareInputMatrix
enum KFitError::ECode prepareInputMatrix(void) override
Build grand matrices for minimum search from input-track properties.
Definition: MassPointingVertexFitKFit.cc:208
Belle2::analysis::MassPointingVertexFitKFit::calculateNDF
enum KFitError::ECode calculateNDF(void) override
Calculate an NDF of the fit.
Definition: MassPointingVertexFitKFit.cc:597
Belle2::analysis::MassPointingVertexFitKFit::setInitialVertex
enum KFitError::ECode setInitialVertex(const HepPoint3D &v)
Set an initial vertex point for the mass-vertex-pointing constraint fit.
Definition: MassPointingVertexFitKFit.cc:39
Belle2::analysis::MassPointingVertexFitKFit::getCHIsq
double getCHIsq(void) const override
Get a chi-square of the fit.
Definition: MassPointingVertexFitKFit.cc:124
Belle2::analysis::MassPointingVertexFitKFit::m_IsFixMass
std::vector< int > m_IsFixMass
Array of flags whether the track property is fixed at the mass.
Definition: MassPointingVertexFitKFit.h:127
Belle2::analysis::MassPointingVertexFitKFit::updateMother
enum KFitError::ECode updateMother(Particle *mother)
Update mother particle.
Definition: MassPointingVertexFitKFit.cc:603
Belle2::analysis::MassPointingVertexFitKFit::getVertexError
const CLHEP::HepSymMatrix getVertexError(void) const
Get a fitted vertex error matrix.
Definition: MassPointingVertexFitKFit.cc:110
Belle2::analysis::MassPointingVertexFitKFit::unfixMass
enum KFitError::ECode unfixMass(void)
Tell the object to unfix the last added track property at the invariant mass.
Definition: MassPointingVertexFitKFit.cc:71
Belle2::analysis::MassPointingVertexFitKFit::prepareInputSubMatrix
enum KFitError::ECode prepareInputSubMatrix(void) override
Build sub-matrices for minimum search from input-track properties.
Definition: MassPointingVertexFitKFit.cc:288
Belle2::analysis::MassPointingVertexFitKFit::~MassPointingVertexFitKFit
~MassPointingVertexFitKFit(void)
Destruct the object.
Belle2::analysis::MassPointingVertexFitKFit::m_ProductionVertex
HepPoint3D m_ProductionVertex
Production vertex position.
Definition: MassPointingVertexFitKFit.h:123
Belle2::analysis::MassPointingVertexFitKFit::doFit
enum KFitError::ECode doFit(void)
Perform a mass-vertex-pointing constraint fit.
Definition: MassPointingVertexFitKFit.cc:202
Belle2::analysis::MassPointingVertexFitKFit::setInvariantMass
enum KFitError::ECode setInvariantMass(const double m)
Set an invariant mass for the mass-vertex-pointing constraint fit.
Definition: MassPointingVertexFitKFit.cc:47
Belle2::analysis::MassPointingVertexFitKFit::makeCoreMatrix
enum KFitError::ECode makeCoreMatrix(void) override
Build matrices using the kinematical constraint.
Definition: MassPointingVertexFitKFit.cc:390
Belle2::analysis::MassPointingVertexFitKFit::prepareCorrelation
enum KFitError::ECode prepareCorrelation(void) override
Build a grand correlation matrix from input-track properties.
Definition: MassPointingVertexFitKFit.cc:297
Belle2::analysis::MassPointingVertexFitKFit::m_AfterVertex
HepPoint3D m_AfterVertex
Vertex position after the fit.
Definition: MassPointingVertexFitKFit.h:117
Belle2::analysis::MassPointingVertexFitKFit::setCorrelation
enum KFitError::ECode setCorrelation(const CLHEP::HepMatrix &m) override
Set a correlation matrix.
Definition: MassPointingVertexFitKFit.cc:79
Belle2::analysis::MassPointingVertexFitKFit::m_AfterTrackVertexError
std::vector< CLHEP::HepMatrix > m_AfterTrackVertexError
array of vertex error matrices after the fit.
Definition: MassPointingVertexFitKFit.h:121
Belle2::analysis::MassPointingVertexFitKFit::getCorrelation
const CLHEP::HepMatrix getCorrelation(const int id1, const int id2, const int flag=KFitConst::kAfterFit) const override
Get a correlation matrix between two tracks.
Definition: MassPointingVertexFitKFit.cc:175
Belle2::analysis::MassPointingVertexFitKFit::getTrackCHIsq
double getTrackCHIsq(const int id) const override
Get a chi-square of the track.
Definition: MassPointingVertexFitKFit.cc:140
Belle2::analysis::MassPointingVertexFitKFit::setProductionVertex
enum KFitError::ECode setProductionVertex(const HepPoint3D &v)
Set the production vertex of the particle.
Definition: MassPointingVertexFitKFit.cc:55
Belle2::analysis::MassPointingVertexFitKFit::getVertex
const HepPoint3D getVertex(const int flag=KFitConst::kAfterFit) const
Get a vertex position.
Definition: MassPointingVertexFitKFit.cc:91
Belle2::analysis::MassPointingVertexFitKFit::m_AfterVertexError
CLHEP::HepSymMatrix m_AfterVertexError
Vertex error matrix after the fit.
Definition: MassPointingVertexFitKFit.h:119
Belle2::analysis::MassPointingVertexFitKFit::prepareOutputMatrix
enum KFitError::ECode prepareOutputMatrix(void) override
Build an output error matrix.
Definition: MassPointingVertexFitKFit.cc:332
Belle2::analysis::MassPointingVertexFitKFit::getTrackVertexError
const CLHEP::HepMatrix getTrackVertexError(const int id) const
Get a vertex error matrix of the track.
Definition: MassPointingVertexFitKFit.cc:131
Belle2::analysis::MassPointingVertexFitKFit::m_BeforeVertex
HepPoint3D m_BeforeVertex
Vertex position before the fit.
Definition: MassPointingVertexFitKFit.h:115
Belle2::analysis::MassPointingVertexFitKFit::fixMass
enum KFitError::ECode fixMass(void)
Tell the object to fix the last added track property at the invariant mass.
Definition: MassPointingVertexFitKFit.cc:63
Belle2::analysis::MassPointingVertexFitKFit::getInvariantMass
double getInvariantMass(void) const
Get an invariant mass.
Definition: MassPointingVertexFitKFit.cc:117
Belle2::sqrt
double sqrt(double a)
sqrt for double
Definition: beamHelpers.h:28
Belle2
Abstract base class for different kinds of events.
Definition: MillepedeAlgorithm.h:17
Belle2::analysis::KFitConst::kMaxTrackCount
static const int kMaxTrackCount
Maximum track size.
Definition: KFitConst.h:40
Belle2::analysis::KFitConst::kAfterFit
static const int kAfterFit
Input parameter to specify after-fit when setting/getting a track attribute.
Definition: KFitConst.h:37
Belle2::analysis::KFitConst::kBeforeFit
static const int kBeforeFit
Input parameter to specify before-fit when setting/getting a track attribute.
Definition: KFitConst.h:35
Belle2::analysis::KFitConst::kNumber7
static const int kNumber7
Constant 7 to check matrix size (internal use)
Definition: KFitConst.h:32