Belle II Software  light-2212-foldex
FourCFitKFit.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 <cstdio>
10 
11 #include <TMatrixFSym.h>
12 
13 #include <analysis/VertexFitting/KFit/FourCFitKFit.h>
14 #include <analysis/VertexFitting/KFit/MakeMotherKFit.h>
15 #include <analysis/utility/CLHEPToROOT.h>
16 #include <framework/gearbox/Const.h>
17 
18 using namespace std;
19 using namespace Belle2;
20 using namespace Belle2::analysis;
21 using namespace CLHEP;
22 using namespace ROOT::Math;
23 
24 FourCFitKFit::FourCFitKFit()
25 {
26  m_FlagFitted = false;
27  m_FlagTrackVertexError = false;
28  m_FlagFitIncludingVertex = false;
29  m_FlagAtDecayPoint = true;
30  m_NecessaryTrackCount = 2;
31  m_d = HepMatrix(4, 1, 0);
32  m_V_D = HepMatrix(4, 4, 0);
33  m_lam = HepMatrix(4, 1, 0);
34  m_AfterVertexError = HepSymMatrix(3, 0);
35  m_InvariantMass = -1.0;
36  m_FourMomentum = PxPyPzEVector();
37 }
38 
39 
40 FourCFitKFit::~FourCFitKFit() = default;
41 
42 
43 enum KFitError::ECode
44 FourCFitKFit::setVertex(const HepPoint3D& v) {
45  m_BeforeVertex = v;
46 
47  return m_ErrorCode = KFitError::kNoError;
48 }
49 
50 
51 enum KFitError::ECode
52 FourCFitKFit::setVertexError(const HepSymMatrix& e) {
53  if (e.num_row() != 3)
54  {
55  m_ErrorCode = KFitError::kBadMatrixSize;
56  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
57  return m_ErrorCode;
58  }
59 
60  m_BeforeVertexError = e;
61  m_FlagFitIncludingVertex = true;
62 
63  return m_ErrorCode = KFitError::kNoError;
64 }
65 
66 
67 enum KFitError::ECode
68 FourCFitKFit::setInvariantMass(const double m) {
69  m_InvariantMass = m;
70 
71  return m_ErrorCode = KFitError::kNoError;
72 }
73 
74 
75 enum KFitError::ECode
76 FourCFitKFit::setFourMomentum(const PxPyPzEVector& m) {
77  m_FourMomentum = m;
78 
79  return m_ErrorCode = KFitError::kNoError;
80 }
81 
82 
83 enum KFitError::ECode
84 FourCFitKFit::setFlagAtDecayPoint(const bool flag) {
85  m_FlagAtDecayPoint = flag;
86 
87  return m_ErrorCode = KFitError::kNoError;
88 }
89 
90 
91 enum KFitError::ECode
92 FourCFitKFit::fixMass() {
93  m_IsFixMass.push_back(true);
94 
95  return m_ErrorCode = KFitError::kNoError;
96 }
97 
98 
99 enum KFitError::ECode
100 FourCFitKFit::unfixMass() {
101  m_IsFixMass.push_back(false);
102 
103  return m_ErrorCode = KFitError::kNoError;
104 }
105 
106 
107 enum KFitError::ECode
108 FourCFitKFit::setTrackVertexError(const HepMatrix& e) {
109  if (e.num_row() != 3 || e.num_col() != KFitConst::kNumber7)
110  {
111  m_ErrorCode = KFitError::kBadMatrixSize;
112  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
113  return m_ErrorCode;
114  }
115 
116  m_BeforeTrackVertexError.push_back(e);
117  m_FlagTrackVertexError = true;
118  m_FlagFitIncludingVertex = true;
119 
120  return m_ErrorCode = KFitError::kNoError;
121 }
122 
123 
124 enum KFitError::ECode
125 FourCFitKFit::setTrackZeroVertexError() {
126  HepMatrix zero(3, KFitConst::kNumber7, 0);
127 
128  return this->setTrackVertexError(zero);
129 }
130 
131 
132 enum KFitError::ECode
133 FourCFitKFit::setCorrelation(const HepMatrix& m) {
134  return KFitBase::setCorrelation(m);
135 }
136 
137 
138 enum KFitError::ECode
139 FourCFitKFit::setZeroCorrelation() {
140  return KFitBase::setZeroCorrelation();
141 }
142 
143 
144 const HepPoint3D
145 FourCFitKFit::getVertex(const int flag) const
146 {
147  if (flag == KFitConst::kAfterFit && !isFitted()) return HepPoint3D();
148 
149  switch (flag) {
150  case KFitConst::kBeforeFit:
151  return m_BeforeVertex;
152 
153  case KFitConst::kAfterFit:
154  return m_AfterVertex;
155 
156  default:
157  KFitError::displayError(__FILE__, __LINE__, __func__, KFitError::kOutOfRange);
158  return HepPoint3D();
159  }
160 }
161 
162 
163 const HepSymMatrix
164 FourCFitKFit::getVertexError(const int flag) const
165 {
166  if (flag == KFitConst::kAfterFit && !isFitted()) return HepSymMatrix(3, 0);
167 
168  if (flag == KFitConst::kBeforeFit)
169  return m_BeforeVertexError;
170  else if (flag == KFitConst::kAfterFit && m_FlagFitIncludingVertex)
171  return m_AfterVertexError;
172  else {
173  KFitError::displayError(__FILE__, __LINE__, __func__, KFitError::kOutOfRange);
174  return HepSymMatrix(3, 0);
175  }
176 }
177 
178 
179 double
180 FourCFitKFit::getInvariantMass() const
181 {
182  return m_InvariantMass;
183 }
184 
185 
186 bool
187 FourCFitKFit::getFlagAtDecayPoint() const
188 {
189  return m_FlagAtDecayPoint;
190 }
191 
192 
193 bool
194 FourCFitKFit::getFlagFitWithVertex() const
195 {
196  return m_FlagFitIncludingVertex;
197 }
198 
199 
200 double
201 FourCFitKFit::getCHIsq() const
202 {
203  return m_CHIsq;
204 }
205 
206 
207 const HepMatrix
208 FourCFitKFit::getTrackVertexError(const int id, const int flag) const
209 {
210  if (flag == KFitConst::kAfterFit && !isFitted()) return HepMatrix(3, KFitConst::kNumber7, 0);
211  if (!isTrackIDInRange(id)) return HepMatrix(3, KFitConst::kNumber7, 0);
212 
213  if (flag == KFitConst::kBeforeFit)
214  return m_BeforeTrackVertexError[id];
215  else if (flag == KFitConst::kAfterFit && m_FlagFitIncludingVertex)
216  return m_AfterTrackVertexError[id];
217  else {
218  KFitError::displayError(__FILE__, __LINE__, __func__, KFitError::kOutOfRange);
219  return HepMatrix(3, KFitConst::kNumber7, 0);
220  }
221 }
222 
223 
224 double
225 FourCFitKFit::getTrackCHIsq(const int id) const
226 {
227  if (!isFitted()) return -1;
228  if (!isTrackIDInRange(id)) return -1;
229 
230  if (m_IsFixMass[id]) {
231 
232  HepMatrix da(m_Tracks[id].getFitParameter(KFitConst::kBeforeFit) - m_Tracks[id].getFitParameter(KFitConst::kAfterFit));
233  int err_inverse = 0;
234  const double chisq = (da.T() * (m_Tracks[id].getFitError(KFitConst::kBeforeFit).inverse(err_inverse)) * da)[0][0];
235 
236  if (err_inverse) {
237  KFitError::displayError(__FILE__, __LINE__, __func__, KFitError::kCannotGetMatrixInverse);
238  return -1;
239  }
240 
241  return chisq;
242 
243  } else {
244 
245  HepMatrix da(m_Tracks[id].getMomPos(KFitConst::kBeforeFit) - m_Tracks[id].getMomPos(KFitConst::kAfterFit));
246  int err_inverse = 0;
247  const double chisq = (da.T() * (m_Tracks[id].getError(KFitConst::kBeforeFit).inverse(err_inverse)) * da)[0][0];
248 
249  if (err_inverse) {
250  KFitError::displayError(__FILE__, __LINE__, __func__, KFitError::kCannotGetMatrixInverse);
251  return -1;
252  }
253 
254  return chisq;
255 
256  }
257 }
258 
259 
260 const HepMatrix
261 FourCFitKFit::getCorrelation(const int id1, const int id2, const int flag) const
262 {
263  if (flag == KFitConst::kAfterFit && !isFitted()) return HepMatrix(KFitConst::kNumber7, KFitConst::kNumber7, 0);
264  if (!isTrackIDInRange(id1)) return HepMatrix(KFitConst::kNumber7, KFitConst::kNumber7, 0);
265  if (!isTrackIDInRange(id2)) return HepMatrix(KFitConst::kNumber7, KFitConst::kNumber7, 0);
266 
267  switch (flag) {
268  case KFitConst::kBeforeFit:
269  return KFitBase::getCorrelation(id1, id2, flag);
270 
271  case KFitConst::kAfterFit:
272  return makeError3(
273  this->getTrackMomentum(id1),
274  this->getTrackMomentum(id2),
275  m_V_al_1.sub(KFitConst::kNumber7 * id1 + 1, KFitConst::kNumber7 * (id1 + 1), KFitConst::kNumber7 * id2 + 1,
276  KFitConst::kNumber7 * (id2 + 1)),
277  m_IsFixMass[id1],
278  m_IsFixMass[id2]);
279 
280  default:
281  KFitError::displayError(__FILE__, __LINE__, __func__, KFitError::kOutOfRange);
282  return HepMatrix(KFitConst::kNumber7, KFitConst::kNumber7, 0);
283  }
284 }
285 
286 
287 enum KFitError::ECode
288 FourCFitKFit::doFit() {
289  return KFitBase::doFit1();
290 }
291 
292 
293 enum KFitError::ECode
294 FourCFitKFit::prepareInputMatrix() {
295  if (m_TrackCount > KFitConst::kMaxTrackCount)
296  {
297  m_ErrorCode = KFitError::kBadTrackSize;
298  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
299  return m_ErrorCode;
300  }
301 
302 
303  if (m_IsFixMass.size() == 0)
304  {
305  // If no fix_mass flag at all,
306  // all tracks are considered to be fixed at mass.
307  for (int i = 0; i < m_TrackCount; i++) this->fixMass();
308  } else if (m_IsFixMass.size() != (unsigned int)m_TrackCount)
309  {
310  m_ErrorCode = KFitError::kBadTrackSize;
311  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
312  return m_ErrorCode;
313  }
314 
315 
316  if (!m_FlagFitIncludingVertex)
317  {
318  int index = 0;
319  m_al_0 = HepMatrix(KFitConst::kNumber7 * m_TrackCount, 1, 0);
320  m_property = HepMatrix(m_TrackCount, 3, 0);
321  m_V_al_0 = HepSymMatrix(KFitConst::kNumber7 * m_TrackCount, 0);
322 
323  for (auto& track : m_Tracks) {
324  // momentum x,y,z and position x,y,z
325  m_al_0[index * KFitConst::kNumber7 + 0][0] = track.getMomentum(KFitConst::kBeforeFit).x();
326  m_al_0[index * KFitConst::kNumber7 + 1][0] = track.getMomentum(KFitConst::kBeforeFit).y();
327  m_al_0[index * KFitConst::kNumber7 + 2][0] = track.getMomentum(KFitConst::kBeforeFit).z();
328  m_al_0[index * KFitConst::kNumber7 + 3][0] = track.getMomentum(KFitConst::kBeforeFit).t();
329  m_al_0[index * KFitConst::kNumber7 + 4][0] = track.getPosition(KFitConst::kBeforeFit).x();
330  m_al_0[index * KFitConst::kNumber7 + 5][0] = track.getPosition(KFitConst::kBeforeFit).y();
331  m_al_0[index * KFitConst::kNumber7 + 6][0] = track.getPosition(KFitConst::kBeforeFit).z();
332  // these error
333  m_V_al_0.sub(index * KFitConst::kNumber7 + 1, track.getError(KFitConst::kBeforeFit));
334  // charge, mass, a
335  m_property[index][0] = track.getCharge();
336  m_property[index][1] = track.getMass();
337  const double c = Belle2::Const::speedOfLight * 1e-4;
338  m_property[index][2] = -c * m_MagneticField * track.getCharge();
339  index++;
340  }
341 
342  // error between track and track
343  if (m_FlagCorrelation) {
344  this->prepareCorrelation();
345  if (m_ErrorCode != KFitError::kNoError) {
346  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
347  return m_ErrorCode;
348  }
349  }
350 
351  // set member matrix
352  m_al_1 = m_al_0;
353 
354  // define size of matrix
355  m_V_al_1 = HepMatrix(KFitConst::kNumber7 * m_TrackCount, KFitConst::kNumber7 * m_TrackCount, 0);
356  m_D = m_V_al_1.sub(1, 4, 1, KFitConst::kNumber7 * m_TrackCount);
357 
358  } else
359  {
360  // m_FlagFitIncludingVertex == true
361  int index = 0;
362  m_al_0 = HepMatrix(KFitConst::kNumber7 * m_TrackCount + 3, 1, 0);
363  m_property = HepMatrix(m_TrackCount, 3, 0);
364  m_V_al_0 = HepSymMatrix(KFitConst::kNumber7 * m_TrackCount + 3, 0);
365 
366  for (auto& track : m_Tracks) {
367  // momentum x,y,z and position x,y,z
368  m_al_0[index * KFitConst::kNumber7 + 0][0] = track.getMomentum(KFitConst::kBeforeFit).x();
369  m_al_0[index * KFitConst::kNumber7 + 1][0] = track.getMomentum(KFitConst::kBeforeFit).y();
370  m_al_0[index * KFitConst::kNumber7 + 2][0] = track.getMomentum(KFitConst::kBeforeFit).z();
371  m_al_0[index * KFitConst::kNumber7 + 3][0] = track.getMomentum(KFitConst::kBeforeFit).t();
372  m_al_0[index * KFitConst::kNumber7 + 4][0] = track.getPosition(KFitConst::kBeforeFit).x();
373  m_al_0[index * KFitConst::kNumber7 + 5][0] = track.getPosition(KFitConst::kBeforeFit).y();
374  m_al_0[index * KFitConst::kNumber7 + 6][0] = track.getPosition(KFitConst::kBeforeFit).z();
375  // these error
376  m_V_al_0.sub(index * KFitConst::kNumber7 + 1, track.getError(KFitConst::kBeforeFit));
377  // charge, mass, a
378  m_property[index][0] = track.getCharge();
379  m_property[index][1] = track.getMass();
380  const double c = Belle2::Const::speedOfLight * 1e-4;
381  m_property[index][2] = -c * m_MagneticField * track.getCharge();
382  index++;
383  }
384 
385  // vertex
386  m_al_0[KFitConst::kNumber7 * m_TrackCount + 0][0] = m_BeforeVertex.x();
387  m_al_0[KFitConst::kNumber7 * m_TrackCount + 1][0] = m_BeforeVertex.y();
388  m_al_0[KFitConst::kNumber7 * m_TrackCount + 2][0] = m_BeforeVertex.z();
389  m_V_al_0.sub(KFitConst::kNumber7 * m_TrackCount + 1, m_BeforeVertexError);
390 
391  // error between track and track
392  if (m_FlagCorrelation) {
393  this->prepareCorrelation();
394  if (m_ErrorCode != KFitError::kNoError) {
395  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
396  return m_ErrorCode;
397  }
398  }
399 
400  // set member matrix
401  m_al_1 = m_al_0;
402 
403  // define size of matrix
404  m_V_al_1 = HepMatrix(KFitConst::kNumber7 * m_TrackCount + 3, KFitConst::kNumber7 * m_TrackCount + 3, 0);
405  m_D = m_V_al_1.sub(1, 4, 1, KFitConst::kNumber7 * m_TrackCount + 3);
406  }
407 
408  return m_ErrorCode = KFitError::kNoError;
409 }
410 
411 
412 enum KFitError::ECode
413 FourCFitKFit::prepareInputSubMatrix() { // unused
414  char buf[1024];
415  sprintf(buf, "%s:%s(): internal error; this function should never be called", __FILE__, __func__);
416  B2FATAL(buf);
417 
418  /* NEVER REACHEd HERE */
419  return KFitError::kOutOfRange;
420 }
421 
422 
423 enum KFitError::ECode
424 FourCFitKFit::prepareCorrelation() {
425  if (m_BeforeCorrelation.size() != static_cast<unsigned int>(m_TrackCount * (m_TrackCount - 1) / 2))
426  {
427  m_ErrorCode = KFitError::kBadCorrelationSize;
428  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
429  return m_ErrorCode;
430  }
431 
432  int row = 0, col = 0;
433 
434  for (auto& hm : m_BeforeCorrelation)
435  {
436  // counter
437  row++;
438  if (row == m_TrackCount) {
439  col++;
440  row = col + 1;
441  }
442 
443  int ii = 0, jj = 0;
444  for (int i = KFitConst::kNumber7 * row; i < KFitConst::kNumber7 * (row + 1); i++) {
445  for (int j = KFitConst::kNumber7 * col; j < KFitConst::kNumber7 * (col + 1); j++) {
446  m_V_al_0[i][j] = hm[ii][jj];
447  jj++;
448  }
449  jj = 0;
450  ii++;
451  }
452  }
453 
454  if (m_FlagFitIncludingVertex)
455  {
456  // ...error of vertex
457  m_V_al_0.sub(KFitConst::kNumber7 * m_TrackCount + 1, m_BeforeVertexError);
458 
459  // ...error matrix between vertex and tracks
460  if (m_FlagTrackVertexError) {
461  if (m_BeforeTrackVertexError.size() != (unsigned int)m_TrackCount) {
462  m_ErrorCode = KFitError::kBadCorrelationSize;
463  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
464  return m_ErrorCode;
465  }
466 
467  int i = 0;
468  for (auto& hm : m_BeforeTrackVertexError) {
469  for (int j = 0; j < 3; j++) for (int k = 0; k < KFitConst::kNumber7; k++) {
470  m_V_al_0[j + KFitConst::kNumber7 * m_TrackCount][k + i * KFitConst::kNumber7] = hm[j][k];
471  }
472  i++;
473  }
474  }
475  }
476 
477  return m_ErrorCode = KFitError::kNoError;
478 }
479 
480 
481 enum KFitError::ECode
482 FourCFitKFit::prepareOutputMatrix() {
483  Hep3Vector h3v;
484  int index = 0;
485  for (auto& pdata : m_Tracks)
486  {
487  // tracks
488  // momentum
489  h3v.setX(m_al_1[index * KFitConst::kNumber7 + 0][0]);
490  h3v.setY(m_al_1[index * KFitConst::kNumber7 + 1][0]);
491  h3v.setZ(m_al_1[index * KFitConst::kNumber7 + 2][0]);
492  if (m_IsFixMass[index])
493  pdata.setMomentum(HepLorentzVector(h3v, sqrt(h3v.mag2() + pdata.getMass()*pdata.getMass())), KFitConst::kAfterFit);
494  else
495  pdata.setMomentum(HepLorentzVector(h3v, m_al_1[index * KFitConst::kNumber7 + 3][0]), KFitConst::kAfterFit);
496  // position
497  pdata.setPosition(HepPoint3D(
498  m_al_1[index * KFitConst::kNumber7 + 4][0],
499  m_al_1[index * KFitConst::kNumber7 + 5][0],
500  m_al_1[index * KFitConst::kNumber7 + 6][0]), KFitConst::kAfterFit);
501  // error of the tracks
502  pdata.setError(this->makeError3(pdata.getMomentum(),
503  m_V_al_1.sub(
504  index * KFitConst::kNumber7 + 1,
505  (index + 1)*KFitConst::kNumber7,
506  index * KFitConst::kNumber7 + 1,
507  (index + 1)*KFitConst::kNumber7), m_IsFixMass[index]),
508  KFitConst::kAfterFit);
509  if (m_ErrorCode != KFitError::kNoError) break;
510  index++;
511  }
512 
513  if (m_FlagFitIncludingVertex)
514  {
515  // vertex
516  m_AfterVertex.setX(m_al_1[KFitConst::kNumber7 * m_TrackCount + 0][0]);
517  m_AfterVertex.setY(m_al_1[KFitConst::kNumber7 * m_TrackCount + 1][0]);
518  m_AfterVertex.setZ(m_al_1[KFitConst::kNumber7 * m_TrackCount + 2][0]);
519  // error of the vertex
520  for (int i = 0; i < 3; i++) for (int j = i; j < 3; j++) {
521  m_AfterVertexError[i][j] = m_V_al_1[KFitConst::kNumber7 * m_TrackCount + i][KFitConst::kNumber7 * m_TrackCount + j];
522  }
523  // error between vertex and tracks
524  for (int i = 0; i < m_TrackCount; i++) {
525  HepMatrix hm(3, KFitConst::kNumber7, 0);
526  for (int j = 0; j < 3; j++) for (int k = 0; k < KFitConst::kNumber7; k++) {
527  hm[j][k] = m_V_al_1[KFitConst::kNumber7 * m_TrackCount + j][KFitConst::kNumber7 * i + k];
528  }
529  if (m_IsFixMass[i])
530  m_AfterTrackVertexError.push_back(this->makeError4(m_Tracks[i].getMomentum(), hm));
531  else
532  m_AfterTrackVertexError.push_back(hm);
533  }
534  } else
535  {
536  // not fit
537  m_AfterVertex = m_BeforeVertex;
538  }
539 
540  return m_ErrorCode = KFitError::kNoError;
541 }
542 
543 
544 enum KFitError::ECode
545 FourCFitKFit::makeCoreMatrix() {
546  if (!m_FlagFitIncludingVertex)
547  {
548 
549  HepMatrix al_1_prime(m_al_1);
550  HepMatrix Sum_al_1(4, 1, 0);
551  double energy[KFitConst::kMaxTrackCount2];
552  double a;
553 
554  for (int i = 0; i < m_TrackCount; i++) {
555  a = m_property[i][2];
556  if (!m_FlagAtDecayPoint) a = 0.;
557  al_1_prime[i * KFitConst::kNumber7 + 0][0] -= a * (m_BeforeVertex.y() - al_1_prime[i * KFitConst::kNumber7 + 5][0]);
558  al_1_prime[i * KFitConst::kNumber7 + 1][0] += a * (m_BeforeVertex.x() - al_1_prime[i * KFitConst::kNumber7 + 4][0]);
559  energy[i] = sqrt(al_1_prime[i * KFitConst::kNumber7 + 0][0] * al_1_prime[i * KFitConst::kNumber7 + 0][0] +
560  al_1_prime[i * KFitConst::kNumber7 + 1][0] * al_1_prime[i * KFitConst::kNumber7 + 1][0] +
561  al_1_prime[i * KFitConst::kNumber7 + 2][0] * al_1_prime[i * KFitConst::kNumber7 + 2][0] +
562  m_property[i][1] * m_property[i][1]);
563  }
564 
565  for (int i = 0; i < m_TrackCount; i++) {
566  if (m_IsFixMass[i])
567  Sum_al_1[3][0] += energy[i];
568  else
569  Sum_al_1[3][0] += al_1_prime[i * KFitConst::kNumber7 + 3][0];
570 
571  for (int j = 0; j < 3; j++) Sum_al_1[j][0] += al_1_prime[i * KFitConst::kNumber7 + j][0];
572  }
573 
574  m_d[0][0] = Sum_al_1[0][0] - m_FourMomentum.Px();
575  m_d[1][0] = Sum_al_1[1][0] - m_FourMomentum.Py();
576  m_d[2][0] = Sum_al_1[2][0] - m_FourMomentum.Pz();
577  m_d[3][0] = Sum_al_1[3][0] - m_FourMomentum.E();
578 
579  for (int i = 0; i < m_TrackCount; i++) {
580  if (energy[i] == 0) {
581  m_ErrorCode = KFitError::kDivisionByZero;
582  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
583  break;
584  }
585 
586  a = m_property[i][2];
587  if (!m_FlagAtDecayPoint) a = 0.;
588 
589  if (m_IsFixMass[i]) {
590  double invE = 1. / energy[i];
591  for (int l = 0; l < 4; l++) {
592  for (int n = 0; n < 6; n++) {
593  m_D[l][i * KFitConst::kNumber7 + n] = 0;
594  }
595  }
596  m_D[0][i * KFitConst::kNumber7 + 0] = 1;
597  m_D[0][i * KFitConst::kNumber7 + 5] = -a;
598  m_D[1][i * KFitConst::kNumber7 + 1] = 1;
599  m_D[1][i * KFitConst::kNumber7 + 4] = a;
600  m_D[2][i * KFitConst::kNumber7 + 2] = 1;
601  m_D[3][i * KFitConst::kNumber7 + 0] = al_1_prime[i * KFitConst::kNumber7 + 0][0] * invE;
602  m_D[3][i * KFitConst::kNumber7 + 1] = al_1_prime[i * KFitConst::kNumber7 + 1][0] * invE;
603  m_D[3][i * KFitConst::kNumber7 + 2] = al_1_prime[i * KFitConst::kNumber7 + 2][0] * invE;
604  m_D[3][i * KFitConst::kNumber7 + 4] = -al_1_prime[i * KFitConst::kNumber7 + 1][0] * invE * a;
605  m_D[3][i * KFitConst::kNumber7 + 5] = al_1_prime[i * KFitConst::kNumber7 + 0][0] * invE * a;
606  } else {
607  m_D[0][i * KFitConst::kNumber7 + 0] = 1;
608  m_D[1][i * KFitConst::kNumber7 + 1] = 1;
609  m_D[2][i * KFitConst::kNumber7 + 2] = 1;
610  m_D[3][i * KFitConst::kNumber7 + 3] = 1;
611  }
612  }
613 
614  } else
615  {
616 
617  // m_FlagFitIncludingVertex == true
618  HepMatrix al_1_prime(m_al_1);
619  HepMatrix Sum_al_1(7, 1, 0);
620  double energy[KFitConst::kMaxTrackCount2];
621  double a;
622 
623  for (int i = 0; i < m_TrackCount; i++) {
624  a = m_property[i][2];
625  al_1_prime[i * KFitConst::kNumber7 + 0][0] -= a * (al_1_prime[KFitConst::kNumber7 * m_TrackCount + 1][0] - al_1_prime[i *
626  KFitConst::kNumber7 + 5][0]);
627  al_1_prime[i * KFitConst::kNumber7 + 1][0] += a * (al_1_prime[KFitConst::kNumber7 * m_TrackCount + 0][0] - al_1_prime[i *
628  KFitConst::kNumber7 + 4][0]);
629  energy[i] = sqrt(al_1_prime[i * KFitConst::kNumber7 + 0][0] * al_1_prime[i * KFitConst::kNumber7 + 0][0] +
630  al_1_prime[i * KFitConst::kNumber7 + 1][0] * al_1_prime[i * KFitConst::kNumber7 + 1][0] +
631  al_1_prime[i * KFitConst::kNumber7 + 2][0] * al_1_prime[i * KFitConst::kNumber7 + 2][0] +
632  m_property[i][1] * m_property[i][1]);
633  Sum_al_1[6][0] = + a;
634  }
635 
636  for (int i = 0; i < m_TrackCount; i++) {
637  if (energy[i] == 0) {
638  m_ErrorCode = KFitError::kDivisionByZero;
639  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
640  break;
641  }
642 
643  if (m_IsFixMass[i]) {
644  double invE = 1. / energy[i];
645  Sum_al_1[3][0] += energy[i];
646  Sum_al_1[4][0] += al_1_prime[i * KFitConst::kNumber7 + 1][0] * m_property[i][2] * invE;
647  Sum_al_1[5][0] += al_1_prime[i * KFitConst::kNumber7 + 0][0] * m_property[i][2] * invE;
648  } else {
649  Sum_al_1[3][0] += al_1_prime[i * KFitConst::kNumber7 + 3][0];
650  }
651 
652  for (int j = 0; j < 3; j++) Sum_al_1[j][0] += al_1_prime[i * KFitConst::kNumber7 + j][0];
653  }
654 
655  m_d[0][0] = Sum_al_1[0][0] - m_FourMomentum.Px();
656  m_d[1][0] = Sum_al_1[1][0] - m_FourMomentum.Py();
657  m_d[2][0] = Sum_al_1[2][0] - m_FourMomentum.Pz();
658  m_d[3][0] = Sum_al_1[3][0] - m_FourMomentum.E();
659 
660  for (int i = 0; i < m_TrackCount; i++) {
661  if (energy[i] == 0) {
662  m_ErrorCode = KFitError::kDivisionByZero;
663  KFitError::displayError(__FILE__, __LINE__, __func__, m_ErrorCode);
664  break;
665  }
666 
667  a = m_property[i][2];
668  if (!m_FlagAtDecayPoint) a = 0.;
669 
670  if (m_IsFixMass[i]) {
671  double invE = 1. / energy[i];
672  for (int l = 0; l < 4; l++) {
673  for (int n = 0; n < 6; n++) {
674  m_D[l][i * KFitConst::kNumber7 + n] = 0;
675  }
676  }
677  m_D[0][i * KFitConst::kNumber7 + 0] = 1;
678  m_D[0][i * KFitConst::kNumber7 + 5] = -a;
679  m_D[1][i * KFitConst::kNumber7 + 1] = 1;
680  m_D[1][i * KFitConst::kNumber7 + 4] = a;
681  m_D[2][i * KFitConst::kNumber7 + 2] = 1;
682  m_D[3][i * KFitConst::kNumber7 + 0] = al_1_prime[i * KFitConst::kNumber7 + 0][0] * invE;
683  m_D[3][i * KFitConst::kNumber7 + 1] = al_1_prime[i * KFitConst::kNumber7 + 1][0] * invE;
684  m_D[3][i * KFitConst::kNumber7 + 2] = al_1_prime[i * KFitConst::kNumber7 + 2][0] * invE;
685  m_D[3][i * KFitConst::kNumber7 + 4] = -al_1_prime[i * KFitConst::kNumber7 + 1][0] * invE * a;
686  m_D[3][i * KFitConst::kNumber7 + 5] = al_1_prime[i * KFitConst::kNumber7 + 0][0] * invE * a;
687  } else {
688  m_D[0][i * KFitConst::kNumber7 + 0] = 1;
689  m_D[1][i * KFitConst::kNumber7 + 1] = 1;
690  m_D[2][i * KFitConst::kNumber7 + 2] = 1;
691  m_D[3][i * KFitConst::kNumber7 + 3] = 1;
692  }
693  }
694 
695  m_D[0][KFitConst::kNumber7 * m_TrackCount + 0] = 2.*(Sum_al_1[3][0] * Sum_al_1[4][0] - Sum_al_1[1][0] * Sum_al_1[6][0]);
696  m_D[0][KFitConst::kNumber7 * m_TrackCount + 1] = -2.*(Sum_al_1[3][0] * Sum_al_1[5][0] - Sum_al_1[0][0] * Sum_al_1[6][0]);
697  m_D[0][KFitConst::kNumber7 * m_TrackCount + 2] = 0.;
698  }
699 
700  return m_ErrorCode = KFitError::kNoError;
701 }
702 
703 
704 enum KFitError::ECode
705 FourCFitKFit::calculateNDF() {
706  m_NDF = 4;
707 
708  return m_ErrorCode = KFitError::kNoError;
709 }
710 
711 enum KFitError::ECode FourCFitKFit::updateMother(Particle* mother)
712 {
713  MakeMotherKFit kmm;
714  kmm.setMagneticField(m_MagneticField);
715  unsigned n = getTrackCount();
716  for (unsigned i = 0; i < n; ++i) {
717  kmm.addTrack(getTrackMomentum(i), getTrackPosition(i), getTrackError(i),
718  getTrack(i).getCharge());
719  if (getFlagFitWithVertex())
720  kmm.setTrackVertexError(getTrackVertexError(i));
721  for (unsigned j = i + 1; j < n; ++j) {
722  kmm.setCorrelation(getCorrelation(i, j));
723  }
724  }
725  kmm.setVertex(getVertex());
726  if (getFlagFitWithVertex())
727  kmm.setVertexError(getVertexError());
728  m_ErrorCode = kmm.doMake();
729  if (m_ErrorCode != KFitError::kNoError)
730  return m_ErrorCode;
731  double chi2 = getCHIsq();
732  int ndf = getNDF();
733  double prob = TMath::Prob(chi2, ndf);
734  //
735  bool haschi2 = mother->hasExtraInfo("chiSquared");
736  if (haschi2) {
737  mother->setExtraInfo("chiSquared", chi2);
738  mother->setExtraInfo("ndf", ndf);
739  } else {
740  mother->addExtraInfo("chiSquared", chi2);
741  mother->addExtraInfo("ndf", ndf);
742  }
743 
744  mother->updateMomentum(
745  CLHEPToROOT::getLorentzVector(kmm.getMotherMomentum()),
746  CLHEPToROOT::getXYZVector(kmm.getMotherPosition()),
747  CLHEPToROOT::getTMatrixFSym(kmm.getMotherError()),
748  prob);
749  m_ErrorCode = KFitError::kNoError;
750  return m_ErrorCode;
751 }
Belle2::Const::speedOfLight
static const double speedOfLight
[cm/ns]
Definition: Const.h:685
Belle2::Particle
Class to store reconstructed particles.
Definition: Particle.h:74
Belle2::Particle::setExtraInfo
void setExtraInfo(const std::string &name, double value)
Sets the user-defined data of given name to the given value.
Definition: Particle.cc:1344
Belle2::Particle::hasExtraInfo
bool hasExtraInfo(const std::string &name) const
Return whether the extra info with the given name is set.
Definition: Particle.cc:1293
Belle2::Particle::addExtraInfo
void addExtraInfo(const std::string &name, double value)
Sets the user-defined data of given name to the given value.
Definition: Particle.cc:1363
Belle2::Particle::updateMomentum
void updateMomentum(const ROOT::Math::PxPyPzEVector &p4, const ROOT::Math::XYZVector &vertex, const TMatrixFSym &errMatrix, double pValue)
Sets Lorentz vector, position, 7x7 error matrix and p-value.
Definition: Particle.h:373
Belle2::analysis::KFitError::ECode
ECode
ECode is a error code enumerate.
Definition: KFitError.h:34
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
Abstract base class for different kinds of events.
Definition: ClusterUtils.h:23