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Conv4HitsReco2 Class Reference

#include <Conv4HitsReco2.h>

Public Member Functions

 Conv4HitsReco2 (math::XYZVector &, math::XYZVector &, math::XYZVector &, math::XYZVector &, math::XYZVector &)
 
 Conv4HitsReco2 ()
 
int ConversionCandidate (math::XYZVector &, double &, double &)
 
void Dump ()
 
int GetLoop ()
 
math::XYZVector GetMinusCenter (double &)
 
math::XYZVector GetPlusCenter (double &)
 
double GetRecPhi ()
 
double GetRecR ()
 
double GetRecR1 ()
 
double GetRecR2 ()
 
void Reconstruct ()
 
void Refresh (math::XYZVector &vPhotVertex, math::XYZVector &h1, math::XYZVector &h2, math::XYZVector &h3, math::XYZVector &h4)
 
bool RegisterBadConverge (int &num)
 
bool RegisterBadConverge ()
 
bool RegisterBadSign (int &num)
 
bool RegisterBadSign ()
 
bool RegisterUnsolvable (int &num)
 
bool RegisterUnsolvable ()
 
void SetBField (double val)
 
void SetFixedNumberOfIterations (double val)
 
void SetMaxNumberOfIterations (int val)
 
void SetPhiECut (double val)
 
void SetRadiusECut (double val)
 
void SetRECut (double val)
 
 ~Conv4HitsReco2 ()
 

Private Member Functions

void LocalTransformation (const math::XYZVector &v11, const math::XYZVector &v12, const math::XYZVector &v21, const math::XYZVector &v22, math::XYZVector &V11, math::XYZVector &V12, math::XYZVector &V21, math::XYZVector &V22, double Phi)
 

Private Attributes

double fBField
 
int fCutSatisfied
 
int fFixedNumberOfIterations
 
math::XYZVector fHitv11
 
math::XYZVector fHitv12
 
math::XYZVector fHitv21
 
math::XYZVector fHitv22
 
int fLoop
 
int fMaxNumberOfIterations
 
double fPhiE
 
double fPhiECut
 
math::XYZVector fPV
 
double fRadiusE
 
double fRadiusECut
 
double fRE
 
math::XYZVector fRecC1
 
math::XYZVector fRecC2
 
double fRecPhi
 
double fRecR
 
double fRecR1
 
double fRecR2
 
double fRECut
 
math::XYZVector fRecV
 
int fSignSatisfied
 
int fSolved
 

Detailed Description

Definition at line 18 of file Conv4HitsReco2.h.

Constructor & Destructor Documentation

◆ Conv4HitsReco2() [1/2]

Conv4HitsReco2::Conv4HitsReco2 ( math::XYZVector vPhotVertex,
math::XYZVector h1,
math::XYZVector h2,
math::XYZVector h3,
math::XYZVector h4 
)

Definition at line 16 of file Conv4HitsReco2.cc.

References Refresh().

17  {
18  Refresh(vPhotVertex, h1, h2, h3, h4);
19 }
void Refresh(math::XYZVector &vPhotVertex, math::XYZVector &h1, math::XYZVector &h2, math::XYZVector &h3, math::XYZVector &h4)

◆ Conv4HitsReco2() [2/2]

Conv4HitsReco2::Conv4HitsReco2 ( )

◆ ~Conv4HitsReco2()

Conv4HitsReco2::~Conv4HitsReco2 ( )

Definition at line 21 of file Conv4HitsReco2.cc.

21 {}

Member Function Documentation

◆ ConversionCandidate()

int Conv4HitsReco2::ConversionCandidate ( math::XYZVector vtx,
double &  ptplus,
double &  ptminus 
)

Definition at line 109 of file Conv4HitsReco2.cc.

References fBField, fLoop, fRecR1, fRecR2, fRecV, Reconstruct(), and extraflags_cff::vtx.

Referenced by SeedForPhotonConversionFromQuadruplets::trajectorySeed().

109  {
110  Reconstruct();
111 
112  ptplus = fRecR2 * fBField * 0.01 * 0.3; // 2 - positron
113  ptminus = fRecR1 * fBField * 0.01 * 0.3; // 1 - electron
114  vtx = fRecV;
115  //std::cout << ".";
116  return fLoop;
117 }
math::XYZVector fRecV

◆ Dump()

void Conv4HitsReco2::Dump ( void  )

Definition at line 270 of file Conv4HitsReco2.cc.

References gather_cfg::cout, fCutSatisfied, fSignSatisfied, and fSolved.

Referenced by SeedForPhotonConversionFromQuadruplets::trajectorySeed().

270  {
271  std::cout << std::endl << "================================================" << std::endl;
272  std::cout << " Nothing happend here.";
273  if (fSolved == 1)
274  std::cout << "Solved.";
275  if (fCutSatisfied == 1)
276  std::cout << "Cut good.";
277  if (fSignSatisfied == 1)
278  std::cout << "Sign good.";
279 }

◆ GetLoop()

int Conv4HitsReco2::GetLoop ( )
inline

Definition at line 46 of file Conv4HitsReco2.h.

References fLoop.

46 { return fLoop; };

◆ GetMinusCenter()

math::XYZVector Conv4HitsReco2::GetMinusCenter ( double &  minusR)

Definition at line 285 of file Conv4HitsReco2.cc.

References fRecC2, and fRecR2.

285  {
286  minusR = fRecR2;
287  return fRecC2;
288 }
math::XYZVector fRecC2

◆ GetPlusCenter()

math::XYZVector Conv4HitsReco2::GetPlusCenter ( double &  plusR)

Definition at line 281 of file Conv4HitsReco2.cc.

References fRecC1, and fRecR1.

281  {
282  plusR = fRecR1;
283  return fRecC1;
284 }
math::XYZVector fRecC1

◆ GetRecPhi()

double Conv4HitsReco2::GetRecPhi ( )
inline

Definition at line 42 of file Conv4HitsReco2.h.

References fRecPhi.

42 { return fRecPhi; };

◆ GetRecR()

double Conv4HitsReco2::GetRecR ( )
inline

Definition at line 43 of file Conv4HitsReco2.h.

References fRecR.

43 { return fRecR; };

◆ GetRecR1()

double Conv4HitsReco2::GetRecR1 ( )
inline

Definition at line 44 of file Conv4HitsReco2.h.

References fRecR1.

44 { return fRecR1; };

◆ GetRecR2()

double Conv4HitsReco2::GetRecR2 ( )
inline

Definition at line 45 of file Conv4HitsReco2.h.

References fRecR2.

45 { return fRecR2; };

◆ LocalTransformation()

void Conv4HitsReco2::LocalTransformation ( const math::XYZVector v11,
const math::XYZVector v12,
const math::XYZVector v21,
const math::XYZVector v22,
math::XYZVector V11,
math::XYZVector V12,
math::XYZVector V21,
math::XYZVector V22,
double  Phi 
)
private

Definition at line 64 of file Conv4HitsReco2.cc.

References funct::cos(), and funct::sin().

72  {
73  double x11, x12, x21, x22, y11, y12, y21, y22;
74 
75  x11 = v11.X();
76  y11 = v11.Y();
77  x12 = v12.X();
78  y12 = v12.Y();
79  x21 = v21.X();
80  y21 = v21.Y();
81  x22 = v22.X();
82  y22 = v22.Y();
83 
84  double SINP = std::sin(NextPhi);
85  double COSP = std::cos(NextPhi);
86  double SignCOSP = 1.;
87  if (COSP < 0.)
88  SignCOSP = -1.;
89  double AbsCOSP = std::fabs(COSP);
90 
91  double X11 = -std::fabs(x11 * SINP * SignCOSP - y11 * AbsCOSP);
92  double Y11 = std::fabs(y11 * SINP * SignCOSP + x11 * AbsCOSP);
93 
94  double X21 = -std::fabs(x21 * SINP * SignCOSP - y21 * AbsCOSP);
95  double Y21 = std::fabs(y21 * SINP * SignCOSP + x21 * AbsCOSP);
96 
97  double X12 = std::fabs(x12 * SINP * SignCOSP - y12 * AbsCOSP);
98  double Y12 = std::fabs(y12 * SINP * SignCOSP + x12 * AbsCOSP);
99 
100  double X22 = std::fabs(x22 * SINP * SignCOSP - y22 * AbsCOSP);
101  double Y22 = std::fabs(y22 * SINP * SignCOSP + x22 * AbsCOSP);
102 
103  V11.SetXYZ(X11, Y11, 0.);
104  V12.SetXYZ(X12, Y12, 0.);
105  V21.SetXYZ(X21, Y21, 0.);
106  V22.SetXYZ(X22, Y22, 0.);
107 }
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
Cos< T >::type cos(const T &t)
Definition: Cos.h:22

◆ Reconstruct()

void Conv4HitsReco2::Reconstruct ( )

Definition at line 119 of file Conv4HitsReco2.cc.

References funct::cos(), d1, fCutSatisfied, fFixedNumberOfIterations, fHitv11, fHitv12, fHitv21, fHitv22, fLoop, fMaxNumberOfIterations, fPhiE, fPhiECut, fPV, fRadiusE, fRadiusECut, fRE, fRecC1, fRecC2, fRecPhi, fRecR, fRecR1, fRecR2, fRECut, fRecV, fSignSatisfied, fSolved, mps_fire::i, funct::pow(), funct::sin(), and mathSSE::sqrt().

Referenced by ConversionCandidate().

119  {
120  double x11, x12, x21, x22, y11, y12, y21, y22;
121  //double X11,X12,X21,X22,Y11,Y12,Y21,Y22;
122  x11 = fHitv11.X();
123  y11 = fHitv11.Y();
124  x12 = fHitv12.X();
125  y12 = fHitv12.Y();
126  x21 = fHitv21.X();
127  y21 = fHitv21.Y();
128  x22 = fHitv22.X();
129  y22 = fHitv22.Y();
130 
131  if (fFixedNumberOfIterations == 0)
133  else
135 
136  // Setting Phi1, Phi2 initial guess range, and first guess
137  double tempr1 = std::sqrt(y11 * y11 + x11 * x11);
138  double tempr2 = std::sqrt(y12 * y12 + x12 * x12);
139 
140  double Phi1 = 2.0 * std::atan(y11 / (x11 + tempr1));
141  double Phi2 = 2.0 * std::atan(y12 / (x12 + tempr2));
142 
143  if (Phi1 < Phi2)
144  Phi1 += 2.0 * 3.141592653; // stupid Atan correction
145 
146  fPhiE = std::fabs((Phi1 - Phi2)) / std::pow(2.0, fLoop + 1);
147 
148  double NextPhi = (Phi1 + Phi2) / 2.0; // first guess
149  double D1, D2 = 0.0;
150  double prevR1 = 0;
151  double prevR2 = 0;
152  double R1 = 0;
153  double R2 = 0;
154 
155  // Iterations
156  for (int i = 0; i < fLoop; i++) {
157  // LOCAL TRANFORMATION & EXTRACTION
158  double SINP = std::sin(NextPhi);
159  double COSP = std::cos(NextPhi);
160  double SignCOSP = 1.;
161  if (COSP < 0.)
162  SignCOSP = -1.;
163  double AbsCOSP = std::fabs(COSP);
164 
165  double X11 = -std::fabs(x11 * SINP * SignCOSP - y11 * AbsCOSP);
166  double Y11 = std::fabs(y11 * SINP * SignCOSP + x11 * AbsCOSP);
167 
168  double X21 = -std::fabs(x21 * SINP * SignCOSP - y21 * AbsCOSP);
169  double Y21 = std::fabs(y21 * SINP * SignCOSP + x21 * AbsCOSP);
170 
171  double X12 = std::fabs(x12 * SINP * SignCOSP - y12 * AbsCOSP);
172  double Y12 = std::fabs(y12 * SINP * SignCOSP + x12 * AbsCOSP);
173 
174  double X22 = std::fabs(x22 * SINP * SignCOSP - y22 * AbsCOSP);
175  double Y22 = std::fabs(y22 * SINP * SignCOSP + x22 * AbsCOSP);
176  // I'm not using LocalTransform() function because this direct way turns out to be faster
177 
178  // SOLVING EQUATIONS
179  double d1 = Y21 - Y11;
180  double d2 = Y22 - Y12;
181 
182  if (((X11 * X11 * d1 * d1 / (X21 - X11) / (X21 - X11) + X11 * X21 + X11 * d1 * d1 / (X21 - X11)) < 0) ||
183  ((X12 * X12 * d2 * d2 / (X22 - X12) / (X22 - X12) + X12 * X22 + X12 * d2 * d2 / (X22 - X12)) < 0)) {
184  fSolved = -1;
185  fLoop = i;
186  return;
187  } // No real root. Break out.
188 
189  else {
190  fSolved = 1;
191  D1 = X11 * d1 / (X21 - X11);
192  D1 = D1 + std::sqrt(X11 * X11 * d1 * d1 / (X21 - X11) / (X21 - X11) + X11 * X21 + X11 * d1 * d1 / (X21 - X11));
193  D2 = X12 * d2 / (X22 - X12);
194  D2 = D2 + std::sqrt(X12 * X12 * d2 * d2 / (X22 - X12) / (X22 - X12) + X12 * X22 + X12 * d2 * d2 / (X22 - X12));
195 
196  R1 = std::fabs((X11 + X21) / 2.0 + (D1 + d1 / 2.0) * d1 / (X21 - X11));
197  R2 = std::fabs((X12 + X22) / 2.0 + (D2 + d2 / 2.0) * d2 / (X22 - X12));
198 
199  if ((Y11 - D1) >= (Y12 - D2)) { // Moving RIGHT
200  Phi1 = NextPhi;
201  // Phi2 remains the same
202  NextPhi = (Phi1 + Phi2) / 2.0;
203  } else if ((Y11 - D1) < (Y12 - D2)) { // Moving LEFT
204  // Phi1 remains the same
205  Phi2 = NextPhi;
206  NextPhi = (Phi1 + Phi2) / 2.0;
207  }
208 
209  // CHECK STOP CONDITION
210  double tmpPhiE = std::fabs(Phi1 - Phi2);
211  double tmpRE = std::fabs((Y11 - D1) - (Y12 - D2));
212  double tmpRadiusE = (std::fabs(R1 - prevR1) + std::fabs(R2 - prevR2)) / 2.;
213 
214  // A. Cut threshold satisfied - STOP - record
215  if ((tmpPhiE <= fPhiECut) && (tmpRE <= fRECut) && (tmpRadiusE <= fRadiusECut) &&
216  (fFixedNumberOfIterations == 0)) {
217  fSolved = 1;
218  fCutSatisfied = 1;
219  fLoop = i + 1;
220  fPhiE = tmpPhiE;
221  fRE = tmpRE;
222  fRadiusE = tmpRadiusE;
223  fRecR1 = R1;
224  fRecR2 = R2;
225  fRecR = ((Y11 - D1) + (Y12 - D2)) / 2.0;
226  fRecPhi = NextPhi;
227  fRecV.SetX(fRecR * cos(fRecPhi));
228  fRecV.SetY(fRecR * sin(fRecPhi));
229  fRecC1.SetXYZ(fRecV.X() - fRecR1 * sin(fRecPhi), fRecV.Y() + fRecR1 * cos(fRecPhi), 0.);
230  fRecC2.SetXYZ(fRecV.X() + fRecR2 * sin(fRecPhi), fRecV.Y() - fRecR2 * cos(fRecPhi), 0.);
231  fRecV = fRecV + fPV;
232  fRecC1 = fRecC1 + fPV;
233  fRecC2 = fRecC2 + fPV;
234  fCutSatisfied = 1;
235  if ((R1 > 0) && (R2 > 0) && (D1 > 0) && (D2 > 0) && ((Y11 - D1) > 0) && ((Y12 - D2) > 0))
236  fSignSatisfied = 1;
237  else
238  fSignSatisfied = 0;
239  } else if (i == fLoop - 1) {
240  fSolved = 1;
241  fCutSatisfied = 1;
242  fLoop = i + 1;
243  fPhiE = tmpPhiE;
244  fRE = tmpRE;
245  fRadiusE = tmpRadiusE;
246  fRecR1 = R1;
247  fRecR2 = R2;
248  fRecR = ((Y11 - D1) + (Y12 - D2)) / 2.0;
249  fRecPhi = NextPhi;
250  fRecV.SetX(fRecR * cos(fRecPhi));
251  fRecV.SetY(fRecR * sin(fRecPhi));
252  fRecC1.SetXYZ(fRecV.X() - fRecR1 * sin(fRecPhi), fRecV.Y() + fRecR1 * cos(fRecPhi), 0.);
253  fRecC2.SetXYZ(fRecV.X() + fRecR2 * sin(fRecPhi), fRecV.Y() - fRecR2 * cos(fRecPhi), 0.);
254  fRecV = fRecV + fPV;
255  fRecC1 = fRecC1 + fPV;
256  fRecC2 = fRecC2 + fPV;
257  fCutSatisfied = 0;
258  if ((R1 > 0) && (R2 > 0) && (D1 > 0) && (D2 > 0) && ((Y11 - D1) > 0) && ((Y12 - D2) > 0))
259  fSignSatisfied = 1;
260  else
261  fSignSatisfied = 0;
262  }
263  // B. Cut threshold NOT satisfied - prepare for next loop
264  prevR1 = R1;
265  prevR2 = R2;
266  }
267  }
268 }
Divides< B, C > D2
Definition: Factorize.h:137
int fFixedNumberOfIterations
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
math::XYZVector fPV
T sqrt(T t)
Definition: SSEVec.h:19
Divides< A, C > D1
Definition: Factorize.h:136
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
math::XYZVector fHitv21
math::XYZVector fHitv22
math::XYZVector fHitv12
math::XYZVector fRecC1
math::XYZVector fHitv11
math::XYZVector fRecV
math::XYZVector fRecC2
static constexpr float d1
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:29

◆ Refresh()

void Conv4HitsReco2::Refresh ( math::XYZVector vPhotVertex,
math::XYZVector h1,
math::XYZVector h2,
math::XYZVector h3,
math::XYZVector h4 
)

Definition at line 24 of file Conv4HitsReco2.cc.

References fBField, fCutSatisfied, fFixedNumberOfIterations, fHitv11, fHitv12, fHitv21, fHitv22, fMaxNumberOfIterations, fPhiE, fPhiECut, fPV, fRadiusE, fRadiusECut, fRE, fRecPhi, fRecR, fRecR1, fRecR2, fRECut, fSignSatisfied, and fSolved.

Referenced by Conv4HitsReco2().

25  {
26  // Fix 2D plane, make primary vertex the original point
27  fPV = vPhotVertex;
28  fPV.SetZ(0.);
29  fHitv11 = h3;
30  fHitv11.SetZ(0.);
31  fHitv11 = fHitv11 - fPV;
32  fHitv21 = h4;
33  fHitv21.SetZ(0.);
34  fHitv21 = fHitv21 - fPV;
35  fHitv12 = h2;
36  fHitv12.SetZ(0.);
37  fHitv12 = fHitv12 - fPV;
38  fHitv22 = h1;
39  fHitv22.SetZ(0.);
40  fHitv22 = fHitv22 - fPV;
41 
42  // DEFAULT setup
45  fRadiusECut = 10.0; //cm
46  fPhiECut = 0.03; //rad
47  fRECut = 0.5; //cm
48  fBField = 3.8; //T
49 
50  // TRIVIAL initialization
51  fCutSatisfied = 0;
52  fSignSatisfied = 0;
53  fSolved = 0;
54 
55  fRecPhi = 0.;
56  fRecR = 0.;
57  fRecR1 = 0.;
58  fRecR2 = 0.;
59  fRadiusE = 0.;
60  fRE = 0.;
61  fPhiE = 0.;
62 }
int fFixedNumberOfIterations
math::XYZVector fPV
math::XYZVector fHitv21
math::XYZVector fHitv22
math::XYZVector fHitv12
math::XYZVector fHitv11

◆ RegisterBadConverge() [1/2]

bool Conv4HitsReco2::RegisterBadConverge ( int &  num)
inline

Definition at line 76 of file Conv4HitsReco2.h.

References fCutSatisfied, and EgammaValidation_cff::num.

76  {
77  if (fCutSatisfied == 1)
78  return true;
79  else {
80  num += 1;
81  return false;
82  }
83  };

◆ RegisterBadConverge() [2/2]

bool Conv4HitsReco2::RegisterBadConverge ( )
inline

Definition at line 84 of file Conv4HitsReco2.h.

References fCutSatisfied.

84  {
85  if (fCutSatisfied == 1)
86  return true;
87  else
88  return false;
89  };

◆ RegisterBadSign() [1/2]

bool Conv4HitsReco2::RegisterBadSign ( int &  num)
inline

Definition at line 62 of file Conv4HitsReco2.h.

References fSignSatisfied, and EgammaValidation_cff::num.

62  {
63  if (fSignSatisfied == 1)
64  return true;
65  else {
66  num += 1;
67  return false;
68  }
69  };

◆ RegisterBadSign() [2/2]

bool Conv4HitsReco2::RegisterBadSign ( )
inline

Definition at line 70 of file Conv4HitsReco2.h.

References fSignSatisfied.

70  {
71  if (fSignSatisfied == 1)
72  return true;
73  else
74  return false;
75  };

◆ RegisterUnsolvable() [1/2]

bool Conv4HitsReco2::RegisterUnsolvable ( int &  num)
inline

Definition at line 48 of file Conv4HitsReco2.h.

References fSolved, and EgammaValidation_cff::num.

48  {
49  if (fSolved == 1)
50  return true;
51  else {
52  num += 1;
53  return false;
54  }
55  };

◆ RegisterUnsolvable() [2/2]

bool Conv4HitsReco2::RegisterUnsolvable ( )
inline

Definition at line 56 of file Conv4HitsReco2.h.

References fSolved.

56  {
57  if (fSolved == 1)
58  return true;
59  else
60  return false;
61  };

◆ SetBField()

void Conv4HitsReco2::SetBField ( double  val)
inline

Definition at line 40 of file Conv4HitsReco2.h.

References fBField, and heppy_batch::val.

◆ SetFixedNumberOfIterations()

void Conv4HitsReco2::SetFixedNumberOfIterations ( double  val)
inline

Definition at line 39 of file Conv4HitsReco2.h.

References fFixedNumberOfIterations, and heppy_batch::val.

◆ SetMaxNumberOfIterations()

void Conv4HitsReco2::SetMaxNumberOfIterations ( int  val)
inline

◆ SetPhiECut()

void Conv4HitsReco2::SetPhiECut ( double  val)
inline

Definition at line 37 of file Conv4HitsReco2.h.

References fPhiECut, and heppy_batch::val.

◆ SetRadiusECut()

void Conv4HitsReco2::SetRadiusECut ( double  val)
inline

Definition at line 36 of file Conv4HitsReco2.h.

References fRadiusECut, and heppy_batch::val.

◆ SetRECut()

void Conv4HitsReco2::SetRECut ( double  val)
inline

Definition at line 38 of file Conv4HitsReco2.h.

References fRECut, and heppy_batch::val.

38 { fRECut = val; };

Member Data Documentation

◆ fBField

double Conv4HitsReco2::fBField
private

Definition at line 124 of file Conv4HitsReco2.h.

Referenced by ConversionCandidate(), Refresh(), and SetBField().

◆ fCutSatisfied

int Conv4HitsReco2::fCutSatisfied
private

Definition at line 110 of file Conv4HitsReco2.h.

Referenced by Dump(), Reconstruct(), Refresh(), and RegisterBadConverge().

◆ fFixedNumberOfIterations

int Conv4HitsReco2::fFixedNumberOfIterations
private

Definition at line 116 of file Conv4HitsReco2.h.

Referenced by Reconstruct(), Refresh(), and SetFixedNumberOfIterations().

◆ fHitv11

math::XYZVector Conv4HitsReco2::fHitv11
private

Definition at line 101 of file Conv4HitsReco2.h.

Referenced by Reconstruct(), and Refresh().

◆ fHitv12

math::XYZVector Conv4HitsReco2::fHitv12
private

Definition at line 101 of file Conv4HitsReco2.h.

Referenced by Reconstruct(), and Refresh().

◆ fHitv21

math::XYZVector Conv4HitsReco2::fHitv21
private

Definition at line 101 of file Conv4HitsReco2.h.

Referenced by Reconstruct(), and Refresh().

◆ fHitv22

math::XYZVector Conv4HitsReco2::fHitv22
private

Definition at line 101 of file Conv4HitsReco2.h.

Referenced by Reconstruct(), and Refresh().

◆ fLoop

int Conv4HitsReco2::fLoop
private

Definition at line 115 of file Conv4HitsReco2.h.

Referenced by ConversionCandidate(), GetLoop(), and Reconstruct().

◆ fMaxNumberOfIterations

int Conv4HitsReco2::fMaxNumberOfIterations
private

Definition at line 114 of file Conv4HitsReco2.h.

Referenced by Reconstruct(), Refresh(), and SetMaxNumberOfIterations().

◆ fPhiE

double Conv4HitsReco2::fPhiE
private

Definition at line 122 of file Conv4HitsReco2.h.

Referenced by Reconstruct(), and Refresh().

◆ fPhiECut

double Conv4HitsReco2::fPhiECut
private

Definition at line 118 of file Conv4HitsReco2.h.

Referenced by Reconstruct(), Refresh(), and SetPhiECut().

◆ fPV

math::XYZVector Conv4HitsReco2::fPV
private

Definition at line 102 of file Conv4HitsReco2.h.

Referenced by Reconstruct(), and Refresh().

◆ fRadiusE

double Conv4HitsReco2::fRadiusE
private

Definition at line 121 of file Conv4HitsReco2.h.

Referenced by Reconstruct(), and Refresh().

◆ fRadiusECut

double Conv4HitsReco2::fRadiusECut
private

Definition at line 117 of file Conv4HitsReco2.h.

Referenced by Reconstruct(), Refresh(), and SetRadiusECut().

◆ fRE

double Conv4HitsReco2::fRE
private

Definition at line 123 of file Conv4HitsReco2.h.

Referenced by Reconstruct(), and Refresh().

◆ fRecC1

math::XYZVector Conv4HitsReco2::fRecC1
private

Definition at line 103 of file Conv4HitsReco2.h.

Referenced by GetPlusCenter(), and Reconstruct().

◆ fRecC2

math::XYZVector Conv4HitsReco2::fRecC2
private

Definition at line 103 of file Conv4HitsReco2.h.

Referenced by GetMinusCenter(), and Reconstruct().

◆ fRecPhi

double Conv4HitsReco2::fRecPhi
private

Definition at line 105 of file Conv4HitsReco2.h.

Referenced by GetRecPhi(), Reconstruct(), and Refresh().

◆ fRecR

double Conv4HitsReco2::fRecR
private

Definition at line 106 of file Conv4HitsReco2.h.

Referenced by GetRecR(), Reconstruct(), and Refresh().

◆ fRecR1

double Conv4HitsReco2::fRecR1
private

Definition at line 107 of file Conv4HitsReco2.h.

Referenced by ConversionCandidate(), GetPlusCenter(), GetRecR1(), Reconstruct(), and Refresh().

◆ fRecR2

double Conv4HitsReco2::fRecR2
private

Definition at line 108 of file Conv4HitsReco2.h.

Referenced by ConversionCandidate(), GetMinusCenter(), GetRecR2(), Reconstruct(), and Refresh().

◆ fRECut

double Conv4HitsReco2::fRECut
private

Definition at line 119 of file Conv4HitsReco2.h.

Referenced by Reconstruct(), Refresh(), and SetRECut().

◆ fRecV

math::XYZVector Conv4HitsReco2::fRecV
private

Definition at line 103 of file Conv4HitsReco2.h.

Referenced by ConversionCandidate(), and Reconstruct().

◆ fSignSatisfied

int Conv4HitsReco2::fSignSatisfied
private

Definition at line 111 of file Conv4HitsReco2.h.

Referenced by Dump(), Reconstruct(), Refresh(), and RegisterBadSign().

◆ fSolved

int Conv4HitsReco2::fSolved
private

Definition at line 112 of file Conv4HitsReco2.h.

Referenced by Dump(), Reconstruct(), Refresh(), and RegisterUnsolvable().