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TrackingJacobians.cc
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2 
3 // Code moved from TrackingTools/AnalyticalJacobians
4 
6  AlgebraicMatrix65 theJacobian;
7  GlobalVector xt = momentum;
8  GlobalVector yt(-xt.y(), xt.x(), 0.);
9  GlobalVector zt = xt.cross(yt);
10 
11  const GlobalVector& pvec = momentum;
12  double pt = pvec.perp();
13  // for neutrals: qbp is 1/p instead of q/p -
14  // equivalent to charge 1
15  if (q == 0)
16  q = 1;
17 
18  xt = xt.unit();
19  if (fabs(pt) > 0) {
20  yt = yt.unit();
21  zt = zt.unit();
22  }
23 
25  R(0, 0) = xt.x();
26  R(0, 1) = yt.x();
27  R(0, 2) = zt.x();
28  R(1, 0) = xt.y();
29  R(1, 1) = yt.y();
30  R(1, 2) = zt.y();
31  R(2, 0) = xt.z();
32  R(2, 1) = yt.z();
33  R(2, 2) = zt.z();
34  R(3, 3) = 1.;
35  R(4, 4) = 1.;
36  R(5, 5) = 1.;
37 
38  double p = pvec.mag(), p2 = p * p;
39  double lambda = 0.5 * M_PI - pvec.theta();
40  double phi = pvec.phi();
41  double sinlambda = sin(lambda), coslambda = cos(lambda);
42  double sinphi = sin(phi), cosphi = cos(phi);
43 
44  theJacobian(1, 3) = 1.;
45  theJacobian(2, 4) = 1.;
46  theJacobian(3, 0) = -q * p2 * coslambda * cosphi;
47  theJacobian(3, 1) = -p * sinlambda * cosphi;
48  theJacobian(3, 2) = -p * coslambda * sinphi;
49  theJacobian(4, 0) = -q * p2 * coslambda * sinphi;
50  theJacobian(4, 1) = -p * sinlambda * sinphi;
51  theJacobian(4, 2) = p * coslambda * cosphi;
52  theJacobian(5, 0) = -q * p2 * sinlambda;
53  theJacobian(5, 1) = p * coslambda;
54  theJacobian(5, 2) = 0.;
55 
56  //ErrorPropagation:
57  // C(Cart) = R(6*6) * J(6*5) * C(Curvi) * J(5*6)_T * R(6*6)_T
58  theJacobian = R * theJacobian;
59  //dbg::dbg_trace(1,"Cu2Ca", globalParameters.vector(),theJacobian);
60  return theJacobian;
61 }
62 
64  AlgebraicMatrix56 theJacobian;
65  GlobalVector xt = momentum;
66  GlobalVector yt(-xt.y(), xt.x(), 0.);
67  GlobalVector zt = xt.cross(yt);
68  const GlobalVector& pvec = momentum;
69  double pt = pvec.perp(), p = pvec.mag();
70  double px = pvec.x(), py = pvec.y(), pz = pvec.z();
71  double pt2 = pt * pt, p2 = p * p, p3 = p * p * p;
72  // for neutrals: qbp is 1/p instead of q/p -
73  // equivalent to charge 1
74  if (q == 0)
75  q = 1;
76  xt = xt.unit();
77  if (fabs(pt) > 0) {
78  yt = yt.unit();
79  zt = zt.unit();
80  }
81 
83  R(0, 0) = xt.x();
84  R(0, 1) = xt.y();
85  R(0, 2) = xt.z();
86  R(1, 0) = yt.x();
87  R(1, 1) = yt.y();
88  R(1, 2) = yt.z();
89  R(2, 0) = zt.x();
90  R(2, 1) = zt.y();
91  R(2, 2) = zt.z();
92  R(3, 3) = 1.;
93  R(4, 4) = 1.;
94  R(5, 5) = 1.;
95 
96  theJacobian(0, 3) = -q * px / p3;
97  theJacobian(0, 4) = -q * py / p3;
98  theJacobian(0, 5) = -q * pz / p3;
99  if (fabs(pt) > 0) {
100  //theJacobian(1,3) = (px*pz)/(pt*p2); theJacobian(1,4) = (py*pz)/(pt*p2); theJacobian(1,5) = -pt/p2; //wrong sign
101  theJacobian(1, 3) = -(px * pz) / (pt * p2);
102  theJacobian(1, 4) = -(py * pz) / (pt * p2);
103  theJacobian(1, 5) = pt / p2;
104  theJacobian(2, 3) = -py / pt2;
105  theJacobian(2, 4) = px / pt2;
106  theJacobian(2, 5) = 0.;
107  }
108  theJacobian(3, 1) = 1.;
109  theJacobian(4, 2) = 1.;
110  theJacobian = theJacobian * R;
111  //dbg::dbg_trace(1,"Ca2Cu", globalParameters.vector(),theJacobian);
112  return theJacobian;
113 }
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