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TwoTrackMinimumDistanceLineLine.cc
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6 
7 
9  const GlobalTrajectoryParameters & theG,
10  const GlobalTrajectoryParameters & theH)
11 {
12  GlobalPoint gOrig = theG.position();
13  GlobalPoint hOrig = theH.position();
14  bool isLineG = theG.magneticField().inTesla(gOrig).z() == 0 || theG.charge() == 0;
15  bool isLineH = theH.magneticField().inTesla(hOrig).z() == 0 || theH.charge() == 0;
16  if ( ! (isLineG && isLineH) )
17  {
18  edm::LogWarning ("TwoTrackMinimumDistanceLineLine")
19  << "charge of input track is not zero or field non zero"
20  << "\n positions: "<<gOrig<<" , "<<hOrig
21  << "\n Bz fields: "<<theG.magneticField().inTesla(gOrig).z()<<" , "<<theH.magneticField().inTesla(hOrig).z()
22  << "\n charges: "<<theG.charge()<<" , "<<theH.charge();
23  return true;
24  };
25 
26  GlobalVector gVec = theG.momentum();
27  const double gMag= theG.momentum().mag(); double gMag2 = gMag*gMag;
28  GlobalVector hVec = theH.momentum();
29  const double hMag= theH.momentum().mag(); double hMag2 = hMag*hMag;
30 
31  if ( gMag == 0. || hMag == 0. )
32  {
33  edm::LogWarning ("TwoTrackMinimumDistanceLineLine")
34  << "momentum of input trajectory is zero.";
35  return true;
36  };
37 
38  phiG = theG.momentum().phi();
39  phiH = theH.momentum().phi();
40 
41  double gVec_Dot_hVec = gVec.dot(hVec);
42  double norm = gVec_Dot_hVec*gVec_Dot_hVec - gMag2*hMag2;
43 
44  if ( norm == 0 )
45  {
46  edm::LogWarning ("TwoTrackMinimumDistanceLineLine")
47  << "Tracks are parallel.";
48  return true;
49  }
50 
51  GlobalVector posDiff = gOrig - hOrig;
52 
53  double tG = (posDiff.dot(gVec) * hMag2 - gVec_Dot_hVec * posDiff.dot(hVec))/ norm;
54  double tH = (gVec_Dot_hVec * posDiff.dot(gVec) - posDiff.dot(hVec) * gMag2)/ norm;
55 
56  gPos = GlobalPoint ( gOrig + tG * gVec);
57  hPos = GlobalPoint ( hOrig + tH * hVec);
58 // cout << "TwoTrackMinimumDistanceLineLine "<<gPos<<hPos<<endl;
59 
60  pathG = tG * gMag;
61  pathH = tH * hMag;
62  return false;
63 }
64 
65 std::pair<GlobalPoint, GlobalPoint> TwoTrackMinimumDistanceLineLine::points() const
66 {
67  return std::pair<GlobalPoint, GlobalPoint > ( gPos, hPos );
68 }
69 
70 std::pair<double, double> TwoTrackMinimumDistanceLineLine::pathLength() const
71 {
72  return std::pair<double, double> ( pathG, pathH);
73 }
std::pair< GlobalPoint, GlobalPoint > points() const
virtual GlobalVector inTesla(const GlobalPoint &gp) const =0
Field value ad specified global point, in Tesla.
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
Global3DPoint GlobalPoint
Definition: GlobalPoint.h:10
bool calculate(const GlobalTrajectoryParameters &, const GlobalTrajectoryParameters &)
PreciseFloatType< T, U >::Type dot(const Vector3DBase< U, FrameTag > &v) const
Definition: Vector3DBase.h:107
std::pair< double, double > pathLength() const
T mag() const
Definition: PV3DBase.h:67
T z() const
Definition: PV3DBase.h:64
const MagneticField & magneticField() const