LArSoft  v06_85_00
Liquid Argon Software toolkit - http://larsoft.org/
GFWireHitPolicy.cxx
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1 /* Copyright 2008-2010, Technische Universitaet Muenchen,
2  Authors: Christian Hoeppner & Sebastian Neubert
3 
4  This file is part of GENFIT.
5 
6  GENFIT is free software: you can redistribute it and/or modify
7  it under the terms of the GNU Lesser General Public License as published
8  by the Free Software Foundation, either version 3 of the License, or
9  (at your option) any later version.
10 
11  GENFIT is distributed in the hope that it will be useful,
12  but WITHOUT ANY WARRANTY; without even the implied warranty of
13  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14  GNU Lesser General Public License for more details.
15 
16  You should have received a copy of the GNU Lesser General Public License
17  along with GENFIT. If not, see <http://www.gnu.org/licenses/>.
18 */
19 // ----------------------------------------------------------
20 // Please see GFWireHitPolicy.h before using this class.
21 // ----------------------------------------------------------
22 
24 
25 #include "cassert"
26 #include <cmath>
27 
28 #include "TMath.h"
29 #include "TVector3.h"
30 
33 
34 const std::string genf::GFWireHitPolicy::fPolicyName = "GFWireHitPolicy";
35 
36 genf::GFWireHitPolicy::GFWireHitPolicy() :fMaxdistance(1.E50) {;}
37 
38 TMatrixT<Double_t>
40 {
41  TMatrixT<Double_t> returnMat(1,1);
42 
43  checkPlane(hit, plane);
44 
45  // raw x1, y1, z1, x2, y2, z2, rdrift
46  TMatrixT<Double_t> rC = hit->getRawHitCoord();
47 
48  returnMat[0][0] = rC[6][0];
49  return returnMat;
50 }
51 
52 TMatrixT<Double_t>
54 {
55  checkPlane(hit, plane);
56 
57  TMatrixT<Double_t> returnCov(1,1);
58  TMatrixT<Double_t> rawCov = hit->getRawHitCov();
59 
60  returnCov[0][0] = rawCov[6][6];
61 
62  return returnCov;
63 }
64 
65 
66 
68 {
69  // raw x1, y1, z1, x2, y2, z2, rdrift, zreco
70  TMatrixT<Double_t> rC = hit->getRawHitCoord();
71 
72  assert(rC.GetNrows()==7);
73 
74  TVector3 wire1(rC[0][0], rC[1][0], rC[2][0]);
75  TVector3 wire2(rC[3][0], rC[4][0], rC[5][0]);
76  TVector3 wiredirection = wire1 - wire2;
77 
78  TVector3 vaxis = plane.getV();
79  wiredirection.SetMag(1.);
80  vaxis.SetMag(1.);
81 
82  if(fabs(TMath::Abs(wiredirection.Dot(vaxis)) - 1) > 1e-3)
83  {
84 
85  std::cout << "GFWireHitPolicy: plane not valid!!" << std::endl;
86  }
87 }
88 
89 
90 const genf::GFDetPlane&
92 {
93 
94  TMatrixT<Double_t> x=hit->getRawHitCoord();
95  assert(x.GetNrows()==7);
96  TVector3 wire1(x[0][0],x[1][0],x[2][0]);
97  TVector3 wire2(x[3][0],x[4][0],x[5][0]);
98 
99  // distance of one (the first) of the wire extremities from the plane
100  Double_t d_from_refplane = fDetPlane.dist(wire1).Mag();
101  if(d_from_refplane < 1e-5) return fDetPlane;
102 
103 
104  // point of closest approach
105  TVector3 poca, poca_onwire, dirInPoca;
106 
107  rep->extrapolateToLine(wire1, wire2, poca, dirInPoca, poca_onwire);
108 
109 
110  Double_t distance;
111  distance = TMath::Sqrt(fabs(((wire1-poca).Mag2()*(wire2-wire1).Mag2()-pow((wire1-poca).Dot(wire2-wire1),2))/(wire2-wire1).Mag2()));
112 
113  // check poca inside tube
114  if(distance > fMaxdistance) {
115  GFException exc("distance poca-wire > maxdistance", __LINE__,__FILE__);
116  throw exc;
117  }
118 
119  // find plane
120  // unitary vector along distance
121  // poca (on track), poca_onwire (on wire)
122  TVector3 fromwiretoextr = poca - poca_onwire;
123  fromwiretoextr.SetMag(1.);
124  // unitary vector along the wire
125  TVector3 wiredirection = wire2 - wire1;
126  wiredirection.SetMag(1.);
127 
128  // check orthogonality
129  if(fabs(fromwiretoextr * wiredirection) > 1e-3) {
130  GFException exc("fromwiretoextr*wiredirection > 1e-3", __LINE__,__FILE__);
131  throw exc;
132  }
133 
134  TVector3 U;
135  U = fromwiretoextr;
136  TVector3 V;
137  V = wiredirection;
138  U.SetMag(1.);
139  V.SetMag(1.);
140 
141  TVector3 O = poca_onwire;
142 
143  fDetPlane = GFDetPlane(O, U, V);
144 
145  return fDetPlane;
146 }
147 
148 //ClassImp(GFWireHitPolicy)
Float_t x
Definition: compare.C:6
virtual void extrapolateToLine(const TVector3 &point1, const TVector3 &point2, TVector3 &poca, TVector3 &normVec, TVector3 &poca_onwire)
This method extrapolates to the point of closest approach to a line.
TVector3 dist(const TVector3 &point) const
Definition: GFDetPlane.cxx:209
const GFDetPlane & detPlane(GFAbsRecoHit *, GFAbsTrackRep *)
Get detector plane Calls GFAbsTrackRep::extrapolateToLine for POCA.
TMatrixT< Double_t > getRawHitCoord() const
Get raw hit coordinates.
Definition: GFAbsRecoHit.h:182
Base Class for genfit track representations. Defines interface for track parameterizations.
Definition: GFAbsTrackRep.h:85
void checkPlane(GFAbsRecoHit *, const GFDetPlane &)
Check if the detector plane is valid.
TMatrixT< Double_t > hitCoord(GFAbsRecoHit *, const GFDetPlane &)
Hit coordinates in detector plane.
Detector simulation of raw signals on wires.
Exception class for error handling in GENFIT (provides storage for diagnostic information) ...
Definition: GFException.h:50
TMatrixT< Double_t > hitCov(GFAbsRecoHit *, const GFDetPlane &)
Hit covariances in detector plane.
TVector3 getV() const
Definition: GFDetPlane.h:78
Float_t e
Definition: plot.C:34
TMatrixT< Double_t > getRawHitCov() const
Get raw hit covariances.
Definition: GFAbsRecoHit.h:177
static const std::string fPolicyName