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source: git/external/TrackCovariance/ObsTrk.cc@ cc8716b

Last change on this file since cc8716b was 3a105e5, checked in by michele <michele.selvaggi@…>, 3 years ago

added first hit to track

  • Property mode set to 100644
File size: 4.8 KB
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[a617744]1#include <TMath.h>
2#include <TVector3.h>
3#include <TMatrixD.h>
4#include <TMatrixDSym.h>
5#include <TDecompChol.h>
6#include <TRandom.h>
7#include <iostream>
[ebf40fd]8#include "SolGeom.h"
[a617744]9#include "SolGridCov.h"
10#include "ObsTrk.h"
11//
12// Constructors
13//
[ebf40fd]14// x(3) track origin, p(3) track momentum at origin, Q charge, B ma gnetic field in Tesla
15ObsTrk::ObsTrk(TVector3 x, TVector3 p, Double_t Q, SolGridCov *GC, SolGeom *G)
[a617744]16{
[ebf40fd]17 fB = G->B();
18 SetB(fB);
19 fG = G;
[a617744]20 fGC = GC;
21 fGenX = x;
22 fGenP = p;
23 fGenQ = Q;
24 fGenPar.ResizeTo(5);
25 fGenParMm.ResizeTo(5);
26 fGenParACTS.ResizeTo(6);
27 fGenParILC.ResizeTo(5);
28 fObsPar.ResizeTo(5);
29 fObsParMm.ResizeTo(5);
30 fObsParACTS.ResizeTo(6);
31 fObsParILC.ResizeTo(5);
32 fCov.ResizeTo(5, 5);
33 fCovMm.ResizeTo(5, 5);
34 fCovACTS.ResizeTo(6, 6);
35 fCovILC.ResizeTo(5, 5);
36 fGenPar = XPtoPar(x,p,Q);
37 fGenParMm = ParToMm(fGenPar);
38 fGenParACTS = ParToACTS(fGenPar);
39 fGenParILC = ParToILC(fGenPar);
[ebf40fd]40 //
41 fObsPar = GenToObsPar(fGenPar);
[a617744]42 fObsParMm = ParToMm(fObsPar);
43 fObsParACTS = ParToACTS(fObsPar);
44 fObsParILC = ParToILC(fObsPar);
45 fObsX = ParToX(fObsPar);
46 fObsP = ParToP(fObsPar);
47 fObsQ = ParToQ(fObsPar);
48 fCovMm = CovToMm(fCov);
49 fCovACTS = CovToACTS(fObsPar, fCov);
50 fCovILC = CovToILC(fCov);
51}
52//
53// x[3] track origin, p[3] track momentum at origin, Q charge, B magnetic field in Tesla
[ebf40fd]54ObsTrk::ObsTrk(Double_t *x, Double_t *p, Double_t Q, SolGridCov* GC, SolGeom *G)
[a617744]55{
[ebf40fd]56 fB = G->B();
57 SetB(fB);
58 fG = G;
[a617744]59 fGC = GC;
60 fGenX.SetXYZ(x[0],x[1],x[2]);
61 fGenP.SetXYZ(p[0],p[1],p[2]);
62 fGenQ = Q;
63 fGenPar.ResizeTo(5);
64 fGenParMm.ResizeTo(5);
65 fGenParACTS.ResizeTo(6);
66 fGenParILC.ResizeTo(5);
67 fObsPar.ResizeTo(5);
68 fObsParMm.ResizeTo(5);
69 fObsParACTS.ResizeTo(6);
70 fObsParILC.ResizeTo(5);
71 fCov.ResizeTo(5, 5);
72 fCovMm.ResizeTo(5, 5);
73 fCovACTS.ResizeTo(6, 6);
74 fCovILC.ResizeTo(5, 5);
75 fGenPar = XPtoPar(fGenX, fGenP, Q);
[7bca620]76 fGenParMm = ParToMm(fGenPar);
[a617744]77 fGenParACTS = ParToACTS(fGenPar);
78 fGenParILC = ParToILC(fGenPar);
[ebf40fd]79 //
80 fObsPar = GenToObsPar(fGenPar);
[7bca620]81 fObsParMm = ParToMm(fObsPar);
[a617744]82 fObsParACTS = ParToACTS(fObsPar);
83 fObsParILC = ParToILC(fObsPar);
84 fObsX = ParToX(fObsPar);
85 fObsP = ParToP(fObsPar);
86 fObsQ = ParToQ(fObsPar);
[7bca620]87 fCovMm = CovToMm(fCov);
[a617744]88 fCovACTS = CovToACTS(fObsPar, fCov);
89 fCovILC = CovToILC(fCov);
90}
91//
92// Destructor
93ObsTrk::~ObsTrk()
94{
95 fGenX.Clear();
96 fGenP.Clear();
97 fGenPar.Clear();
98 fGenParMm.Clear();
99 fGenParACTS.Clear();
100 fGenParILC.Clear();
101 fObsX.Clear();
102 fObsP.Clear();
103 fObsPar.Clear();
104 fObsParMm.Clear();
105 fObsParACTS.Clear();
106 fObsParILC.Clear();
107 fCov.Clear();
108 fCovMm.Clear();
109 fCovACTS.Clear();
110 fCovILC.Clear();
111}
112//
[ebf40fd]113TVectorD ObsTrk::GenToObsPar(TVectorD gPar)
[a617744]114{
115 //
116 // Check ranges
[ebf40fd]117 Double_t minPt = fGC->GetMinPt();
118 //if (pt < minPt) std::cout << "Warning ObsTrk::GenToObsPar: pt " << pt << " is below grid range of " << minPt << std::endl;
119 Double_t maxPt = fGC->GetMaxPt();
120 //if (pt > maxPt) std::cout << "Warning ObsTrk::GenToObsPar: pt " << pt << " is above grid range of " << maxPt << std::endl;
121 Double_t minAn = fGC->GetMinAng();
[3a105e5]122 //if (angd < minAn) std::cout << "Warning ObsTrk::GenToObsPar: angle " << angd
[ebf40fd]123 // << " is below grid range of " << minAn << std::endl;
124 Double_t maxAn = fGC->GetMaxAng();
125 //if (angd > maxAn) std::cout << "Warning ObsTrk::GenToObsPar: angle " << angd
126 // << " is above grid range of " << maxAn << std::endl;
[a617744]127 //
[ebf40fd]128 TMatrixDSym Cov(5);
[a617744]129 //
[ebf40fd]130 // Check if track origin is inside beampipe and betwen the first disks
[a617744]131 //
[ebf40fd]132 Double_t Rin = fG->GetRmin();
133 Double_t ZinPos = fG->GetZminPos();
134 Double_t ZinNeg = fG->GetZminNeg();
135 Bool_t inside = TrkUtil::IsInside(fGenX, Rin, ZinNeg, ZinPos); // Check if in inner box
[00b14d5]136 SolTrack* trk = new SolTrack(fGenX, fGenP, fG);
137 Double_t Xfirst, Yfirst, Zfirst;
138 Int_t iLay = trk->FirstHit(Xfirst, Yfirst, Zfirst);
[3a105e5]139 fXfirst = TVector3(Xfirst, Yfirst, Zfirst);
140 //std::cout<<"obs trk: "<<Xfirst<<","<<Yfirst<<","<<Zfirst<<std::endl;
141
[ebf40fd]142 if (inside)
143 {
144 //std::cout<<"ObsTrk:: inside: x= "<<fGenX(0)<<", y= "<<fGenX(1)
145 // <<", z= "<<fGenX(2)<<std::endl;
146 // Observed track parameters
147 Double_t pt = fGenP.Pt();
148 Double_t angd = fGenP.Theta() * 180. / TMath::Pi();
149 Cov = fGC->GetCov(pt, angd); // Track covariance
150 }
151 else
[a617744]152 {
[ebf40fd]153 //std::cout<<"ObsTrk:: outside: x= "<<fGenX(0)<<", y= "<<fGenX(1)
154 // <<", z= "<<fGenX(2)<<std::endl;
155 Bool_t Res = kTRUE; Bool_t MS = kTRUE;
156 trk->CovCalc(Res, MS); // Calculate covariance matrix
[00b14d5]157 Cov = trk->Cov();
158 } // Track covariance
159 delete trk;
[ebf40fd]160 //
161 fCov = Cov;
162 //
163 // Now do Choleski decomposition and random number extraction, with appropriate stabilization
164 //
165 TVectorD oPar = TrkUtil::CovSmear(gPar, Cov);
[a617744]166 //
167 return oPar;
168}
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