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source: git/external/TrackCovariance/ObsTrk.cc@ 7967061

Last change on this file since 7967061 was 170a11d, checked in by michele <michele.selvaggi@…>, 4 years ago

included acceptance and hits in TrackCovariance

  • Property mode set to 100644
File size: 7.7 KB
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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>
8#include "SolGridCov.h"
9#include "ObsTrk.h"
10//
11// Constructors
12// x(3) track origin, p(3) track momentum at origin, Q charge, B magnetic field in Tesla
13ObsTrk::ObsTrk(TVector3 x, TVector3 p, Double_t Q, Double_t B, SolGridCov *GC)
14{
15 fGC = GC;
16 fGenX = x;
17 fGenP = p;
18 fGenQ = Q;
19 fB = B;
20 fGenPar.ResizeTo(5);
21 fGenParACTS.ResizeTo(6);
22 fGenParILC.ResizeTo(5);
23 fObsPar.ResizeTo(5);
24 fObsParACTS.ResizeTo(6);
25 fObsParILC.ResizeTo(5);
26 fCov.ResizeTo(5, 5);
27 fCovACTS.ResizeTo(6, 6);
28 fCovILC.ResizeTo(5, 5);
29 fGenPar = XPtoPar(x,p,Q);
30 fGenParACTS = ParToACTS(fGenPar);
31 fGenParILC = ParToILC(fGenPar);
32 /*
33 std::cout << "ObsTrk::ObsTrk: fGenPar";
34 for (Int_t i = 0; i < 5; i++)std::cout << fGenPar(i) << ", ";
35 std::cout << std::endl;
36 */
37 fObsPar = GenToObsPar(fGenPar, fGC);
38 fObsParACTS = ParToACTS(fObsPar);
39 fObsParILC = ParToILC(fObsPar);
40 fObsX = ParToX(fObsPar);
41 fObsP = ParToP(fObsPar);
42 fObsQ = ParToQ(fObsPar);
43 fCovACTS = CovToACTS(fCov);
44 fCovILC = CovToILC(fCov);
45}
46
47// x[3] track origin, p[3] track momentum at origin, Q charge, B magnetic field in Tesla
48ObsTrk::ObsTrk(Double_t *x, Double_t *p, Double_t Q, Double_t B, SolGridCov* GC)
49{
50 fGC = GC;
51 fGenX.SetXYZ(x[0],x[1],x[2]);
52 fGenP.SetXYZ(p[0],p[1],p[2]);
53 fGenQ = Q;
54 fB = B;
55 fGenPar.ResizeTo(5);
56 fGenParACTS.ResizeTo(6);
57 fGenParILC.ResizeTo(5);
58 fObsPar.ResizeTo(5);
59 fObsParACTS.ResizeTo(6);
60 fObsParILC.ResizeTo(5);
61 fCov.ResizeTo(5, 5);
62 fCovACTS.ResizeTo(6, 6);
63 fCovILC.ResizeTo(5, 5);
64 fGenPar = XPtoPar(fGenX, fGenP, Q);
65 fGenParACTS = ParToACTS(fGenPar);
66 fGenParILC = ParToILC(fGenPar);
67 /*
68 cout << "ObsTrk::ObsTrk: fGenPar";
69 for (Int_t i = 0; i < 5; i++)cout << fGenPar(i) << ", ";
70 cout << endl;
71 */
72 fObsPar = GenToObsPar(fGenPar, fGC);
73 fObsParACTS = ParToACTS(fObsPar);
74 fObsParILC = ParToILC(fObsPar);
75 fObsX = ParToX(fObsPar);
76 fObsP = ParToP(fObsPar);
77 fObsQ = ParToQ(fObsPar);
78 fCovACTS = CovToACTS(fCov);
79 fCovILC = CovToILC(fCov);
80}
81
82
83//
84// Destructor
85ObsTrk::~ObsTrk()
86{
87 fGenX.Clear();
88 fGenP.Clear();
89 fGenPar.Clear();
90 fGenParACTS.Clear();
91 fObsX.Clear();
92 fObsP.Clear();
93 fObsPar.Clear();
94 fObsParACTS.Clear();
95 fCov.Clear();
96 fCovACTS.Clear();
97}
98TVectorD ObsTrk::XPtoPar(TVector3 x, TVector3 p, Double_t Q)
99{
100 //
101 TVectorD Par(5);
102 // Transverse parameters
103 Double_t a = -Q*fB*0.2998; // Units are Tesla, GeV and meters
104 Double_t pt = p.Pt();
105 Double_t C = a / (2 * pt); // Half curvature
106 //std::cout << "ObsTrk::XPtoPar: fB = " << fB << ", a = " << a << ", pt = " << pt << ", C = " << C << std::endl;
107 Double_t r2 = x.Perp2();
108 Double_t cross = x(0)*p(1) - x(1)*p(0);
109 Double_t T = TMath::Sqrt(pt*pt - 2 * a*cross + a*a*r2);
110 Double_t phi0 = TMath::ATan2((p(1) - a*x(0)) / T, (p(0) + a*x(1)) / T); // Phi0
111 Double_t D; // Impact parameter D
112 if (pt < 10.0) D = (T - pt) / a;
113 else D = (-2 * cross + a*r2) / (T + pt);
114 //
115 Par(0) = D; // Store D
116 Par(1) = phi0; // Store phi0
117 Par(2) = C; // Store C
118 //Longitudinal parameters
119 Double_t B = C*TMath::Sqrt(TMath::Max(r2 - D*D,0.0) / (1 + 2 * C*D));
120 Double_t st = TMath::ASin(B) / C;
121 Double_t ct = p(2) / pt;
122 Double_t z0 = x(2) - ct*st;
123 //
124 Par(3) = z0; // Store z0
125 Par(4) = ct; // Store cot(theta)
126 //
127 return Par;
128}
129//
130TVector3 ObsTrk::ParToX(TVectorD Par)
131{
132 Double_t D = Par(0);
133 Double_t phi0 = Par(1);
134 Double_t z0 = Par(3);
135 //
136 TVector3 Xval;
137 Xval(0) = -D*TMath::Sin(phi0);
138 Xval(1) = D*TMath::Cos(phi0);
139 Xval(2) = z0;
140 //
141 return Xval;
142}
143//
144TVector3 ObsTrk::ParToP(TVectorD Par)
145{
146 Double_t C = Par(2);
147 Double_t phi0 = Par(1);
148 Double_t ct = Par(4);
149 //
150 TVector3 Pval;
151 Double_t pt = fB*0.2998 / TMath::Abs(2 * C);
152 Pval(0) = pt*TMath::Cos(phi0);
153 Pval(1) = pt*TMath::Sin(phi0);
154 Pval(2) = pt*ct;
155 //
156 return Pval;
157}
158//
159
160Double_t ObsTrk::ParToQ(TVectorD Par)
161{
162 return TMath::Sign(1.0, -Par(2));
163}
164//
165TVectorD ObsTrk::GenToObsPar(TVectorD gPar, SolGridCov *GC)
166{
167 TVector3 p = ParToP(gPar);
168 Double_t pt = p.Pt();
169 Double_t tanTh = 1.0 / TMath::Abs(gPar(4));
170 Double_t angd = TMath::ATan(tanTh)*180. / TMath::Pi();
171 //
172 // Check ranges
173 Double_t minPt = GC->GetMinPt ();
174 //if (pt < minPt) std::cout << "Warning ObsTrk::GenToObsPar: pt " << pt << " is below grid range of " << minPt << std::endl;
175 Double_t maxPt = GC->GetMaxPt();
176 //if (pt > maxPt) std::cout << "Warning ObsTrk::GenToObsPar: pt " << pt << " is above grid range of " << maxPt << std::endl;
177 Double_t minAn = GC->GetMinAng();
178 //if (angd < minAn) std::cout << "Warning ObsTrk::GenToObsPar: angle " << angd
179 // << " is below grid range of " << minAn << std::endl;
180 Double_t maxAn = GC->GetMaxAng();
181 //if (angd > maxAn) std::cout << "Warning ObsTrk::GenToObsPar: angle " << angd
182 // << " is above grid range of " << maxAn << std::endl;
183 //
184 TMatrixDSym Cov = GC->GetCov(pt, angd);
185 fCov = Cov;
186 //
187 // Now do Choleski decomposition and random number extraction, with appropriate stabilization
188 //
189 TMatrixDSym CvN = Cov;
190 TMatrixDSym DCv(5); DCv.Zero();
191 TMatrixDSym DCvInv(5); DCvInv.Zero();
192 for (Int_t id = 0; id < 5; id++)
193 {
194 Double_t dVal = TMath::Sqrt(Cov(id, id));
195 DCv (id, id) = dVal;
196 DCvInv(id, id) = 1.0 / dVal;
197 }
198 CvN.Similarity(DCvInv); // Normalize diagonal to 1
199 TDecompChol Chl(CvN);
200 Bool_t OK = Chl.Decompose(); // Choleski decomposition of normalized matrix
201 TMatrixD U = Chl.GetU(); // Get Upper triangular matrix
202 TMatrixD Ut(TMatrixD::kTransposed, U); // Transposed of U (lower triangular)
203 TVectorD r(5);
204 for (Int_t i = 0; i < 5; i++)r(i) = gRandom->Gaus(0.0, 1.0); // Array of normal random numbers
205 TVectorD oPar = gPar + DCv*(Ut*r); // Observed parameter vector
206 //
207 return oPar;
208}
209// Parameter conversion to ACTS format
210TVectorD ObsTrk::ParToACTS(TVectorD Par)
211{
212 TVectorD pACTS(6); // Return vector
213 //
214 Double_t b = -0.29988*fB / 2.;
215 pACTS(0) = 1000*Par(0); // D from m to mm
216 pACTS(1) = 1000 * Par(3); // z0 from m to mm
217 pACTS(2) = Par(1); // Phi0 is unchanged
218 pACTS(3) = TMath::ATan2(1.0,Par(4)); // Theta in [0, pi] range
219 pACTS(4) = Par(2) / (b*TMath::Sqrt(1 + Par(4)*Par(4))); // q/p in GeV
220 pACTS(5) = 0.0; // Time: currently undefined
221 //
222 return pACTS;
223}
224// Covariance conversion to ACTS format
225TMatrixDSym ObsTrk::CovToACTS(TMatrixDSym Cov)
226{
227 TMatrixDSym cACTS(6); cACTS.Zero();
228 Double_t b = -0.29988*fB / 2.;
229 //
230 // Fill derivative matrix
231 TMatrixD A(5, 5); A.Zero();
232 Double_t ct = fGenPar(4); // cot(theta)
233 Double_t C = fGenPar(2); // half curvature
234 A(0, 0) = 1000.; // D-D conversion to mm
235 A(1, 2) = 1.0; // phi0-phi0
236 A(2, 4) = 1.0/(TMath::Sqrt(1.0 + ct*ct) * b); // q/p-C
237 A(3, 1) = 1000.; // z0-z0 conversion to mm
238 A(4, 3) = -1.0 / (1.0 + ct*ct); // theta - cot(theta)
239 A(4, 4) = -C*ct / (b*pow(1.0 + ct*ct,3.0/2.0)); // q/p-cot(theta)
240 //
241 TMatrixDSym Cv = Cov;
242 TMatrixD At(5, 5);
243 At.Transpose(A);
244 Cv.Similarity(At);
245 TMatrixDSub(cACTS, 0, 4, 0, 4) = Cv;
246 cACTS(5, 5) = 0.1; // Currently undefined: set to arbitrary value to avoid crashes
247 //
248 return cACTS;
249}
250
251// Parameter conversion to ILC format
252TVectorD ObsTrk::ParToILC(TVectorD Par)
253{
254 TVectorD pILC(5); // Return vector
255 //
256 pILC(0) = Par(0)*1.0e3; // d0 in mm
257 pILC(1) = Par(1); // phi0 is unchanged
258 pILC(2) = -2 * Par(2)*1.0e-3; // w in mm^-1
259 pILC(3) = Par(3)*1.0e3; // z0 in mm
260 pILC(4) = Par(4); // tan(lambda) = cot(theta)
261 //
262 return pILC;
263}
264// Covariance conversion to ILC format
265TMatrixDSym ObsTrk::CovToILC(TMatrixDSym Cov)
266{
267 TMatrixDSym cILC(5); cILC.Zero();
268 //
269 // Fill derivative matrix
270 TMatrixD A(5, 5); A.Zero();
271 //
272 A(0, 0) = 1.0e3; // D-d0 in mm
273 A(1, 1) = 1.0; // phi0-phi0
274 A(2, 2) = -2.0e-3; // w-C
275 A(3, 3) = 1.0e3; // z0-z0 conversion to mm
276 A(4, 4) = 1.0; // tan(lambda) - cot(theta)
277 //
278 TMatrixDSym Cv = Cov;
279 TMatrixD At(5, 5);
280 At.Transpose(A);
281 Cv.Similarity(At);
282 cILC = Cv;
283 //
284 return cILC;
285}
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