| [ff9fb2d9] | 1 | #include <iostream>
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| 2 |
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| 3 | #include <TMath.h>
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| 4 | #include <TVector3.h>
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| 5 | #include <TMatrixD.h>
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| 6 | #include <TMatrixDSym.h>
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| 7 | #include <TDecompChol.h>
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| 8 | #include <TRandom.h>
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| 9 |
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| 10 | #include "SolGridCov.h"
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| 11 | #include "ObsTrk.h"
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| 12 |
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| 13 | using namespace std;
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| 14 |
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| 15 | // x(3) track origin, p(3) track momentum at origin, Q charge, B magnetic field in Tesla
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| 16 | ObsTrk::ObsTrk(TVector3 x, TVector3 p, Double_t Q, Double_t B, SolGridCov *GC)
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| 17 | {
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| 18 | fGC = GC;
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| 19 | fGenX = x;
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| 20 | fGenP = p;
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| 21 | fGenQ = Q;
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| 22 | fB = B;
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| 23 | fGenPar.ResizeTo(5);
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| 24 | fObsPar.ResizeTo(5);
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| 25 | fCov.ResizeTo(5, 5);
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| 26 | fGenPar = XPtoPar(x, p, Q);
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| 27 | fObsPar = GenToObsPar(fGenPar, fGC);
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| 28 | fObsX = ParToX(fObsPar);
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| 29 | fObsP = ParToP(fObsPar);
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| 30 | fObsQ = ParToQ(fObsPar);
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| 31 | }
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| 32 |
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| 33 | ObsTrk::~ObsTrk()
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| 34 | {
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| 35 | }
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| 36 |
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| 37 | TVectorD ObsTrk::XPtoPar(TVector3 x, TVector3 p, Double_t Q)
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| 38 | {
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| 39 | TVectorD Par(5);
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| 40 | // Transverse parameters
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| 41 | Double_t a = -Q * fB * 0.2998; // Units are Tesla, GeV and m
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| 42 | Double_t pt = p.Pt();
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| 43 | Double_t C = a / (2 * pt); // Half curvature
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| 44 |
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| 45 | Double_t r2 = x.Perp2();
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| 46 | Double_t cross = x(0) * p(1) - x(1) * p(0);
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| 47 | Double_t T = TMath::Sqrt(pt * pt - 2 * a * cross + a * a * r2);
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| 48 | Double_t phi0 = TMath::ATan2((p(1) - a * x(0)) / T, (p(0) + a * x(1)) / T); // Phi0
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| 49 | Double_t D; // Impact parameter D
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| 50 | if (pt < 10.0) D = (T - pt) / a;
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| 51 | else D = (-2 * cross + a * r2) / (T + pt);
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| 52 |
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| 53 | Par(0) = D; // Store D
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| 54 | Par(1) = phi0; // Store phi0
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| 55 | Par(2) = C; // Store C
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| 56 | // Longitudinal parameters
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| 57 | Double_t B = C * TMath::Sqrt(TMath::Max(r2 - D * D,0.0) / (1 + 2 * C * D));
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| 58 | Double_t st = TMath::ASin(B) / C;
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| 59 | Double_t ct = p(2) / pt;
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| 60 | Double_t z0 = x(2) - ct * st;
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| 61 |
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| 62 | Par(3) = z0; // Store z0
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| 63 | Par(4) = ct; // Store cot(theta)
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| 64 |
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| 65 | return Par;
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| 66 | }
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| 67 |
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| 68 | TVector3 ObsTrk::ParToX(TVectorD Par)
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| 69 | {
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| 70 | Double_t D = Par(0);
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| 71 | Double_t phi0 = Par(1);
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| 72 | Double_t z0 = Par(3);
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| 73 |
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| 74 | TVector3 Xval;
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| 75 | Xval(0) = -D * TMath::Sin(phi0);
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| 76 | Xval(1) = D * TMath::Cos(phi0);
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| 77 | Xval(2) = z0;
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| 78 |
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| 79 | return Xval;
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| 80 | }
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| 81 |
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| 82 | TVector3 ObsTrk::ParToP(TVectorD Par)
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| 83 | {
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| 84 | Double_t C = Par(2);
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| 85 | Double_t phi0 = Par(1);
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| 86 | Double_t ct = Par(4);
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| 87 | //
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| 88 | TVector3 Pval;
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| 89 | Double_t pt = fB * 0.2998 / TMath::Abs(2 * C);
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| 90 | Pval(0) = pt * TMath::Cos(phi0);
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| 91 | Pval(1) = pt * TMath::Sin(phi0);
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| 92 | Pval(2) = pt * ct;
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| 93 | //
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| 94 | return Pval;
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| 95 | }
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| 96 |
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| 97 | Double_t ObsTrk::ParToQ(TVectorD Par)
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| 98 | {
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| 99 | return TMath::Sign(1.0, -Par(2));
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| 100 | }
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| 101 |
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| 102 | TVectorD ObsTrk::GenToObsPar(TVectorD gPar, SolGridCov *GC)
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| 103 | {
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| 104 | TVector3 p = ParToP(gPar);
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| 105 | Double_t pt = p.Pt();
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| 106 | Double_t tanTh = 1.0 / TMath::Abs(gPar(4));
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| 107 | Double_t angd = TMath::ATan(tanTh) * 180. / TMath::Pi();
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| 108 | // Check ranges
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| 109 | Double_t minPt = GC->GetMinPt ();
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| 110 | if (pt < minPt) cout << "Warning ObsTrk::GenToObsPar: pt " << pt << " is below grid range of " << minPt << endl;
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| 111 | Double_t maxPt = GC->GetMaxPt();
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| 112 | if (pt > maxPt) cout << "Warning ObsTrk::GenToObsPar: pt " << pt << " is above grid range of " << maxPt << endl;
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| 113 | Double_t minAn = GC->GetMinAng();
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| 114 | if (angd < minAn) cout << "Warning ObsTrk::GenToObsPar: angle " << angd
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| 115 | << " is below grid range of " << minAn << endl;
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| 116 | Double_t maxAn = GC->GetMaxAng();
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| 117 | if (angd > maxAn) cout << "Warning ObsTrk::GenToObsPar: angle " << angd
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| 118 | << " is above grid range of " << maxAn << endl;
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| 119 | TMatrixDSym Cov = GC->GetCov(pt, angd);
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| 120 | fCov = Cov;
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| 121 | // Now do Choleski decomposition and random number extraction, with appropriate stabilization
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| 122 | TMatrixDSym CvN = Cov;
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| 123 | TMatrixDSym DCv(5); DCv.Zero();
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| 124 | TMatrixDSym DCvInv(5); DCvInv.Zero();
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| 125 | for (Int_t id = 0; id < 5; id++)
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| 126 | {
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| 127 | Double_t dVal = TMath::Sqrt(Cov(id, id));
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| 128 | DCv (id, id) = dVal;
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| 129 | DCvInv(id, id) = 1.0 / dVal;
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| 130 | }
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| 131 | CvN.Similarity(DCvInv); // Normalize diagonal to 1
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| 132 | TDecompChol Chl(CvN);
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| 133 | Bool_t OK = Chl.Decompose(); // Choleski decomposition of normalized matrix
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| 134 | TMatrixD U = Chl.GetU(); // Get Upper triangular matrix
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| 135 | TMatrixD Ut(TMatrixD::kTransposed, U); // Transposed of U (lower triangular)
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| 136 | TVectorD r(5);
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| 137 | for (Int_t i = 0; i < 5; i++) r(i) = gRandom->Gaus(0.0, 1.0); // Array of normal random numbers
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| 138 | TVectorD oPar = gPar + DCv * (Ut * r); // Observed parameter vector
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| 139 |
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| 140 | return oPar;
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| 141 | }
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