1 | /* ======================================================================== *\
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2 | !
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3 | ! *
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4 | ! * This file is part of CheObs, the Modular Analysis and Reconstruction
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5 | ! * Software. It is distributed to you in the hope that it can be a useful
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6 | ! * and timesaving tool in analysing Data of imaging Cerenkov telescopes.
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7 | ! * It is distributed WITHOUT ANY WARRANTY.
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8 | ! *
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9 | ! * Permission to use, copy, modify and distribute this software and its
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10 | ! * documentation for any purpose is hereby granted without fee,
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11 | ! * provided that the above copyright notice appears in all copies and
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12 | ! * that both that copyright notice and this permission notice appear
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13 | ! * in supporting documentation. It is provided "as is" without express
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14 | ! * or implied warranty.
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15 | ! *
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16 | !
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17 | !
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18 | ! Author(s): Thomas Bretz, 1/2009 <mailto:tbretz@astro.uni-wuerzburg.de>
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19 | !
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20 | ! Copyright: CheObs Software Development, 2000-2009
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21 | !
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22 | !
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23 | \* ======================================================================== */
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24 |
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25 | //////////////////////////////////////////////////////////////////////////////
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26 | //
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27 | // MMirror
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28 | //
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29 | // Note, that we could use basic geometry classes instead, but especially
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30 | // CanHit is time critical. So this class is (should be) optimized for
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31 | // execution speed.
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32 | //
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33 | // This base class provides the code to calculate a spherical mirror
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34 | // (ExecuteMirror) and to scatter in a way to get a proper PSF.
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35 | // Furthermore it stored the geometry of a mirror.
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36 | //
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37 | // ------------------------------------------------------------------------
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38 | //
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39 | // Bool_t CanHit(const MQuaternion &p) const;
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40 | //
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41 | // This is a very rough estimate of whether a photon at a position p
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42 | // can hit a mirror. The position might be off in z and the photon
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43 | // still has to follow its trajectory. Nevertheless we can fairly assume
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44 | // the the way to travel in x/y is pretty small so we can give a rather
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45 | // good estimate of whether the photon can hit.
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46 | //
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47 | // Never throw away a photon whihc can hit the mirror!
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48 | //
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49 | // ------------------------------------------------------------------------
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50 | //
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51 | // Bool_t HasHit(const MQuaternion &p) const;
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52 | //
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53 | // Check if the given position coincides with the mirror. The position
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54 | // is assumed to be the incident point on the mirror's surface.
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55 | //
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56 | // The coordinates are in the mirrors coordinate frame.
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57 | //
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58 | // The action should coincide with what is painted in Paint()
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59 | //
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60 | // ------------------------------------------------------------------------
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61 | //
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62 | // void Paint(Option_t *opt)
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63 | //
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64 | // Paint the mirror in x/y.
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65 | //
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66 | // The graphic should coincide with the action in HasHit
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67 | //
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68 | // ------------------------------------------------------------------------
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69 | //
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70 | // Int_t ReadM(const TObjArray &tok);
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71 | //
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72 | // Read the mirror's setup from a file. The first eight tokens should be
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73 | // ignored. (This could be fixed!)
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74 | //
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75 | //////////////////////////////////////////////////////////////////////////////
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76 | #include "MMirror.h"
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77 |
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78 | #include <TRandom.h>
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79 |
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80 | #include "MLog.h"
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81 |
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82 | #include "MQuaternion.h"
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83 |
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84 | ClassImp(MMirror);
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85 |
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86 | using namespace std;
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87 |
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88 | // --------------------------------------------------------------------------
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89 | //
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90 | // Return the TVector2 which is the x/y position of the mirror minus
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91 | // q.XYvector/(;
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92 | //
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93 | TVector2 MMirror::operator-(const MQuaternion &q) const
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94 | {
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95 | return TVector2(X()-q.X(), Y()-q.Y());
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96 | }
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97 |
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98 | // --------------------------------------------------------------------------
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99 | //
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100 | // Return the TVector2 which is the difference of this mirror and the
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101 | // given mirror
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102 | //
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103 | TVector2 MMirror::operator-(const MMirror &m) const
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104 | {
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105 | return TVector2(X()-m.X(), Y()-m.Y());
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106 | }
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107 |
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108 | // --------------------------------------------------------------------------
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109 | //
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110 | // Simulate the PSF. Therefor we smear out the given normal vector
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111 | // with a gaussian.
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112 | //
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113 | // Returns a vector which can be added to the normal vector.
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114 | //
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115 | // FIXME: What is the correct focal distance to be given here?
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116 | // Can the smearing be imporved?
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117 | //
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118 | TVector3 MMirror::SimPSF(const TVector3 &n, Double_t F, Double_t psf) const
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119 | {
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120 | //const TVector3 n( x, y, -d) // Normal vector of the mirror
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121 | const TVector3 xy(-n.Y(), n.X(), 0); // Normal vector in x/y plane
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122 |
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123 | Double_t gx, gy;
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124 | gRandom->Rannor(gx, gy); // 2D random Gauss distribution
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125 |
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126 | psf /= 2; // The factor two because of the doubleing of the angle in the reflection
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127 | psf /= F; // Scale the Gauss to the size of the PSF
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128 | //psf *= n.Z(); //
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129 | psf *= n.Mag(); // This means that the PSF is measured in the focal distance
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130 |
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131 | TVector3 dn(gx*psf, gy*psf, 0); // Instead of psf/F also atan(psf/F) might make sense
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132 |
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133 | dn.Rotate(-n.Theta(), xy); // Tilt the gauss-vector to the normal vector
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134 |
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135 | return dn; // Return the vector to be added to the normal vector
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136 | }
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137 |
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138 | // --------------------------------------------------------------------------
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139 | //
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140 | void MMirror::Print(Option_t *o) const
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141 | {
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142 | gLog << fPos.X() << " " << fPos.Y() << " " << fPos.Z() << " ";
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143 | gLog << fNorm.X() << " " << fNorm.Y() << " " << fNorm.Z() << " ";
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144 | gLog << fFocalLength << " ";
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145 | if (fSigmaPSF>0)
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146 | gLog << fSigmaPSF << " ";
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147 |
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148 | const TString n = ClassName();
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149 |
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150 | gLog << n(7, n.Length());
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151 | }
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