1 | #ifndef MARS_MCorsikaRunHeader
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2 | #define MARS_MCorsikaRunHeader
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3 | ///////////////////////////////////////////////////////////////////////
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4 | // //
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5 | // MRunHeader //
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6 | // //
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7 | ///////////////////////////////////////////////////////////////////////
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8 |
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9 | #ifndef MARS_MTime
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10 | #include "MTime.h"
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11 | #endif
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12 |
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13 | class MCorsikaFormat;
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14 |
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15 | class MCorsikaRunHeader : public MParContainer
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16 | {
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17 | friend class MCorsikaEvtHeader;
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18 | public:
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19 | enum CerenkovFlag_t
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20 | {
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21 | kCerenkov = BIT(0),
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22 | kIact = BIT(1),
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23 | kCeffic = BIT(2),
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24 | kAtmext = BIT(3),
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25 | kRefraction = BIT(4),
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26 | kVolumedet = BIT(5),
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27 | kCurved = BIT(6),
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28 | kSlant = BIT(8)
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29 | };
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30 |
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31 | private:
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32 | static const Double_t fgEarthRadius; // Take same Earth radius as in CORSIKA (cm)
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33 |
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34 | UInt_t fRunNumber; // Run number
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35 | UInt_t fParticleID; // Particle ID (see MMcEvtBasic or CORSIKA manual)
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36 | UInt_t fNumEvents; // Number of events
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37 | MTime fRunStart; // Date of begin (yymmdd)
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38 | Float_t fProgramVersion; // Version of program
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39 |
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40 | Byte_t fNumObsLevel; // Number of observation levels
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41 | Float_t fObsLevel[10]; // Observation levels [cm]
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42 |
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43 | Float_t fImpactMax; // [cm] Maximum simulated impact
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44 |
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45 | Float_t fSlopeSpectrum; // Slope of energy spectrum
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46 | Float_t fEnergyMin; // Lower limit of energy range
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47 | Float_t fEnergyMax; // Upper limit of energy range
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48 |
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49 | Float_t fZdMin; // [rad] Zenith distance
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50 | Float_t fZdMax; // [rad] Zenith distance
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51 | Float_t fAzMin; // [rad] Azimuth (north=0; east=90)
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52 | Float_t fAzMax; // [rad] Azimuth (north=0; east=90) (north denotes the magnet north which is defined to be in the geografic north!)
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53 |
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54 | Float_t fMagneticFieldX; // [muT] x-component of earth magnetic field (ceres coordinate system)
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55 | Float_t fMagneticFieldZ; // [muT] z-component of earth magnetic field (ceres coordinate system)
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56 | Float_t fMagneticFieldAz; // [rad] Azimuth angle of magnetic north expressed in telescope coordinates
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57 |
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58 | Float_t fWavelengthMin; // [nm] Wavelength bandwidth lo edge
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59 | Float_t fWavelengthMax; // [nm] Wavelength bandwidth up edge
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60 |
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61 | Float_t fViewConeInnerAngle; // [deg]
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62 | Float_t fViewConeOuterAngle; // [deg]
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63 |
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64 | Float_t fAtmosphericLayers[5]; // [cm] ATMLAY (see Corsika Manual for details)
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65 | Float_t fAtmosphericCoeffA[5]; // [g/cm²] AATM (see Corsika Manual for details)
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66 | Float_t fAtmosphericCoeffB[5]; // [g/cm²] BATM (see Corsika Manual for details)
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67 | Float_t fAtmosphericCoeffC[5]; // [cm] CATM (see Corsika Manual for details)
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68 |
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69 | UInt_t fCerenkovFlag;
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70 |
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71 | public:
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72 | MCorsikaRunHeader(const char *name=NULL, const char *title=NULL);
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73 |
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74 | // Getter
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75 | UInt_t GetRunNumber() const { return fRunNumber; }
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76 | UInt_t GetParticleID() const { return fParticleID; }
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77 | UInt_t GetNumEvents() const { return fNumEvents; }
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78 |
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79 | const MTime &GetRunStart() const { return fRunStart; }
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80 |
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81 | Float_t GetProgramVersion() const { return fProgramVersion; }
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82 |
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83 | Float_t GetZdMin() const { return fZdMin; }
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84 | Float_t GetZdMax() const { return fZdMax; }
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85 |
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86 | Float_t GetAzMin() const { return fAzMin; }
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87 | Float_t GetAzMax() const { return fAzMax; }
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88 |
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89 | Float_t GetWavelengthMin() const { return fWavelengthMin; }
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90 | Float_t GetWavelengthMax() const { return fWavelengthMax; }
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91 |
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92 | Float_t GetSlopeSpectrum() const { return fSlopeSpectrum; }
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93 | Float_t GetEnergyMin() const { return fEnergyMin; }
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94 | Float_t GetEnergyMax() const { return fEnergyMax; }
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95 |
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96 | Float_t GetImpactMax() const { return fImpactMax; }
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97 |
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98 | Float_t GetMagneticFieldX() const { return fMagneticFieldX; }
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99 | Float_t GetMagneticFieldZ() const { return fMagneticFieldZ; }
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100 | Float_t GetMagneticFieldAz() const { return fMagneticFieldAz; }
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101 |
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102 | Float_t GetViewConeInnerAngle() const { return fViewConeInnerAngle; }
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103 | Float_t GetViewConeOuterAngle() const { return fViewConeOuterAngle; }
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104 | Bool_t HasViewCone() const { return fViewConeOuterAngle>0; }
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105 |
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106 | Float_t GetObsLevel(UInt_t i=0) const { return i>9 ? -1 : fObsLevel[i]; }
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107 |
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108 | Bool_t Has(CerenkovFlag_t opt) const { return fCerenkovFlag&opt ? 1 : 0; }
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109 |
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110 | static Double_t EarthRadius() { return fgEarthRadius; }
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111 |
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112 | // Preliminary!
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113 | Bool_t HasLayers() const { return fAtmosphericLayers[4]>0; }
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114 |
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115 | const Float_t *GetAtmosphericLayers() const { return fAtmosphericLayers; }
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116 | const Float_t *GetAtmosphericCoeffA() const { return fAtmosphericCoeffA; }
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117 | const Float_t *GetAtmosphericCoeffB() const { return fAtmosphericCoeffB; }
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118 | const Float_t *GetAtmosphericCoeffC() const { return fAtmosphericCoeffC; }
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119 |
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120 | UInt_t GetNumAtmosphericModel() const { return (fCerenkovFlag>>10)&0x3ff; }
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121 |
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122 | // I/O
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123 | Bool_t ReadEvt(MCorsikaFormat * fInFormat);
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124 | Bool_t ReadEvtEnd(MCorsikaFormat * fInFormat);
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125 | Bool_t SeekEvtEnd(istream &fin);
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126 |
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127 | // TObject
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128 | void Print(Option_t *t=NULL) const;
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129 |
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130 | ClassDef(MCorsikaRunHeader, 2) // storage container for general info
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131 | };
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132 | #endif
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