1 | /* ======================================================================== *\
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2 | !
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3 | ! *
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4 | ! * This file is part of MARS, the MAGIC 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 appear 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): Markus Gaug 11/2003 <mailto:markus@ifae.es>
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19 | !
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20 | ! Copyright: MAGIC Software Development, 2000-2004
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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 | // MCalibrationChargeCam
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27 | //
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28 | // Storage container for charge calibration results from the signal distribution
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29 | // fits (see MHCalibrationChargeCam and MHCalibrationChargePix), the calculation
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30 | // of reduced sigmas and number of photo-electrons (this class) and conversion
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31 | // factors sum FADC slices to photo-electrons (see MCalibrationChargeCalc)
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32 | //
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33 | // Individual pixels have to be cast when retrieved e.g.:
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34 | // MCalibrationChargePix &avpix = (MCalibrationChargePix&)(*fChargeCam)[i]
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35 | //
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36 | // Averaged values over one whole area index (e.g. inner or outer pixels for
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37 | // the MAGIC camera), can be retrieved via:
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38 | // MCalibrationChargePix &avpix = (MCalibrationChargePix&)fChargeCam->GetAverageArea(i)
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39 | //
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40 | // Averaged values over one whole camera sector can be retrieved via:
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41 | // MCalibrationChargePix &avpix = (MCalibrationChargePix&)fChargeCam->GetAverageSector(i)
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42 | //
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43 | // Note the averageing has been done on an event-by-event basis. Resulting
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44 | // Sigma's of the Gauss fit have been multiplied with the square root of the number
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45 | // of involved pixels in order to make a direct comparison possible with the mean of
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46 | // sigmas.
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47 | //
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48 | // Final numbers of uncalibrated or unreliable pixels can be retrieved via the commands:
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49 | // GetNumUncalibrated(aidx) and GetNumUnreliable(aidx) where aidx is the area index (0 for
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50 | // inner and 1 for outer pixels in the MAGIC camera).
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51 | //
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52 | // The following "calibration" constants are used for the calibration of each pixel
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53 | // (see MCalibrate):
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54 | //
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55 | // - MCalibrationQEPix::GetMeanConvFADC2Phe(): The mean conversion factor from the
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56 | // summed FADC slices to the number of photo-electrons (in first order independent
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57 | // on colour and intensity)
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58 | // - MCalibrationQEPix::GetMeanFFactorFADC2Phot(): The mean F-Factor of the total
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59 | // readout chain dividing the signal to noise of the incoming number of photons
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60 | // (= sqrt(number photons)) by the signal to noise of the outgoing summed FADC slices
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61 | // signal (= MCalibrationPix::GetMean() / MCalibrationChargePix::GetRSigma() )
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62 | //
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63 | // The following calibration constants can be retrieved directly from this class:
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64 | //
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65 | // - GetConversionFactorFFactor ( Int_t idx, Float_t &mean, Float_t &err, Float_t &sigma );
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66 | //
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67 | // where:
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68 | // - idx is the pixel software ID
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69 | // - "mean" is the mean conversion constant, to be multiplied with the retrieved signal
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70 | // in order to get a calibrated number of PHOTONS.
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71 | // - "err" is the pure statistical uncertainty about the MEAN
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72 | // - "sigma", if mulitplied with the square root of signal, gives the approximate sigma of the
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73 | // retrieved mean number of incident Cherenkov photons.
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74 | //
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75 | // Note, Conversion is ALWAYS (included the F-Factor method!) from summed FADC slices to PHOTONS.
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76 | //
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77 | // See also: MCalibrationChargePix, MCalibrationChargeCalc, MCalibrationQECam
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78 | // MHCalibrationChargePix, MHCalibrationChargeCam
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79 | // MCalibrationBlindPix, MCalibrationChargePINDiode
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80 | //
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81 | /////////////////////////////////////////////////////////////////////////////
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82 | #include "MCalibrationChargeCam.h"
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83 | #include "MCalibrationChargePix.h"
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84 |
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85 | #include <TOrdCollection.h>
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86 | #include <TH1D.h>
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87 | #include <TF1.h>
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88 |
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89 | #include "MLog.h"
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90 | #include "MLogManip.h"
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91 |
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92 | #include "MGeomCam.h"
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93 | #include "MGeomPix.h"
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94 |
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95 | #include "MBadPixelsCam.h"
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96 | #include "MBadPixelsPix.h"
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97 |
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98 | #include "MCalibrationQECam.h"
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99 | #include "MCalibrationQEPix.h"
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100 |
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101 | #include "MHCamera.h"
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102 |
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103 | ClassImp(MCalibrationChargeCam);
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104 |
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105 | using namespace std;
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106 | // --------------------------------------------------------------------------
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107 | //
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108 | // Default constructor.
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109 | //
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110 | // Calls:
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111 | // - Clear()
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112 | //
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113 | MCalibrationChargeCam::MCalibrationChargeCam(const char *name, const char *title)
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114 | {
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115 | fName = name ? name : "MCalibrationChargeCam";
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116 | fTitle = title ? title : "Storage container for the Calibration Information in the camera";
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117 |
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118 | Clear();
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119 | }
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120 |
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121 | /*
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122 | // --------------------------------------------------------------------------
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123 | //
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124 | // Creates new MCalibrationCam only for the averaged areas:
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125 | // the rest has to be retrieved directly, e.g. via:
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126 | //
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127 | TObject *MCalibrationChargeCam::Clone(const char *) const
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128 | {
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129 |
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130 | //
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131 | // FIXME, this might be done faster and more elegant, by direct copy.
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132 | //
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133 | MCalibrationChargeCam *cam = new MCalibrationChargeCam(fName,fTitle);
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134 |
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135 | cam->fNumUnsuitable = fNumUnsuitable;
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136 | cam->fNumUnreliable = fNumUnreliable;
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137 | cam->fNumHiGainFADCSlices = fNumHiGainFADCSlices;
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138 | cam->fNumLoGainFADCSlices = fNumLoGainFADCSlices;
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139 | cam->fPulserColor = fPulserColor;
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140 |
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141 | cam->fFlags = fFlags;
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142 |
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143 | cam->fNumPhotonsBlindPixelMethod = fNumPhotonsBlindPixelMethod;
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144 | cam->fNumPhotonsFFactorMethod = fNumPhotonsFFactorMethod;
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145 | cam->fNumPhotonsPINDiodeMethod = fNumPhotonsPINDiodeMethod;
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146 | cam->fNumPhotonsBlindPixelMethodErr = fNumPhotonsBlindPixelMethodErr;
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147 | cam->fNumPhotonsFFactorMethodErr = fNumPhotonsFFactorMethodErr;
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148 | cam->fNumPhotonsPINDiodeMethodErr = fNumPhotonsPINDiodeMethodErr;
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149 |
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150 | for (Int_t i=0; i<GetSize(); i++)
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151 | cam->fPixels->AddAt((*this)[i].Clone(),i);
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152 |
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153 | for (Int_t i=0; i<GetAverageAreas(); i++)
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154 | {
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155 | cam->fAverageAreas->AddAt(GetAverageArea(i).Clone(),i);
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156 | cam->fAverageBadAreas->AddAt(GetAverageBadArea(i).Clone(),i);
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157 | }
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158 | for (Int_t i=0; i<GetAverageSectors(); i++)
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159 | {
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160 | cam->fAverageSectors->AddAt(GetAverageSector(i).Clone(),i);
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161 | cam->fAverageBadSectors->AddAt(GetAverageBadSector(i).Clone(),i);
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162 | }
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163 |
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164 | return cam;
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165 | }
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166 | */
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167 |
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168 | // -------------------------------------------------------------------
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169 | //
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170 | // Add MCalibrationChargePix's in the ranges from - to to fPixels
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171 | //
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172 | void MCalibrationChargeCam::Add(const UInt_t a, const UInt_t b)
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173 | {
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174 | for (UInt_t i=a; i<b; i++)
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175 | {
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176 | fPixels->AddAt(new MCalibrationChargePix,i);
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177 | (*this)[i].SetPixId(i);
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178 | }
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179 | }
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180 |
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181 | // -------------------------------------------------------------------
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182 | //
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183 | // Add MCalibrationChargePix's in the ranges from - to to fAverageAreas
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184 | //
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185 | void MCalibrationChargeCam::AddArea(const UInt_t a, const UInt_t b)
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186 | {
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187 | for (UInt_t i=a; i<b; i++)
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188 | {
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189 | fAverageAreas->AddAt(new MCalibrationChargePix,i);
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190 | GetAverageArea(i).SetPixId(i);
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191 | }
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192 | }
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193 |
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194 | // -------------------------------------------------------------------
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195 | //
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196 | // Add MCalibrationChargePix's in the ranges from - to to fAverageSectors
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197 | //
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198 | void MCalibrationChargeCam::AddSector(const UInt_t a, const UInt_t b)
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199 | {
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200 | for (UInt_t i=a; i<b; i++)
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201 | {
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202 | fAverageSectors->AddAt(new MCalibrationChargePix,i);
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203 | GetAverageSector(i).SetPixId(i);
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204 | }
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205 | }
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206 |
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207 |
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208 | // --------------------------------------
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209 | //
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210 | // Sets all variable to 0.
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211 | // Sets all flags to kFALSE
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212 | // Calls MCalibrationCam::Clear()
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213 | //
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214 | void MCalibrationChargeCam::Clear(Option_t *o)
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215 | {
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216 |
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217 | SetFFactorMethodValid ( kFALSE );
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218 |
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219 | fNumPhotonsBlindPixelMethod = 0.;
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220 | fNumPhotonsFFactorMethod = 0.;
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221 | fNumPhotonsPINDiodeMethod = 0.;
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222 | fNumPhotonsBlindPixelMethodErr = 0.;
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223 | fNumPhotonsFFactorMethodErr = 0.;
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224 | fNumPhotonsPINDiodeMethodErr = 0.;
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225 |
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226 | MCalibrationCam::Clear();
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227 |
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228 | return;
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229 | }
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230 |
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231 | // -----------------------------------------------
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232 | //
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233 | // Sets the kFFactorMethodValid bit from outside
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234 | //
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235 | void MCalibrationChargeCam::SetFFactorMethodValid(const Bool_t b)
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236 | {
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237 | b ? SETBIT(fFlags, kFFactorMethodValid) : CLRBIT(fFlags, kFFactorMethodValid);
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238 | }
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239 |
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240 |
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241 | // --------------------------------------------------------------------------
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242 | //
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243 | // Test bit kFFactorMethodValid
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244 | //
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245 | Bool_t MCalibrationChargeCam::IsFFactorMethodValid() const
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246 | {
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247 | return TESTBIT(fFlags,kFFactorMethodValid);
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248 | }
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249 |
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250 | // --------------------------------------------------------------------------
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251 | //
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252 | // Print first the well fitted pixels
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253 | // and then the ones which are not FitValid
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254 | //
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255 | void MCalibrationChargeCam::Print(Option_t *o) const
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256 | {
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257 |
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258 | *fLog << all << GetDescriptor() << ":" << endl;
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259 | int id = 0;
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260 |
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261 | *fLog << all << "Calibrated pixels:" << endl;
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262 | *fLog << all << endl;
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263 |
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264 | TIter Next(fPixels);
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265 | MCalibrationChargePix *pix;
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266 | while ((pix=(MCalibrationChargePix*)Next()))
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267 | {
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268 |
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269 | if (!pix->IsExcluded())
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270 | {
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271 |
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272 | *fLog << all
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273 | << Form("%s%3i","Pixel: ",pix->GetPixId())
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274 | << Form("%s%4.2f%s%4.2f"," Ped.Rms: ",pix->GetPedRms(),"+-",pix->GetPedRmsErr())
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275 | << Form("%s%4.2f%s%4.2f"," Charge: " ,pix->GetConvertedMean(),"+-",pix->GetConvertedSigma())
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276 | << Form("%s%4.2f%s%4.2f"," Red.Sigma: ",pix->GetConvertedRSigma(),"+-",pix->GetConvertedRSigmaErr())
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277 | << Form("%s%4.2f%s%4.2f"," Num.Phes: ",pix->GetPheFFactorMethod(),"+-",pix->GetPheFFactorMethodErr())
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278 | << Form("%s%4.2f%s%4.2f"," Conv.FADC2Phe: ",pix->GetMeanConvFADC2Phe(),"+-",pix->GetMeanConvFADC2PheErr())
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279 | << " Saturated? :" << pix->IsHiGainSaturation()
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280 | << Form("%s%4.2f%s%4.2f"," Conv.HiLo: ",pix->GetConversionHiLo(),"+-",pix->GetConversionHiLoErr())
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281 | << endl;
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282 | id++;
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283 | }
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284 | }
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285 |
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286 | *fLog << all << id << " pixels" << endl;
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287 | id = 0;
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288 |
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289 |
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290 | *fLog << all << endl;
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291 | *fLog << all << "Excluded pixels:" << endl;
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292 | *fLog << all << endl;
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293 |
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294 | id = 0;
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295 |
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296 | TIter Next4(fPixels);
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297 | while ((pix=(MCalibrationChargePix*)Next4()))
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298 | {
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299 | if (pix->IsExcluded())
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300 | {
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301 | *fLog << all << pix->GetPixId() << " ";
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302 | id++;
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303 |
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304 | if (!(id % 25))
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305 | *fLog << endl;
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306 | }
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307 | }
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308 |
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309 | *fLog << endl;
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310 | *fLog << all << id << " Excluded pixels " << endl;
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311 | *fLog << endl;
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312 |
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313 | *fLog << all << endl;
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314 | *fLog << all << "Averaged Areas:" << endl;
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315 | *fLog << all << endl;
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316 |
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317 | TIter Next5(fAverageAreas);
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318 | while ((pix=(MCalibrationChargePix*)Next5()))
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319 | {
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320 | *fLog << all << Form("%s%3i","Area Idx: ",pix->GetPixId())
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321 | << " Ped. Rms: " << pix->GetPedRms() << " +- " << pix->GetPedRmsErr()
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322 | << " Mean signal: " << pix->GetMean() << " +- " << pix->GetMeanErr()
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323 | << " Sigma signal: " << pix->GetSigma() << " +- "<< pix->GetSigmaErr()
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324 | << " Reduced Sigma: " << pix->GetRSigma()
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325 | << " Nr Phe's: " << pix->GetPheFFactorMethod()
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326 | << endl;
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327 | }
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328 |
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329 | *fLog << all << endl;
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330 | *fLog << all << "Averaged Sectors:" << endl;
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331 | *fLog << all << endl;
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332 |
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333 | TIter Next6(fAverageSectors);
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334 | while ((pix=(MCalibrationChargePix*)Next6()))
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335 | {
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336 | *fLog << all << Form("%s%3i","Sector: ",pix->GetPixId())
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337 | << " Ped. Rms: " << pix->GetPedRms() << " +- " << pix->GetPedRmsErr()
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338 | << " Mean signal: " << pix->GetMean() << " +- " << pix->GetMeanErr()
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339 | << " Sigma signal: " << pix->GetSigma() << " +- "<< pix->GetSigmaErr()
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340 | << " Reduced Sigma: " << pix->GetRSigma()
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341 | << " Nr Phe's: " << pix->GetPheFFactorMethod()
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342 | << endl;
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343 | }
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344 | *fLog << all << endl;
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345 | }
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346 |
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347 |
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348 | // --------------------------------------------------------------------------
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349 | //
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350 | // The types are as follows:
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351 | //
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352 | // Fitted values:
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353 | // ==============
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354 | //
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355 | // 0: Fitted Charge (see MCalibrationPix::GetMean())
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356 | // 1: Error of fitted Charge (see MCalibrationPix::GetMeanErr())
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357 | // 2: Sigma of fitted Charge (see MCalibrationPix::GetSigma())
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358 | // 3: Error of Sigma of fitted Charge (see MCalibrationPix::GetSigmaErr())
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359 | //
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360 | // Useful variables derived from the fit results:
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361 | // =============================================
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362 | //
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363 | // 4: Probability Gauss fit Charge distribution (see MCalibrationPix::GetProb())
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364 | // 5: Reduced Sigma of fitted Charge (see MCalibrationChargePix::GetRSigma())
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365 | // 6: Error Reduced Sigma of fitted Charge (see MCalibrationChargePix::GetRSigmaErr())
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366 | // 7: Reduced Sigma per Charge (see MCalibrationChargePix::GetRSigmaPerCharge())
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367 | // 8: Error of Reduced Sigma per Charge (see MCalibrationChargePix::GetRSigmaPerChargeErr())
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368 | //
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369 | // Results of the F-Factor calibration Method:
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370 | // ===========================================
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371 | //
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372 | // 9: Nr. Photo-electrons from F-Factor Method (see MCalibrationChargePix::GetPheFFactorMethod())
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373 | // 10: Error Nr. Photo-el. from F-Factor Method (see MCalibrationChargePix::GetPheFFactorMethodErr())
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374 | // 11: Conversion factor from F-Factor Method (see MCalibrationChargePix::GetMeanConvFADC2Phe()
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375 | // 12: Error conv. factor from F-Factor Method (see MCalibrationChargePix::GetMeanConvFADC2PheErr()
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376 | // 13: Overall F-Factor from F-Factor Method (see MCalibrationChargePix::GetMeanFFactorFADC2Phot()
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377 | // 14: Error F-Factor from F-Factor Method (see MCalibrationChargePix::GetMeanFFactorFADC2PhotErr()
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378 | // 15: Pixels valid calibration F-Factor-Method (see MCalibrationChargePix::IsFFactorMethodValid())
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379 | //
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380 | // Results of the Low-Gain vs. High-Gain Conversion:
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381 | // =================================================
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382 | //
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383 | // 16: Mean Signal Hi-Gain / Mean Signal Lo-Gain (see MCalibrationPix::GetHiLoMeansDivided())
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384 | // 17: Error Signal High-Gain / Signal Low Gain (see MCalibrationPix::GetHiLoMeansDividedErr())
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385 | // 18: Sigma High-Gain / Sigma Low Gain (see MCalibrationPix::GetHiLoSigmasDivided())
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386 | // 19: Error Sigma High-Gain / Sigma Low Gain (see MCalibrationPix::GetHiLoSigmasDividedErr())
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387 | //
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388 | // Localized defects:
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389 | // ==================
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390 | //
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391 | // 20: Excluded Pixels
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392 | // 21: Number of pickup events in the Hi Gain (see MCalibrationPix::GetHiGainNumPickup())
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393 | // 22: Number of pickup events in the Lo Gain (see MCalibrationPix::GetLoGainNumPickup())
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394 | // 23: Number of blackout events in the Hi Gain (see MCalibrationPix::GetHiGainNumBlackout())
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395 | // 24: Number of blackout events in the Lo Gain (see MCalibrationPix::GetLoGainNumBlackout())
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396 | //
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397 | // Other classifications of pixels:
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398 | // ================================
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399 | //
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400 | // 25: Pixels with saturated High-Gain (see MCalibrationPix::IsHiGainSaturation())
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401 | //
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402 | // Calculated absolute arrival times (very low precision!):
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403 | // ========================================================
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404 | //
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405 | // 26: Absolute Arrival time of the signal (see MCalibrationChargePix::GetAbsTimeMean())
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406 | // 27: RMS Ab. Arrival time of the signal (see MCalibrationChargePix::GetAbsTimeRms())
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407 | //
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408 | // Used Pedestals:
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409 | // ===============
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410 | //
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411 | // 28: Pedestal for entire signal extr. range (see MCalibrationChargePix::Ped())
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412 | // 29: Error Pedestal entire signal extr. range (see MCalibrationChargePix::PedErr())
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413 | // 30: Ped. RMS entire signal extraction range (see MCalibrationChargePix::PedRms())
|
---|
414 | // 31: Error Ped. RMS entire signal extr. range (see MCalibrationChargePix::PedRmsErr())
|
---|
415 | //
|
---|
416 | // Special variables (for data check):
|
---|
417 | // ====================================
|
---|
418 | //
|
---|
419 | // 32: HiGain RMS divided by Mean for every pixel (with inclusion of the excluded pixels)
|
---|
420 | //
|
---|
421 | Bool_t MCalibrationChargeCam::GetPixelContent(Double_t &val, Int_t idx, const MGeomCam &cam, Int_t type) const
|
---|
422 | {
|
---|
423 |
|
---|
424 | if (idx > GetSize())
|
---|
425 | return kFALSE;
|
---|
426 |
|
---|
427 | Float_t area = cam[idx].GetA();
|
---|
428 |
|
---|
429 | if (area == 0)
|
---|
430 | return kFALSE;
|
---|
431 |
|
---|
432 | MCalibrationChargePix &pix = (MCalibrationChargePix&)(*this)[idx];
|
---|
433 |
|
---|
434 | switch (type)
|
---|
435 | {
|
---|
436 | case 0:
|
---|
437 | if (pix.IsExcluded())
|
---|
438 | return kFALSE;
|
---|
439 | val = pix.GetConvertedMean();
|
---|
440 | break;
|
---|
441 | case 1:
|
---|
442 | if (pix.IsExcluded())
|
---|
443 | return kFALSE;
|
---|
444 | val = pix.GetConvertedMeanErr();
|
---|
445 | break;
|
---|
446 | case 2:
|
---|
447 | if (pix.IsExcluded())
|
---|
448 | return kFALSE;
|
---|
449 | val = pix.GetConvertedSigma();
|
---|
450 | break;
|
---|
451 | case 3:
|
---|
452 | if (pix.IsExcluded())
|
---|
453 | return kFALSE;
|
---|
454 | val = pix.GetConvertedSigmaErr();
|
---|
455 | break;
|
---|
456 | case 4:
|
---|
457 | if (pix.IsExcluded())
|
---|
458 | return kFALSE;
|
---|
459 | val = pix.GetProb();
|
---|
460 | break;
|
---|
461 | case 5:
|
---|
462 | if (pix.IsExcluded())
|
---|
463 | return kFALSE;
|
---|
464 | if (pix.GetRSigma() == -1.)
|
---|
465 | return kFALSE;
|
---|
466 | val = pix.GetConvertedRSigma();
|
---|
467 | break;
|
---|
468 | case 6:
|
---|
469 | if (pix.IsExcluded())
|
---|
470 | return kFALSE;
|
---|
471 | if (pix.GetRSigma() == -1.)
|
---|
472 | return kFALSE;
|
---|
473 | val = pix.GetConvertedRSigmaErr();
|
---|
474 | break;
|
---|
475 | case 7:
|
---|
476 | if (pix.IsExcluded())
|
---|
477 | return kFALSE;
|
---|
478 | val = pix.GetRSigmaPerCharge();
|
---|
479 | break;
|
---|
480 | case 8:
|
---|
481 | if (pix.IsExcluded())
|
---|
482 | return kFALSE;
|
---|
483 | val = pix.GetRSigmaPerChargeErr();
|
---|
484 | break;
|
---|
485 | case 9:
|
---|
486 | if (pix.IsExcluded() || !pix.IsFFactorMethodValid())
|
---|
487 | return kFALSE;
|
---|
488 | val = pix.GetPheFFactorMethod();
|
---|
489 | break;
|
---|
490 | case 10:
|
---|
491 | if (pix.IsExcluded() || !pix.IsFFactorMethodValid())
|
---|
492 | return kFALSE;
|
---|
493 | val = pix.GetPheFFactorMethodErr();
|
---|
494 | break;
|
---|
495 | case 11:
|
---|
496 | if (pix.IsExcluded() || !pix.IsFFactorMethodValid())
|
---|
497 | return kFALSE;
|
---|
498 | val = pix.GetMeanConvFADC2Phe();
|
---|
499 | break;
|
---|
500 | case 12:
|
---|
501 | if (pix.IsExcluded() || !pix.IsFFactorMethodValid())
|
---|
502 | return kFALSE;
|
---|
503 | val = pix.GetMeanConvFADC2PheErr();
|
---|
504 | break;
|
---|
505 | case 13:
|
---|
506 | if (pix.IsExcluded() || !pix.IsFFactorMethodValid())
|
---|
507 | return kFALSE;
|
---|
508 | val = pix.GetMeanFFactorFADC2Phot();
|
---|
509 | break;
|
---|
510 | case 14:
|
---|
511 | if (pix.IsExcluded() || !pix.IsFFactorMethodValid())
|
---|
512 | return kFALSE;
|
---|
513 | val = pix.GetMeanFFactorFADC2PhotErr();
|
---|
514 | break;
|
---|
515 | case 15:
|
---|
516 | if (pix.IsExcluded())
|
---|
517 | return kFALSE;
|
---|
518 | if (pix.IsFFactorMethodValid())
|
---|
519 | val = 1;
|
---|
520 | else
|
---|
521 | return kFALSE;
|
---|
522 | break;
|
---|
523 | case 16:
|
---|
524 | if (pix.IsExcluded())
|
---|
525 | return kFALSE;
|
---|
526 | val = pix.GetHiLoMeansDivided();
|
---|
527 | break;
|
---|
528 | case 17:
|
---|
529 | if (pix.IsExcluded())
|
---|
530 | return kFALSE;
|
---|
531 | val = pix.GetHiLoMeansDividedErr();
|
---|
532 | break;
|
---|
533 | case 18:
|
---|
534 | if (pix.IsExcluded())
|
---|
535 | return kFALSE;
|
---|
536 | val = pix.GetHiLoSigmasDivided();
|
---|
537 | break;
|
---|
538 | case 19:
|
---|
539 | if (pix.IsExcluded())
|
---|
540 | return kFALSE;
|
---|
541 | val = pix.GetHiLoSigmasDividedErr();
|
---|
542 | break;
|
---|
543 | case 20:
|
---|
544 | if (pix.IsExcluded())
|
---|
545 | val = 1.;
|
---|
546 | else
|
---|
547 | return kFALSE;
|
---|
548 | break;
|
---|
549 | case 21:
|
---|
550 | if (pix.IsExcluded())
|
---|
551 | return kFALSE;
|
---|
552 | val = pix.GetHiGainNumPickup();
|
---|
553 | break;
|
---|
554 | case 22:
|
---|
555 | if (pix.IsExcluded())
|
---|
556 | return kFALSE;
|
---|
557 | val = pix.GetLoGainNumPickup();
|
---|
558 | break;
|
---|
559 | case 23:
|
---|
560 | if (pix.IsExcluded())
|
---|
561 | return kFALSE;
|
---|
562 | val = pix.GetHiGainNumBlackout();
|
---|
563 | break;
|
---|
564 | case 24:
|
---|
565 | if (pix.IsExcluded())
|
---|
566 | return kFALSE;
|
---|
567 | val = pix.GetLoGainNumBlackout();
|
---|
568 | break;
|
---|
569 | case 25:
|
---|
570 | if (pix.IsExcluded())
|
---|
571 | return kFALSE;
|
---|
572 | val = pix.IsHiGainSaturation();
|
---|
573 | break;
|
---|
574 | case 26:
|
---|
575 | if (pix.IsExcluded())
|
---|
576 | return kFALSE;
|
---|
577 | val = pix.GetAbsTimeMean();
|
---|
578 | break;
|
---|
579 | case 27:
|
---|
580 | if (pix.IsExcluded())
|
---|
581 | return kFALSE;
|
---|
582 | val = pix.GetAbsTimeRms();
|
---|
583 | break;
|
---|
584 | case 28:
|
---|
585 | if (pix.IsExcluded())
|
---|
586 | return kFALSE;
|
---|
587 | val = pix.GetPed();
|
---|
588 | break;
|
---|
589 | case 29:
|
---|
590 | if (pix.IsExcluded())
|
---|
591 | return kFALSE;
|
---|
592 | val = pix.GetPedErr();
|
---|
593 | break;
|
---|
594 | case 30:
|
---|
595 | if (pix.IsExcluded())
|
---|
596 | return kFALSE;
|
---|
597 | val = pix.GetPedRms();
|
---|
598 | break;
|
---|
599 | case 31:
|
---|
600 | if (pix.IsExcluded())
|
---|
601 | return kFALSE;
|
---|
602 | val = pix.GetPedErr()/2.;
|
---|
603 | break;
|
---|
604 | case 32:
|
---|
605 | val = pix.GetMean() == 0. ? 0. : pix.GetRms()/pix.GetMean();
|
---|
606 | break;
|
---|
607 | default:
|
---|
608 | return kFALSE;
|
---|
609 | }
|
---|
610 |
|
---|
611 | return val!=-1.;
|
---|
612 | }
|
---|
613 |
|
---|
614 |
|
---|
615 |
|
---|
616 | Bool_t MCalibrationChargeCam::GetConversionFactorFFactor(Int_t ipx, Float_t &mean, Float_t &err, Float_t &ffactor)
|
---|
617 | {
|
---|
618 |
|
---|
619 | MCalibrationChargePix &pix = (MCalibrationChargePix&)(*this)[ipx];
|
---|
620 |
|
---|
621 | Float_t conv = pix.GetMeanConvFADC2Phe();
|
---|
622 |
|
---|
623 | if (conv < 0.)
|
---|
624 | return kFALSE;
|
---|
625 |
|
---|
626 | mean = conv;
|
---|
627 | err = pix.GetMeanConvFADC2PheErr();
|
---|
628 | ffactor = pix.GetMeanFFactorFADC2Phot();
|
---|
629 |
|
---|
630 | return kTRUE;
|
---|
631 | }
|
---|
632 |
|
---|
633 |
|
---|
634 | // --------------------------------------------------------------------------
|
---|
635 | //
|
---|
636 | // Calculates the average conversion factor FADC counts to photons for pixel sizes.
|
---|
637 | // The geometry container is used to get the necessary
|
---|
638 | // geometry information (area index). The MCalibrationQECam container is necessary for
|
---|
639 | // the quantum efficiency information.
|
---|
640 | // If the bad pixel container is given all pixels which have the flag 'kUnsuitableRun' are ignored
|
---|
641 | // in the calculation of the size average.
|
---|
642 | //
|
---|
643 | // Returns a TArrayF of dimension 2:
|
---|
644 | // arr[0]: averaged conversion factors (default: -1.)
|
---|
645 | // arr[1]: Error (rms) of averaged conversion factors (default: 0.)
|
---|
646 | //
|
---|
647 | TArrayF MCalibrationChargeCam::GetAveragedConvFADC2PhotPerArea ( const MGeomCam &geom, const MCalibrationQECam &qecam,
|
---|
648 | const UInt_t ai, MBadPixelsCam *bad)
|
---|
649 | {
|
---|
650 |
|
---|
651 | const Int_t np = GetSize();
|
---|
652 |
|
---|
653 | Double_t mean = 0.;
|
---|
654 | Double_t mean2 = 0.;
|
---|
655 | Int_t nr = 0;
|
---|
656 |
|
---|
657 | MHCamera convcam(geom,"ConvFactors","Conversion Factors;Conv Factor [phot/FADC cnts];channels");
|
---|
658 |
|
---|
659 | for (int i=0; i<np; i++)
|
---|
660 | {
|
---|
661 | if (bad && (*bad)[i].IsUnsuitable(MBadPixelsPix::kUnsuitableRun))
|
---|
662 | continue;
|
---|
663 |
|
---|
664 | if (bad && (*bad)[i].IsUncalibrated(MBadPixelsPix::kDeviatingNumPhes))
|
---|
665 | continue;
|
---|
666 |
|
---|
667 | const UInt_t aidx = geom[i].GetAidx();
|
---|
668 |
|
---|
669 | if (ai != aidx)
|
---|
670 | continue;
|
---|
671 |
|
---|
672 | const MCalibrationQEPix &qepix = (MCalibrationQEPix&)qecam[i];
|
---|
673 | if (!qepix.IsAverageQEFFactorAvailable())
|
---|
674 | continue;
|
---|
675 |
|
---|
676 | const MCalibrationChargePix &pix = (MCalibrationChargePix&)(*this)[i];
|
---|
677 | const Float_t conv = pix.GetMeanConvFADC2Phe()/qepix.GetQECascadesFFactor();
|
---|
678 |
|
---|
679 | mean += conv;
|
---|
680 | mean2 += conv*conv;
|
---|
681 | nr ++;
|
---|
682 |
|
---|
683 | convcam.Fill(i,conv);
|
---|
684 | convcam.SetUsed(i);
|
---|
685 | }
|
---|
686 |
|
---|
687 | Float_t mn = nr ? mean/nr : -1.;
|
---|
688 | Float_t sg = nr>1 ? TMath::Sqrt((mean2 - mean*mean/nr)/(nr-1)) : 0.;
|
---|
689 |
|
---|
690 | const Int_t aidx = (Int_t)ai;
|
---|
691 |
|
---|
692 | TH1D *h = convcam.ProjectionS(TArrayI(),TArrayI(1,&aidx),"_py",750);
|
---|
693 | h->SetDirectory(NULL);
|
---|
694 |
|
---|
695 | TF1 *fit = NULL;
|
---|
696 |
|
---|
697 | if (geom.InheritsFrom("MGeomCamMagic"))
|
---|
698 | {
|
---|
699 |
|
---|
700 | fit = new TF1("fit","gaus",0.4,5.);
|
---|
701 |
|
---|
702 | // Fix the ranges, as found by Nadia
|
---|
703 | if(aidx == 0)
|
---|
704 | {h->Fit("fit","REQ", "",0.4,1.5);}
|
---|
705 | else
|
---|
706 | {h->Fit("fit","REQ", "",1.,5.);}
|
---|
707 | }
|
---|
708 | else
|
---|
709 | {
|
---|
710 | h->Fit("gaus","Q");
|
---|
711 | fit = h->GetFunction("gaus");
|
---|
712 | }
|
---|
713 |
|
---|
714 | Float_t ci2 = fit->GetChisquare();
|
---|
715 | Float_t sigma = fit->GetParameter(2);
|
---|
716 |
|
---|
717 | if (ci2 > 500. || sigma > sg)
|
---|
718 | {
|
---|
719 | if (geom.InheritsFrom("MGeomCamMagic"))
|
---|
720 | {
|
---|
721 | // Fix the ranges, as found by Nadia
|
---|
722 | if(aidx == 0)
|
---|
723 | {h->Fit("fit","REQ", "",0.4,1.5);}
|
---|
724 | else
|
---|
725 | {h->Fit("fit","REQ", "",1.,5.);}
|
---|
726 | }
|
---|
727 | else
|
---|
728 | {
|
---|
729 | h->Fit("gaus","MREQ");
|
---|
730 | fit = h->GetFunction("gaus");
|
---|
731 | }
|
---|
732 |
|
---|
733 | ci2 = fit->GetChisquare();
|
---|
734 | sigma = fit->GetParameter(2);
|
---|
735 | }
|
---|
736 |
|
---|
737 | const Int_t ndf = fit->GetNDF();
|
---|
738 |
|
---|
739 | if (ci2 < 500. && sigma < sg && ndf > 2)
|
---|
740 | {
|
---|
741 | mn = fit->GetParameter(1);
|
---|
742 | sg = sigma;
|
---|
743 | }
|
---|
744 |
|
---|
745 | *fLog << inf << "Conversion Factors to photons area idx: " << aidx << ":" << endl;
|
---|
746 | *fLog << inf << "Mean: " << Form("%4.3f",mn)
|
---|
747 | << "+-" << Form("%4.3f",fit->GetParError(1))
|
---|
748 | << " Sigma: " << Form("%4.3f",sg) << "+-" << Form("%4.3f",fit->GetParError(2))
|
---|
749 | << " Chisquare: " << Form("%4.3f",fit->GetChisquare()) << " NDF : " << ndf << endl;
|
---|
750 |
|
---|
751 | delete fit;
|
---|
752 | delete h;
|
---|
753 | gROOT->GetListOfFunctions()->Remove(fit);
|
---|
754 |
|
---|
755 | TArrayF arr(2);
|
---|
756 | arr[0] = mn;
|
---|
757 | arr[1] = sg;
|
---|
758 |
|
---|
759 | return arr;
|
---|
760 | }
|
---|
761 |
|
---|
762 | // --------------------------------------------------------------------------
|
---|
763 | //
|
---|
764 | // Calculates the average conversion factor FADC counts to equiv. photo-electrons for pixel sizes.
|
---|
765 | // The geometry container is used to get the necessary
|
---|
766 | // geometry information (area index). The MCalibrationQECam container is necessary for
|
---|
767 | // the quantum efficiency information.
|
---|
768 | // If the bad pixel container is given all pixels which have the flag 'kUnsuitableRun' are ignored
|
---|
769 | // in the calculation of the size average.
|
---|
770 | //
|
---|
771 | // Returns a TArrayF of dimension 2:
|
---|
772 | // arr[0]: averaged conversion factors (default: -1.)
|
---|
773 | // arr[1]: Error (rms) of averaged conversion factors (default: 0.)
|
---|
774 | //
|
---|
775 | TArrayF MCalibrationChargeCam::GetAveragedConvFADC2PhePerArea ( const MGeomCam &geom, const MCalibrationQECam &qecam,
|
---|
776 | const UInt_t ai, MBadPixelsCam *bad)
|
---|
777 | {
|
---|
778 |
|
---|
779 | const Int_t np = GetSize();
|
---|
780 |
|
---|
781 | Double_t mean = 0.;
|
---|
782 | Double_t mean2 = 0.;
|
---|
783 | Int_t nr = 0;
|
---|
784 |
|
---|
785 | MHCamera convcam(geom,"ConvFactors","Conversion Factors;Conv Factor [phe/FADC cnts];channels");
|
---|
786 |
|
---|
787 | for (int i=0; i<np; i++)
|
---|
788 | {
|
---|
789 | if (bad && (*bad)[i].IsUnsuitable(MBadPixelsPix::kUnsuitableRun))
|
---|
790 | continue;
|
---|
791 |
|
---|
792 | if (bad && (*bad)[i].IsUncalibrated(MBadPixelsPix::kDeviatingNumPhes))
|
---|
793 | continue;
|
---|
794 |
|
---|
795 | const UInt_t aidx = geom[i].GetAidx();
|
---|
796 |
|
---|
797 | if (ai != aidx)
|
---|
798 | continue;
|
---|
799 |
|
---|
800 | const MCalibrationQEPix &qepix = (MCalibrationQEPix&)qecam[i];
|
---|
801 | if (!qepix.IsAverageQEFFactorAvailable())
|
---|
802 | continue;
|
---|
803 |
|
---|
804 | const MCalibrationChargePix &pix = (MCalibrationChargePix&)(*this)[i];
|
---|
805 | const Float_t conv = pix.GetMeanConvFADC2Phe()/qepix.GetQECascadesFFactor()*MCalibrationQEPix::gkDefaultAverageQE;
|
---|
806 |
|
---|
807 | mean += conv;
|
---|
808 | mean2 += conv*conv;
|
---|
809 | nr ++;
|
---|
810 |
|
---|
811 | convcam.Fill(i,conv);
|
---|
812 | convcam.SetUsed(i);
|
---|
813 | }
|
---|
814 |
|
---|
815 | Float_t mn = nr ? mean/nr : -1.;
|
---|
816 | Float_t sg = nr>1 ? TMath::Sqrt((mean2 - mean*mean/nr)/(nr-1)) : 0.;
|
---|
817 |
|
---|
818 | const Int_t aidx = (Int_t)ai;
|
---|
819 |
|
---|
820 | TH1D *h = convcam.ProjectionS(TArrayI(),TArrayI(1,&aidx),"_py",750);
|
---|
821 | h->SetDirectory(NULL);
|
---|
822 |
|
---|
823 | TF1 *fit = NULL;
|
---|
824 |
|
---|
825 | if (geom.InheritsFrom("MGeomCamMagic"))
|
---|
826 | {
|
---|
827 |
|
---|
828 | fit = new TF1("fit","gaus",0.01,1.);
|
---|
829 |
|
---|
830 | // Fix the ranges, as found by Nadia
|
---|
831 | if(aidx == 0)
|
---|
832 | {h->Fit("fit","REQ", "",0.07,0.3);}
|
---|
833 | else
|
---|
834 | {h->Fit("fit","REQ", "",0.15,1.0);}
|
---|
835 | }
|
---|
836 | else
|
---|
837 | {
|
---|
838 | h->Fit("gaus","Q");
|
---|
839 | fit = h->GetFunction("gaus");
|
---|
840 | }
|
---|
841 |
|
---|
842 | Float_t ci2 = fit->GetChisquare();
|
---|
843 | Float_t sigma = fit->GetParameter(2);
|
---|
844 |
|
---|
845 | if (ci2 > 500. || sigma > sg)
|
---|
846 | {
|
---|
847 | if (geom.InheritsFrom("MGeomCamMagic"))
|
---|
848 | {
|
---|
849 | // Fix the ranges, as found by Nadia
|
---|
850 | if(aidx == 0)
|
---|
851 | {h->Fit("fit","REQ", "",0.07,0.3);}
|
---|
852 | else
|
---|
853 | {h->Fit("fit","REQ", "",0.15,1.0);}
|
---|
854 | }
|
---|
855 | else
|
---|
856 | {
|
---|
857 | h->Fit("gaus","MREQ");
|
---|
858 | fit = h->GetFunction("gaus");
|
---|
859 | }
|
---|
860 |
|
---|
861 | ci2 = fit->GetChisquare();
|
---|
862 | sigma = fit->GetParameter(2);
|
---|
863 | }
|
---|
864 |
|
---|
865 | const Int_t ndf = fit->GetNDF();
|
---|
866 |
|
---|
867 | if (ci2 < 500. && sigma < sg && ndf > 2)
|
---|
868 | {
|
---|
869 | mn = fit->GetParameter(1);
|
---|
870 | sg = sigma;
|
---|
871 | }
|
---|
872 |
|
---|
873 | *fLog << inf << "Conversion Factors to equiv. photo-electrons area idx: " << aidx << ":" << endl;
|
---|
874 | *fLog << inf << "Mean: " << Form("%4.3f",mn)
|
---|
875 | << "+-" << Form("%4.3f",fit->GetParError(1))
|
---|
876 | << " Sigma: " << Form("%4.3f",sg) << "+-" << Form("%4.3f",fit->GetParError(2))
|
---|
877 | << " Chisquare: " << Form("%4.3f",fit->GetChisquare()) << " NDF : " << ndf << endl;
|
---|
878 |
|
---|
879 | delete fit;
|
---|
880 | delete h;
|
---|
881 | gROOT->GetListOfFunctions()->Remove(fit);
|
---|
882 |
|
---|
883 | TArrayF arr(2);
|
---|
884 | arr[0] = mn;
|
---|
885 | arr[1] = sg;
|
---|
886 |
|
---|
887 | return arr;
|
---|
888 | }
|
---|
889 |
|
---|
890 | // --------------------------------------------------------------------------
|
---|
891 | //
|
---|
892 | // Calculates the average conversion factor FADC counts to photons for camera sectors.
|
---|
893 | // The geometry container is used to get the necessary
|
---|
894 | // geometry information (area index). The MCalibrationQECam container is necessary for
|
---|
895 | // the quantum efficiency information.
|
---|
896 | // If the bad pixel container is given all pixels which have the flag 'kUnsuitableRun' are ignored
|
---|
897 | // in the calculation of the size average.
|
---|
898 | //
|
---|
899 | // Returns a TArrayF of dimension 2:
|
---|
900 | // arr[0]: averaged conversion factors (default: -1.)
|
---|
901 | // arr[1]: Error (rms) of averaged conversion factors (default: 0.)
|
---|
902 | //
|
---|
903 | TArrayF MCalibrationChargeCam::GetAveragedConvFADC2PhotPerSector( const MGeomCam &geom, const MCalibrationQECam &qecam,
|
---|
904 | const UInt_t sec, MBadPixelsCam *bad)
|
---|
905 | {
|
---|
906 | const Int_t np = GetSize();
|
---|
907 |
|
---|
908 | Double_t mean = 0.;
|
---|
909 | Double_t mean2 = 0.;
|
---|
910 | Int_t nr = 0;
|
---|
911 |
|
---|
912 | for (int i=0; i<np; i++)
|
---|
913 | {
|
---|
914 | if (bad && (*bad)[i].IsUnsuitable(MBadPixelsPix::kUnsuitableRun))
|
---|
915 | continue;
|
---|
916 |
|
---|
917 | const UInt_t sector = geom[i].GetSector();
|
---|
918 |
|
---|
919 | if (sector != sec)
|
---|
920 | continue;
|
---|
921 |
|
---|
922 | const MCalibrationQEPix &qepix = (MCalibrationQEPix&)qecam[i];
|
---|
923 | if (!qepix.IsAverageQEFFactorAvailable())
|
---|
924 | continue;
|
---|
925 |
|
---|
926 | const MCalibrationChargePix &pix = (MCalibrationChargePix&)(*this)[i];
|
---|
927 | const Float_t conv = pix.GetMeanConvFADC2Phe();
|
---|
928 | const Float_t qe = qepix.GetQECascadesFFactor();
|
---|
929 |
|
---|
930 | mean += conv/qe;
|
---|
931 | mean2 += conv*conv/qe/qe;
|
---|
932 | nr ++;
|
---|
933 |
|
---|
934 | }
|
---|
935 |
|
---|
936 | TArrayF arr(2);
|
---|
937 | arr[0] = nr ? mean/nr : -1;
|
---|
938 | arr[1] = nr>1 ? TMath::Sqrt((mean2 - mean*mean/nr)/(nr-1)) : 0;
|
---|
939 | return arr;
|
---|
940 | }
|
---|
941 |
|
---|
942 | // --------------------------------------------------------------------------
|
---|
943 | //
|
---|
944 | // Calculates the average mean arrival times for pixel sizes.
|
---|
945 | // The geometry container is used to get the necessary
|
---|
946 | // geometry information (area index).
|
---|
947 | // If the bad pixel container is given all pixels which have the flag 'kUnsuitableRun' are ignored
|
---|
948 | // in the calculation of the size average.
|
---|
949 | //
|
---|
950 | // Returns a TArrayF of dimension 2:
|
---|
951 | // arr[0]: averaged mean arrival times (default: -1.)
|
---|
952 | // arr[1]: Error (rms) of averaged mean arrival times (default: 0.)
|
---|
953 | //
|
---|
954 | TArrayF MCalibrationChargeCam::GetAveragedArrivalTimeMeanPerArea(const MGeomCam &geom,
|
---|
955 | const UInt_t ai, MBadPixelsCam *bad)
|
---|
956 | {
|
---|
957 |
|
---|
958 | const Int_t np = GetSize();
|
---|
959 |
|
---|
960 | Double_t mean = 0.;
|
---|
961 | Double_t mean2 = 0.;
|
---|
962 | Int_t nr = 0;
|
---|
963 |
|
---|
964 | for (int i=0; i<np; i++)
|
---|
965 | {
|
---|
966 | if (bad && (*bad)[i].IsUnsuitable(MBadPixelsPix::kUnsuitableRun))
|
---|
967 | continue;
|
---|
968 |
|
---|
969 | const UInt_t aidx = geom[i].GetAidx();
|
---|
970 |
|
---|
971 | if (ai != aidx)
|
---|
972 | continue;
|
---|
973 |
|
---|
974 | const MCalibrationChargePix &pix = (MCalibrationChargePix&)(*this)[i];
|
---|
975 | const Float_t time = pix.GetAbsTimeMean();
|
---|
976 |
|
---|
977 | mean += time ;
|
---|
978 | mean2 += time*time;
|
---|
979 | nr ++;
|
---|
980 |
|
---|
981 | }
|
---|
982 |
|
---|
983 | TArrayF arr(2);
|
---|
984 | arr[0] = nr ? mean/nr : -1;
|
---|
985 | arr[1] = nr>1 ? TMath::Sqrt((mean2 - mean*mean/nr)/(nr-1)) : 0;
|
---|
986 | return arr;
|
---|
987 | }
|
---|
988 |
|
---|
989 | // --------------------------------------------------------------------------
|
---|
990 | //
|
---|
991 | // Calculates the average mean arrival times for camera sectors.
|
---|
992 | // The geometry container is used to get the necessary
|
---|
993 | // geometry information (area index).
|
---|
994 | // If the bad pixel container is given all pixels which have the flag 'kUnsuitableRun' are ignored
|
---|
995 | // in the calculation of the size average.
|
---|
996 | //
|
---|
997 | // Returns a TArrayF of dimension 2:
|
---|
998 | // arr[0]: averaged mean arrival times (default: -1.)
|
---|
999 | // arr[1]: Error (rms) of averaged mean arrival times (default: 0.)
|
---|
1000 | //
|
---|
1001 | TArrayF MCalibrationChargeCam::GetAveragedArrivalTimeMeanPerSector(const MGeomCam &geom,
|
---|
1002 | const UInt_t sec, MBadPixelsCam *bad)
|
---|
1003 | {
|
---|
1004 | const Int_t np = GetSize();
|
---|
1005 |
|
---|
1006 | Double_t mean = 0.;
|
---|
1007 | Double_t mean2 = 0.;
|
---|
1008 | Int_t nr = 0;
|
---|
1009 |
|
---|
1010 | for (int i=0; i<np; i++)
|
---|
1011 | {
|
---|
1012 | if (bad && (*bad)[i].IsUnsuitable(MBadPixelsPix::kUnsuitableRun))
|
---|
1013 | continue;
|
---|
1014 |
|
---|
1015 | const UInt_t sector = geom[i].GetSector();
|
---|
1016 |
|
---|
1017 | if (sector != sec)
|
---|
1018 | continue;
|
---|
1019 |
|
---|
1020 | const MCalibrationChargePix &pix = (MCalibrationChargePix&)(*this)[i];
|
---|
1021 | const Float_t time = pix.GetAbsTimeMean();
|
---|
1022 |
|
---|
1023 | mean += time;
|
---|
1024 | mean2 += time*time;
|
---|
1025 | nr ++;
|
---|
1026 |
|
---|
1027 | }
|
---|
1028 |
|
---|
1029 | TArrayF arr(2);
|
---|
1030 | arr[0] = nr ? mean/nr : -1;
|
---|
1031 | arr[1] = nr>1 ? TMath::Sqrt((mean2 - mean*mean/nr)/(nr-1)) : 0;
|
---|
1032 | return arr;
|
---|
1033 | }
|
---|
1034 |
|
---|
1035 | // --------------------------------------------------------------------------
|
---|
1036 | //
|
---|
1037 | // Calculates the average arrival time RMSs for pixel sizes.
|
---|
1038 | // The geometry container is used to get the necessary
|
---|
1039 | // geometry information (area index).
|
---|
1040 | // If the bad pixel container is given all pixels which have the flag 'kUnsuitableRun' are ignored
|
---|
1041 | // in the calculation of the size average.
|
---|
1042 | //
|
---|
1043 | // Returns a TArrayF of dimension 2:
|
---|
1044 | // arr[0]: averaged arrival time RMSs (default: -1.)
|
---|
1045 | // arr[1]: Error (rms) of averaged arrival time RMSs (default: 0.)
|
---|
1046 | //
|
---|
1047 | TArrayF MCalibrationChargeCam::GetAveragedArrivalTimeRmsPerArea ( const MGeomCam &geom,
|
---|
1048 | const UInt_t ai, MBadPixelsCam *bad)
|
---|
1049 | {
|
---|
1050 |
|
---|
1051 | const Int_t np = GetSize();
|
---|
1052 |
|
---|
1053 | Double_t mean = 0.;
|
---|
1054 | Double_t mean2 = 0.;
|
---|
1055 | Int_t nr = 0;
|
---|
1056 |
|
---|
1057 | for (int i=0; i<np; i++)
|
---|
1058 | {
|
---|
1059 | if (bad && (*bad)[i].IsUnsuitable(MBadPixelsPix::kUnsuitableRun))
|
---|
1060 | continue;
|
---|
1061 |
|
---|
1062 | const UInt_t aidx = geom[i].GetAidx();
|
---|
1063 |
|
---|
1064 | if (ai != aidx)
|
---|
1065 | continue;
|
---|
1066 |
|
---|
1067 | const MCalibrationChargePix &pix = (MCalibrationChargePix&)(*this)[i];
|
---|
1068 | const Float_t rms = pix.GetAbsTimeRms();
|
---|
1069 |
|
---|
1070 | mean += rms;
|
---|
1071 | mean2 += rms*rms;
|
---|
1072 | nr ++;
|
---|
1073 |
|
---|
1074 | }
|
---|
1075 |
|
---|
1076 | TArrayF arr(2);
|
---|
1077 | arr[0] = nr ? mean/nr : -1;
|
---|
1078 | arr[1] = nr>1 ? TMath::Sqrt((mean2 - mean*mean/nr)/(nr-1)) : 0;
|
---|
1079 | return arr;
|
---|
1080 | }
|
---|
1081 |
|
---|
1082 | // --------------------------------------------------------------------------
|
---|
1083 | //
|
---|
1084 | // Calculates the average arrival time RMSs for camera sectors.
|
---|
1085 | // The geometry container is used to get the necessary
|
---|
1086 | // geometry information (area index).
|
---|
1087 | // If the bad pixel container is given all pixels which have the flag 'kUnsuitableRun' are ignored
|
---|
1088 | // in the calculation of the size average.
|
---|
1089 | //
|
---|
1090 | // Returns a TArrayF of dimension 2:
|
---|
1091 | // arr[0]: averaged arrival time RMSs (default: -1.)
|
---|
1092 | // arr[1]: Error (rms) of averaged arrival time RMSs (default: 0.)
|
---|
1093 | //
|
---|
1094 | TArrayF MCalibrationChargeCam::GetAveragedArrivalTimeRmsPerSector( const MGeomCam &geom, const UInt_t sec, MBadPixelsCam *bad)
|
---|
1095 | {
|
---|
1096 | const Int_t np = GetSize();
|
---|
1097 |
|
---|
1098 | Double_t mean = 0.;
|
---|
1099 | Double_t mean2 = 0.;
|
---|
1100 | Int_t nr = 0;
|
---|
1101 |
|
---|
1102 | for (int i=0; i<np; i++)
|
---|
1103 | {
|
---|
1104 | if (bad && (*bad)[i].IsUnsuitable(MBadPixelsPix::kUnsuitableRun))
|
---|
1105 | continue;
|
---|
1106 |
|
---|
1107 | const UInt_t sector = geom[i].GetSector();
|
---|
1108 |
|
---|
1109 | if (sector != sec)
|
---|
1110 | continue;
|
---|
1111 |
|
---|
1112 | const MCalibrationChargePix &pix = (MCalibrationChargePix&)(*this)[i];
|
---|
1113 | const Float_t rms = pix.GetAbsTimeRms();
|
---|
1114 |
|
---|
1115 | mean += rms;
|
---|
1116 | mean2 += rms*rms;
|
---|
1117 | nr ++;
|
---|
1118 | }
|
---|
1119 |
|
---|
1120 | TArrayF arr(2);
|
---|
1121 | arr[0] = nr ? mean/nr : -1;
|
---|
1122 | arr[1] = nr>1 ? TMath::Sqrt((mean2 - mean*mean/nr)/(nr-1)) : 0;
|
---|
1123 |
|
---|
1124 | return arr;
|
---|
1125 | }
|
---|