1 | //!/////////////////////////////////////////////////////////////////////
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2 | //
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3 | // camera
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4 | //
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5 | // @file camera.cxx
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6 | // @title Camera simulation
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7 | // @subtitle Code for the simulation of the camera phase
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8 | // @desc Code for the simulation of the camera of CT1 and MAGIC
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9 | // @author J C Gonzalez
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10 | // @email gonzalez@mppmu.mpg.de
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11 | // @date Thu May 7 16:24:22 1998
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12 | //
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13 | //----------------------------------------------------------------------
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14 | //
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15 | // Created: Thu May 7 16:24:22 1998
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16 | // Author: Jose Carlos Gonzalez
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17 | // Purpose: Program for reflector simulation
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18 | // Notes: See files README for details
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19 | //
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20 | //----------------------------------------------------------------------
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21 | //
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22 | // $RCSfile: camera.cxx,v $
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23 | // $Revision: 1.17 $
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24 | // $Author: magicsol $
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25 | // $Date: 2001-02-23 11:05:57 $
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26 | //
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27 | ////////////////////////////////////////////////////////////////////////
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28 | // @tableofcontents @coverpage
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29 |
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30 | //=-----------------------------------------------------------
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31 | //!@section Source code of |camera.cxx|.
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32 |
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33 | /*!@"
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34 |
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35 | In this section we show the (commented) code of the program for the
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36 | read-out of the output files generated by the simulator of the
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37 | reflector, |reflector 0.3|.
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38 |
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39 | @"*/
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40 |
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41 | //=-----------------------------------------------------------
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42 | //!@subsection Includes and Global variables definition.
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43 |
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44 | //!@{
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45 |
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46 | // includes for ROOT
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47 | // BEWARE: the order matters!
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48 |
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49 | #include "TROOT.h"
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50 |
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51 | #include "TRandom.h"
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52 | #include "TApplication.h"
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53 |
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54 | #include "TFile.h"
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55 | #include "TTree.h"
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56 | #include "TBranch.h"
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57 | #include "TCanvas.h"
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58 |
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59 | #include "TArrayC.h"
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60 |
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61 | #include "MTrigger.hxx"
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62 | #include "MFadc.hxx"
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63 | #include "MLons.hxx"
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64 |
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65 | #include "MRawEvtData.h"
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66 | #include "MRawEvtHeader.h"
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67 | #include "MRawCrateData.h"
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68 | #include "MMcEvt.hxx"
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69 | #include "MMcTrig.hxx"
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70 | #include "MMcTrigHeader.hxx"
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71 | #include "MMcFadcHeader.hxx"
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72 |
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73 | /*!@"
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74 |
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75 | All the defines are located in the file |camera.h|.
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76 |
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77 | @"*/
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78 |
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79 | #include "camera.h"
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80 |
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81 | //!@}
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82 |
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83 | /*!@"
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84 |
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85 | The following set of flags are used in time of compilation. They do
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86 | not affect directly the behaviour of the program at run-time
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87 | (though, of course, if you disconnected the option for
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88 | implementation of the Trigger logic, you will not be able to use any
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89 | trigger at all. The 'default' values mean default in the sense of
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90 | what you got from the server when you obtained this program.
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91 |
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92 | @"*/
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93 |
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94 | //!@{
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95 |
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96 | // flag for debugging (default: OFF )
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97 | #define __DEBUG__
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98 | #undef __DEBUG__
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99 |
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100 |
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101 | //!@}
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102 |
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103 | //=-----------------------------------------------------------
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104 | //!@subsection Definition of global variables.
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105 |
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106 | /*!@"
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107 |
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108 | Now we define some global variables with data about the telescope,
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109 | such as "focal distance", number of pixels/mirrors,
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110 | "size of the camera", and so on.
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111 |
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112 | @"*/
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113 |
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114 | /*!@"
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115 |
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116 | Depending on the telescope we are using (CT1 or MAGIC), the
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117 | information stored in the definition file is different.
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118 | The variable |ct_Type| has the value 0 when we use
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119 | CT1, and 1 when we use MAGIC.
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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 | static int ct_Type; //@< Type of telescope: 0:CT1, 1:MAGIC
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125 | //!@}
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126 |
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127 | /*!@"
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128 |
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129 | And this is the information about the whole telescope.
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130 |
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131 | @"*/
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132 |
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133 | //!@{
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134 |
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135 | // parameters of the CT (from the CT definition file)
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136 |
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137 | ////@: Focal distances [cm]
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138 | //static float *ct_Focal;
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139 |
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140 | //@: Mean Focal distances [cm]
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141 | static float ct_Focal_mean;
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142 |
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143 | //@: STDev. Focal distances [cm]
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144 | static float ct_Focal_std;
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145 |
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146 | //@: Mean Point Spread function [cm]
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147 | static float ct_PSpread_mean;
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148 |
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149 | //@: STDev. Point Spread function [cm]
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150 | static float ct_PSpread_std;
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151 |
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152 | //@: STDev. Adjustmente deviation [cm]
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153 | static float ct_Adjustment_std;
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154 |
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155 | //@: Radius of the Black Spot in mirror [cm]
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156 | static float ct_BlackSpot_rad;
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157 |
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158 | //@: Radius of one mirror [cm]
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159 | static float ct_RMirror;
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160 |
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161 | //@: Camera width [cm]
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162 | static float ct_CameraWidth;
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163 |
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164 | //@: Pixel width [cm]
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165 | static float ct_PixelWidth;
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166 |
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167 | //@: ct_PixelWidth_corner_2_corner = ct_PixelWidth / cos(60)
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168 | static float ct_PixelWidth_corner_2_corner;
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169 |
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170 | //@: ct_PixelWidth_corner_2_corner / 2
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171 | static float ct_PixelWidth_corner_2_corner_half;
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172 |
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173 | //@: Number of mirrors
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174 | static int ct_NMirrors = 0;
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175 |
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176 | //@: Number of pixels
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177 | static int ct_NPixels;
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178 |
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179 | //@: Number of pixels
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180 | static int ct_NCentralPixels;
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181 |
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182 | //@: Number of pixels
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183 | static int ct_NGapPixels;
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184 |
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185 | //@: ct_Apot = ct_PixelWidth / 2
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186 | static float ct_Apot;
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187 |
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188 | //@: ct_2Apot = 2 * ct_Apot = ct_PixelWidth
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189 | static float ct_2Apot;
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190 |
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191 | //@: name of the CT definition file to use
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192 | static char ct_filename[256];
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193 |
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194 | //@: list of showers to be skipped
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195 | static int *Skip;
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196 |
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197 | //@: number of showers to be skipped
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198 | static int nSkip=0;
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199 |
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200 | //@: flag: TRUE: data come from STDIN; FALSE: from file
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201 | static int Data_From_STDIN = FALSE;
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202 |
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203 | //@: flag: TRUE: write all images to output; FALSE: only triggered showers
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204 | static int Write_All_Images = FALSE;
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205 |
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206 | //@: flag: TRUE: write all data to output; FALSE: only triggered showers
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207 | static int Write_All_Data = FALSE;
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208 |
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209 | static int Write_McEvt = TRUE;
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210 | static int Write_McTrig = TRUE;
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211 | static int Write_RawEvt = FALSE;
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212 |
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213 | //@: flag: TRUE: selection on the energy
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214 | static int Select_Energy = TRUE;
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215 |
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216 | //@: Lower edge of the selected energy range (in GeV)
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217 | static float Select_Energy_le = 0.0;
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218 |
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219 | //@: Upper edge of the selected energy range (in GeV)
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220 | static float Select_Energy_ue = 100000.0;
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221 |
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222 | //@: flag: TRUE: show all fadc singnal in the screen; FALSE: don't
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223 | static int FADC_Scan = FALSE;
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224 |
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225 | //@: flag: TRUE: show all trigger singnal in the screen; FALSE: don't
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226 | static int Trigger_Scan = FALSE;
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227 |
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228 | //@: flag: TRUE: loop trigger analysis over several thresholds, multiplicities and topologies; FALSE: a single trigger configuration
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229 | static int Trigger_Loop = FALSE;
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230 |
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231 | //@: Properties of the trigger
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232 | static float Trigger_gate_length = 6.0;
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233 | static float Trigger_response_ampl = 1.0;
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234 | static float Trigger_response_fwhm = 2.0;
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235 | static float Trigger_overlaping_time= 0.25;
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236 |
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237 | //@: Trigger conditions for a single trigger mode
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238 | static float Trigger_threshold = 7.0;
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239 | static int Trigger_multiplicity = 4;
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240 | static int Trigger_topology = 2;
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241 |
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242 | //@: Upper and lower edges of the trigger loop
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243 | static int Trigger_loop_lthres = 0;
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244 | static int Trigger_loop_uthres = 10;
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245 | static int Trigger_loop_lmult = 2;
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246 | static int Trigger_loop_umult = 10;
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247 | static int Trigger_loop_ltop = 0;
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248 | static int Trigger_loop_utop = 2;
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249 |
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250 | //!@}
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251 |
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252 | /*!@"
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253 |
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254 | The following double-pointer is a 2-dimensional table with information
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255 | about each pixel. The routine read_pixels will generate
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256 | the information for filling it using igen_pixel_coordinates().
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257 |
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258 | @"*/
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259 |
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260 | //!@{
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261 | // Pointer to a tables/Arrays with information about the pixels
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262 | // and data stored on them with information about the pixels
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263 |
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264 |
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265 | //@: coordinates x,y for each pixel
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266 | static float **pixary;
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267 |
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268 | //@: indexes of pixels neighbours of a given one
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269 | static int **pixneig;
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270 |
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271 | //@: number of neighbours a pixel have
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272 | static int *npixneig;
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273 |
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274 | //@: contents of the pixels (ph.e.)
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275 | static float *fnpix;
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276 |
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277 |
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278 | //!@}
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279 |
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280 | /*!@"
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281 |
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282 | The following double-pointer is a 2-dimensional table with the
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283 | Quantum Efficiency @$QE@$ of each pixel in the camera, as a function
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284 | of the wavelength @$\lambda@$. The routine |read_pixels()| will read
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285 | also this information from the file |qe.dat|.
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286 |
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287 | @"*/
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288 |
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289 | //!@{
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290 | // Pointer to a table with QE, number of datapoints, and wavelengths
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291 |
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292 | //@: table of QE
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293 | static float ***QE;
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294 |
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295 | //@: number of datapoints for the QE curve
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296 | static int pointsQE;
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297 |
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298 | //@: table of QE
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299 | static float *QElambda;
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300 | //!@}
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301 |
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302 | /*!@"
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303 |
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304 | The following double-pointer is a 2-dimensional table with information
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305 | about each mirror in the dish. The routine |read_ct_file()| will read
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306 | this information from the CT definition file.
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307 |
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308 | @"*/
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309 |
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310 | //!@{
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311 | // Pointer to a table with the following info.:
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312 |
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313 | static float **ct_data;
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314 |
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315 | /*
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316 | * TYPE=0 (CT1)
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317 | * i s rho theta x y z thetan phin xn yn zn
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318 | *
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319 | * i : number of the mirror
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320 | * s : arc length [cm]
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321 | * rho : polar rho of the position of the center of the mirror [cm]
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322 | * theta : polar angle of the position of the center of the mirror [cm]
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323 | * x : x coordinate of the center of the mirror [cm]
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324 | * y : y coordinate of the center of the mirror [cm]
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325 | * z : z coordinate of the center of the mirror [cm]
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326 | * thetan : polar theta angle of the direction where the mirror points to
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327 | * phin : polar phi angle of the direction where the mirror points to
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328 | * xn : xn coordinate of the normal vector in the center (normalized)
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329 | * yn : yn coordinate of the normal vector in the center (normalized)
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330 | * zn : zn coordinate of the normal vector in the center (normalized)
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331 | *
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332 | * TYPE=1 (MAGIC)
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333 | * i f sx sy x y z thetan phin
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334 | *
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335 | * i : number of the mirror
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336 | * f : focal distance of that mirror
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337 | * sx : curvilinear coordinate of mirror's center in X[cm]
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338 | * sy : curvilinear coordinate of mirror's center in X[cm]
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339 | * x : x coordinate of the center of the mirror [cm]
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340 | * y : y coordinate of the center of the mirror [cm]
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341 | * z : z coordinate of the center of the mirror [cm]
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342 | * thetan : polar theta angle of the direction where the mirror points to
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343 | * phin : polar phi angle of the direction where the mirror points to
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344 | * xn : xn coordinate of the normal vector in the center (normalized)
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345 | * yn : yn coordinate of the normal vector in the center (normalized)
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346 | * zn : zn coordinate of the normal vector in the center (normalized)
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347 | */
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348 | //!@}
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349 |
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350 | /*!@"
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351 |
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352 | We define a table into where random numbers will be stored.
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353 | The routines used for random number generation are provided by
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354 | |RANLIB| (taken from NETLIB, |www.netlib.org|), and by
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355 | the routine |double drand48(void)| (prototype defined in
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356 | |stdlib.h|) through the macro |RandomNumber| defined in
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357 | |camera.h|.
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358 |
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359 | @"*/
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360 |
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361 |
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362 | //!@}
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363 |
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364 | extern char FileName[];
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365 |
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366 |
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367 | //=-----------------------------------------------------------
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368 | // @subsection Main program.
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369 |
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370 | //!@{
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371 |
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372 | //++++++++++++++++++++++++++++++++++++++++
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373 | // MAIN PROGRAM
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374 | //----------------------------------------
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375 |
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376 | int main(int argc, char **argv)
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377 | {
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378 |
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379 | //!@' @#### Definition of variables.
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380 | //@'
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381 |
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382 | char inname[256]; //@< input file name
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383 | char starfieldname[256]; //@< starfield input file name
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384 |
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385 | char datname[256]; //@< data (ASCII) output file name
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386 |
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387 | char rootname[256] ; //@< ROOT file name
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388 | char rootname_loop[256] ; //@< ROOT file name
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389 |
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390 | char parname[256]; //@< parameters file name
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391 |
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392 | char nsbpathname[256]; //@< directory with the dataabse for th NSB
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393 |
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394 | char flag[SIZE_OF_FLAGS + 1]; //@< flags in the .rfl file
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395 |
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396 | FILE *inputfile; //@< stream for the input file
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397 | ofstream datafile; //@< stream for the data file
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398 |
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399 | MCEventHeader mcevth; //@< Event Header class (MC)
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400 | MCCphoton cphoton; //@< Cherenkov Photon class (MC)
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401 |
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402 | int inumphe; //@< number of photoelectrons in an event from showers
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403 | float inumphensb; //@< number of photoelectrons in an event from nsb
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404 |
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405 | float arrtmin_ns; //@ arrival time of the first photoelectron
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406 | float arrtmax_ns; //@ arrival time of the last photoelectron
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407 |
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408 | float thetaCT, phiCT; //@< parameters of a given shower
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409 | float thetashw, phishw; //@< parameters of a given shower
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410 | float coreD, coreX, coreY; //@< core position
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411 | float impactD; //@< impact parameter
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412 | float l1, m1, n1; //@< auxiliary variables
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413 | float l2, m2, n2; //@< auxiliary variables
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414 | float num, den; //@< auxiliary variables
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415 |
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416 | int nshow=0; //@< partial number of shower in a given run
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417 | int ntshow=0; //@< total number of showers
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418 | int ncph=0; //@< partial number of photons in a given run
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419 | int ntcph=0; //@< total number of photons
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420 |
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421 | int i, j, k; //@< simple counters
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422 |
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423 | int simulateNSB; //@< Will we simulate NSB?
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424 | float meanNSB; //@< diffuse NSB mean value (phe per ns per central pixel)
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425 | float diffnsb_phepns[iMAXNUMPIX]; //@< diffuse NSB values for each pixel derived
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426 | //@< from meanNSB
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427 | float nsbrate_phepns[iMAXNUMPIX][iNUMWAVEBANDS]; //@< non-diffuse nsb
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428 | //@< photoelectron rates
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429 | float nsb_phepns[iMAXNUMPIX]; //@< NSB values for each pixel
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430 |
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431 | Float_t nsb_trigresp[TRIGGER_TIME_SLICES]; //@< array to write the trigger
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432 | //@< response from the database
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433 | Float_t nsb_fadcresp[(Int_t) SLICES_MFADC]; //@< array to write the fadc
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434 | //@< response from the database
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435 | Byte_t trigger_map[((Int_t)(TRIGGER_PIXELS/8))+1];//@< Pixels on when the
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436 | //@< camera triggers
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437 |
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438 | float ext[iNUMWAVEBANDS] = { //@< average atmospheric extinction in each waveband
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439 | EXTWAVEBAND1,
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440 | EXTWAVEBAND2,
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441 | EXTWAVEBAND3,
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442 | EXTWAVEBAND4,
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443 | EXTWAVEBAND5
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444 | };
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445 |
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446 | float qThreshold; //@< Threshold value
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447 | float qTailCut; //@< Tail Cut value
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448 | int nIslandsCut; //@< Islands Cut value
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449 | int countIslands; //@< Will we count the islands?
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450 | int anaPixels;
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451 |
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452 | float fCorrection; //@< Factor to apply to pixel values (def. 1.)
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453 |
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454 | int ntrigger = 0; //@< number of triggers in the whole file
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455 | int btrigger = 0; //@< trigger flag
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456 | int ithrescount; //@< counter for loop over threshold trigger
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457 | int imulticount; //@< counter for loop over multiplicity trigger
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458 | int itopocount; //@< counter for loop over topology trigger
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459 | int icontrigger; //@< number of trigger conditions to be analised
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460 | UShort_t numPix; //@< number of sets of fadc written counts
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461 |
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462 | float fpixelthres[TRIGGER_PIXELS];
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463 |
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464 | TArrayC *fadcValues; //@< the analog Fadc siganl for pixels
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465 |
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466 | float plateScale_cm2deg; //@< plate scale (deg/cm)
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467 | float degTriggerZone; //@< trigger area in the camera (radius, in deg.)
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468 |
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469 | int still_in_loop = FALSE;
|
---|
470 |
|
---|
471 | struct camera cam; // structure holding the camera definition
|
---|
472 |
|
---|
473 |
|
---|
474 | //!@' @#### Definition of variables for |getopt()|.
|
---|
475 | //@'
|
---|
476 |
|
---|
477 | int ch, errflg = 0; //@< used by getopt
|
---|
478 |
|
---|
479 | //!@' @#### Initialisation of some variables
|
---|
480 | //@'
|
---|
481 |
|
---|
482 | for(i=0;i<iMAXNUMPIX;i++)
|
---|
483 | for(j=0;j<iNUMWAVEBANDS;j++)
|
---|
484 | nsbrate_phepns[i][j]=0.0; //@< Starlight rates initialised at 0.0
|
---|
485 |
|
---|
486 | /*!@'
|
---|
487 |
|
---|
488 | @#### Beginning of the program.
|
---|
489 |
|
---|
490 | We start with the main program. First we (could) make some
|
---|
491 | presentation, and follows the reading of the parameters file (now
|
---|
492 | from the |stdin|), the reading of the CT parameters file, and the
|
---|
493 | creation of the output file, where the processed data will be
|
---|
494 | stored.
|
---|
495 |
|
---|
496 | */
|
---|
497 |
|
---|
498 | //++
|
---|
499 | // START
|
---|
500 | //--
|
---|
501 |
|
---|
502 | // make unbuffered output
|
---|
503 |
|
---|
504 | cout.setf ( ios::stdio );
|
---|
505 |
|
---|
506 | // parse command line options (see reflector.h)
|
---|
507 |
|
---|
508 | parname[0] = '\0';
|
---|
509 |
|
---|
510 | optarg = NULL;
|
---|
511 | while ( !errflg && ((ch = getopt(argc, argv, COMMAND_LINE_OPTIONS)) != -1) )
|
---|
512 | switch (ch) {
|
---|
513 | case 'f':
|
---|
514 | strcpy(parname, optarg);
|
---|
515 | break;
|
---|
516 | case 'h':
|
---|
517 | usage();
|
---|
518 | break;
|
---|
519 | default :
|
---|
520 | errflg++;
|
---|
521 | }
|
---|
522 |
|
---|
523 | // show help if error
|
---|
524 |
|
---|
525 | if ( errflg>0 )
|
---|
526 | usage();
|
---|
527 |
|
---|
528 | // make some sort of presentation
|
---|
529 |
|
---|
530 | present();
|
---|
531 |
|
---|
532 | // read parameters file
|
---|
533 |
|
---|
534 | if ( strlen(parname) < 1 )
|
---|
535 | readparam(NULL);
|
---|
536 | else
|
---|
537 | readparam(parname);
|
---|
538 |
|
---|
539 | // read data from file or from STDIN?
|
---|
540 |
|
---|
541 | Data_From_STDIN = get_data_from_stdin();
|
---|
542 |
|
---|
543 | // write all images, even those without trigger?
|
---|
544 |
|
---|
545 | Write_All_Images = get_write_all_images();
|
---|
546 |
|
---|
547 | // write all data (i.e., ph.e.s in pixels)
|
---|
548 |
|
---|
549 | Write_All_Data = get_write_all_data();
|
---|
550 |
|
---|
551 | Write_McEvt = get_write_McEvt() ;
|
---|
552 | Write_McTrig = get_write_McTrig() ;
|
---|
553 | Write_RawEvt = get_write_RawEvt() ;
|
---|
554 |
|
---|
555 | FADC_Scan = get_FADC_Scan();
|
---|
556 | Trigger_Scan = get_Trigger_Scan();
|
---|
557 |
|
---|
558 | get_Trigger_properties( &Trigger_gate_length, &Trigger_overlaping_time, &Trigger_response_ampl, &Trigger_response_fwhm);
|
---|
559 |
|
---|
560 | Trigger_Loop = get_Trigger_Loop(&Trigger_loop_lthres, &Trigger_loop_uthres, &Trigger_loop_lmult, &Trigger_loop_umult, &Trigger_loop_ltop, &Trigger_loop_utop);
|
---|
561 |
|
---|
562 | icontrigger =(Trigger_loop_uthres-Trigger_loop_lthres+1)*
|
---|
563 | (Trigger_loop_umult-Trigger_loop_lmult+1)*
|
---|
564 | (Trigger_loop_utop-Trigger_loop_ltop+1);
|
---|
565 |
|
---|
566 | if (!Trigger_Loop){
|
---|
567 | get_Trigger_Single (&Trigger_threshold, &Trigger_multiplicity, &Trigger_topology);
|
---|
568 | icontrigger=1;
|
---|
569 | }
|
---|
570 |
|
---|
571 | // get filenames
|
---|
572 |
|
---|
573 | strcpy( inname, get_input_filename() );
|
---|
574 | strcpy( starfieldname, get_starfield_filename() );
|
---|
575 | strcpy( datname, get_data_filename() );
|
---|
576 | strcpy( rootname, get_root_filename() );
|
---|
577 | strcpy( rootname_loop, get_loop_filename() );
|
---|
578 | strcpy( ct_filename, get_ct_filename() );
|
---|
579 | strcpy( nsbpathname, get_nsb_directory() );
|
---|
580 |
|
---|
581 | // get different parameters of the simulation
|
---|
582 |
|
---|
583 | qThreshold = get_threshold();
|
---|
584 | qTailCut = get_tail_cut();
|
---|
585 | simulateNSB = get_nsb( &meanNSB );
|
---|
586 | countIslands = get_islands_cut( &nIslandsCut );
|
---|
587 |
|
---|
588 | // get selections on the parameters
|
---|
589 |
|
---|
590 | Select_Energy = get_select_energy( &Select_Energy_le, &Select_Energy_ue);
|
---|
591 |
|
---|
592 | // log filenames information
|
---|
593 |
|
---|
594 | log(SIGNATURE,
|
---|
595 | "%s:\n\t%20s:\t%s\n\t%20s:\t%s\n\t%20s:\t%s\n\t%20s:\t%s\n\t%20s:\t%s\n\t%20s:\t%s\n",
|
---|
596 | "Filenames",
|
---|
597 | "In", inname,
|
---|
598 | "Stars", starfieldname,
|
---|
599 | "NSB database", nsbpathname,
|
---|
600 | "CT", ct_filename,
|
---|
601 | "Data", datname,
|
---|
602 | "ROOT", rootname
|
---|
603 | );
|
---|
604 |
|
---|
605 | // log Trigger information
|
---|
606 |
|
---|
607 | if (Trigger_Loop) {
|
---|
608 | log(SIGNATURE,
|
---|
609 | "%s:\n\t%20s: %i - %i\n\t%20s: %i - %i\n\t%20s: %i - %i\n\t%20s\n",
|
---|
610 | "Trigger Loop mode",
|
---|
611 | "Threshold",Trigger_loop_lthres,Trigger_loop_uthres,
|
---|
612 | "Multiplicity",Trigger_loop_lmult,Trigger_loop_umult,
|
---|
613 | "Topology",Trigger_loop_ltop,Trigger_loop_utop,
|
---|
614 | rootname_loop);
|
---|
615 | }
|
---|
616 | else{
|
---|
617 | log(SIGNATURE,
|
---|
618 | "%s:\n\t%20s: %f\n\t%20s: %i\n\t%20s: %i\n",
|
---|
619 | "Single Trigger mode",
|
---|
620 | "Threshold",Trigger_threshold,
|
---|
621 | "Multiplicity",Trigger_multiplicity,
|
---|
622 | "Topology",Trigger_topology);
|
---|
623 | }
|
---|
624 |
|
---|
625 | // log flags information
|
---|
626 |
|
---|
627 | log(SIGNATURE,
|
---|
628 | "%s:\n\t%20s: %s\n\t%20s: %s\n\t%20s: %s\n",
|
---|
629 | "Flags",
|
---|
630 | "Data_From_STDIN", ONoff(Data_From_STDIN),
|
---|
631 | "Write_All_Images", ONoff(Write_All_Images),
|
---|
632 | "Write_All_Data", ONoff(Write_All_Data));
|
---|
633 |
|
---|
634 | // log flags information
|
---|
635 |
|
---|
636 | log(SIGNATURE,
|
---|
637 | "%s:\n\t%20s: %s\n\t%20s: %s\n\t%20s: %s\n",
|
---|
638 | "Root output",
|
---|
639 | "Write_McEvt", ONoff(Write_McEvt),
|
---|
640 | "Write_McTrig", ONoff(Write_McTrig),
|
---|
641 | "Write_RawEvt", ONoff(Write_RawEvt));
|
---|
642 |
|
---|
643 | // log parameters information
|
---|
644 |
|
---|
645 | log(SIGNATURE,
|
---|
646 | "%s:\n\t%20s: %f\n\t%20s: %f\n\t%20s: %f %s\n\t%20s: %f %s\n",
|
---|
647 | "Parameters",
|
---|
648 | "q0 (Threshold)", qThreshold,
|
---|
649 | "t0 (Tail-cut)", qTailCut,
|
---|
650 | "NSB (phes/pixel)", meanNSB, ONoff(simulateNSB),
|
---|
651 | "i0 (Islands-cut)", nIslandsCut, ONoff(countIslands));
|
---|
652 |
|
---|
653 | // log selections
|
---|
654 |
|
---|
655 | log(SIGNATURE,
|
---|
656 | "%s:\n\t%20s: %s (%f:%f)\n",
|
---|
657 | "Selections:",
|
---|
658 | "Energy", ONoff(Select_Energy), Select_Energy_le, Select_Energy_ue);
|
---|
659 |
|
---|
660 | // Definition and initialization of array to save trigger statistics
|
---|
661 |
|
---|
662 | int ***ntriggerloop;
|
---|
663 |
|
---|
664 | ntriggerloop= new int ** [(int) (Trigger_loop_uthres+1-Trigger_loop_lthres)];
|
---|
665 | for (ithrescount=0;ithrescount<=Trigger_loop_uthres-Trigger_loop_lthres;ithrescount++){
|
---|
666 | ntriggerloop[ithrescount]= new int * [Trigger_loop_umult-Trigger_loop_lmult+1];
|
---|
667 | for (imulticount=0;imulticount<=Trigger_loop_umult-Trigger_loop_lmult;imulticount++){
|
---|
668 | ntriggerloop[ithrescount][imulticount]= new int [Trigger_loop_utop-Trigger_loop_ltop+1];
|
---|
669 | for(itopocount=0;itopocount<=Trigger_loop_utop-Trigger_loop_ltop;itopocount++){
|
---|
670 | ntriggerloop[ithrescount][imulticount][itopocount]=0;
|
---|
671 | }
|
---|
672 | }
|
---|
673 | }
|
---|
674 |
|
---|
675 | // set all random numbers seeds
|
---|
676 |
|
---|
677 | setall( get_seeds(0), get_seeds(1) );
|
---|
678 |
|
---|
679 | // get list of showers to evt. skip
|
---|
680 |
|
---|
681 | nSkip = get_nskip_showers();
|
---|
682 |
|
---|
683 | if (nSkip > 0) {
|
---|
684 | Skip = new int[ nSkip ];
|
---|
685 | get_skip_showers( Skip );
|
---|
686 |
|
---|
687 | log(SIGNATURE, "There are some showers to skip:\n");
|
---|
688 | for (i=0; i<nSkip; ++i)
|
---|
689 | log(SIGNATURE, "\tshower # %d\n", Skip[i]);
|
---|
690 | }
|
---|
691 |
|
---|
692 |
|
---|
693 | // read parameters from the ct.def file
|
---|
694 |
|
---|
695 | read_ct_file();
|
---|
696 |
|
---|
697 | // read camera setup
|
---|
698 |
|
---|
699 | read_pixels(&cam);
|
---|
700 |
|
---|
701 | Int_t Lev0, Lev1, Lev2 ;
|
---|
702 |
|
---|
703 | fadcValues = new TArrayC(FADC_SLICES);
|
---|
704 |
|
---|
705 | // initialise ROOT
|
---|
706 |
|
---|
707 | TROOT simple("simple", "MAGIC Telescope Monte Carlo");
|
---|
708 |
|
---|
709 | // initialise instance of Trigger and FADC classes
|
---|
710 |
|
---|
711 | MTrigger Trigger(Trigger_gate_length, Trigger_overlaping_time,
|
---|
712 | Trigger_response_ampl, Trigger_response_fwhm); //@< A instance of the Class MTrigger
|
---|
713 |
|
---|
714 | // Initialise McTrig information class if we want to save trigger informtion
|
---|
715 |
|
---|
716 | MMcTrig **McTrig;
|
---|
717 | MMcTrigHeader **HeaderTrig;
|
---|
718 |
|
---|
719 | if (Write_McTrig){
|
---|
720 |
|
---|
721 | McTrig = new MMcTrig * [icontrigger];
|
---|
722 |
|
---|
723 | for (i=0;i<icontrigger;i++) {
|
---|
724 | McTrig[i] = new MMcTrig();
|
---|
725 | }
|
---|
726 |
|
---|
727 | HeaderTrig = new MMcTrigHeader * [icontrigger];
|
---|
728 |
|
---|
729 | for (i=0;i<icontrigger;i++) {
|
---|
730 | HeaderTrig[i] = new MMcTrigHeader();
|
---|
731 | }
|
---|
732 | }
|
---|
733 |
|
---|
734 | MFadc fadc ; //@< A instance of the Class MFadc
|
---|
735 |
|
---|
736 | // Set the FADC pedestals for that run
|
---|
737 | // The values of pedestal follow a flat distribution. Some modifications
|
---|
738 | // mut be done to simulate a more realistic distribution of the pedestals.
|
---|
739 | // This simualtion is done int the SetPedestals methode inside the
|
---|
740 | // class MFadc
|
---|
741 | fadc.SetPedestals(50);
|
---|
742 |
|
---|
743 | // Prepare the raw data output
|
---|
744 |
|
---|
745 | // Header file
|
---|
746 |
|
---|
747 | MRawEvtHeader **EvtHeader;
|
---|
748 |
|
---|
749 | if (Write_RawEvt) {
|
---|
750 | EvtHeader = new MRawEvtHeader * [icontrigger];
|
---|
751 |
|
---|
752 | for (i=0;i<icontrigger;i++) {
|
---|
753 | EvtHeader[i] = new MRawEvtHeader();
|
---|
754 | }
|
---|
755 | }
|
---|
756 |
|
---|
757 | // Header file
|
---|
758 |
|
---|
759 | MRawEvtData **EvtData; // Data branch
|
---|
760 |
|
---|
761 | if (Write_RawEvt) {
|
---|
762 | EvtData = new MRawEvtData * [icontrigger];
|
---|
763 |
|
---|
764 | for (i=0;i<icontrigger;i++) {
|
---|
765 | EvtData[i] = new MRawEvtData();
|
---|
766 | }
|
---|
767 | }
|
---|
768 |
|
---|
769 | MMcEvt *McEvt = new MMcEvt ();
|
---|
770 |
|
---|
771 | //
|
---|
772 | // initalize a temporal ROOT file
|
---|
773 | //
|
---|
774 |
|
---|
775 | TFile outfile_temp ( rootname , "RECREATE" );
|
---|
776 |
|
---|
777 | Int_t bsize=128000; Int_t split=1;
|
---|
778 |
|
---|
779 | // create a Tree for the Header Event
|
---|
780 | TTree HeaderTree("McHeaders","Monte Carlo Header of Run");
|
---|
781 |
|
---|
782 | // define branches of Header Tree
|
---|
783 |
|
---|
784 | char help[4];
|
---|
785 |
|
---|
786 | if(!Trigger_Loop && Write_McTrig){
|
---|
787 |
|
---|
788 | HeaderTree.Branch("MMcTrigHeader","MMcTrigHeader",
|
---|
789 | &HeaderTrig[0], bsize, split);
|
---|
790 | }
|
---|
791 | if (Trigger_Loop && Write_McTrig){
|
---|
792 | for(char branchname[20],i=0;i<icontrigger;i++){
|
---|
793 |
|
---|
794 | sprintf(help,"%i",i+1);
|
---|
795 | strcpy (branchname, "MMcTrigHeader");
|
---|
796 | strcat (branchname, & help[0]);
|
---|
797 | strcat (branchname, ".");
|
---|
798 | HeaderTree.Branch(branchname,"MMcTrigHeader",
|
---|
799 | &HeaderTrig[i], bsize, split);
|
---|
800 | }
|
---|
801 | }
|
---|
802 |
|
---|
803 | // Fill branches
|
---|
804 |
|
---|
805 | if(!Trigger_Loop && Write_McTrig){
|
---|
806 |
|
---|
807 | HeaderTrig[0]->SetTopology((Short_t) Trigger_topology);
|
---|
808 | HeaderTrig[0]->SetMultiplicity((Short_t) Trigger_multiplicity);
|
---|
809 | for(i=0;i<TRIGGER_PIXELS;i++){
|
---|
810 | fpixelthres[i]=(Float_t)Trigger_threshold;
|
---|
811 | }
|
---|
812 | HeaderTrig[0]->SetThreshold( fpixelthres);
|
---|
813 | HeaderTrig[0]->SetAmplitud(Trigger_response_ampl);
|
---|
814 | HeaderTrig[0]->SetFwhm(Trigger_response_fwhm);
|
---|
815 | HeaderTrig[0]->SetOverlap(Trigger_overlaping_time);
|
---|
816 | HeaderTrig[0]->SetGate(Trigger_gate_length);
|
---|
817 | }
|
---|
818 | if(Trigger_Loop && Write_McTrig){
|
---|
819 |
|
---|
820 | for (int iconcount=0,ithrescount=0;ithrescount<=Trigger_loop_uthres-Trigger_loop_lthres;ithrescount++){
|
---|
821 | for (imulticount=0;imulticount<=Trigger_loop_umult-Trigger_loop_lmult;imulticount++){
|
---|
822 | for(itopocount=0;itopocount<=Trigger_loop_utop-Trigger_loop_ltop;itopocount++){
|
---|
823 | HeaderTrig[iconcount]->SetTopology((Short_t) itopocount+Trigger_loop_ltop);
|
---|
824 | HeaderTrig[iconcount]->SetMultiplicity((Short_t) imulticount+Trigger_loop_lmult);
|
---|
825 | for(i=0;i<TRIGGER_PIXELS;i++){
|
---|
826 | fpixelthres[i]=(Float_t)(ithrescount+Trigger_loop_lthres);
|
---|
827 | }
|
---|
828 | HeaderTrig[iconcount]->SetThreshold( fpixelthres);
|
---|
829 | HeaderTrig[iconcount]->SetAmplitud(Trigger_response_ampl);
|
---|
830 | HeaderTrig[iconcount]->SetFwhm(Trigger_response_fwhm);
|
---|
831 | HeaderTrig[iconcount]->SetOverlap(Trigger_overlaping_time);
|
---|
832 | HeaderTrig[iconcount]->SetGate(Trigger_gate_length);
|
---|
833 | iconcount++;
|
---|
834 | }
|
---|
835 | }
|
---|
836 | }
|
---|
837 | }
|
---|
838 |
|
---|
839 | // Fill the Header Tree with the current leaves of each branch
|
---|
840 | HeaderTree.Fill() ;
|
---|
841 |
|
---|
842 |
|
---|
843 | // create a Tree for the Event data stream
|
---|
844 | TTree EvtTree("Events","Normal Triggered Events");
|
---|
845 |
|
---|
846 | if (Write_McEvt){
|
---|
847 |
|
---|
848 | EvtTree.Branch("MMcEvt","MMcEvt",
|
---|
849 | &McEvt, bsize, split);
|
---|
850 | }
|
---|
851 |
|
---|
852 | if(!Trigger_Loop){
|
---|
853 |
|
---|
854 | if (Write_RawEvt){
|
---|
855 | EvtTree.Branch("MRawEvtHeader","MRawEvtHeader",
|
---|
856 | &EvtHeader[0], bsize, split);
|
---|
857 | EvtTree.Branch("MRawEvtData","MRawEvtData",
|
---|
858 | &EvtData[0], bsize, split);
|
---|
859 | }
|
---|
860 | if (Write_McTrig){
|
---|
861 | EvtTree.Branch("MMcTrig","MMcTrig",
|
---|
862 | &McTrig[0], bsize, split);
|
---|
863 | }
|
---|
864 | }
|
---|
865 | else{
|
---|
866 | if (Write_McTrig){
|
---|
867 | for(char branchname[10],i=0;i<icontrigger;i++){
|
---|
868 |
|
---|
869 | sprintf(help,"%i",i+1);
|
---|
870 | strcpy (branchname, "MMcTrig");
|
---|
871 | strcat (branchname, & help[0]);
|
---|
872 | strcat (branchname, ".");
|
---|
873 | EvtTree.Branch(branchname,"MMcTrig",
|
---|
874 | &McTrig[i], bsize, split);
|
---|
875 | }
|
---|
876 | }
|
---|
877 | }
|
---|
878 |
|
---|
879 | if (Trigger_Loop && Write_RawEvt){
|
---|
880 | for(char branchname[15],i=0;i<icontrigger;i++){
|
---|
881 |
|
---|
882 | sprintf(help,"%i",i+1);
|
---|
883 | strcpy (branchname, "MRawEvtHeader");
|
---|
884 | strcat (branchname, & help[0]);
|
---|
885 | strcat (branchname, ".");
|
---|
886 | EvtTree.Branch(branchname,"MRawEvtHeader",
|
---|
887 | &EvtHeader[i], bsize, split);
|
---|
888 | }
|
---|
889 | for(char branchname[15],i=0;i<icontrigger;i++){
|
---|
890 |
|
---|
891 | sprintf(help,"%i",i+1);
|
---|
892 | strcpy (branchname, "MRawEvtData");
|
---|
893 | strcat (branchname, & help[0]);
|
---|
894 | strcat (branchname, ".");
|
---|
895 | EvtTree.Branch(branchname,"MRawEvtData",
|
---|
896 | &EvtData[i], bsize, split);
|
---|
897 | }
|
---|
898 | }
|
---|
899 |
|
---|
900 | unsigned short ulli = 0 ;
|
---|
901 |
|
---|
902 | TApplication theAppTrigger("App", &argc, argv);
|
---|
903 |
|
---|
904 | if (gROOT->IsBatch()) {
|
---|
905 | fprintf(stderr, "%s: cannot run in batch mode\n", argv[0]);
|
---|
906 | // return 1;
|
---|
907 | }
|
---|
908 |
|
---|
909 | if(FADC_Scan){
|
---|
910 | TApplication theAppFadc("App", &argc, argv);
|
---|
911 |
|
---|
912 | if (gROOT->IsBatch()) {
|
---|
913 | fprintf(stderr, "%s: cannot run in batch mode\n", argv[0]);
|
---|
914 | // return 1;
|
---|
915 | }
|
---|
916 | }
|
---|
917 |
|
---|
918 | // set plate scale (deg/cm) and trigger area (deg)
|
---|
919 |
|
---|
920 | plateScale_cm2deg = ( ct_Type == 0 ) ? (0.244/2.1) : 0.030952381;
|
---|
921 |
|
---|
922 | if ( ! get_trigger_radius( °TriggerZone ) )
|
---|
923 | degTriggerZone = ( ct_Type == 0 ) ? (5.0) : (5.0);
|
---|
924 |
|
---|
925 | if ( ! get_correction( &fCorrection ) )
|
---|
926 | fCorrection = 1.0;
|
---|
927 |
|
---|
928 | // number of pixels for parameters
|
---|
929 |
|
---|
930 | anaPixels = get_ana_pixels();
|
---|
931 | anaPixels = (anaPixels == -1) ? ct_NPixels : anaPixels;
|
---|
932 |
|
---|
933 | // prepare the NSB simulation
|
---|
934 |
|
---|
935 | // Instance of the Mlons class
|
---|
936 | MLons lons(Trigger_response_ampl, Trigger_response_fwhm,
|
---|
937 | MFADC_RESPONSE_AMPLITUDE, MFADC_RESPONSE_FWHM);
|
---|
938 |
|
---|
939 | lons.SetPath(nsbpathname);
|
---|
940 |
|
---|
941 | if( simulateNSB ){
|
---|
942 |
|
---|
943 | //
|
---|
944 | // Calculate the non-diffuse NSB photoelectron rates
|
---|
945 | //
|
---|
946 |
|
---|
947 | k = produce_nsbrates( starfieldname,
|
---|
948 | &cam,
|
---|
949 | nsbrate_phepns );
|
---|
950 | float dum;
|
---|
951 | for(i=0; i<cam.inumpixels;i++){
|
---|
952 | dum=0;
|
---|
953 | for(j=0;j<iNUMWAVEBANDS;j++)
|
---|
954 | dum+=nsbrate_phepns[i][j];
|
---|
955 | cout<<"Wuschel "<<dum<<endl;
|
---|
956 | }
|
---|
957 |
|
---|
958 | if (k != 0){
|
---|
959 | cout << "Error when reading starfield... \nExiting.\n";
|
---|
960 | exit(1);
|
---|
961 | }
|
---|
962 |
|
---|
963 | // calculate diffuse rate correcting for the pixel size
|
---|
964 |
|
---|
965 | for(i=0; i<cam.inumpixels; i++){
|
---|
966 | diffnsb_phepns[i] = meanNSB *
|
---|
967 | cam.dpixsizefactor[i] * cam.dpixsizefactor[i];
|
---|
968 | }
|
---|
969 |
|
---|
970 | // calculate nsb rate including diffuse and starlight
|
---|
971 | for(i=0; i<cam.inumpixels;i++){
|
---|
972 | nsb_phepns[i]= diffnsb_phepns[i];
|
---|
973 | for(j=0;j<iNUMWAVEBANDS;j++)
|
---|
974 | nsb_phepns[i]=nsb_phepns[i]+ nsbrate_phepns[i][j];
|
---|
975 | cout<<"Huschel "<<nsb_phepns[i]<<endl;
|
---|
976 | }
|
---|
977 | }
|
---|
978 |
|
---|
979 | //
|
---|
980 | // Read the reflector file with the Cherenkov data
|
---|
981 | //
|
---|
982 |
|
---|
983 | // select input file
|
---|
984 |
|
---|
985 | if ( Data_From_STDIN ) {
|
---|
986 |
|
---|
987 | inputfile = stdin;
|
---|
988 |
|
---|
989 | }
|
---|
990 | else{
|
---|
991 |
|
---|
992 | log( SIGNATURE, "Opening input \"rfl\" file %s\n", inname );
|
---|
993 | inputfile = fopen( inname, "r" );
|
---|
994 | if ( inputfile == NULL )
|
---|
995 | error( SIGNATURE, "Cannot open input file: %s\n", inname );
|
---|
996 |
|
---|
997 | }
|
---|
998 |
|
---|
999 | // get signature, and check it
|
---|
1000 |
|
---|
1001 | if(check_reflector_file( inputfile )==FALSE){
|
---|
1002 | exit(1);
|
---|
1003 | }
|
---|
1004 |
|
---|
1005 | // open data file
|
---|
1006 |
|
---|
1007 | log( SIGNATURE, "Opening data \"dat\" file %s\n", datname );
|
---|
1008 | datafile.open( datname );
|
---|
1009 |
|
---|
1010 | if ( datafile.bad() )
|
---|
1011 | error( SIGNATURE, "Cannot open data file: %s\n", datname );
|
---|
1012 |
|
---|
1013 | // initializes flag
|
---|
1014 |
|
---|
1015 | strcpy( flag, " \0" );
|
---|
1016 |
|
---|
1017 | // allocate space for PMTs numbers of pixels
|
---|
1018 |
|
---|
1019 | fnpix = new float [ ct_NPixels ];
|
---|
1020 |
|
---|
1021 |
|
---|
1022 | //!@' @#### Main loop.
|
---|
1023 | //@'
|
---|
1024 |
|
---|
1025 | // get flag
|
---|
1026 |
|
---|
1027 | fread( flag, SIZE_OF_FLAGS, 1, inputfile );
|
---|
1028 |
|
---|
1029 | // loop over the file
|
---|
1030 |
|
---|
1031 | still_in_loop = TRUE;
|
---|
1032 |
|
---|
1033 | while (
|
---|
1034 | ((! Data_From_STDIN) && ( !feof(inputfile) ))
|
---|
1035 | ||
|
---|
1036 | (Data_From_STDIN && still_in_loop)
|
---|
1037 | ) {
|
---|
1038 |
|
---|
1039 | // reading .rfl files
|
---|
1040 | if(!isA( flag, FLAG_START_OF_RUN )){
|
---|
1041 |
|
---|
1042 | // We exit
|
---|
1043 | //error( SIGNATURE, "Expected start of run flag, but found: %s\n", flag );
|
---|
1044 | // We break the main loop
|
---|
1045 | cout<<"Warning: Expected start of run flag, but found:"<<flag<<endl;
|
---|
1046 | cout<<" We break the main loop"<<endl;
|
---|
1047 | break;
|
---|
1048 | }
|
---|
1049 | else { // found start of run
|
---|
1050 |
|
---|
1051 | nshow=0;
|
---|
1052 |
|
---|
1053 | fread( flag, SIZE_OF_FLAGS, 1, inputfile );
|
---|
1054 |
|
---|
1055 | while( isA( flag, FLAG_START_OF_EVENT )){ // while there is a next event
|
---|
1056 |
|
---|
1057 | //
|
---|
1058 | // Clear Trigger and Fadc
|
---|
1059 | //
|
---|
1060 | Trigger.Reset() ;
|
---|
1061 | Trigger.ClearFirst();
|
---|
1062 | Trigger.ClearZero();
|
---|
1063 | fadc.Reset() ;
|
---|
1064 |
|
---|
1065 | ++nshow;
|
---|
1066 | log(SIGNATURE, "Event %d(+%d)\n", nshow, ntshow);
|
---|
1067 |
|
---|
1068 | // get MCEventHeader
|
---|
1069 |
|
---|
1070 | fread( (char*)&mcevth, mcevth.mysize(), 1, inputfile );
|
---|
1071 |
|
---|
1072 | // calculate core distance and impact parameter
|
---|
1073 |
|
---|
1074 | coreD = mcevth.get_core(&coreX, &coreY);
|
---|
1075 |
|
---|
1076 | // calculate impact parameter (shortest distance betwee the original
|
---|
1077 | // trajectory of the primary (assumed shower-axis) and the
|
---|
1078 | // direction where the telescope points to
|
---|
1079 | //
|
---|
1080 | // we use the following equation, given that the shower core position
|
---|
1081 | // is (x1,y1,z1)=(x,y,0),the trajectory is given by (l1,m1,n1),
|
---|
1082 | // and the telescope position and orientation are (x2,y2,z2)=(0,0,0)
|
---|
1083 | // and (l2,m2,n2)
|
---|
1084 | //
|
---|
1085 | // | |
|
---|
1086 | // | x1-x2 y1-y2 z1-z2 |
|
---|
1087 | // | |
|
---|
1088 | // + | l1 m1 n1 |
|
---|
1089 | // - | |
|
---|
1090 | // | l2 m2 n2 |
|
---|
1091 | // | |
|
---|
1092 | // dist = ------------------------------------ ( > 0 )
|
---|
1093 | // [ |l1 m1|2 |m1 n1|2 |n1 l1|2 ]1/2
|
---|
1094 | // [ | | + | | + | | ]
|
---|
1095 | // [ |l2 m2| |m2 n2| |n2 l2| ]
|
---|
1096 | //
|
---|
1097 | // playing a little bit, we get this reduced for in our case:
|
---|
1098 | //
|
---|
1099 | //
|
---|
1100 | // dist = (- m2 n1 x + m1 n2 x + l2 n1 y - l1 n2 y - l2 m1 z + l1 m2 z) /
|
---|
1101 | // [(l2^2 (m1^2 + n1^2) + (m2 n1 - m1 n2)^2 -
|
---|
1102 | // 2 l1 l2 (m1 m2 + n1 n2) + l1^2 (m2^2 + n2^2) ] ^(1/2)
|
---|
1103 |
|
---|
1104 | // read the direction of the incoming shower
|
---|
1105 |
|
---|
1106 | thetashw = mcevth.get_theta();
|
---|
1107 | phishw = mcevth.get_phi();
|
---|
1108 |
|
---|
1109 | // calculate vector for shower
|
---|
1110 |
|
---|
1111 | l1 = sin(thetashw)*cos(phishw);
|
---|
1112 | m1 = sin(thetashw)*sin(phishw);
|
---|
1113 | n1 = cos(thetashw);
|
---|
1114 |
|
---|
1115 | // read the deviation of the telescope with respect to the shower
|
---|
1116 |
|
---|
1117 | mcevth.get_deviations ( &thetaCT, &phiCT );
|
---|
1118 |
|
---|
1119 | if ( (thetaCT == 0.) && (phiCT == 0.) ) {
|
---|
1120 |
|
---|
1121 | // CT was looking to the source (both lines are parallel)
|
---|
1122 | // therefore, we calculate the impact parameter as the distance
|
---|
1123 | // between the CT axis and the core position
|
---|
1124 |
|
---|
1125 | impactD = dist_r_P( 0., 0., 0., l1, m1, n1, coreX, coreY, 0. );
|
---|
1126 |
|
---|
1127 | } else {
|
---|
1128 |
|
---|
1129 | // the shower comes off-axis
|
---|
1130 |
|
---|
1131 | // obtain with this the final direction of the CT
|
---|
1132 |
|
---|
1133 | thetaCT += thetashw;
|
---|
1134 | phiCT += phishw;
|
---|
1135 |
|
---|
1136 | // calculate vector for telescope
|
---|
1137 |
|
---|
1138 | l2 = sin(thetaCT)*cos(phiCT);
|
---|
1139 | m2 = sin(thetaCT)*sin(phiCT);
|
---|
1140 | n2 = cos(thetaCT);
|
---|
1141 |
|
---|
1142 | num = (m1*n2*coreX - m2*n1*coreX + l2*n1*coreY - l1*n2*coreY);
|
---|
1143 | den = (SQR(l1*m2 - l2*m1) +
|
---|
1144 | SQR(m1*n2 - m2*n1) +
|
---|
1145 | SQR(n1*l2 - n2*l1));
|
---|
1146 | den = sqrt(den);
|
---|
1147 |
|
---|
1148 | impactD = fabs(num)/den;
|
---|
1149 |
|
---|
1150 | }
|
---|
1151 |
|
---|
1152 | // energy cut
|
---|
1153 |
|
---|
1154 | if ( Select_Energy ) {
|
---|
1155 | if (( mcevth.get_energy() < Select_Energy_le ) ||
|
---|
1156 | ( mcevth.get_energy() > Select_Energy_ue )) {
|
---|
1157 | log(SIGNATURE, "select_energy: shower rejected.\n");
|
---|
1158 | continue;
|
---|
1159 | }
|
---|
1160 | }
|
---|
1161 |
|
---|
1162 | // Read first and last time and put inumphe to 0
|
---|
1163 |
|
---|
1164 | mcevth.get_times(&arrtmin_ns,&arrtmax_ns);
|
---|
1165 | inumphe=0;
|
---|
1166 |
|
---|
1167 | // NSB simulation
|
---|
1168 |
|
---|
1169 | if(simulateNSB){
|
---|
1170 |
|
---|
1171 | // Fill trigger and fadc response in the trigger class from teh database
|
---|
1172 | for(i=0;i<cam.inumpixels;i++)
|
---|
1173 | if(nsb_phepns[i]>0.0){
|
---|
1174 | k=lons.GetResponse(nsb_phepns[i],0.1,
|
---|
1175 | & nsb_trigresp[0],& nsb_fadcresp[0]);
|
---|
1176 | if(k==0){
|
---|
1177 | cout << "Exiting.\n";
|
---|
1178 | exit(1);
|
---|
1179 | }
|
---|
1180 | Trigger.SetNSB(i,nsb_trigresp);
|
---|
1181 | fadc.Set(i,nsb_fadcresp);
|
---|
1182 | }
|
---|
1183 | }// end if(simulateNSB) ...
|
---|
1184 |
|
---|
1185 | // read the photons and produce the photoelectrons
|
---|
1186 |
|
---|
1187 | k = produce_phes( inputfile,
|
---|
1188 | &cam,
|
---|
1189 | WAVEBANDBOUND1,
|
---|
1190 | WAVEBANDBOUND6,
|
---|
1191 | &Trigger, // will be changed by the function!
|
---|
1192 | &fadc, // will be changed by the function!
|
---|
1193 | &inumphe, // important for later: the size of photoe[]
|
---|
1194 | fnpix, // will be changed by the function!
|
---|
1195 | &ncph, // will be changed by the function!
|
---|
1196 | &arrtmin_ns, // will be changed by the function!
|
---|
1197 | &arrtmax_ns // will be changed by the function!
|
---|
1198 | );
|
---|
1199 |
|
---|
1200 | if( k != 0 ){ // non-zero returnvalue means error
|
---|
1201 | cout << "Exiting.\n";
|
---|
1202 | exit(1);
|
---|
1203 | }
|
---|
1204 |
|
---|
1205 | log(SIGNATURE, "End of this event: %d cphs(+%d). . .\n",
|
---|
1206 | ncph, ntcph);
|
---|
1207 |
|
---|
1208 | ntcph += ncph;
|
---|
1209 |
|
---|
1210 | // skip it ?
|
---|
1211 |
|
---|
1212 | for ( i=0; i<nSkip; ++i ) {
|
---|
1213 | if (Skip[i] == (nshow+ntshow)) {
|
---|
1214 | i = -1;
|
---|
1215 | break;
|
---|
1216 | }
|
---|
1217 | }
|
---|
1218 |
|
---|
1219 | // if after the previous loop, the exit value of i is -1
|
---|
1220 | // then the shower number is in the list of showers to be
|
---|
1221 | // skipped
|
---|
1222 |
|
---|
1223 | if (i == -1) {
|
---|
1224 | log(SIGNATURE, "\t\tskipped!\n");
|
---|
1225 | continue;
|
---|
1226 | }
|
---|
1227 |
|
---|
1228 | cout << "Total number of phes: " << inumphe<<" + ";
|
---|
1229 | inumphensb=0;
|
---|
1230 | for (i=0;i<cam.inumpixels;i++){
|
---|
1231 | inumphensb+=nsb_phepns[i]*TOTAL_TRIGGER_TIME;
|
---|
1232 | }
|
---|
1233 | cout<<inumphensb<<endl;
|
---|
1234 |
|
---|
1235 | //++++++++++++++++++++++++++++++++++++++++++++++++++
|
---|
1236 | // at this point we have a camera full of
|
---|
1237 | // ph.e.s
|
---|
1238 | // we should first apply the trigger condition,
|
---|
1239 | // and if there's trigger, then clean the image,
|
---|
1240 | // calculate the islands statistics and the
|
---|
1241 | // other parameters of the image (Hillas' parameters
|
---|
1242 | // and so on).
|
---|
1243 | //--------------------------------------------------
|
---|
1244 |
|
---|
1245 | // TRIGGER HERE
|
---|
1246 |
|
---|
1247 | //
|
---|
1248 | // now the noise of the electronic
|
---|
1249 | // (preamps, optical transmission,..) is introduced.
|
---|
1250 | // This is done inside the class MTrigger by the method ElecNoise.
|
---|
1251 | //
|
---|
1252 | Trigger.ElecNoise() ;
|
---|
1253 |
|
---|
1254 | fadc.ElecNoise() ;
|
---|
1255 |
|
---|
1256 | // now a shift in the fadc signal due to the pedestlas is
|
---|
1257 | // intorduced
|
---|
1258 | // This is done inside the class MFadc by the method Pedestals
|
---|
1259 | fadc.Pedestals();
|
---|
1260 |
|
---|
1261 | // We study several trigger conditons
|
---|
1262 | if(Trigger_Loop){
|
---|
1263 | // Loop over trigger threshold
|
---|
1264 | for (int iconcount=0,ithrescount=Trigger_loop_lthres;ithrescount<=Trigger_loop_uthres;ithrescount++){
|
---|
1265 | for (i=0;i<TRIGGER_PIXELS;i++)
|
---|
1266 | fpixelthres[i]=(float) ithrescount;
|
---|
1267 | Trigger.SetThreshold(fpixelthres);
|
---|
1268 |
|
---|
1269 | Trigger.Diskriminate();
|
---|
1270 | //
|
---|
1271 | // look if in all the signals in the trigger signal branch
|
---|
1272 | // is a possible Trigger. Therefore we habe to diskriminate all
|
---|
1273 | // the simulated analog signals (Method Diskriminate in class
|
---|
1274 | // MTrigger). We look simultanously for the moments at which
|
---|
1275 | // there are more than TRIGGER_MULTI pixels above the
|
---|
1276 | // CHANNEL_THRESHOLD.
|
---|
1277 | //
|
---|
1278 |
|
---|
1279 | // Set trigger flags to zero
|
---|
1280 | Lev1=Lev2=0;
|
---|
1281 | btrigger=0;
|
---|
1282 |
|
---|
1283 | // loop over multiplicity of trigger configuration
|
---|
1284 | for (imulticount=Trigger_loop_lmult;imulticount<=Trigger_loop_umult;imulticount++){
|
---|
1285 | Trigger.SetMultiplicity(imulticount);
|
---|
1286 | Trigger.ClearZero();
|
---|
1287 |
|
---|
1288 | Lev0=(Short_t) Trigger.ZeroLevel();
|
---|
1289 | if (Lev0>0 || Write_All_Images || btrigger){
|
---|
1290 |
|
---|
1291 | // loop over topologies
|
---|
1292 | for(itopocount=Trigger_loop_ltop;itopocount<=Trigger_loop_utop;itopocount++){
|
---|
1293 | Lev1=Lev2=0;
|
---|
1294 |
|
---|
1295 | if(itopocount==0 && imulticount>7) continue;
|
---|
1296 | if(itopocount==2 && imulticount<3) continue;
|
---|
1297 | Trigger.SetTopology(itopocount);
|
---|
1298 | Trigger.ClearFirst();
|
---|
1299 |
|
---|
1300 | //
|
---|
1301 | // Start the First Level Trigger simulation
|
---|
1302 | //
|
---|
1303 | Lev1=Trigger.FirstLevel();
|
---|
1304 | if (Write_McTrig)
|
---|
1305 | McTrig[iconcount]->SetFirstLevel (Lev1);
|
---|
1306 | if(Lev1>0) {
|
---|
1307 | btrigger= 1;
|
---|
1308 | ntriggerloop[ithrescount-Trigger_loop_lthres][imulticount-Trigger_loop_lmult][itopocount-Trigger_loop_ltop]++;
|
---|
1309 | }
|
---|
1310 |
|
---|
1311 | if(Lev1==0 && (Write_All_Images || btrigger)){
|
---|
1312 | btrigger= 1;
|
---|
1313 | Lev1=1;
|
---|
1314 | }
|
---|
1315 | numPix=0;
|
---|
1316 | for (Int_t ii=0;ii<Lev1;ii++){
|
---|
1317 | if (Write_McTrig)
|
---|
1318 | McTrig[iconcount]->SetTime(Trigger.GetFirstLevelTime(ii),ii+1);
|
---|
1319 | if (Write_McTrig){
|
---|
1320 | Trigger.GetMapDiskriminator(trigger_map);
|
---|
1321 | McTrig[iconcount]->SetMapPixels(trigger_map,ii);
|
---|
1322 | }
|
---|
1323 | //
|
---|
1324 | // fill inside the class fadc the member output
|
---|
1325 | //
|
---|
1326 |
|
---|
1327 | fadc.TriggeredFadc(Trigger.GetFirstLevelTime(ii));
|
---|
1328 |
|
---|
1329 | if( Write_RawEvt ){
|
---|
1330 | //
|
---|
1331 | // Fill the header of this event
|
---|
1332 | //
|
---|
1333 |
|
---|
1334 | EvtHeader[iconcount]->FillHeader ( (UInt_t) (ntshow + nshow),0);
|
---|
1335 | // fill pixel information
|
---|
1336 | for(i=0;i<ct_NPixels;i++){
|
---|
1337 | for (j=0;j<FADC_SLICES;j++){
|
---|
1338 | fadcValues->AddAt(fadc.GetFadcSignal(i,j),j);
|
---|
1339 | }
|
---|
1340 | EvtData[iconcount]->AddPixel(i+1000*ii,fadcValues,0);
|
---|
1341 | }
|
---|
1342 | }
|
---|
1343 | }
|
---|
1344 | //
|
---|
1345 | // Increase counter of analised trigger conditions
|
---|
1346 | //
|
---|
1347 | iconcount++;
|
---|
1348 | }
|
---|
1349 | }
|
---|
1350 | else{
|
---|
1351 | break;
|
---|
1352 | }
|
---|
1353 | }
|
---|
1354 | if (!btrigger) break;
|
---|
1355 | }
|
---|
1356 | if (btrigger){
|
---|
1357 |
|
---|
1358 | //
|
---|
1359 | // fill the MMcEvt with all information
|
---|
1360 | //
|
---|
1361 |
|
---|
1362 | if (Write_McEvt) {
|
---|
1363 | McEvt->Fill( (UShort_t) mcevth.get_primary() ,
|
---|
1364 | mcevth.get_energy(),
|
---|
1365 | mcevth.get_theta(),
|
---|
1366 | mcevth.get_phi(),
|
---|
1367 | mcevth.get_core(),
|
---|
1368 | mcevth.get_coreX(),
|
---|
1369 | mcevth.get_coreY(),
|
---|
1370 | impactD,
|
---|
1371 | ulli,
|
---|
1372 | ulli,
|
---|
1373 | (UInt_t) ncph,
|
---|
1374 | (UInt_t) ncph,
|
---|
1375 | (UInt_t) inumphe,
|
---|
1376 | (UInt_t) inumphensb+inumphe);
|
---|
1377 | }
|
---|
1378 | // Fill the Tree with the current leaves of each branch
|
---|
1379 | i=EvtTree.Fill() ;
|
---|
1380 |
|
---|
1381 | // Clear the branches
|
---|
1382 | if(Write_McTrig){
|
---|
1383 | for(i=0;i<icontrigger;i++){
|
---|
1384 | McTrig[i]->Clear() ;
|
---|
1385 | }
|
---|
1386 | }
|
---|
1387 | if( Write_RawEvt ){
|
---|
1388 | for(i=0;i<icontrigger;i++){
|
---|
1389 | EvtHeader[i]->Clear() ;
|
---|
1390 | EvtData[i]->DeletePixels();
|
---|
1391 | }
|
---|
1392 | }
|
---|
1393 | if (Write_McEvt)
|
---|
1394 | McEvt->Clear() ;
|
---|
1395 | }
|
---|
1396 | }
|
---|
1397 | // We study a single trigger condition
|
---|
1398 | else {
|
---|
1399 |
|
---|
1400 | // Setting trigger conditions
|
---|
1401 | Trigger.SetMultiplicity(Trigger_multiplicity);
|
---|
1402 | Trigger.SetTopology(Trigger_topology);
|
---|
1403 | for (i=0;i<TRIGGER_PIXELS;i++)
|
---|
1404 | fpixelthres[i]=Trigger_threshold;
|
---|
1405 | Trigger.SetThreshold(fpixelthres);
|
---|
1406 |
|
---|
1407 | Trigger.Diskriminate() ;
|
---|
1408 |
|
---|
1409 | //
|
---|
1410 | // look if in all the signals in the trigger signal branch
|
---|
1411 | // is a possible Trigger. Therefore we habe to diskriminate all
|
---|
1412 | // the simulated analog signals (Method Diskriminate in class
|
---|
1413 | // MTrigger). We look simultanously for the moments at which
|
---|
1414 | // there are more than TRIGGER_MULTI pixels above the
|
---|
1415 | // CHANNEL_THRESHOLD.
|
---|
1416 | //
|
---|
1417 |
|
---|
1418 | Lev0 = (Short_t) Trigger.ZeroLevel() ;
|
---|
1419 |
|
---|
1420 | Lev1 = Lev2 = 0 ;
|
---|
1421 |
|
---|
1422 | //
|
---|
1423 | // Start the First Level Trigger simulation
|
---|
1424 | //
|
---|
1425 |
|
---|
1426 | if ( Lev0 > 0 || Write_All_Images) {
|
---|
1427 | Lev1= Trigger.FirstLevel();
|
---|
1428 | if (Write_McTrig)
|
---|
1429 | McTrig[0]->SetFirstLevel (Lev1);
|
---|
1430 | }
|
---|
1431 | if (Lev1>0){
|
---|
1432 | ++ntrigger;
|
---|
1433 | }
|
---|
1434 | if (Lev1==0 && Write_All_Images){
|
---|
1435 | Lev1=1;
|
---|
1436 | }
|
---|
1437 |
|
---|
1438 | numPix=0;
|
---|
1439 | for(Int_t ii=0;ii<Lev1;ii++){
|
---|
1440 | // Loop over different level one triggers
|
---|
1441 |
|
---|
1442 | //
|
---|
1443 | // fill inside class fadc the member output
|
---|
1444 | //
|
---|
1445 | fadc.TriggeredFadc(Trigger.GetFirstLevelTime(ii));
|
---|
1446 |
|
---|
1447 | if (Write_McTrig)
|
---|
1448 | McTrig[0]->SetTime(Trigger.GetFirstLevelTime(ii),ii+1);
|
---|
1449 |
|
---|
1450 | if (Write_McTrig){
|
---|
1451 | Trigger.GetMapDiskriminator(trigger_map);
|
---|
1452 | McTrig[0]->SetMapPixels(trigger_map,ii);
|
---|
1453 | }
|
---|
1454 |
|
---|
1455 | // Fill Evt information
|
---|
1456 |
|
---|
1457 | if (Write_RawEvt){
|
---|
1458 |
|
---|
1459 | //
|
---|
1460 | // Fill the header of this event
|
---|
1461 | //
|
---|
1462 |
|
---|
1463 | EvtHeader[0]->FillHeader ( (UShort_t) (ntshow + nshow) , 20 ) ;
|
---|
1464 |
|
---|
1465 | // fill pixel information
|
---|
1466 |
|
---|
1467 | for(i=0;i<ct_NPixels;i++){
|
---|
1468 | for (j=0;j<FADC_SLICES;j++){
|
---|
1469 | fadcValues->AddAt(fadc.GetFadcSignal(i,j),j);
|
---|
1470 | }
|
---|
1471 | EvtData[0]->AddPixel(i+ii*1000,fadcValues,0);
|
---|
1472 | }
|
---|
1473 | }
|
---|
1474 | //
|
---|
1475 | // fill the MMcEvt with all information
|
---|
1476 | //
|
---|
1477 |
|
---|
1478 | if (Write_McEvt){
|
---|
1479 | McEvt->Fill( (UShort_t) mcevth.get_primary() ,
|
---|
1480 | mcevth.get_energy(),
|
---|
1481 | mcevth.get_theta(),
|
---|
1482 | mcevth.get_phi(),
|
---|
1483 | mcevth.get_core(),
|
---|
1484 | mcevth.get_coreX(),
|
---|
1485 | mcevth.get_coreY(),
|
---|
1486 | impactD,
|
---|
1487 | ulli,
|
---|
1488 | ulli,
|
---|
1489 | (UInt_t) ncph,
|
---|
1490 | (UInt_t) ncph,
|
---|
1491 | (UInt_t) inumphe,
|
---|
1492 | (UInt_t) inumphensb+inumphe);
|
---|
1493 | }
|
---|
1494 | // We don not count photons out of the camera.
|
---|
1495 |
|
---|
1496 |
|
---|
1497 | //
|
---|
1498 | // write it out to the file outfile
|
---|
1499 | //
|
---|
1500 |
|
---|
1501 | EvtTree.Fill() ;
|
---|
1502 |
|
---|
1503 |
|
---|
1504 |
|
---|
1505 | //
|
---|
1506 | // if a first level trigger occurred, then
|
---|
1507 | // 1. do some other stuff (not implemented)
|
---|
1508 | // 2. start the gui tool
|
---|
1509 |
|
---|
1510 | if(FADC_Scan){
|
---|
1511 | if ( Lev0 > 0 ) {
|
---|
1512 | fadc.ShowSignal( McEvt, (Float_t) 60. ) ;
|
---|
1513 | }
|
---|
1514 | }
|
---|
1515 |
|
---|
1516 | if(Trigger_Scan){
|
---|
1517 | if ( Lev0 > 0 ) {
|
---|
1518 | Trigger.ShowSignal(McEvt) ;
|
---|
1519 | }
|
---|
1520 | }
|
---|
1521 |
|
---|
1522 | // clear all
|
---|
1523 | if (Write_RawEvt) EvtHeader[0]->Clear() ;
|
---|
1524 | if (Write_RawEvt) EvtData[0]->DeletePixels();
|
---|
1525 | if (Write_McEvt) McEvt->Clear() ;
|
---|
1526 | }
|
---|
1527 | if (Write_McTrig) McTrig[0]->Clear() ;
|
---|
1528 | }
|
---|
1529 |
|
---|
1530 | #ifdef __DEBUG__
|
---|
1531 | printf("\n");
|
---|
1532 |
|
---|
1533 | for ( ici=0; ici<PIX_ARRAY_SIDE; ++ici ) {
|
---|
1534 |
|
---|
1535 | for ( icj=0; icj<PIX_ARRAY_SIDE; ++icj ) {
|
---|
1536 |
|
---|
1537 | if ( (int)pixels[ici][icj][PIXNUM] > -1 ) {
|
---|
1538 |
|
---|
1539 | if ( fnpix[(int)pixels[ici][icj][PIXNUM]] > 0. ) {
|
---|
1540 |
|
---|
1541 | printf ("@@ %4d %4d %10f %10f %4f (%4d %4d)\n", nshow,
|
---|
1542 | (int)pixels[ici][icj][PIXNUM],
|
---|
1543 | pixels[ici][icj][PIXX],
|
---|
1544 | pixels[ici][icj][PIXY],
|
---|
1545 | fnpix[(int)pixels[ici][icj][PIXNUM]], ici, icj);
|
---|
1546 |
|
---|
1547 | }
|
---|
1548 | }
|
---|
1549 | }
|
---|
1550 | }
|
---|
1551 |
|
---|
1552 | for (i=0; i<ct_NPixels; ++i) {
|
---|
1553 | printf("%d (%d): ", i, npixneig[i]);
|
---|
1554 | for (j=0; j<npixneig[i]; ++i)
|
---|
1555 | printf(" %d", pixneig[i][j]);
|
---|
1556 | printf("\n");
|
---|
1557 | }
|
---|
1558 |
|
---|
1559 | #endif // __DEBUG__
|
---|
1560 |
|
---|
1561 |
|
---|
1562 | // look for the next event
|
---|
1563 |
|
---|
1564 | fread( flag, SIZE_OF_FLAGS, 1, inputfile );
|
---|
1565 |
|
---|
1566 | } // end while there is a next event
|
---|
1567 |
|
---|
1568 | if( !isA( flag, FLAG_END_OF_RUN )){
|
---|
1569 | error( SIGNATURE, "Expected end of run flag, but found: %s\n", flag );
|
---|
1570 | }
|
---|
1571 | else { // found end of run
|
---|
1572 | ntshow += nshow;
|
---|
1573 | log(SIGNATURE, "End of this run with %d events . . .\n", nshow);
|
---|
1574 |
|
---|
1575 | fread( flag, SIZE_OF_FLAGS, 1, inputfile );
|
---|
1576 |
|
---|
1577 | if( isA( flag, FLAG_END_OF_FILE ) ){ // end of file
|
---|
1578 | log(SIGNATURE, "End of file . . .\n");
|
---|
1579 | still_in_loop = FALSE;
|
---|
1580 |
|
---|
1581 | if ((! Data_From_STDIN) && ( !feof(inputfile) )){
|
---|
1582 |
|
---|
1583 | // we have concatenated input files.
|
---|
1584 | // get signature of the next part and check it.
|
---|
1585 |
|
---|
1586 | if(check_reflector_file( inputfile )==FALSE){
|
---|
1587 | exit(1);
|
---|
1588 | }
|
---|
1589 |
|
---|
1590 | }
|
---|
1591 |
|
---|
1592 | fread( flag, SIZE_OF_FLAGS, 1, inputfile );
|
---|
1593 |
|
---|
1594 | } // end if found end of file
|
---|
1595 | } // end if found end of run
|
---|
1596 |
|
---|
1597 | } // end if else found start of run
|
---|
1598 | } // end big while loop
|
---|
1599 |
|
---|
1600 | //++
|
---|
1601 | // put the Event to the root file
|
---|
1602 | //--
|
---|
1603 |
|
---|
1604 | outfile_temp.Write() ;
|
---|
1605 | outfile_temp.Close() ;
|
---|
1606 |
|
---|
1607 |
|
---|
1608 | // close input file
|
---|
1609 |
|
---|
1610 | log( SIGNATURE, "%d event(s), with a total of %d C.photons\n",
|
---|
1611 | ntshow, ntcph );
|
---|
1612 | datafile<<ntshow<<" event(s), with a total of "<<ntcph<<" C.photons"<<endl;
|
---|
1613 | if (Trigger_Loop){
|
---|
1614 | log( SIGNATURE, "Trigger Mode. \n");
|
---|
1615 | log( SIGNATURE, "Fraction of triggers: \n");
|
---|
1616 | datafile<<"Fraction of triggers: "<<endl;
|
---|
1617 | for (ithrescount=Trigger_loop_lthres;ithrescount<=Trigger_loop_uthres;ithrescount++){
|
---|
1618 | for (imulticount=Trigger_loop_lmult;imulticount<=Trigger_loop_umult;imulticount++){
|
---|
1619 | for(itopocount=Trigger_loop_ltop;itopocount<=Trigger_loop_utop;itopocount++){
|
---|
1620 | log( SIGNATURE, "Thres %d, Multi %d, Topo %d: %5.1f%% (%d out of %d)\n",
|
---|
1621 | ithrescount,imulticount,itopocount,((float)ntriggerloop[ithrescount-Trigger_loop_lthres][imulticount-Trigger_loop_lmult][itopocount-Trigger_loop_ltop] / ((float)ntshow) * 100.0), ntriggerloop[ithrescount-Trigger_loop_lthres][imulticount-Trigger_loop_lmult][itopocount-Trigger_loop_ltop], ntshow);
|
---|
1622 | datafile<<"Thres "<<ithrescount<<", Multi "<<imulticount<<", Topo"<<itopocount<<": ";
|
---|
1623 | datafile<<((float)ntriggerloop[ithrescount-Trigger_loop_lthres][imulticount-Trigger_loop_lmult][itopocount-Trigger_loop_ltop] / ((float)ntshow) * 100.0)<<"% ("<<ntriggerloop[ithrescount-Trigger_loop_lthres][imulticount-Trigger_loop_lmult][itopocount-Trigger_loop_ltop]<<" out of "<<ntshow<<")"<<endl;
|
---|
1624 | }
|
---|
1625 | }
|
---|
1626 | }
|
---|
1627 | }
|
---|
1628 | else{
|
---|
1629 | log( SIGNATURE, "Fraction of triggers: %5.1f%% (%d out of %d)\n",
|
---|
1630 | ((float)ntrigger) / ((float)ntshow) * 100.0, ntrigger, ntshow);
|
---|
1631 | datafile<<"Fraction of triggers: "<<((float)ntrigger) / ((float)ntshow) * 100.0<<" ("<<ntrigger<<" out of "<<ntshow<<" )"<<endl;
|
---|
1632 | }
|
---|
1633 |
|
---|
1634 | // close files
|
---|
1635 |
|
---|
1636 | log( SIGNATURE, "Closing files\n" );
|
---|
1637 |
|
---|
1638 | if( ! Data_From_STDIN ){
|
---|
1639 | fclose( inputfile );
|
---|
1640 | }
|
---|
1641 | datafile.close();
|
---|
1642 |
|
---|
1643 | // program finished
|
---|
1644 |
|
---|
1645 | log( SIGNATURE, "Done.\n");
|
---|
1646 |
|
---|
1647 | return( 0 );
|
---|
1648 | }
|
---|
1649 | //!@}
|
---|
1650 |
|
---|
1651 | // @T \newpage
|
---|
1652 |
|
---|
1653 | //!@subsection Functions definition.
|
---|
1654 |
|
---|
1655 | //!-----------------------------------------------------------
|
---|
1656 | // @name present
|
---|
1657 | //
|
---|
1658 | // @desc Make some presentation
|
---|
1659 | //
|
---|
1660 | // @date Sat Jun 27 05:58:56 MET DST 1998
|
---|
1661 | //------------------------------------------------------------
|
---|
1662 | // @function
|
---|
1663 |
|
---|
1664 | //!@{
|
---|
1665 | void
|
---|
1666 | present(void)
|
---|
1667 | {
|
---|
1668 | cout << "##################################################\n"
|
---|
1669 | << SIGNATURE << '\n' << '\n'
|
---|
1670 | << "Processor of the reflector output\n"
|
---|
1671 | << "J C Gonzalez, Jun 1998\n"
|
---|
1672 | << "##################################################\n\n"
|
---|
1673 | << flush ;
|
---|
1674 | }
|
---|
1675 | //!@}
|
---|
1676 |
|
---|
1677 |
|
---|
1678 | //!-----------------------------------------------------------
|
---|
1679 | // @name usage
|
---|
1680 | //
|
---|
1681 | // @desc show help
|
---|
1682 | //
|
---|
1683 | // @date Tue Dec 15 16:23:30 MET 1998
|
---|
1684 | //------------------------------------------------------------
|
---|
1685 | // @function
|
---|
1686 |
|
---|
1687 | //!@{
|
---|
1688 | void
|
---|
1689 | usage(void)
|
---|
1690 | {
|
---|
1691 | present();
|
---|
1692 | cout << "\nusage ::\n\n"
|
---|
1693 | << "\t camera "
|
---|
1694 | << " [ -@ paramfile ] "
|
---|
1695 | << " [ -h ] "
|
---|
1696 | << "\n\n or \n\n"
|
---|
1697 | << "\t camera < paramfile"
|
---|
1698 | << "\n\n";
|
---|
1699 | exit(0);
|
---|
1700 | }
|
---|
1701 | //!@}
|
---|
1702 |
|
---|
1703 |
|
---|
1704 | //!-----------------------------------------------------------
|
---|
1705 | // @name log
|
---|
1706 | //
|
---|
1707 | // @desc function to send log information
|
---|
1708 | //
|
---|
1709 | // @var funct Name of the caller function
|
---|
1710 | // @var fmt Format to be used (message)
|
---|
1711 | // @var ... Other information to be shown
|
---|
1712 | //
|
---|
1713 | // @date Sat Jun 27 05:58:56 MET DST 1998
|
---|
1714 | //------------------------------------------------------------
|
---|
1715 | // @function
|
---|
1716 |
|
---|
1717 | //!@{
|
---|
1718 | void
|
---|
1719 | log(const char *funct, char *fmt, ...)
|
---|
1720 | {
|
---|
1721 | va_list args;
|
---|
1722 |
|
---|
1723 | // Display the name of the function that called error
|
---|
1724 | printf("[%s]: ", funct);
|
---|
1725 |
|
---|
1726 | // Display the remainder of the message
|
---|
1727 | va_start(args, fmt);
|
---|
1728 | vprintf(fmt, args);
|
---|
1729 | va_end(args);
|
---|
1730 | }
|
---|
1731 | //!@}
|
---|
1732 |
|
---|
1733 |
|
---|
1734 | //!-----------------------------------------------------------
|
---|
1735 | // @name error
|
---|
1736 | //
|
---|
1737 | // @desc function to send an error message, and abort the program
|
---|
1738 | //
|
---|
1739 | // @var funct Name of the caller function
|
---|
1740 | // @var fmt Format to be used (message)
|
---|
1741 | // @var ... Other information to be shown
|
---|
1742 | //
|
---|
1743 | // @date Sat Jun 27 05:58:56 MET DST 1998
|
---|
1744 | //------------------------------------------------------------
|
---|
1745 | // @function
|
---|
1746 |
|
---|
1747 | //!@{
|
---|
1748 | void
|
---|
1749 | error(const char *funct, char *fmt, ...)
|
---|
1750 | {
|
---|
1751 | va_list args;
|
---|
1752 |
|
---|
1753 | // Display the name of the function that called error
|
---|
1754 | fprintf(stdout, "ERROR in %s: ", funct);
|
---|
1755 |
|
---|
1756 | // Display the remainder of the message
|
---|
1757 | va_start(args, fmt);
|
---|
1758 | vfprintf(stdout, fmt, args);
|
---|
1759 | va_end(args);
|
---|
1760 |
|
---|
1761 | perror(funct);
|
---|
1762 |
|
---|
1763 | exit(1);
|
---|
1764 | }
|
---|
1765 | //!@}
|
---|
1766 |
|
---|
1767 |
|
---|
1768 | //!-----------------------------------------------------------
|
---|
1769 | // @name isA
|
---|
1770 | //
|
---|
1771 | // @desc returns TRUE(FALSE), if the flag is(is not) the given
|
---|
1772 | //
|
---|
1773 | // @var s1 String to be searched
|
---|
1774 | // @var flag Flag to compare with string s1
|
---|
1775 | // @return TRUE: both strings match; FALSE: oth.
|
---|
1776 | //
|
---|
1777 | // @date Wed Jul 8 15:25:39 MET DST 1998
|
---|
1778 | //------------------------------------------------------------
|
---|
1779 | // @function
|
---|
1780 |
|
---|
1781 | //!@{
|
---|
1782 | int
|
---|
1783 | isA( char * s1, const char * flag ) {
|
---|
1784 | return ( (strncmp((char *)s1, flag, SIZE_OF_FLAGS)==0) ? 1 : 0 );
|
---|
1785 | }
|
---|
1786 | //!@}
|
---|
1787 |
|
---|
1788 |
|
---|
1789 | //!-----------------------------------------------------------
|
---|
1790 | // @name read_ct_file
|
---|
1791 | //
|
---|
1792 | // @desc read CT definition file
|
---|
1793 | //
|
---|
1794 | // @date Sat Jun 27 05:58:56 MET DST 1998
|
---|
1795 | //------------------------------------------------------------
|
---|
1796 | // @function
|
---|
1797 |
|
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1798 | //!@{
|
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1799 | void
|
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1800 | read_ct_file(void)
|
---|
1801 | {
|
---|
1802 | char line[LINE_MAX_LENGTH]; //@< line to get from the ctin
|
---|
1803 | char token[ITEM_MAX_LENGTH]; //@< a single token
|
---|
1804 | int i, j; //@< dummy counters
|
---|
1805 |
|
---|
1806 | log( "read_ct_file", "start.\n" );
|
---|
1807 |
|
---|
1808 | ifstream ctin ( ct_filename );
|
---|
1809 |
|
---|
1810 | if ( ctin.bad() )
|
---|
1811 | error( "read_ct_file",
|
---|
1812 | "Cannot open CT def. file: %s\n", ct_filename );
|
---|
1813 |
|
---|
1814 | // loop till the "end" directive is reached
|
---|
1815 |
|
---|
1816 | while (!ctin.eof()) {
|
---|
1817 |
|
---|
1818 | // get line from stdin
|
---|
1819 |
|
---|
1820 | ctin.getline(line, LINE_MAX_LENGTH);
|
---|
1821 |
|
---|
1822 | // look for each item at the beginning of the line
|
---|
1823 |
|
---|
1824 | for (i=0; i<=define_mirrors; i++)
|
---|
1825 | if (strstr(line, CT_ITEM_NAMES[i]) == line)
|
---|
1826 | break;
|
---|
1827 |
|
---|
1828 | // if it is not a valid line, just ignore it
|
---|
1829 |
|
---|
1830 | if (i == define_mirrors+1)
|
---|
1831 | continue;
|
---|
1832 |
|
---|
1833 | // case block for each directive
|
---|
1834 |
|
---|
1835 | switch ( i ) {
|
---|
1836 |
|
---|
1837 | case type: // <type of telescope> (0:CT1 ¦ 1:MAGIC)
|
---|
1838 |
|
---|
1839 | // get focal distance
|
---|
1840 |
|
---|
1841 | sscanf(line, "%s %d", token, &ct_Type);
|
---|
1842 |
|
---|
1843 | log( "read_ct_file", "<Type of Telescope>: %s\n",
|
---|
1844 | ((ct_Type==0) ? "CT1" : "MAGIC") );
|
---|
1845 |
|
---|
1846 | break;
|
---|
1847 |
|
---|
1848 | case focal_distance: // <focal distance> [cm]
|
---|
1849 |
|
---|
1850 | // get focal distance
|
---|
1851 |
|
---|
1852 | sscanf(line, "%s %f", token, &ct_Focal_mean);
|
---|
1853 |
|
---|
1854 | log( "read_ct_file", "<Focal distance>: %f cm\n", ct_Focal_mean );
|
---|
1855 |
|
---|
1856 | break;
|
---|
1857 |
|
---|
1858 | case focal_std: // s(focal distance) [cm]
|
---|
1859 |
|
---|
1860 | // get focal distance
|
---|
1861 |
|
---|
1862 | sscanf(line, "%s %f", token, &ct_Focal_std);
|
---|
1863 |
|
---|
1864 | log( "read_ct_file", "s(Focal distance): %f cm\n", ct_Focal_std );
|
---|
1865 |
|
---|
1866 | break;
|
---|
1867 |
|
---|
1868 | case point_spread: // <point spread> [cm]
|
---|
1869 |
|
---|
1870 | // get point spread
|
---|
1871 |
|
---|
1872 | sscanf(line, "%s %f", token, &ct_PSpread_mean);
|
---|
1873 |
|
---|
1874 | log( "read_ct_file", "<Point spread>: %f cm\n", ct_PSpread_mean );
|
---|
1875 |
|
---|
1876 | break;
|
---|
1877 |
|
---|
1878 | case point_std: // s(point spread) [cm]
|
---|
1879 |
|
---|
1880 | // get point spread
|
---|
1881 |
|
---|
1882 | sscanf(line, "%s %f", token, &ct_PSpread_std);
|
---|
1883 |
|
---|
1884 | log( "read_ct_file", "s(Point spread): %f cm\n", ct_PSpread_std );
|
---|
1885 |
|
---|
1886 | break;
|
---|
1887 |
|
---|
1888 | case adjustment_dev: // s(adjustment_dev) [cm]
|
---|
1889 |
|
---|
1890 | // get point spread
|
---|
1891 |
|
---|
1892 | sscanf(line, "%s %f", token, &ct_Adjustment_std);
|
---|
1893 |
|
---|
1894 | log( "read_ct_file", "s(Adjustment): %f cm\n", ct_Adjustment_std );
|
---|
1895 |
|
---|
1896 | break;
|
---|
1897 |
|
---|
1898 | case black_spot: // radius of the black spot in the center [cm]
|
---|
1899 |
|
---|
1900 | // get black spot radius
|
---|
1901 |
|
---|
1902 | sscanf(line, "%s %f", token, &ct_BlackSpot_rad);
|
---|
1903 |
|
---|
1904 | log( "read_ct_file", "Radius of the black spots: %f cm\n",
|
---|
1905 | ct_BlackSpot_rad);
|
---|
1906 |
|
---|
1907 | break;
|
---|
1908 |
|
---|
1909 | case r_mirror: // radius of the mirrors [cm]
|
---|
1910 |
|
---|
1911 | // get radius of mirror
|
---|
1912 |
|
---|
1913 | sscanf(line, "%s %f", token, &ct_RMirror);
|
---|
1914 |
|
---|
1915 | log( "read_ct_file", "Radii of the mirrors: %f cm\n", ct_RMirror );
|
---|
1916 |
|
---|
1917 | break;
|
---|
1918 |
|
---|
1919 | case n_mirrors: // number of mirrors
|
---|
1920 |
|
---|
1921 | // get the name of the output_file from the line
|
---|
1922 |
|
---|
1923 | sscanf(line, "%s %d", token, &ct_NMirrors);
|
---|
1924 |
|
---|
1925 | log( "read_ct_file", "Number of mirrors: %d\n", ct_NMirrors );
|
---|
1926 |
|
---|
1927 | break;
|
---|
1928 |
|
---|
1929 | case camera_width: // camera width [cm]
|
---|
1930 |
|
---|
1931 | // get the name of the ct_file from the line
|
---|
1932 |
|
---|
1933 | sscanf(line, "%s %f", token, &ct_CameraWidth);
|
---|
1934 |
|
---|
1935 | log( "read_ct_file", "Camera width: %f cm\n", ct_CameraWidth );
|
---|
1936 |
|
---|
1937 | break;
|
---|
1938 |
|
---|
1939 | case n_pixels: // number of pixels
|
---|
1940 |
|
---|
1941 | // get the name of the output_file from the line
|
---|
1942 |
|
---|
1943 | sscanf(line, "%s %d", token, &ct_NPixels);
|
---|
1944 |
|
---|
1945 | log( "read_ct_file", "Number of pixels: %d\n", ct_NPixels );
|
---|
1946 |
|
---|
1947 | break;
|
---|
1948 |
|
---|
1949 | case n_centralpixels: // number of central pixels
|
---|
1950 |
|
---|
1951 | // get the name of the output_file from the line
|
---|
1952 |
|
---|
1953 | sscanf(line, "%s %d", token, &ct_NCentralPixels);
|
---|
1954 |
|
---|
1955 | log( "read_ct_file", "Number of central pixels: %d\n", ct_NCentralPixels );
|
---|
1956 |
|
---|
1957 | break;
|
---|
1958 |
|
---|
1959 | case n_gappixels: // number of gap pixels
|
---|
1960 |
|
---|
1961 | // get the name of the output_file from the line
|
---|
1962 |
|
---|
1963 | sscanf(line, "%s %d", token, &ct_NGapPixels);
|
---|
1964 |
|
---|
1965 | log( "read_ct_file", "Number of gap pixels: %d\n", ct_NGapPixels );
|
---|
1966 |
|
---|
1967 | break;
|
---|
1968 |
|
---|
1969 | case pixel_width: // pixel width [cm]
|
---|
1970 |
|
---|
1971 | // get the name of the ct_file from the line
|
---|
1972 |
|
---|
1973 | sscanf(line, "%s %f", token, &ct_PixelWidth);
|
---|
1974 |
|
---|
1975 | ct_PixelWidth_corner_2_corner = ct_PixelWidth / cos(RAD(30.0));
|
---|
1976 | ct_PixelWidth_corner_2_corner_half =
|
---|
1977 | ct_PixelWidth_corner_2_corner * 0.50;
|
---|
1978 | ct_Apot = ct_PixelWidth / 2;
|
---|
1979 | ct_2Apot = ct_Apot * 2.0;
|
---|
1980 |
|
---|
1981 | log( "read_ct_file", "Pixel width: %f cm\n", ct_PixelWidth );
|
---|
1982 |
|
---|
1983 | break;
|
---|
1984 |
|
---|
1985 | case define_mirrors: // read table with the parameters of the mirrors
|
---|
1986 |
|
---|
1987 | log( "read_ct_file", "Table of mirrors data:\n" );
|
---|
1988 |
|
---|
1989 | // check whether the number of mirrors was already set
|
---|
1990 |
|
---|
1991 | if ( ct_NMirrors == 0 )
|
---|
1992 | error( "read_ct_file", "NMirrors was not set.\n" );
|
---|
1993 |
|
---|
1994 | // allocate memory for paths list
|
---|
1995 |
|
---|
1996 | log( "read_ct_file", "Allocating memory for ct_data\n" );
|
---|
1997 |
|
---|
1998 | ct_data = new float*[ct_NMirrors];
|
---|
1999 |
|
---|
2000 | for (i=0; i<ct_NMirrors; i++)
|
---|
2001 | ct_data[i] = new float[CT_NDATA];
|
---|
2002 |
|
---|
2003 | // read data
|
---|
2004 |
|
---|
2005 | log( "read_ct_file", "Reading mirrors data...\n" );
|
---|
2006 |
|
---|
2007 | for (i=0; i<ct_NMirrors; i++)
|
---|
2008 | for (j=0; j<CT_NDATA; j++)
|
---|
2009 | ctin >> ct_data[i][j];
|
---|
2010 |
|
---|
2011 | break;
|
---|
2012 |
|
---|
2013 | } // switch ( i )
|
---|
2014 |
|
---|
2015 | } // end while
|
---|
2016 |
|
---|
2017 | // end
|
---|
2018 |
|
---|
2019 | log( "read_ct_file", "done.\n" );
|
---|
2020 |
|
---|
2021 | return;
|
---|
2022 | }
|
---|
2023 | //!@}
|
---|
2024 |
|
---|
2025 |
|
---|
2026 | //!-----------------------------------------------------------
|
---|
2027 | // @name read_pixels
|
---|
2028 | //
|
---|
2029 | // @desc read pixels data
|
---|
2030 | //
|
---|
2031 | // @date Fri Mar 12 16:33:34 MET 1999
|
---|
2032 | //------------------------------------------------------------
|
---|
2033 | // @function
|
---|
2034 |
|
---|
2035 | //!@{
|
---|
2036 | void
|
---|
2037 | read_pixels(struct camera *pcam)
|
---|
2038 | {
|
---|
2039 | ifstream qefile;
|
---|
2040 | char line[LINE_MAX_LENGTH];
|
---|
2041 | int n, i, j, icount;
|
---|
2042 | float qe;
|
---|
2043 |
|
---|
2044 | //------------------------------------------------------------
|
---|
2045 | // first, pixels' coordinates
|
---|
2046 |
|
---|
2047 | pcam->inumpixels = ct_NPixels;
|
---|
2048 | pcam->inumcentralpixels = ct_NCentralPixels;
|
---|
2049 | pcam->inumgappixels = ct_NGapPixels;
|
---|
2050 | pcam->inumbigpixels = ct_NPixels - ct_NCentralPixels - ct_NGapPixels;
|
---|
2051 | pcam->dpixdiameter_cm = ct_PixelWidth;
|
---|
2052 |
|
---|
2053 | // initialize pixel numbers
|
---|
2054 |
|
---|
2055 | pixary = new float* [2*ct_NCentralPixels];
|
---|
2056 | for ( i=0; i<2*ct_NCentralPixels; ++i )
|
---|
2057 | pixary[i] = new float[2];
|
---|
2058 |
|
---|
2059 | pixneig = new int* [ct_NCentralPixels];
|
---|
2060 | for ( i=0; i<ct_NCentralPixels; ++i ) {
|
---|
2061 | pixneig[i] = new int[6];
|
---|
2062 | for ( j=0; j<6; ++j )
|
---|
2063 | pixneig[i][j] = -1;
|
---|
2064 | }
|
---|
2065 |
|
---|
2066 | npixneig = new int[ct_NCentralPixels];
|
---|
2067 | for ( i=0; i<ct_NCentralPixels; ++i )
|
---|
2068 | npixneig[i] = 0;
|
---|
2069 |
|
---|
2070 | // generate all coordinates
|
---|
2071 |
|
---|
2072 | igen_pixel_coordinates(pcam);
|
---|
2073 |
|
---|
2074 |
|
---|
2075 | // calculate tables of neighbours
|
---|
2076 |
|
---|
2077 | #ifdef __DEBUG__
|
---|
2078 | for ( n=0 ; n<ct_NPixels ; ++n ) {
|
---|
2079 | cout << "Para el pixel " << n << ": ";
|
---|
2080 | for ( i=n+1 ; (i<ct_NPixels)&&(npixneig[n]<6) ; ++i) {
|
---|
2081 | if ( pixels_are_neig(n,i) == TRUE ) {
|
---|
2082 | pixneig[n][npixneig[n]] = i;
|
---|
2083 | pixneig[i][npixneig[i]] = n;
|
---|
2084 | cout << i << ' ';
|
---|
2085 | ++npixneig[n];
|
---|
2086 | ++npixneig[i];
|
---|
2087 | }
|
---|
2088 | }
|
---|
2089 | cout << endl << flush;
|
---|
2090 | }
|
---|
2091 | #else // ! __DEBUG__
|
---|
2092 | for ( n=0 ; n<ct_NCentralPixels ; ++n )
|
---|
2093 | for ( i=n+1 ; (i<ct_NCentralPixels)&&(npixneig[n]<6) ; ++i)
|
---|
2094 | if ( pixels_are_neig(n,i) == TRUE ) {
|
---|
2095 | pixneig[n][npixneig[n]] = i;
|
---|
2096 | pixneig[i][npixneig[i]] = n;
|
---|
2097 | ++npixneig[n];
|
---|
2098 | ++npixneig[i];
|
---|
2099 | }
|
---|
2100 | #endif // ! __DEBUG__
|
---|
2101 |
|
---|
2102 | #ifdef __DEBUG__
|
---|
2103 | for ( n=0 ; n<ct_NPixels ; ++n ) {
|
---|
2104 | cout << n << ':';
|
---|
2105 | for ( j=0; j<npixneig[n]; ++j)
|
---|
2106 | cout << ' ' << pixneig[n][j];
|
---|
2107 | cout << endl << flush;
|
---|
2108 | }
|
---|
2109 | #endif // __DEBUG__
|
---|
2110 |
|
---|
2111 | //------------------------------------------------------------
|
---|
2112 | // second, pixels' QE
|
---|
2113 |
|
---|
2114 | // try to open the file
|
---|
2115 |
|
---|
2116 | log("read_pixels", "Opening the file \"%s\" . . .\n", QE_FILE);
|
---|
2117 |
|
---|
2118 | qefile.open( QE_FILE );
|
---|
2119 |
|
---|
2120 | // if it is wrong or does not exist, exit
|
---|
2121 |
|
---|
2122 | if ( qefile.bad() )
|
---|
2123 | error( "read_pixels", "Cannot open \"%s\". Exiting.\n", QE_FILE );
|
---|
2124 |
|
---|
2125 | // read file
|
---|
2126 |
|
---|
2127 | log("read_pixels", "Reading data . . .\n");
|
---|
2128 |
|
---|
2129 | i=-1;
|
---|
2130 | icount = 0;
|
---|
2131 |
|
---|
2132 | while ( ! qefile.eof() ) {
|
---|
2133 |
|
---|
2134 | // get line from the file
|
---|
2135 |
|
---|
2136 | qefile.getline(line, LINE_MAX_LENGTH);
|
---|
2137 |
|
---|
2138 | // skip if comment
|
---|
2139 |
|
---|
2140 | if ( *line == '#' )
|
---|
2141 | continue;
|
---|
2142 |
|
---|
2143 | // if it is the first valid value, it is the number of QE data points
|
---|
2144 |
|
---|
2145 | if ( i < 0 ) {
|
---|
2146 |
|
---|
2147 | // get the number of datapoints
|
---|
2148 |
|
---|
2149 | sscanf(line, "%d", &pointsQE);
|
---|
2150 |
|
---|
2151 | // allocate memory for the table of QEs
|
---|
2152 |
|
---|
2153 | QE = new float ** [ct_NPixels];
|
---|
2154 |
|
---|
2155 | for ( i=0; i<ct_NPixels; ++i ) {
|
---|
2156 | QE[i] = new float * [2];
|
---|
2157 | QE[i][0] = new float[pointsQE];
|
---|
2158 | QE[i][1] = new float[pointsQE];
|
---|
2159 | }
|
---|
2160 |
|
---|
2161 | QElambda = new float [pointsQE];
|
---|
2162 |
|
---|
2163 | for ( i=0; i<pointsQE; ++i ) {
|
---|
2164 | qefile.getline(line, LINE_MAX_LENGTH);
|
---|
2165 | sscanf(line, "%f", &QElambda[i]);
|
---|
2166 | }
|
---|
2167 |
|
---|
2168 | i=0;
|
---|
2169 |
|
---|
2170 | continue;
|
---|
2171 | }
|
---|
2172 |
|
---|
2173 | // get the values (num-pixel, num-datapoint, QE-value)
|
---|
2174 |
|
---|
2175 | if( sscanf(line, "%d %d %f", &i, &j, &qe) != 3 )
|
---|
2176 | break;
|
---|
2177 |
|
---|
2178 | if ( ((i-1) < ct_NPixels) && ((i-1) > -1) &&
|
---|
2179 | ((j-1) < pointsQE) && ((j-1) > -1) ) {
|
---|
2180 | QE[i-1][0][j-1] = QElambda[j-1];
|
---|
2181 | QE[i-1][1][j-1] = qe;
|
---|
2182 | }
|
---|
2183 |
|
---|
2184 | if ( i > ct_NPixels) break;
|
---|
2185 |
|
---|
2186 | icount++;
|
---|
2187 |
|
---|
2188 | }
|
---|
2189 |
|
---|
2190 | if(icount/pointsQE < ct_NPixels){
|
---|
2191 | error( "read_pixels", "The quantum efficiency file is faulty\n (found only %d pixels instead of %d).\n",
|
---|
2192 | icount/pointsQE, ct_NPixels );
|
---|
2193 | }
|
---|
2194 |
|
---|
2195 | // close file
|
---|
2196 |
|
---|
2197 | qefile.close();
|
---|
2198 |
|
---|
2199 | // test QE
|
---|
2200 |
|
---|
2201 | for(icount=0; icount< ct_NPixels; icount++){
|
---|
2202 | for(i=0; i<pointsQE; i++){
|
---|
2203 | if( QE[icount][0][i] < 100. || QE[icount][0][i] > 1000. ||
|
---|
2204 | QE[icount][1][i] < 0. || QE[icount][1][i] > 100.){
|
---|
2205 | error( "read_pixels", "The quantum efficiency file is faulty\n pixel %d, point %d is % f, %f\n",
|
---|
2206 | icount, i, QE[icount][0][i], QE[icount][1][i] );
|
---|
2207 | }
|
---|
2208 | }
|
---|
2209 | }
|
---|
2210 |
|
---|
2211 | // end
|
---|
2212 |
|
---|
2213 | log("read_pixels", "Done.\n");
|
---|
2214 |
|
---|
2215 | }
|
---|
2216 | //!@}
|
---|
2217 |
|
---|
2218 |
|
---|
2219 | //!-----------------------------------------------------------
|
---|
2220 | // @name pixels_are_neig
|
---|
2221 | //
|
---|
2222 | // @desc check whether two pixels are neighbours
|
---|
2223 | //
|
---|
2224 | // @var pix1 Number of the first pixel
|
---|
2225 | // @var pix2 Number of the second pixel
|
---|
2226 | // @return TRUE: both pixels are neighbours; FALSE: oth.
|
---|
2227 | //
|
---|
2228 | // @date Wed Sep 9 17:58:37 MET DST 1998
|
---|
2229 | //------------------------------------------------------------
|
---|
2230 | // @function
|
---|
2231 |
|
---|
2232 | //!@{
|
---|
2233 | int
|
---|
2234 | pixels_are_neig(int pix1, int pix2)
|
---|
2235 | {
|
---|
2236 | if ( sqrt(SQR( pixary[pix1][0] - pixary[pix2][0] ) +
|
---|
2237 | SQR( pixary[pix1][1] - pixary[pix2][1] ) )
|
---|
2238 | > ct_PixelWidth_corner_2_corner )
|
---|
2239 | return ( FALSE );
|
---|
2240 | else
|
---|
2241 | return ( TRUE );
|
---|
2242 | }
|
---|
2243 | //!@}
|
---|
2244 |
|
---|
2245 | //!-----------------------------------------------------------
|
---|
2246 | // @name igen_pixel_coordinates
|
---|
2247 | //
|
---|
2248 | // @desc generate the pixel center coordinates
|
---|
2249 | //
|
---|
2250 | // @var *pcam structure camera containing all the
|
---|
2251 | // camera information
|
---|
2252 | // @return total number of pixels
|
---|
2253 | //
|
---|
2254 | // DP
|
---|
2255 | //
|
---|
2256 | // @date Thu Oct 14 10:41:03 CEST 1999
|
---|
2257 | //------------------------------------------------------------
|
---|
2258 | // @function
|
---|
2259 |
|
---|
2260 | //!@{
|
---|
2261 | /******** igen_pixel_coordinates() *********************************/
|
---|
2262 |
|
---|
2263 | int igen_pixel_coordinates(struct camera *pcam) {
|
---|
2264 | /* generate pixel coordinates, return value is number of pixels */
|
---|
2265 |
|
---|
2266 | int i, itot_inside_ring, iN, in, ipixno, iring_no, ipix_in_ring, isegment;
|
---|
2267 | float fsegment_fract;
|
---|
2268 | double dtsize;
|
---|
2269 | double dhsize;
|
---|
2270 | double dpsize;
|
---|
2271 | double dxfirst_pix;
|
---|
2272 | double dyfirst_pix;
|
---|
2273 | double ddxseg1, ddxseg2, ddxseg3, ddxseg4, ddxseg5, ddxseg6;
|
---|
2274 | double ddyseg1, ddyseg2, ddyseg3, ddyseg4, ddyseg5, ddyseg6;
|
---|
2275 |
|
---|
2276 |
|
---|
2277 | double dstartx, dstarty; /* for the gap pixels and outer pixels */
|
---|
2278 | int j, nrow;
|
---|
2279 |
|
---|
2280 | dpsize = pcam->dpixdiameter_cm;
|
---|
2281 | dtsize = dpsize * sqrt(3.) / 2.;
|
---|
2282 | dhsize = dpsize / 2.;
|
---|
2283 |
|
---|
2284 | /* Loop over central pixels to generate co-ordinates */
|
---|
2285 |
|
---|
2286 | for(ipixno=1; ipixno <= pcam->inumcentralpixels; ipixno++){
|
---|
2287 |
|
---|
2288 | /* Initialise variables. The central pixel = ipixno 1 in ring iring_no 0 */
|
---|
2289 |
|
---|
2290 | pcam->dpixsizefactor[ipixno-1] = 1.;
|
---|
2291 |
|
---|
2292 | in = 0;
|
---|
2293 |
|
---|
2294 | i = 0;
|
---|
2295 | itot_inside_ring = 0;
|
---|
2296 | iring_no = 0;
|
---|
2297 |
|
---|
2298 | /* Calculate the number of pixels out to and including the ring containing pixel number */
|
---|
2299 | /* ipixno e.g. for pixel number 17 in ring number 2 itot_inside_ring = 19 */
|
---|
2300 |
|
---|
2301 | while (itot_inside_ring == 0){
|
---|
2302 |
|
---|
2303 | iN = 3*(i*(i+1)) + 1;
|
---|
2304 |
|
---|
2305 | if (ipixno <= iN){
|
---|
2306 | iring_no = i;
|
---|
2307 | itot_inside_ring = iN;
|
---|
2308 | }
|
---|
2309 |
|
---|
2310 | i++;
|
---|
2311 | }
|
---|
2312 |
|
---|
2313 |
|
---|
2314 | /* Find the number of pixels which make up ring number iring_no e.g. ipix_in_ring = 6 for ring 1 */
|
---|
2315 |
|
---|
2316 | ipix_in_ring = 0;
|
---|
2317 | for (i = 0; i < iring_no; ++i){
|
---|
2318 |
|
---|
2319 | ipix_in_ring = ipix_in_ring + 6;
|
---|
2320 | }
|
---|
2321 |
|
---|
2322 | /* The camera is viewed as 6 radial segments ("pie slices"). Knowing the number of pixels in its */
|
---|
2323 | /* ring calculate which segment the pixel ipixno is in. Then find how far across this segment it is */
|
---|
2324 | /* as a fraction of the number of pixels in this sixth of the ring (ask SMB). */
|
---|
2325 |
|
---|
2326 | isegment = 0;
|
---|
2327 | fsegment_fract = 0.;
|
---|
2328 | if (iring_no > 0) {
|
---|
2329 |
|
---|
2330 | isegment = (int)((ipixno - itot_inside_ring + ipix_in_ring - 0.5) / iring_no + 1); /* integer division ! numbering starts at 1 */
|
---|
2331 |
|
---|
2332 | fsegment_fract = (ipixno - (itot_inside_ring - ipix_in_ring)) - ((isegment-1)*iring_no) - 1 ;
|
---|
2333 |
|
---|
2334 | }
|
---|
2335 |
|
---|
2336 | /* the first pixel in each ring lies on the positive x axis at a distance dxfirst_pix = iring_no * the */
|
---|
2337 | /* pixel width (flat to flat) dpsize. */
|
---|
2338 |
|
---|
2339 | dxfirst_pix = dpsize*iring_no;
|
---|
2340 | dyfirst_pix = 0.;
|
---|
2341 |
|
---|
2342 | /* the vector between the first and last pixels in a segment n is (ddxsegn, ddysegn) */
|
---|
2343 |
|
---|
2344 | ddxseg1 = - dhsize*iring_no;
|
---|
2345 | ddyseg1 = dtsize*iring_no;
|
---|
2346 | ddxseg2 = -dpsize*iring_no;
|
---|
2347 | ddyseg2 = 0.;
|
---|
2348 | ddxseg3 = ddxseg1;
|
---|
2349 | ddyseg3 = -ddyseg1;
|
---|
2350 | ddxseg4 = -ddxseg1;
|
---|
2351 | ddyseg4 = -ddyseg1;
|
---|
2352 | ddxseg5 = -ddxseg2;
|
---|
2353 | ddyseg5 = 0.;
|
---|
2354 | ddxseg6 = -ddxseg1;
|
---|
2355 | ddyseg6 = ddyseg1;
|
---|
2356 |
|
---|
2357 | /* to find the position of pixel ipixno take the position of the first pixel in the ring and move */
|
---|
2358 | /* anti-clockwise around the ring by adding the segment to segment vectors. */
|
---|
2359 |
|
---|
2360 | switch (isegment) {
|
---|
2361 |
|
---|
2362 | case 0:
|
---|
2363 |
|
---|
2364 | pcam->dxc[ipixno-1] = 0.;
|
---|
2365 | pcam->dyc[ipixno-1] = 0.;
|
---|
2366 |
|
---|
2367 | case 1:
|
---|
2368 | pcam->dxc[ipixno-1] = dxfirst_pix - dhsize*fsegment_fract;
|
---|
2369 | pcam->dyc[ipixno-1] = dyfirst_pix + dtsize*fsegment_fract;
|
---|
2370 |
|
---|
2371 | break;
|
---|
2372 |
|
---|
2373 | case 2:
|
---|
2374 |
|
---|
2375 | pcam->dxc[ipixno-1] = dxfirst_pix + ddxseg1 - dpsize*fsegment_fract;
|
---|
2376 | pcam->dyc[ipixno-1] = dyfirst_pix + ddyseg1 + 0.;
|
---|
2377 |
|
---|
2378 | break;
|
---|
2379 |
|
---|
2380 | case 3:
|
---|
2381 |
|
---|
2382 | pcam->dxc[ipixno-1] = dxfirst_pix + ddxseg1 + ddxseg2 - dhsize*fsegment_fract;
|
---|
2383 | pcam->dyc[ipixno-1] = dyfirst_pix + ddyseg1 + ddyseg2 - dtsize*fsegment_fract;
|
---|
2384 |
|
---|
2385 | break;
|
---|
2386 |
|
---|
2387 | case 4:
|
---|
2388 |
|
---|
2389 | pcam->dxc[ipixno-1] = dxfirst_pix + ddxseg1 + ddxseg2 + ddxseg3 + dhsize*fsegment_fract;
|
---|
2390 | pcam->dyc[ipixno-1] = dyfirst_pix + ddyseg1 + ddyseg2 + ddyseg3 - dtsize*fsegment_fract;
|
---|
2391 |
|
---|
2392 | break;
|
---|
2393 |
|
---|
2394 | case 5:
|
---|
2395 |
|
---|
2396 | pcam->dxc[ipixno-1] = dxfirst_pix + ddxseg1 + ddxseg2 + ddxseg3 + ddxseg4 + dpsize*fsegment_fract;
|
---|
2397 | pcam->dyc[ipixno-1] = dyfirst_pix + ddyseg1 + ddyseg2 + ddyseg3 + ddyseg4 + 0.;
|
---|
2398 |
|
---|
2399 | break;
|
---|
2400 |
|
---|
2401 | case 6:
|
---|
2402 |
|
---|
2403 | pcam->dxc[ipixno-1] = dxfirst_pix + ddxseg1 + ddxseg2 + ddxseg3 + ddxseg4 + ddxseg5 + dhsize*fsegment_fract;
|
---|
2404 | pcam->dyc[ipixno-1] = dyfirst_pix + ddyseg1 + ddyseg2 + ddyseg3 + ddyseg4 + ddyseg5 + dtsize*fsegment_fract;
|
---|
2405 |
|
---|
2406 | break;
|
---|
2407 |
|
---|
2408 | default:
|
---|
2409 |
|
---|
2410 | fprintf(stderr, "ERROR: problem in coordinate generation for pixel %d\n", ipixno);
|
---|
2411 | return(0);
|
---|
2412 |
|
---|
2413 | } /* end switch */
|
---|
2414 |
|
---|
2415 | } /* end for */
|
---|
2416 |
|
---|
2417 | dstartx = pcam->dxc[pcam->inumcentralpixels - 1] + dhsize;
|
---|
2418 | dstarty = pcam->dyc[pcam->inumcentralpixels - 1] + dtsize;
|
---|
2419 |
|
---|
2420 | if(pcam->inumgappixels > 0){ /* generate the positions of the gap pixels */
|
---|
2421 |
|
---|
2422 | j = pcam->inumcentralpixels;
|
---|
2423 |
|
---|
2424 | for(i=0; i<pcam->inumgappixels; i=i+6){
|
---|
2425 | pcam->dxc[j + i ] = dstartx + 2. * (i/6 + 1) * dpsize;
|
---|
2426 | pcam->dyc[j + i ] = dstarty;
|
---|
2427 | pcam->dpixsizefactor[j + i] = 1.;
|
---|
2428 | pcam->dxc[j + i + 1] = pcam->dxc[j + i ] / 2.;
|
---|
2429 | pcam->dyc[j + i + 1] = sqrt(3.) * pcam->dxc[j + i + 1];
|
---|
2430 | pcam->dpixsizefactor[j + i + 1] = 1.;
|
---|
2431 | pcam->dxc[j + i + 2] = - pcam->dxc[j + i + 1];
|
---|
2432 | pcam->dyc[j + i + 2] = pcam->dyc[j + i + 1];
|
---|
2433 | pcam->dpixsizefactor[j + i+ 2] = 1.;
|
---|
2434 | pcam->dxc[j + i + 3] = - pcam->dxc[j + i];
|
---|
2435 | pcam->dyc[j + i + 3] = dstarty;
|
---|
2436 | pcam->dpixsizefactor[j + i+ 3] = 1.;
|
---|
2437 | pcam->dxc[j + i + 4] = pcam->dxc[j + i + 2];
|
---|
2438 | pcam->dyc[j + i + 4] = - pcam->dyc[j + i + 2];
|
---|
2439 | pcam->dpixsizefactor[j + i+ 4] = 1.;
|
---|
2440 | pcam->dxc[j + i + 5] = pcam->dxc[j + i + 1];
|
---|
2441 | pcam->dyc[j + i + 5] = - pcam->dyc[j + i + 1];
|
---|
2442 | pcam->dpixsizefactor[j + i + 5] = 1.;
|
---|
2443 | } /* end for */
|
---|
2444 | } /* end if */
|
---|
2445 |
|
---|
2446 | /* generate positions of the outer pixels */
|
---|
2447 |
|
---|
2448 | if( pcam->inumbigpixels > 0 ){
|
---|
2449 |
|
---|
2450 | j = pcam->inumcentralpixels + pcam->inumgappixels;
|
---|
2451 |
|
---|
2452 | for(i=0; i<pcam->inumbigpixels; i++){
|
---|
2453 | pcam->dpixsizefactor[j + i] = 2.;
|
---|
2454 | }
|
---|
2455 |
|
---|
2456 | in = 0;
|
---|
2457 |
|
---|
2458 | nrow = (int) ceil(dstartx / 2. / dpsize);
|
---|
2459 |
|
---|
2460 | while(in < pcam->inumbigpixels){
|
---|
2461 |
|
---|
2462 | pcam->dxc[j + in] = dstartx + dpsize;
|
---|
2463 | pcam->dyc[j + in] = dstarty + 2 * dpsize / sqrt(3.);
|
---|
2464 | pcam->dxc[j + in + nrow] = dstartx / 2. - dpsize / 2.;
|
---|
2465 | pcam->dyc[j + in + nrow] = sqrt(3.)/2. * dstartx + 2.5 * dpsize/sqrt(3.);
|
---|
2466 | pcam->dxc[j + in + 3 * nrow - 1] = - pcam->dxc[j + in];
|
---|
2467 | pcam->dyc[j + in + 3 * nrow - 1] = pcam->dyc[j + in];
|
---|
2468 | pcam->dxc[j + in + 3 * nrow] = - pcam->dxc[j + in];
|
---|
2469 | pcam->dyc[j + in + 3 * nrow] = - pcam->dyc[j + in];
|
---|
2470 | pcam->dxc[j + in + 5 * nrow - 1] = pcam->dxc[j + in + nrow];
|
---|
2471 | pcam->dyc[j + in + 5 * nrow - 1] = - pcam->dyc[j + in + nrow];
|
---|
2472 | pcam->dxc[j + in + 6 * nrow - 1] = pcam->dxc[j + in];
|
---|
2473 | pcam->dyc[j + in + 6 * nrow - 1] = - pcam->dyc[j + in];
|
---|
2474 | for(i=1; i<nrow; i++){
|
---|
2475 | pcam->dxc[j + in + i] = pcam->dxc[j + in] - i * dpsize;
|
---|
2476 | pcam->dyc[j + in + i] = pcam->dyc[j + in] + i * dpsize * sqrt(3.);
|
---|
2477 | pcam->dxc[j + in + i + nrow] = pcam->dxc[j + in + nrow] - i * 2 * dpsize;
|
---|
2478 | pcam->dyc[j + in + i + nrow] = pcam->dyc[j + in + nrow];
|
---|
2479 | pcam->dxc[j + in + 3 * nrow - 1 - i] = - pcam->dxc[j + in + i];
|
---|
2480 | pcam->dyc[j + in + 3 * nrow - 1- i] = pcam->dyc[j + in + i];
|
---|
2481 | pcam->dxc[j + in + i + 3 * nrow] = - pcam->dxc[j + in + i];
|
---|
2482 | pcam->dyc[j + in + i + 3 * nrow] = - pcam->dyc[j + in + i];
|
---|
2483 | pcam->dxc[j + in + 5 * nrow - 1 - i] = pcam->dxc[j + in + i + nrow];
|
---|
2484 | pcam->dyc[j + in + 5 * nrow - 1 - i] = - pcam->dyc[j + in + i + nrow];
|
---|
2485 | pcam->dxc[j + in + 6 * nrow - 1 - i] = pcam->dxc[j + in + i];
|
---|
2486 | pcam->dyc[j + in + 6 * nrow - 1 - i] = - pcam->dyc[j + in + i];
|
---|
2487 | }
|
---|
2488 | in = in + 6 * nrow;
|
---|
2489 | dstartx = dstartx + 2. * dpsize;
|
---|
2490 | nrow = nrow + 1;
|
---|
2491 | } /* end while */
|
---|
2492 |
|
---|
2493 | } /* end if */
|
---|
2494 |
|
---|
2495 | return(pcam->inumpixels);
|
---|
2496 |
|
---|
2497 | }
|
---|
2498 | //!@}
|
---|
2499 |
|
---|
2500 | //!-----------------------------------------------------------
|
---|
2501 | // @name bpoint_is_in_pix
|
---|
2502 | //
|
---|
2503 | // @desc check if a point (x,y) in camera coordinates is inside a given pixel
|
---|
2504 | //
|
---|
2505 | // @var *pcam structure camera containing all the
|
---|
2506 | // camera information
|
---|
2507 | // @var dx, dy point coordinates in centimeters
|
---|
2508 | // @var ipixnum pixel number (starting at 0)
|
---|
2509 | // @return TRUE if the point is inside the pixel, FALSE otherwise
|
---|
2510 | //
|
---|
2511 | // DP
|
---|
2512 | //
|
---|
2513 | // @date Thu Oct 14 16:59:04 CEST 1999
|
---|
2514 | //------------------------------------------------------------
|
---|
2515 | // @function
|
---|
2516 |
|
---|
2517 | //!@{
|
---|
2518 |
|
---|
2519 | /******** bpoint_is_in_pix() ***************************************/
|
---|
2520 |
|
---|
2521 | int bpoint_is_in_pix(double dx, double dy, int ipixnum, struct camera *pcam){
|
---|
2522 | /* return TRUE if point (dx, dy) is in pixel number ipixnum, else return FALSE (use camera coordinate system) */
|
---|
2523 | /* the pixel is assumed to be a "closed set" */
|
---|
2524 |
|
---|
2525 | double a, b; /* a = length of one of the edges of one pixel, b = half the width of one pixel */
|
---|
2526 | double c, xx, yy; /* auxiliary variable */
|
---|
2527 |
|
---|
2528 | b = pcam->dpixdiameter_cm / 2. * pcam->dpixsizefactor[ipixnum];
|
---|
2529 | a = pcam->dpixdiameter_cm / sqrt(3.) * pcam->dpixsizefactor[ipixnum];
|
---|
2530 | c = 1./sqrt(3.);
|
---|
2531 |
|
---|
2532 | if((ipixnum < 0)||(ipixnum >= pcam->inumpixels)){
|
---|
2533 | fprintf(stderr, "Error in bpoint_is_in_pix: invalid pixel number %d\n", ipixnum);
|
---|
2534 | fprintf(stderr, "Exiting.\n");
|
---|
2535 | exit(203);
|
---|
2536 | }
|
---|
2537 | xx = dx - pcam->dxc[ipixnum];
|
---|
2538 | yy = dy - pcam->dyc[ipixnum];
|
---|
2539 |
|
---|
2540 | if(((-b <= xx) && (xx <= 0.) && ((-c * xx - a) <= yy) && (yy <= ( c * xx + a))) ||
|
---|
2541 | ((0. < xx) && (xx <= b ) && (( c * xx - a) <= yy) && (yy <= (-c * xx + a))) ){
|
---|
2542 | return(TRUE); /* point is inside */
|
---|
2543 | }
|
---|
2544 | else{
|
---|
2545 | return(FALSE); /* point is outside */
|
---|
2546 | }
|
---|
2547 | }
|
---|
2548 |
|
---|
2549 | //!@}
|
---|
2550 |
|
---|
2551 | //------------------------------------------------------------
|
---|
2552 | // @name dist_r_P
|
---|
2553 | //
|
---|
2554 | // @desc distance straight line r - point P
|
---|
2555 | //
|
---|
2556 | // @date Sat Jun 27 05:58:56 MET DST 1998
|
---|
2557 | // @function @code
|
---|
2558 | //------------------------------------------------------------
|
---|
2559 | // dist_r_P
|
---|
2560 | //
|
---|
2561 | // distance straight line r - point P
|
---|
2562 | //------------------------------------------------------------
|
---|
2563 |
|
---|
2564 | float
|
---|
2565 | dist_r_P(float a, float b, float c,
|
---|
2566 | float l, float m, float n,
|
---|
2567 | float x, float y, float z)
|
---|
2568 | {
|
---|
2569 | return (
|
---|
2570 | sqrt((SQR((a-x)*m-(b-y)*l) +
|
---|
2571 | SQR((b-y)*n-(c-z)*m) +
|
---|
2572 | SQR((c-z)*l-(a-x)*n))/
|
---|
2573 | (SQR(l)+SQR(m)+SQR(n))
|
---|
2574 | )
|
---|
2575 | );
|
---|
2576 | }
|
---|
2577 |
|
---|
2578 | //------------------------------------------------------------
|
---|
2579 | // @name check_reflector_file
|
---|
2580 | //
|
---|
2581 | // @desc check if a given reflector file has the right signature
|
---|
2582 | // @desc return TRUE or FALSE
|
---|
2583 | //
|
---|
2584 | // @date Mon Feb 14 16:44:21 CET 2000
|
---|
2585 | // @function @code
|
---|
2586 | //------------------------------------------------------------
|
---|
2587 |
|
---|
2588 | int check_reflector_file(FILE *infile){
|
---|
2589 |
|
---|
2590 | char Signature[20]; // auxiliary variable
|
---|
2591 | char sign[20]; // auxiliary variable
|
---|
2592 |
|
---|
2593 | strcpy(Signature, REFL_SIGNATURE);
|
---|
2594 |
|
---|
2595 | strcpy(sign, Signature);
|
---|
2596 |
|
---|
2597 | fread( (char *)sign, strlen(Signature), 1, infile);
|
---|
2598 |
|
---|
2599 | if (strcmp(sign, Signature) != 0) {
|
---|
2600 | cout << "ERROR: Signature of .rfl file is not correct\n";
|
---|
2601 | cout << '"' << sign << '"' << '\n';
|
---|
2602 | cout << "should be: " << Signature << '\n';
|
---|
2603 | return(FALSE);
|
---|
2604 | }
|
---|
2605 |
|
---|
2606 | fread( (char *)sign, 1, 1, infile);
|
---|
2607 |
|
---|
2608 | return(TRUE);
|
---|
2609 |
|
---|
2610 | }
|
---|
2611 |
|
---|
2612 | //------------------------------------------------------------
|
---|
2613 | // @name lin_interpol
|
---|
2614 | //
|
---|
2615 | // @desc interpolate linearly between two points returning the
|
---|
2616 | // @desc y-value of the result
|
---|
2617 | //
|
---|
2618 | // @date Thu Feb 17 11:31:32 CET 2000
|
---|
2619 | // @function @code
|
---|
2620 | //------------------------------------------------------------
|
---|
2621 |
|
---|
2622 | float lin_interpol( float x1, float y1, float x2, float y2, float x){
|
---|
2623 |
|
---|
2624 | if( (x2 - x1)<=0. ){ // avoid division by zero, return average
|
---|
2625 | cout << "Warning: lin_interpol was asked to interpolate between two points with x1>=x2.\n";
|
---|
2626 | return((y1+y2)/2.);
|
---|
2627 | }
|
---|
2628 | else{ // note: the check whether x1 < x < x2 is omitted for speed reasons
|
---|
2629 | return((float) (y1 + (y2-y1)/(x2-x1)*(x-x1)) );
|
---|
2630 | }
|
---|
2631 | }
|
---|
2632 |
|
---|
2633 |
|
---|
2634 | //------------------------------------------------------------
|
---|
2635 | // @name produce_phes
|
---|
2636 | //
|
---|
2637 | // @desc read the photons of an event, pixelize them and simulate QE
|
---|
2638 | // @desc return various statistics and the array of Photoelectrons
|
---|
2639 | //
|
---|
2640 | // @date Mon Feb 14 16:44:21 CET 2000
|
---|
2641 | // @function @code
|
---|
2642 | //------------------------------------------------------------
|
---|
2643 |
|
---|
2644 | int produce_phes( FILE *sp, // the input file
|
---|
2645 | struct camera *cam, // the camera layout
|
---|
2646 | float minwl_nm, // the minimum accepted wavelength
|
---|
2647 | float maxwl_nm, // the maximum accepted wavelength
|
---|
2648 | class MTrigger *trigger, // the generated phes
|
---|
2649 | class MFadc *fadc,
|
---|
2650 | int *itotnphe, // total number of produced photoelectrons
|
---|
2651 | float nphe[iMAXNUMPIX], // number of photoelectrons in each pixel
|
---|
2652 | int *incph, // total number of cph read
|
---|
2653 | float *tmin_ns, // minimum arrival time of all phes
|
---|
2654 | float *tmax_ns // maximum arrival time of all phes
|
---|
2655 | ){
|
---|
2656 |
|
---|
2657 | static int i, k, ipixnum;
|
---|
2658 | static float cx, cy, wl, qe, t;
|
---|
2659 | static MCCphoton photon;
|
---|
2660 | static float **qept;
|
---|
2661 | static char flag[SIZE_OF_FLAGS + 1];
|
---|
2662 | static float radius;
|
---|
2663 |
|
---|
2664 |
|
---|
2665 | // reset variables
|
---|
2666 |
|
---|
2667 | for ( i=0; i<cam->inumpixels; ++i ){
|
---|
2668 |
|
---|
2669 | nphe[i] = 0.0;
|
---|
2670 |
|
---|
2671 | }
|
---|
2672 |
|
---|
2673 | *incph = 0;
|
---|
2674 |
|
---|
2675 | radius = cam->dxc[cam->inumpixels-1]
|
---|
2676 | + 1.5*cam->dpixdiameter_cm*cam->dpixsizefactor[cam->inumpixels-1];
|
---|
2677 |
|
---|
2678 | //- - - - - - - - - - - - - - - - - - - - - - - - -
|
---|
2679 | // read photons and "map" them into the pixels
|
---|
2680 | //--------------------------------------------------
|
---|
2681 |
|
---|
2682 | // initialize CPhoton
|
---|
2683 |
|
---|
2684 | photon.fill(0., 0., 0., 0., 0., 0., 0., 0.);
|
---|
2685 |
|
---|
2686 | // read the photons data
|
---|
2687 |
|
---|
2688 | fread ( flag, SIZE_OF_FLAGS, 1, sp );
|
---|
2689 |
|
---|
2690 | // loop over the photons
|
---|
2691 |
|
---|
2692 | while ( !isA( flag, FLAG_END_OF_EVENT ) ) {
|
---|
2693 |
|
---|
2694 | memcpy( (char*)&photon, flag, SIZE_OF_FLAGS );
|
---|
2695 |
|
---|
2696 | fread( ((char*)&photon)+SIZE_OF_FLAGS, photon.mysize()-SIZE_OF_FLAGS, 1, sp );
|
---|
2697 |
|
---|
2698 | // increase number of photons
|
---|
2699 |
|
---|
2700 | (*incph)++;
|
---|
2701 |
|
---|
2702 | // Chceck if photon is inside trigger time range
|
---|
2703 |
|
---|
2704 | t = photon.get_t() ;
|
---|
2705 |
|
---|
2706 | if (t-*tmin_ns>TOTAL_TRIGGER_TIME) {
|
---|
2707 |
|
---|
2708 | // read next Photon
|
---|
2709 |
|
---|
2710 | fread( flag, SIZE_OF_FLAGS, 1, sp );
|
---|
2711 |
|
---|
2712 | // go to beginning of loop, the photon is lost
|
---|
2713 | continue;
|
---|
2714 | }
|
---|
2715 |
|
---|
2716 | //
|
---|
2717 | // Pixelization
|
---|
2718 | //
|
---|
2719 |
|
---|
2720 | cx = photon.get_x();
|
---|
2721 | cy = photon.get_y();
|
---|
2722 |
|
---|
2723 | // get wavelength
|
---|
2724 |
|
---|
2725 | wl = photon.get_wl();
|
---|
2726 |
|
---|
2727 | // cout << "wl " << wl << " radius " << sqrt(cx*cx + cy*cy) << "\n";
|
---|
2728 |
|
---|
2729 | // check if photon has valid wavelength and is inside outermost camera radius
|
---|
2730 |
|
---|
2731 | if( (wl > maxwl_nm) || (wl < minwl_nm) || (sqrt(cx*cx + cy*cy) > radius ) ){
|
---|
2732 |
|
---|
2733 | // cout << " lost first check\n";
|
---|
2734 |
|
---|
2735 | // read next CPhoton
|
---|
2736 |
|
---|
2737 | fread ( flag, SIZE_OF_FLAGS, 1, sp );
|
---|
2738 |
|
---|
2739 | // go to beginning of loop, the photon is lost
|
---|
2740 | continue;
|
---|
2741 |
|
---|
2742 | }
|
---|
2743 |
|
---|
2744 | ipixnum = -1;
|
---|
2745 |
|
---|
2746 | for(i=0; i<cam->inumpixels; i++){
|
---|
2747 | if( bpoint_is_in_pix( cx, cy, i, cam) ){
|
---|
2748 | ipixnum = i;
|
---|
2749 | break;
|
---|
2750 | }
|
---|
2751 | }
|
---|
2752 |
|
---|
2753 | if(ipixnum==-1){// the photon is in none of the pixels
|
---|
2754 |
|
---|
2755 | // cout << " lost pixlization\n";
|
---|
2756 |
|
---|
2757 | // read next CPhoton
|
---|
2758 |
|
---|
2759 | fread ( flag, SIZE_OF_FLAGS, 1, sp );
|
---|
2760 |
|
---|
2761 | // go to beginning of loop, the photon is lost
|
---|
2762 | continue;
|
---|
2763 | }
|
---|
2764 |
|
---|
2765 | if(ipixnum==0) {// the phton is in the central pixel, which is not used for trigger
|
---|
2766 | // read next CPhoton
|
---|
2767 |
|
---|
2768 | fread ( flag, SIZE_OF_FLAGS, 1, sp );
|
---|
2769 |
|
---|
2770 | // go to beginning of loop, the photon is lost
|
---|
2771 | continue;
|
---|
2772 | }
|
---|
2773 | //+++
|
---|
2774 | // QE simulation
|
---|
2775 | //---
|
---|
2776 |
|
---|
2777 | // set pointer to the QE table of the relevant pixel
|
---|
2778 |
|
---|
2779 | qept = (float **)QE[ipixnum];
|
---|
2780 |
|
---|
2781 | // check if wl is inside table; outside the table, QE is assumed to be zero
|
---|
2782 |
|
---|
2783 |
|
---|
2784 | if((wl < qept[0][0]) || (wl > qept[0][pointsQE-1])){
|
---|
2785 |
|
---|
2786 | // cout << " lost\n";
|
---|
2787 |
|
---|
2788 | // read next Photon
|
---|
2789 |
|
---|
2790 | fread ( flag, SIZE_OF_FLAGS, 1, sp );
|
---|
2791 |
|
---|
2792 | // go to beginning of loop
|
---|
2793 | continue;
|
---|
2794 |
|
---|
2795 | }
|
---|
2796 |
|
---|
2797 | // find data point in the QE table (-> k)
|
---|
2798 |
|
---|
2799 | k = 1; // start at 1 because the condition was already tested for 0
|
---|
2800 | while (k < pointsQE-1 && qept[0][k] < wl){
|
---|
2801 | k++;
|
---|
2802 | }
|
---|
2803 |
|
---|
2804 | // calculate the qe value between 0. and 1.
|
---|
2805 |
|
---|
2806 | qe = lin_interpol(qept[0][k-1], qept[1][k-1], qept[0][k], qept[1][k], wl) / 100.0;
|
---|
2807 |
|
---|
2808 | // if random > quantum efficiency, reject it
|
---|
2809 |
|
---|
2810 | if ( (RandomNumber) > qe ) {
|
---|
2811 |
|
---|
2812 | // cout << " lost\n";
|
---|
2813 |
|
---|
2814 | // read next Photon
|
---|
2815 |
|
---|
2816 | fread ( flag, SIZE_OF_FLAGS, 1, sp );
|
---|
2817 |
|
---|
2818 | // go to beginning of loop
|
---|
2819 | continue;
|
---|
2820 |
|
---|
2821 | }
|
---|
2822 |
|
---|
2823 | //+++
|
---|
2824 | // The photon has produced a photo electron
|
---|
2825 | //---
|
---|
2826 |
|
---|
2827 | // cout << " accepted\n";
|
---|
2828 |
|
---|
2829 | // increment the number of photoelectrons in the relevant pixel
|
---|
2830 |
|
---|
2831 | nphe[ipixnum] += 1.0;
|
---|
2832 |
|
---|
2833 | // store the new photoelectron
|
---|
2834 |
|
---|
2835 | fadc->Fill(ipixnum,(t-*tmin_ns) , trigger->FillShow(ipixnum,t-*tmin_ns));
|
---|
2836 |
|
---|
2837 | *itotnphe += 1;
|
---|
2838 |
|
---|
2839 | // read next Photon
|
---|
2840 |
|
---|
2841 | fread( flag, SIZE_OF_FLAGS, 1, sp );
|
---|
2842 |
|
---|
2843 | } // end while, i.e. found end of event
|
---|
2844 |
|
---|
2845 | return(0);
|
---|
2846 |
|
---|
2847 | }
|
---|
2848 |
|
---|
2849 |
|
---|
2850 | //------------------------------------------------------------
|
---|
2851 | // @name produce_nsbrates
|
---|
2852 | //
|
---|
2853 | // @desc read the starfield file, call produce_phes on it in,
|
---|
2854 | // @desc different wavebands, calculate the nsbrates
|
---|
2855 | //
|
---|
2856 | // @date Mon Feb 14 16:44:21 CET 2000
|
---|
2857 | // @function @code
|
---|
2858 | //------------------------------------------------------------
|
---|
2859 |
|
---|
2860 | int produce_nsbrates( char *iname, // the starfield input file name
|
---|
2861 | struct camera *cam, // camera layout
|
---|
2862 | float rate_phepns[iMAXNUMPIX][iNUMWAVEBANDS] // the product of this function:
|
---|
2863 | // the NSB rates in phe/ns for each pixel
|
---|
2864 | ){
|
---|
2865 |
|
---|
2866 | int i, j, k, ii; // counters
|
---|
2867 |
|
---|
2868 | MTrigger trigger(Trigger_gate_length, Trigger_overlaping_time, Trigger_response_ampl, Trigger_response_fwhm);
|
---|
2869 | MFadc flashadc;
|
---|
2870 |
|
---|
2871 | static float wl_nm[iNUMWAVEBANDS + 1] = { WAVEBANDBOUND1,
|
---|
2872 | WAVEBANDBOUND2,
|
---|
2873 | WAVEBANDBOUND3,
|
---|
2874 | WAVEBANDBOUND4,
|
---|
2875 | WAVEBANDBOUND5,
|
---|
2876 | WAVEBANDBOUND6 };
|
---|
2877 |
|
---|
2878 | FILE *infile; // the input file
|
---|
2879 | fpos_t fileposition; // marker on the input file
|
---|
2880 | static char cflag[SIZE_OF_FLAGS + 1]; // auxiliary variable
|
---|
2881 | static MCEventHeader evth; // the event header
|
---|
2882 | static float nphe[iMAXNUMPIX]; // the number of photoelectrons in each pixel
|
---|
2883 | int itnphe; // total number of produced photoelectrons
|
---|
2884 | int itotnphe; // total number of produced photoelectrons after averaging
|
---|
2885 | int incph; // total number of cph read
|
---|
2886 | float tmin_ns; // minimum arrival time of all phes
|
---|
2887 | float tmax_ns; // maximum arrival time of all phes
|
---|
2888 | float integtime_ns; // integration time from the starfield generator
|
---|
2889 |
|
---|
2890 | // open input file
|
---|
2891 |
|
---|
2892 | log(SIGNATURE, "Opening starfield input \"rfl\" file %s\n", iname );
|
---|
2893 |
|
---|
2894 | infile = fopen( iname, "r" );
|
---|
2895 |
|
---|
2896 | // check if the satrfield input file exists
|
---|
2897 |
|
---|
2898 | if ( infile == NULL ) {
|
---|
2899 |
|
---|
2900 | log( SIGNATURE, "Cannot open starfield input file: %s\n", iname );
|
---|
2901 |
|
---|
2902 | log( SIGNATURE, "There is not NSB from the Stars\n");
|
---|
2903 |
|
---|
2904 | return (0);
|
---|
2905 | }
|
---|
2906 |
|
---|
2907 | // get signature, and check it
|
---|
2908 |
|
---|
2909 | if(check_reflector_file(infile)==FALSE){
|
---|
2910 | exit(1);
|
---|
2911 | }
|
---|
2912 |
|
---|
2913 | // initialize flag
|
---|
2914 |
|
---|
2915 | strcpy( cflag, " \0" );
|
---|
2916 |
|
---|
2917 | // get flag
|
---|
2918 |
|
---|
2919 | fread( cflag, SIZE_OF_FLAGS, 1, infile );
|
---|
2920 |
|
---|
2921 | if ( ! feof(infile)){
|
---|
2922 |
|
---|
2923 | // reading .rfl file
|
---|
2924 |
|
---|
2925 | if(!isA( cflag, FLAG_START_OF_RUN )){
|
---|
2926 | error( SIGNATURE, "Expected start of run flag, but found: %s\n", cflag );
|
---|
2927 | }
|
---|
2928 | else { // found start of run
|
---|
2929 |
|
---|
2930 | fread( cflag, SIZE_OF_FLAGS, 1, infile );
|
---|
2931 |
|
---|
2932 | if( isA( cflag, FLAG_START_OF_EVENT )){ // there is a event
|
---|
2933 |
|
---|
2934 | // get MCEventHeader
|
---|
2935 |
|
---|
2936 | fread( (char*)&evth, evth.mysize(), 1, infile );
|
---|
2937 |
|
---|
2938 | integtime_ns = evth.get_energy();
|
---|
2939 |
|
---|
2940 | // memorize where we are in the file
|
---|
2941 |
|
---|
2942 | if (fgetpos( infile, &fileposition ) != 0){
|
---|
2943 | error( SIGNATURE, "Cannot position in file ...\n");
|
---|
2944 | }
|
---|
2945 |
|
---|
2946 | // loop over the wavebands
|
---|
2947 |
|
---|
2948 | for(i=0; i<iNUMWAVEBANDS; i++){
|
---|
2949 |
|
---|
2950 | // initialize the rate array
|
---|
2951 |
|
---|
2952 | for(j = 0; j<cam->inumpixels; j++){ // loop over pixels
|
---|
2953 | rate_phepns[j][i] = 0.;
|
---|
2954 | }
|
---|
2955 |
|
---|
2956 | itotnphe = 0;
|
---|
2957 |
|
---|
2958 | // read the photons and produce the photoelectrons
|
---|
2959 | // - in order to average over the QE simulation, call the
|
---|
2960 | // production function iNUMNSBPRODCALLS times
|
---|
2961 |
|
---|
2962 | for(ii=0; ii<iNUMNSBPRODCALLS; ii++){
|
---|
2963 |
|
---|
2964 | // position the file pointer to the beginning of the photons
|
---|
2965 |
|
---|
2966 | fsetpos( infile, &fileposition);
|
---|
2967 |
|
---|
2968 | // produce photoelectrons
|
---|
2969 |
|
---|
2970 | k = produce_phes( infile,
|
---|
2971 | cam,
|
---|
2972 | wl_nm[i],
|
---|
2973 | wl_nm[i+1],
|
---|
2974 | &trigger, // this is a dummy here
|
---|
2975 | &flashadc, // this is a dummy here
|
---|
2976 | &itnphe,
|
---|
2977 | nphe, // we want this!
|
---|
2978 | &incph,
|
---|
2979 | &tmin_ns,
|
---|
2980 | &tmax_ns );
|
---|
2981 |
|
---|
2982 | if( k != 0 ){ // non-zero returnvalue means error
|
---|
2983 | cout << "Exiting.\n";
|
---|
2984 | exit(1);
|
---|
2985 | }
|
---|
2986 |
|
---|
2987 | for(j = 0; j<cam->inumpixels; j++){ // loop over pixels
|
---|
2988 | rate_phepns[j][i] += nphe[j]/integtime_ns/(float)iNUMNSBPRODCALLS;
|
---|
2989 | }
|
---|
2990 |
|
---|
2991 | itotnphe += itnphe;
|
---|
2992 |
|
---|
2993 | } // end for(ii=0 ...
|
---|
2994 |
|
---|
2995 | fprintf(stdout, "Starfield, %6f - %6f nm: %d photoelectrons for %6f ns integration time\n",
|
---|
2996 | wl_nm[i], wl_nm[i+1], itotnphe/iNUMNSBPRODCALLS, integtime_ns);
|
---|
2997 |
|
---|
2998 | } // end for(i=0 ...
|
---|
2999 |
|
---|
3000 | }
|
---|
3001 | else{
|
---|
3002 | cout << "Starfield file contains no event.\nExiting.\n";
|
---|
3003 | exit(1);
|
---|
3004 | } // end if( isA ... event
|
---|
3005 | } // end if ( isA ... run
|
---|
3006 | }
|
---|
3007 | else{
|
---|
3008 | cout << "Starfield file contains no run.\nExiting.\n";
|
---|
3009 | exit(1);
|
---|
3010 | }
|
---|
3011 |
|
---|
3012 | fclose( infile );
|
---|
3013 |
|
---|
3014 | return(0);
|
---|
3015 |
|
---|
3016 | }
|
---|
3017 |
|
---|
3018 |
|
---|
3019 | //------------------------------------------------------------
|
---|
3020 | // @name produce_nsb_phes
|
---|
3021 | //
|
---|
3022 | // @desc produce the photoelectrons from the nsbrates
|
---|
3023 | //
|
---|
3024 | // @date Thu Feb 17 17:10:40 CET 2000
|
---|
3025 | // @function @code
|
---|
3026 | //------------------------------------------------------------
|
---|
3027 |
|
---|
3028 | int produce_nsb_phes( float *atmin_ns,
|
---|
3029 | float *atmax_ns,
|
---|
3030 | float theta_rad,
|
---|
3031 | struct camera *cam,
|
---|
3032 | float nsbr_phepns[iMAXNUMPIX][iNUMWAVEBANDS],
|
---|
3033 | float difnsbr_phepns[iMAXNUMPIX],
|
---|
3034 | float extinction[iNUMWAVEBANDS],
|
---|
3035 | float fnpx[iMAXNUMPIX],
|
---|
3036 | MTrigger *trigger,
|
---|
3037 | MFadc *fadc,
|
---|
3038 | int *inphe,
|
---|
3039 | float base_mv[iMAXNUMPIX]){
|
---|
3040 |
|
---|
3041 | float simtime_ns; // NSB simulation time
|
---|
3042 | int i, j, k, ii;
|
---|
3043 | float zenfactor; // correction factor calculated from the extinction
|
---|
3044 | int inumnsbphe; // number of photoelectrons caused by NSB
|
---|
3045 |
|
---|
3046 | float t;
|
---|
3047 | TRandom random; // Random numbers generator
|
---|
3048 |
|
---|
3049 | random.SetSeed ((UInt_t) (RandomNumber*1000));
|
---|
3050 |
|
---|
3051 | ii = *inphe; // avoid dereferencing
|
---|
3052 |
|
---|
3053 | // check if the arrival times are set; if not generate them
|
---|
3054 |
|
---|
3055 | if(*atmin_ns <SIMTIMEOFFSET_NS || *atmin_ns > *atmax_ns){
|
---|
3056 | *atmin_ns = 0.;
|
---|
3057 | *atmax_ns = simtime_ns = TOTAL_TRIGGER_TIME;
|
---|
3058 |
|
---|
3059 | }
|
---|
3060 | else{ // extend the event time window by the given offsets
|
---|
3061 |
|
---|
3062 | *atmin_ns = *atmin_ns - SIMTIMEOFFSET_NS;
|
---|
3063 | *atmax_ns = *atmax_ns + SIMTIMEOFFSET_NS;
|
---|
3064 |
|
---|
3065 | simtime_ns = *atmax_ns - *atmin_ns;
|
---|
3066 |
|
---|
3067 | // make sure the simulated time is long enough for the FADC
|
---|
3068 | // simulation and not too long
|
---|
3069 |
|
---|
3070 | if(simtime_ns< TOTAL_TRIGGER_TIME){
|
---|
3071 | *atmin_ns = *atmin_ns -(TOTAL_TRIGGER_TIME-simtime_ns)/2;
|
---|
3072 | *atmax_ns = *atmin_ns + TOTAL_TRIGGER_TIME;
|
---|
3073 | simtime_ns = TOTAL_TRIGGER_TIME;
|
---|
3074 | }
|
---|
3075 |
|
---|
3076 | if(simtime_ns> TOTAL_TRIGGER_TIME){
|
---|
3077 | *atmax_ns =*atmin_ns + TOTAL_TRIGGER_TIME;
|
---|
3078 | simtime_ns = TOTAL_TRIGGER_TIME;
|
---|
3079 | }
|
---|
3080 |
|
---|
3081 | }
|
---|
3082 |
|
---|
3083 | // initialize baselines
|
---|
3084 |
|
---|
3085 | for(i=0; i<cam->inumpixels; i++){
|
---|
3086 | base_mv[i] = 0.;
|
---|
3087 | }
|
---|
3088 |
|
---|
3089 | // calculate baselines and generate phes
|
---|
3090 |
|
---|
3091 | for(i=0; i<iNUMWAVEBANDS; i++){ // loop over the wavebands
|
---|
3092 |
|
---|
3093 | // calculate the effect of the atmospheric extinction
|
---|
3094 |
|
---|
3095 | zenfactor = pow(10., -0.4 * extinction[i]/cos(theta_rad) );
|
---|
3096 |
|
---|
3097 | for(j=0; j<cam->inumpixels; j++){ // loop over the pixels
|
---|
3098 |
|
---|
3099 | inumnsbphe = (int) ((zenfactor * nsbr_phepns[j][i] + difnsbr_phepns[j]/iNUMWAVEBANDS)
|
---|
3100 | * simtime_ns );
|
---|
3101 |
|
---|
3102 | base_mv[j] += inumnsbphe;
|
---|
3103 |
|
---|
3104 | // randomize
|
---|
3105 |
|
---|
3106 | if (inumnsbphe>0.0){
|
---|
3107 | inumnsbphe = random.Poisson (inumnsbphe );
|
---|
3108 | }
|
---|
3109 |
|
---|
3110 | // create the photoelectrons
|
---|
3111 |
|
---|
3112 | for(k=0; k < inumnsbphe; k++){
|
---|
3113 |
|
---|
3114 | t=(RandomNumber * simtime_ns);
|
---|
3115 |
|
---|
3116 | (*fadc).Fill(j,t ,(*trigger).FillNSB(j,t));
|
---|
3117 |
|
---|
3118 | ii++; // increment total number of photoelectons
|
---|
3119 |
|
---|
3120 | fnpx[j] += 1.; // increment number of photoelectrons in this pixel
|
---|
3121 |
|
---|
3122 | }
|
---|
3123 |
|
---|
3124 | } // end for(j=0 ...
|
---|
3125 | } // end for(i=0 ...
|
---|
3126 |
|
---|
3127 | // finish baseline calculation
|
---|
3128 |
|
---|
3129 | for(i=0; i<cam->inumpixels; i++){
|
---|
3130 | base_mv[i] *= RESPONSE_FWHM * RESPONSE_AMPLITUDE / simtime_ns;
|
---|
3131 | }
|
---|
3132 |
|
---|
3133 | *inphe = ii; // update the pointer
|
---|
3134 |
|
---|
3135 | return(0);
|
---|
3136 | }
|
---|
3137 |
|
---|
3138 |
|
---|
3139 | // @endcode
|
---|
3140 |
|
---|
3141 |
|
---|
3142 | //=------------------------------------------------------------
|
---|
3143 | //!@subsection Log of this file.
|
---|
3144 |
|
---|
3145 | //!@{
|
---|
3146 | //
|
---|
3147 | // $Log: not supported by cvs2svn $
|
---|
3148 | // Revision 1.16 2001/01/18 18:44:40 magicsol
|
---|
3149 | // *** empty log message ***
|
---|
3150 | //
|
---|
3151 | // Revision 1.15 2001/01/17 09:32:27 harald
|
---|
3152 | // The changes are neccessary to have the same name for trees in MC and in
|
---|
3153 | // data. So now there should be no differences in MC data and real data from
|
---|
3154 | // FADC system.
|
---|
3155 | //
|
---|
3156 | // Revision 1.14 2001/01/15 12:33:34 magicsol
|
---|
3157 | // Some modifications have been done to use the new (Dec'2000) Raw data format.
|
---|
3158 | // There are also some minnors modifications to adapt the improvements in the
|
---|
3159 | // MTrigger class (overlaping time and trigger cells).
|
---|
3160 | //
|
---|
3161 | // Revision 1.13 2000/10/25 08:14:23 magicsol
|
---|
3162 | // The routine that produce poisson random numbers to decide how many phe
|
---|
3163 | // form NSB are emmited in each pixel has been replaced. Now a ROOT routine
|
---|
3164 | // is used.
|
---|
3165 | //
|
---|
3166 | // Revision 1.12 2000/09/22 17:40:18 harald
|
---|
3167 | // Added a lot of changes done by oscar.
|
---|
3168 | //
|
---|
3169 | // Revision 1.11 2000/09/21 11:47:33 harald
|
---|
3170 | // Oscar found some smaller errors in the calculation of the pixel shape and
|
---|
3171 | // corrected it.
|
---|
3172 | //
|
---|
3173 | // $Log: not supported by cvs2svn $
|
---|
3174 | // Revision 1.16 2001/01/18 18:44:40 magicsol
|
---|
3175 | // *** empty log message ***
|
---|
3176 | //
|
---|
3177 | // Revision 1.15 2001/01/17 09:32:27 harald
|
---|
3178 | // The changes are neccessary to have the same name for trees in MC and in
|
---|
3179 | // data. So now there should be no differences in MC data and real data from
|
---|
3180 | // FADC system.
|
---|
3181 | //
|
---|
3182 | // Revision 1.14 2001/01/15 12:33:34 magicsol
|
---|
3183 | // Some modifications have been done to use the new (Dec'2000) Raw data format.
|
---|
3184 | // There are also some minnors modifications to adapt the improvements in the
|
---|
3185 | // MTrigger class (overlaping time and trigger cells).
|
---|
3186 | //
|
---|
3187 | // Revision 1.13 2000/10/25 08:14:23 magicsol
|
---|
3188 | // The routine that produce poisson random numbers to decide how many phe
|
---|
3189 | // form NSB are emmited in each pixel has been replaced. Now a ROOT routine
|
---|
3190 | // is used.
|
---|
3191 | //
|
---|
3192 | // Revision 1.10 2000/07/04 14:10:20 MagicSol
|
---|
3193 | // Some changes have been done in the root output file. The RawEvt tree is only
|
---|
3194 | // stored in the single trigger mode.
|
---|
3195 | // The trigger input parameters are also given by the general input card.
|
---|
3196 | // The diffuse NSB and the star NSB have been decoupled. Now the contribution of
|
---|
3197 | // each one can be studied seperately.
|
---|
3198 | //
|
---|
3199 | // Revision 1.9 2000/06/13 13:25:24 blanch
|
---|
3200 | // The multiple arrays have been replaced, since they do not work
|
---|
3201 | // in alpha machines. Now we are using pointers and the command new
|
---|
3202 | // to allocate memory.
|
---|
3203 | //
|
---|
3204 | // Revision 1.8 2000/05/11 13:57:27 blanch
|
---|
3205 | // The option to loop over several trigger configurations has been included.
|
---|
3206 | // Some non-sense with triggertime range has been solved.
|
---|
3207 | // Montecarlo information and ADC counts are saved in a root file.
|
---|
3208 | // There was a problem with the maximum number of phe that the program could analyse. Now there is not limit.
|
---|
3209 | //
|
---|
3210 | // Revision 1.7 2000/03/24 18:10:46 blanch
|
---|
3211 | // A first FADC simulation and a trigger simulation are already implemented.
|
---|
3212 | // The calculation of the Hillas Parameters have been removed, since it was decided that it should be in the analysis software.
|
---|
3213 | // A loop over trigger threshold and some corretcions in the time range where it looks for a trigger will be implemented as soon as possible.
|
---|
3214 | //
|
---|
3215 | // Revision 1.6 2000/03/20 18:35:11 blanch
|
---|
3216 | // The trigger is already implemented but it does not save the trigger information in any file as it is implemented in timecam. In the next days there will be a version which also creates the files with the trigger information. It is going to be a mixing of the current camera and timecam programs.
|
---|
3217 | //
|
---|
3218 | // Revision 1.5 2000/02/18 17:40:35 petry
|
---|
3219 | // This version includes drastic changes compared to camera.cxx 1.4.
|
---|
3220 | // It is not yet finished and not immediately useful because the
|
---|
3221 | // trigger simulation is not yet re-implemented. I had to take it
|
---|
3222 | // out together with some other stuff in order to tidy the whole
|
---|
3223 | // program up. This is not meant as an insult to anyone. I needed
|
---|
3224 | // to do this in order to be able to work on it.
|
---|
3225 | //
|
---|
3226 | // This version has been put in the repository in order to be
|
---|
3227 | // able to share the further development with others.
|
---|
3228 | //
|
---|
3229 | // If you need something working, wait or take an earlier one.
|
---|
3230 | // See file README.
|
---|
3231 | //
|
---|
3232 | // Revision 1.4 2000/01/25 08:36:23 petry
|
---|
3233 | // The pixelization in previous versions was buggy.
|
---|
3234 | // This is the first version with a correct pixelization.
|
---|
3235 | //
|
---|
3236 | // Revision 1.3 2000/01/20 18:22:17 petry
|
---|
3237 | // Found little bug which makes camera crash if it finds a photon
|
---|
3238 | // of invalid wavelength. This bug is now fixed and the range
|
---|
3239 | // of valid wavelengths extended to 290 - 800 nm.
|
---|
3240 | // This is in preparation for the NSB simulation to come.
|
---|
3241 | // Dirk
|
---|
3242 | //
|
---|
3243 | // Revision 1.2 1999/11/19 08:40:42 harald
|
---|
3244 | // Now it is possible to compile the camera programm under osf1.
|
---|
3245 | //
|
---|
3246 | // Revision 1.1.1.1 1999/11/05 11:59:31 harald
|
---|
3247 | // This the starting point for CVS controlled further developments of the
|
---|
3248 | // camera program. The program was originally written by Jose Carlos.
|
---|
3249 | // But here you can find a "rootified" version to the program. This means
|
---|
3250 | // that there is no hbook stuff in it now. Also the output of the
|
---|
3251 | // program changed to the MagicRawDataFormat.
|
---|
3252 | //
|
---|
3253 | // The "rootification" was done by Dirk Petry and Harald Kornmayer.
|
---|
3254 | //
|
---|
3255 | // Revision 1.3 1999/10/22 15:01:28 petry
|
---|
3256 | // version sent to H.K. and N.M. on Fri Oct 22 1999
|
---|
3257 | //
|
---|
3258 | // Revision 1.2 1999/10/22 09:44:23 petry
|
---|
3259 | // first synthesized version which compiles and runs without crashing;
|
---|
3260 | //
|
---|
3261 | // Revision 1.1.1.1 1999/10/21 16:35:10 petry
|
---|
3262 | // first synthesised version
|
---|
3263 | //
|
---|
3264 | // Revision 1.13 1999/03/15 14:59:05 gonzalez
|
---|
3265 | // camera-1_1
|
---|
3266 | //
|
---|
3267 | // Revision 1.12 1999/03/02 09:56:10 gonzalez
|
---|
3268 | // *** empty log message ***
|
---|
3269 | //
|
---|
3270 | //
|
---|
3271 | //!@}
|
---|
3272 |
|
---|
3273 | //=EOF
|
---|