1 | /* ======================================================================== *\
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2 | !
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3 | ! *
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4 | ! * This file is part of MARS, the MAGIC Analysis and Reconstruction
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5 | ! * Software. It is distributed to you in the hope that it can be a useful
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6 | ! * and timesaving tool in analysing Data of imaging Cerenkov telescopes.
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7 | ! * It is distributed WITHOUT ANY WARRANTY.
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8 | ! *
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9 | ! * Permission to use, copy, modify and distribute this software and its
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10 | ! * documentation for any purpose is hereby granted without fee,
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11 | ! * provided that the above copyright notice appear in all copies and
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12 | ! * that both that copyright notice and this permission notice appear
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13 | ! * in supporting documentation. It is provided "as is" without express
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14 | ! * or implied warranty.
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15 | ! *
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16 | !
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17 | !
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18 | ! Author(s): Thomas Bretz 12/2000 <mailto:tbretz@astro.uni-wuerzburg.de>
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19 | ! Author(s): Harald Kornmayer 1/2001
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20 | ! Author(s): Abelardo Moralejo 2/2005 <mailto:moralejo@pd.infn.it>
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21 | !
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22 | ! Copyright: MAGIC Software Development, 2000-2005
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23 | !
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24 | !
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25 | \* ======================================================================== */
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26 |
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27 | //////////////////////////////////////////////////////////////////////////////
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28 | // //
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29 | // MHMcCollectionArea //
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30 | // //
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31 | //////////////////////////////////////////////////////////////////////////////
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32 |
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33 | #include "MHMcCollectionArea.h"
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34 |
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35 | #include <TH2.h>
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36 | #include <TH3.h>
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37 | #include <TCanvas.h>
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38 | #include <THStack.h>
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39 | #include <TLegend.h>
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40 | #include <TArrayD.h>
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41 |
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42 | #include "MH.h"
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43 | #include "MBinning.h"
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44 |
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45 | #include "MLog.h"
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46 | #include "MLogManip.h"
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47 |
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48 |
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49 | ClassImp(MHMcCollectionArea);
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50 |
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51 | using namespace std;
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52 |
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53 | ////////////////////////////////////////////////////////////////////////////////
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54 | //
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55 | // Constructor. Creates the three necessary histograms:
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56 | // - selected showers (input)
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57 | // - all showers (input)
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58 | // - collection area (result)
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59 | //
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60 | MHMcCollectionArea::MHMcCollectionArea(const char *name, const char *title):
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61 | fImpactBins(50), fImpactMax(500.), fMinEvents(10)
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62 | {
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63 | fName = name ? name : "CollectionArea";
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64 | fTitle = title ? title : "Collection Area vs. Theta vs. Energy";
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65 |
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66 | //
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67 | // Initialize the histogram for the distribution
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68 | // Theta vs impact parameter vs E (z, y, x)
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69 | //
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70 | // As default we set the energy range from 2 Gev to 20000 GeV (in log 4
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71 | // orders of magnitude) and for each order we take 25 subdivisions -->
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72 | // 100 xbins. We set the radius range from 0 m to 500 m with 10 m bin -->
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73 | // 50 ybins. We make bins equally spaced in cos(theta)
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74 | //
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75 | // The coarse binning (of fHistColCoarse) is not set by default, the
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76 | // PreProcess of mmc/MMcCollectionAreaCalc will do it with the binnings
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77 | // found in the parameter list.
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78 | //
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79 |
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80 | MBinning binsx;
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81 | MBinning binsy;
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82 | MBinning binsz;
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83 |
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84 | Int_t nbins = 32;
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85 | TArrayD edges(nbins+1);
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86 |
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87 | edges[0] = 0;
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88 |
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89 | for(int i = 0; i < nbins; i++)
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90 | {
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91 | Double_t x = 1 - i*0.01; // x = cos(theta)
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92 | edges[i+1] = acos(x-0.005)*kRad2Deg;
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93 | }
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94 |
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95 | binsx.SetEdgesLog(100, 2., 20000); // Energy [GeV]
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96 | binsy.SetEdges (fImpactBins, 0, fImpactMax); // Impact parameter [m]
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97 | binsz.SetEdges (edges); // Theta [deg]
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98 |
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99 | fHistAll = new TH3D();
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100 | fHistSel = new TH3D();
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101 | fHistCol = new TH2D();
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102 | fHistColCoarse = new TH2D();
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103 |
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104 | MH::SetBinning(fHistAll, &binsx, &binsy, &binsz);
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105 | MH::SetBinning(fHistSel, &binsx, &binsy, &binsz);
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106 |
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107 | fHistColCoarse->SetName(fName);
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108 | fHistCol->SetName("CollAreaFineBins");
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109 | fHistAll->SetName("AllEvents");
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110 | fHistSel->SetName("SelectedEvents");
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111 |
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112 | fHistAll->Sumw2();
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113 | fHistSel->Sumw2();
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114 |
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115 | fHistColCoarse->SetTitle(fTitle);
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116 | fHistCol->SetTitle(fTitle);
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117 | fHistAll->SetTitle("All showers - Theta vs Radius vs Energy");
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118 | fHistSel->SetTitle("Selected showers - Theta vs Radius vs Energy");
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119 |
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120 | fHistAll->SetDirectory(NULL);
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121 | fHistSel->SetDirectory(NULL);
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122 | fHistCol->SetDirectory(NULL);
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123 | fHistColCoarse->SetDirectory(NULL);
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124 |
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125 | fHistAll->UseCurrentStyle();
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126 | fHistSel->UseCurrentStyle();
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127 | fHistCol->UseCurrentStyle();
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128 | fHistColCoarse->UseCurrentStyle();
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129 |
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130 | fHistAll->SetXTitle("E [GeV]");
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131 | fHistAll->SetYTitle("r [m]");
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132 | fHistAll->SetZTitle("\\theta [\\circ]");
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133 |
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134 | fHistSel->SetXTitle("E [GeV]");
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135 | fHistSel->SetYTitle("r [m]");
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136 | fHistSel->SetZTitle("\\theta [\\circ]");
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137 |
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138 | fHistCol->SetXTitle("E [GeV]");
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139 | fHistCol->SetYTitle("\\theta [\\circ]");
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140 | fHistCol->SetZTitle("A [m^{2}]");
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141 |
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142 | fHistColCoarse->SetXTitle("E [GeV]");
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143 | fHistColCoarse->SetYTitle("\\theta [\\circ]");
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144 | fHistColCoarse->SetZTitle("A [m^{2}]");
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145 | }
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146 |
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147 | // --------------------------------------------------------------------------
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148 | //
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149 | // Delete the three histograms
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150 | //
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151 | MHMcCollectionArea::~MHMcCollectionArea()
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152 | {
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153 | delete fHistAll;
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154 | delete fHistSel;
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155 | delete fHistCol;
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156 | }
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157 |
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158 | // --------------------------------------------------------------------------
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159 | //
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160 | // Set the (fine) binnings of histograms fHistAll, fHistSel used in the
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161 | // calculations. We do not need to change impact parameter binning.
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162 | //
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163 | void MHMcCollectionArea::SetBinnings(const MBinning &binsEnergy,
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164 | const MBinning &binsTheta)
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165 | {
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166 | MBinning binsImpact;
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167 | binsImpact.SetEdges(fImpactBins, 0., fImpactMax);
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168 |
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169 | MH::SetBinning(fHistAll, &binsEnergy, &binsImpact, &binsTheta);
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170 | MH::SetBinning(fHistSel, &binsEnergy, &binsImpact, &binsTheta);
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171 |
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172 | fHistAll->Sumw2();
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173 | fHistSel->Sumw2();
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174 | }
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175 |
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176 |
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177 | // --------------------------------------------------------------------------
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178 | //
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179 | // Set the binnings of the histogram fHistColCoarse, the effective areas
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180 | // in the coarse bins used in the analysis.
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181 | //
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182 | //
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183 | void MHMcCollectionArea::SetCoarseBinnings(const MBinning &binsEnergy,
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184 | const MBinning &binsTheta)
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185 | {
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186 | MH::SetBinning(fHistColCoarse, &binsEnergy, &binsTheta);
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187 | }
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188 |
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189 | // --------------------------------------------------------------------------
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190 | //
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191 | // Fill data into the histogram which contains all showers
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192 | //
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193 | void MHMcCollectionArea::FillAll(Double_t energy, Double_t radius, Double_t theta)
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194 | {
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195 | fHistAll->Fill(energy, radius, theta);
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196 | }
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197 |
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198 | // --------------------------------------------------------------------------
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199 | //
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200 | // Fill data into the histogram which contains the selected showers
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201 | //
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202 | void MHMcCollectionArea::FillSel(Double_t energy, Double_t radius, Double_t theta)
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203 | {
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204 | fHistSel->Fill(energy, radius, theta);
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205 | }
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206 |
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207 | // --------------------------------------------------------------------------
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208 | //
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209 | // Draw
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210 | //
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211 | void MHMcCollectionArea::Draw(Option_t* option)
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212 | {
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213 | //
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214 | // Lego plot
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215 | //
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216 | TCanvas *c1 = new TCanvas();
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217 | c1->SetLogx();
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218 | c1->SetLogz();
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219 | c1->SetGridx();
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220 | c1->SetGridy();
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221 |
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222 | fHistCol->Draw("lego2");
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223 |
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224 | //
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225 | // Averagye Aeff
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226 | //
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227 | TCanvas *c2 = new TCanvas();
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228 | c2->SetLogx();
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229 | c2->SetLogy();
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230 | c2->SetGridx();
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231 | c2->SetGridy();
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232 |
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233 | TH1D* harea = fHistCol->ProjectionX();
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234 | harea->Draw("e1");
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235 |
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236 | //
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237 | // Plot the Aeff for the different theta
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238 | //
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239 | TCanvas *c3 = new TCanvas();
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240 | c3->SetLogx();
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241 | c3->SetLogy();
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242 | c3->SetGridx();
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243 | c3->SetGridy();
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244 |
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245 | TLegend * leg = new TLegend(0.73,0.65,0.89,0.89);
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246 |
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247 | TAxis* yaxis = fHistCol->GetYaxis();
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248 | const Int_t nbiny = fHistCol->GetYaxis()->GetNbins();
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249 |
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250 | THStack* hs = new THStack("aa","aa");
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251 |
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252 | hs->Add(harea,"e1");
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253 | leg->AddEntry(harea,"All","l");
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254 |
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255 | for(Int_t iy=1; iy<=nbiny; iy++)
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256 | {
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257 |
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258 | TH1D* h1= fHistCol->ProjectionX(Form("%d",iy),iy,iy);
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259 |
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260 | if(h1->GetEntries()==0)
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261 | continue;
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262 |
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263 | cout <<h1->GetEntries() << endl;
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264 |
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265 | leg->AddEntry(h1,Form("\\theta = %.0f",yaxis->GetBinCenter(iy)),"l");
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266 | h1->SetLineColor(iy);
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267 | hs->Add(h1,"e1");
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268 | }
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269 | hs->SetMinimum(1);
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270 |
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271 | hs->Draw("nostack");
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272 | leg->Draw();
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273 |
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274 | }
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275 |
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276 | // --------------------------------------------------------------------------
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277 | //
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278 | // Calculate the collection area and set the 'ReadyToSave' flag
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279 | // We first calculate the area in fine energy bins, and then do a
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280 | // weighted mean to obtain the area in coarse bins. The weights in
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281 | // the coarse bins are intended to account for the effect of the
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282 | // energy spectrum in the effective area itself. The weights
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283 | // are taken from the tentative differential spectrum dN_gam/dE given
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284 | // through the function "spectrum". If no such function is supplied,
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285 | // then no weights are applied (and hence the spectrum will be as a
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286 | // flat spectrum in dN_gam/dE). Of course we have a "generated" MC
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287 | // spectrum, but within each fine bin the differences in spectrum
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288 | // should not change the result (if bins are fine enough). With no
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289 | // supplied tentative spectrum, each fine bin is weighted equally in
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290 | // calculating the area in the coarse bin, and so it is like having a
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291 | // flat spectrum.
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292 | //
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293 | // You can run this Calc procedure on an already existing
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294 | // MHMcCollectionArea object, as long as it is filled.
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295 | //
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296 | void MHMcCollectionArea::Calc(TF1 *spectrum)
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297 | {
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298 | // Search last impact parameter bin containing events
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299 | // FIXME: this should be done independently for each theta angle.
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300 | //
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301 | TH1D &himpact = *(TH1D*)fHistAll->Project3D("y");
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302 |
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303 | Int_t impbin;
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304 | for (impbin = himpact.GetNbinsX(); impbin > 0; impbin--)
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305 | if (himpact.GetBinContent(impbin)>0)
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306 | break;
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307 |
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308 | Float_t max_radius = himpact.GetBinLowEdge(impbin);
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309 |
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310 | Float_t total_area = TMath::Pi()*max_radius*max_radius;
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311 |
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312 | for (Int_t ix = 1; ix <= fHistAll->GetNbinsX(); ix++)
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313 | for (Int_t iz = 1; iz <= fHistAll->GetNbinsZ(); iz++)
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314 | {
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315 | fHistAll->SetBinContent(ix, impbin, iz, 0.);
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316 | fHistSel->SetBinContent(ix, impbin, iz, 0.);
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317 | fHistAll->SetBinError(ix, impbin, iz, 0.);
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318 | fHistSel->SetBinError(ix, impbin, iz, 0.);
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319 | }
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320 |
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321 | TH2D &histsel = *(TH2D*)fHistSel->Project3D("zx,e");
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322 | TH2D &histall = *(TH2D*)fHistAll->Project3D("zx,e");
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323 | // "e" option means that errors are computed!
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324 |
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325 |
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326 | TAxis &xaxis = *histsel.GetXaxis();
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327 | TAxis &yaxis = *histsel.GetYaxis();
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328 | MH::SetBinning(fHistCol, &xaxis, &yaxis);
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329 |
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330 | cout << "Total considered MC area = pi * " << max_radius
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331 | << "^2 square meters" << endl;
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332 |
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333 | fHistCol->Sumw2();
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334 | fHistCol->Divide(&histsel, &histall, total_area, 1., "b");
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335 |
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336 | //
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337 | // Now get the effective area in the selected coarse bins. Weight
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338 | // the values in the small bins according the supplied tentative
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339 | // spectrum, if it has been supplied as argument of Calc.
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340 | //
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341 |
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342 | for (Int_t ibin = 1; ibin <= fHistColCoarse->GetNbinsX(); ibin++)
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343 | for (Int_t jbin = 1; jbin <= fHistColCoarse->GetNbinsY(); jbin++)
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344 | {
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345 | Float_t maxenergy = fHistColCoarse->GetXaxis()->GetBinUpEdge(ibin);
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346 | Float_t minenergy = fHistColCoarse->GetXaxis()->GetBinLowEdge(ibin);
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347 |
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348 | Float_t maxtheta = fHistColCoarse->GetYaxis()->GetBinUpEdge(jbin);
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349 | Float_t mintheta = fHistColCoarse->GetYaxis()->GetBinLowEdge(jbin);
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350 |
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351 | // Fine bins ranges covered by the coarse bin ibin, jbin:
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352 | Int_t ibin2max = fHistCol->GetXaxis()->FindBin(maxenergy);
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353 | Int_t ibin2min = fHistCol->GetXaxis()->FindBin(minenergy);
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354 |
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355 | Int_t jbin2max = fHistCol->GetYaxis()->FindBin(maxtheta);
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356 | Int_t jbin2min = fHistCol->GetYaxis()->FindBin(mintheta);
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357 |
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358 | Float_t area = 0.;
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359 | Float_t errarea = 0.;
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360 | Float_t norm = 0;
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361 |
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362 | for (Int_t ibin2 = ibin2min; ibin2 <= ibin2max; ibin2++)
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363 | {
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364 | Float_t weight = spectrum? spectrum->
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365 | Eval(fHistCol->GetXaxis()->GetBinCenter(ibin2)) : 1.;
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366 |
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367 | for (Int_t jbin2 = jbin2min; jbin2 <= jbin2max; jbin2++)
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368 | {
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369 | // Skip bins with too few produced MC events
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370 | if (histall.GetBinContent(ibin2,jbin2) < fMinEvents)
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371 | continue;
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372 |
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373 | area += weight * fHistCol->GetBinContent(ibin2,jbin2);
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374 | norm += weight;
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375 | errarea += pow(weight * fHistCol->
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376 | GetBinError(ibin2,jbin2), 2.);
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377 | }
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378 | }
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379 | if (norm > 0.)
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380 | {
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381 | area /= norm;
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382 | errarea = sqrt(errarea)/norm;
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383 | }
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384 |
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385 | fHistColCoarse->SetBinContent(ibin, jbin, area);
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386 | fHistColCoarse->SetBinError(ibin, jbin, errarea);
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387 | }
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388 |
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389 | SetReadyToSave();
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390 | }
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391 |
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392 |
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