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30 | f9daq | 1 | #include "TROOT.h" |
2 | #include "TFile.h" |
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3 | #include "TBenchmark.h" |
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4 | #include "TH1F.h" |
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5 | #include "TH2F.h" |
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6 | #include "TCanvas.h" |
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7 | #include "TStyle.h" |
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8 | #include "TPad.h" |
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9 | #include "TF1.h" |
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10 | #include "TGraph.h" |
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11 | #include "TSpectrum.h" |
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12 | #include "stdio.h" |
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13 | |||
14 | #include "RTUtil.h" |
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15 | |||
16 | double getNoise(TH2F*, int, int); |
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17 | |||
18 | int plotThreshold(char filename[256] = "test", char plopt[256]="th", int chXstart=0, int chXend=7, int chYstart=0, int chYend=7, bool debug = false) |
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19 | { |
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20 | const int c_nChannels = 64; |
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21 | const double c_xOffset = 1; // mm |
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22 | const double c_yOffset = 0.7; |
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23 | |||
24 | int map[8][8]={{32,34,53,55,40,42,61,63}, |
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25 | {48,50,37,39,56,58,45,47}, |
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26 | {33,35,52,54,41,43,60,62}, |
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27 | {49,51,36,38,57,59,44,46}, |
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28 | {17,19,4,6,25,27,12,14}, |
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29 | {1,3,20,22,9,11,28,30}, |
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30 | {16,18,5,7,24,26,13,15}, |
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31 | {0,2,21,23,8,10,29,31} |
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32 | }; |
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33 | |||
34 | char fnameroot[256]; |
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35 | TFile* rootfile; |
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36 | sprintf(fnameroot, "root/%s.root", filename); |
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37 | rootfile = (TFile *) gROOT->FindObject(filename); |
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38 | if(rootfile==NULL) rootfile = new TFile(fnameroot); |
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39 | if(rootfile==NULL) { |
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40 | printf("Cannot open root file %s!!!\n",fnameroot); |
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41 | return(0); |
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42 | } |
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43 | |||
44 | // set draw style |
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45 | gStyle->SetOptStat("ne"); |
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46 | gStyle->SetPalette(1, 0); |
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47 | |||
48 | gStyle->SetPaperSize(TStyle::kA4); |
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49 | gStyle->SetStatBorderSize(1); |
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50 | gStyle->SetFrameBorderMode(0); |
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51 | gStyle->SetFrameFillColor(0); |
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52 | gStyle->SetCanvasBorderMode(0); |
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53 | gStyle->SetPadBorderMode(0); |
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54 | gStyle->SetPadColor(0); |
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55 | gStyle->SetCanvasColor(0); |
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56 | gStyle->SetStatColor(0); |
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57 | gStyle->SetOptFit(11); |
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58 | gStyle->SetOptStat(); |
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59 | gStyle->SetPadRightMargin(0.15); |
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60 | gStyle->SetPadLeftMargin(0.12); |
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61 | //gStyle->SetTitleYOffset(1.4); |
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62 | |||
63 | if (strstr(plopt, "th") != NULL) { |
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64 | TCanvas* canvas1 = new TCanvas("canvas1","",500,500); |
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65 | canvas1->cd(); |
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66 | TH2F* h_threshold = (TH2F*) rootfile->Get("h_threshold"); |
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67 | h_threshold->Draw("colz"); |
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68 | } |
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69 | |||
70 | if( strstr(plopt, "all") != NULL ) { |
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71 | TCanvas *canvas2 = new TCanvas("canvas2","Hits x;;",2000,2000); |
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72 | TCanvas *canvas3 = new TCanvas("canvas3","Hits y;;",2000,2000); |
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73 | canvas2->Divide(8,8); |
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74 | canvas3->Divide(8,8); |
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75 | TH1F* h_hitsx; |
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76 | TH1F* h_hitsy; |
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77 | for(int i=0; i<c_nChannels; i++) { |
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78 | canvas2->cd(i+1); |
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79 | char hname[128]; |
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80 | sprintf(hname, "hnhitsx%d", i); |
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81 | h_hitsx = (TH1F*)rootfile->Get(hname); |
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82 | h_hitsx->Draw(); |
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83 | canvas3->cd(i+1); |
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84 | sprintf(hname, "hnhitsy%d", i); |
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85 | h_hitsy = (TH1F*)rootfile->Get(hname); |
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86 | h_hitsy->Draw(); |
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87 | } |
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88 | } |
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89 | |||
90 | if( strstr(plopt, "x") != NULL ) { |
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91 | TCanvas *canvas10 = new TCanvas("canvas10","Ch x;;",500,500); |
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92 | TH1F* h_hitsx; |
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93 | canvas10->cd(); |
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94 | char hname[128]; |
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95 | sprintf(hname, "hnhitsx%d", chXstart); |
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96 | h_hitsx = (TH1F*)rootfile->Get(hname); |
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97 | h_hitsx->Draw(); |
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98 | } |
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99 | |||
100 | if( strstr(plopt, "y") != NULL ) { |
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101 | TCanvas *canvas11 = new TCanvas("canvas11","Ch x;;",500,500); |
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102 | TH1F* h_hitsy; |
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103 | canvas11->cd(); |
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104 | char hname[128]; |
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105 | sprintf(hname, "hnhitsy%d", chXstart); |
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106 | h_hitsy = (TH1F*)rootfile->Get(hname); |
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107 | h_hitsy->Draw(); |
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108 | } |
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109 | |||
110 | if( strstr(plopt, "share") != NULL ) { |
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111 | /*TCanvas *canvas4 = new TCanvas("canvas1","canvas1",1000,1000); |
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112 | int nChannels = chYend-chYstart+1; |
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113 | int ncols = nChannels/2; |
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114 | printf("nch %d nch\\2 %d\n", nChannels, ncols); |
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115 | canvas4->Divide(2,ncols); |
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116 | TH1F* h_hitsy; |
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117 | for(int i=chYstart; i<=chYend; i++){ |
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118 | canvas4->cd(i-chYstart+1); |
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119 | char hname[128]; |
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120 | int chPosition = map[0][i]; |
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121 | sprintf(hname, "hnhitsy%d", chPosition); |
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122 | h_hitsy = (TH1F*)rootfile->Get(hname); |
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123 | h_hitsy->Draw(); |
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124 | }*/ |
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125 | |||
126 | TCanvas *canvas4 = new TCanvas("canvas4","canvas4",500,500); |
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127 | canvas4->cd(); |
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128 | for(int i=chXstart; i<=chXend; i++) { |
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129 | TH1F* h_hitsx; |
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130 | char hname[128]; |
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131 | int chPosition = map[i][chYstart]; |
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132 | sprintf(hname, "hnhitsx%d", chPosition); |
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133 | h_hitsx = (TH1F*)rootfile->Get(hname); |
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134 | h_hitsx->SetTitle("Scan X;x [mm]; Entries"); |
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135 | h_hitsx->GetYaxis()->SetTitleOffset(1.3); |
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136 | h_hitsx->SetStats(0); |
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137 | if (i == chXstart) |
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138 | h_hitsx->Draw(); |
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139 | else { |
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140 | h_hitsx->SetLineColor(i+1); |
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141 | h_hitsx->Draw("same"); |
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142 | } |
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143 | } |
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144 | //sprintf(fullname, "ps/%s_Yshare.eps", filename); |
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145 | //canvas4->SaveAs(fullname); |
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146 | |||
147 | TCanvas *canvas5 = new TCanvas("canvas5","canvas5",500,500); |
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148 | canvas5->cd(); |
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149 | for(int i=chYstart; i<=chYend; i++) { |
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150 | TH1F* h_hitsy; |
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151 | char hname[128]; |
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152 | int chPosition = map[chXstart][i]; |
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153 | sprintf(hname, "hnhitsy%d", chPosition); |
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154 | h_hitsy = (TH1F*)rootfile->Get(hname); |
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155 | h_hitsy->SetTitle("Scan Y;y [mm]; Entries"); |
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156 | h_hitsy->GetYaxis()->SetTitleOffset(1.3); |
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157 | h_hitsy->SetStats(0); |
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158 | if (i == chYstart) |
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159 | h_hitsy->Draw(); |
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160 | else { |
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161 | h_hitsy->SetLineColor(i+1); |
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162 | h_hitsy->Draw("same"); |
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163 | } |
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164 | } |
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165 | //sprintf(fullname, "ps/%s_Yshare.eps", filename); |
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166 | //canvas5->SaveAs(fullname); |
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167 | } |
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168 | |||
169 | /** Draws the signal from 8 channels in x-row |
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170 | * for one specific y bin, so the background and cross-talk |
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171 | * can be estimated. |
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172 | * Draws also a 2d scan of these channels. |
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173 | */ |
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174 | if (strstr(plopt, "line") != NULL) { |
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175 | TCanvas* canvas6 = new TCanvas("canvas6","canvas6",500,500); |
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176 | canvas6->cd(0); |
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177 | gStyle->SetOptStat(0); |
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178 | |||
179 | TH2F* h0 = (TH2F*) rootfile->Get("h2d0"); |
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180 | Int_t binsX = h0->GetXaxis()->GetNbins(); |
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181 | Int_t minX = h0->GetXaxis()->GetFirst(); |
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182 | Int_t maxX = h0->GetXaxis()->GetLast()+1; |
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183 | Int_t binsY = h0->GetYaxis()->GetNbins(); |
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184 | Int_t minY = h0->GetYaxis()->GetFirst(); |
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185 | Int_t maxY = h0->GetYaxis()->GetLast()+1; |
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186 | Double_t xLowUser = h0->GetXaxis()->GetBinLowEdge(minX); |
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187 | Double_t xUpUser = h0->GetXaxis()->GetBinUpEdge(maxX); |
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188 | Double_t yLowUser = h0->GetYaxis()->GetBinLowEdge(minY); |
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189 | Double_t yUpUser = h0->GetYaxis()->GetBinUpEdge(maxY); |
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190 | if (debug) printf("xLow %f xUp %f\n",xLowUser,xUpUser); |
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191 | |||
192 | //! 1-dimension position in x vs. hits |
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193 | TH2F* h[8]; |
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194 | TH1F* h_line[8]; |
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195 | for(int j=0; j<8; j++) { |
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196 | h_line[j] = new TH1F("h_line", "h_line", binsX, xLowUser, xUpUser); |
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197 | } |
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198 | |||
199 | for(int j=chXstart; j<=chXend; j++) { |
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200 | int chPosition = map[j][chYstart]; |
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201 | char hname[128]; |
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202 | sprintf(hname, "h2d%d", chPosition); |
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203 | int histogram = j; |
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204 | h[histogram] = (TH2F *) rootfile->Get(hname); |
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205 | int noise = getNoise(h[histogram], 1, 160); |
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206 | for(int k=minX; k<=maxX; k++) { |
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207 | int l=chYstart*20+12; |
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208 | //for(int l=12; l<=16; l++) { |
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209 | double signal = h[histogram]->GetBinContent(k,l); |
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210 | //signal -= noise; |
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211 | //signal /= 5*10000.0; |
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212 | double eta = -log(1 - signal); |
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213 | double x = k*(xUpUser-xLowUser)/double(binsX); |
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214 | //double y = l*(yUpUser-yLowUser)/double(binsY); |
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215 | h_line[j]->Fill(x-c_xOffset, signal); |
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216 | //} |
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217 | } |
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218 | if (j == chXstart) { |
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219 | h_line[j]->SetTitle("SiPM#2 w/o noise subtraction;x[mm];Hits"); |
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220 | //h_line[j]->GetYaxis()->SetRangeUser(-0.05, 0.3); |
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221 | //h_line[j]->GetYaxis()->SetRangeUser(-50, 2500); |
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222 | h_line[j]->Draw(""); |
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223 | } |
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224 | else { |
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225 | h_line[j]->SetLineColor(j+1); |
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226 | h_line[j]->Draw("same"); |
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227 | } |
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228 | } |
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229 | |||
230 | |||
231 | //! 2d scan |
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232 | TCanvas* canvas61 = new TCanvas("canvas61","canvas61",8*200,300); |
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233 | canvas61->cd(); |
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234 | TH2F* h_corrected = new TH2F("h_corrected","h_corrected",binsX,xLowUser,xUpUser, binsY,yLowUser,yUpUser); |
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235 | for(int i=chXstart; i<=chXend; i++) { |
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236 | //int canvasPosition = nX*(i-chYstart)+(j-chXstart)+1; |
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237 | //int canvasPosition = nX*(chYend-i)+chXstart+1; |
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238 | //if (debug) printf("canvas %d\n",canvasPosition); |
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239 | int chPosition = map[i][chYstart]; |
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240 | char hname[128]; |
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241 | sprintf(hname, "h2d%d", chPosition); |
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242 | int histogram = i; |
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243 | h[histogram] = (TH2F *) rootfile->Get(hname); |
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244 | int noise = getNoise(h[histogram], 1, 100); |
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245 | |||
246 | for(int k=minX; k<=maxX; k++) { |
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247 | for(int l=minY; l<=maxY; l++) { |
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248 | int signal = h[histogram]->GetBinContent(k,l); // detected |
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249 | //p /= 10000.; |
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250 | //double p0 = 1.0 - p; // events with zero photons |
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251 | //double eta = (-log(p0) * p0 ) / (1-p0-0.00001); |
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252 | //double eta = -log(p0); |
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253 | //printf("p=%f p0=%f log(p0)=%f eta=%f\n",p,p0,log(p0),eta); |
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254 | //double signal = ((p - noise) > 0.1) ? (p-noise) : 0.1; |
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255 | double p = signal - noise; |
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256 | p /= 10000.0; |
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257 | double eta = -log(1 - p); |
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258 | double x = k*(xUpUser-xLowUser)/double(binsX); |
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259 | double y = l*(yUpUser-yLowUser)/double(binsY); |
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260 | h_corrected->Fill(x-c_xOffset, y-c_yOffset, eta); |
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261 | } |
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262 | } |
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263 | } |
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264 | h_corrected->SetTitle("SiPM#2 n_pe = - ln(P0);x[mm];y[mm]"); |
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265 | h_corrected->GetZaxis()->SetRangeUser(-0.05,0.30); |
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266 | h_corrected->Draw("colz"); |
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267 | |||
268 | } |
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269 | |||
270 | /** Draws the sum of the channels |
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271 | * Each channel is a 2d plot |
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272 | * Intended for the study of 1 channel |
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273 | */ |
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274 | if (strstr(plopt, "2d") != NULL) { |
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275 | |||
276 | int nX = chXend - chXstart + 1; |
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277 | int nY = chYend - chYstart + 1; |
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278 | TCanvas* canvas7 = new TCanvas("canvas7","canvas7", nX*400,nY*400); |
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279 | printf("nx %d ny %d\n",nX,nY); |
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280 | canvas7->Divide(nX,nY); |
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281 | for(int i=chYstart; i<=chYend; i++) { |
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282 | for(int j=chXstart; j<=chXend; j++) { |
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283 | //int canvasPosition = nX*(i-chYstart)+(j-chXstart)+1; |
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284 | int canvasPosition = nX*(chYend-i)+(j-chXstart)+1; |
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285 | if (debug) printf("canvas %d\n",canvasPosition); |
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286 | canvas7->cd(canvasPosition); |
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287 | char hname[128]; |
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288 | int chPosition = map[j][i]; |
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289 | sprintf(hname, "h2d%d", chPosition); |
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290 | TH2F* h_2d = (TH2F*)rootfile->Get(hname); |
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291 | h_2d->Draw("colz"); |
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292 | } //x |
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293 | } |
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294 | |||
295 | // Number of photoelectrons - Poissonian correction |
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296 | TCanvas* canvas8 = new TCanvas("canvas8","canvas8", 1000,1000); |
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297 | canvas8->cd(); |
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298 | gStyle->SetOptStat(0); |
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299 | char hname[128]; |
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300 | int chPosition = map[1][2]; |
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301 | sprintf(hname, "h2d%d", chPosition); |
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302 | TH2F* h_2d = (TH2F*)rootfile->Get(hname); |
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303 | |||
304 | Int_t binsX = h_2d->GetXaxis()->GetNbins(); |
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305 | Int_t minX = h_2d->GetXaxis()->GetFirst(); |
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306 | Int_t maxX = h_2d->GetXaxis()->GetLast()+1; |
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307 | Int_t binsY = h_2d->GetYaxis()->GetNbins(); |
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308 | Int_t minY = h_2d->GetYaxis()->GetFirst(); |
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309 | Int_t maxY = h_2d->GetYaxis()->GetLast()+1; |
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310 | Double_t xLowUser = h_2d->GetXaxis()->GetBinLowEdge(minX); |
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311 | Double_t xUpUser = h_2d->GetXaxis()->GetBinUpEdge(maxX); |
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312 | Double_t yLowUser = h_2d->GetYaxis()->GetBinLowEdge(minY); |
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313 | Double_t yUpUser = h_2d->GetYaxis()->GetBinUpEdge(maxY); |
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314 | if (debug) printf("xLow %f xUp %f\n",xLowUser,xUpUser); |
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315 | TH2F* h_corrected = new TH2F("h_corrected","h_corrected",binsX, xLowUser, xUpUser, binsY, yLowUser, yUpUser); |
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316 | |||
317 | double noise = getNoise(h_2d, 1, 89); |
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318 | if(debug) printf("Noise = %f\n", noise); |
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319 | for(int k=minX; k<=maxX; k++) { |
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320 | for(int j=minY; j<=maxY; j++) { |
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321 | double signal = h_2d->GetBinContent(k,j); // detected |
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322 | //double p = ((signal - noise) > 1) ? (signal-noise) : 1; |
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323 | double p = signal - noise; |
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324 | p /= 10000.; |
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325 | double p0 = 1.0 - p; // events with zero photons |
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326 | //double eta = (-log(p0) * p0 ) / (1-p0-0.00001); |
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327 | double eta = -log(p0); // constant of the poissonian statistics |
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328 | if (debug) printf("p=%f p0=%f log(p0)=%f eta=%f\n",p,p0,log(p0),eta); |
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329 | double x = k*(xUpUser-xLowUser)/double(binsX); |
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330 | double y = j*(yUpUser-yLowUser)/double(binsY); |
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331 | h_corrected->Fill(x+3,y+8, eta); |
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332 | } |
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333 | } |
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334 | h_corrected->SetTitle("n_pe = - ln P(0);x[mm];y[mm]"); |
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335 | h_corrected->GetZaxis()->SetRangeUser(-0.05,0.3); |
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336 | h_corrected->Draw("colz"); |
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337 | |||
338 | // collection efficiency |
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339 | int nPoints =0; |
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340 | double efficiency=0; |
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341 | for (int i=18; i<=58; i++) { |
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342 | for (int j=19; j<=59; j++) { |
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343 | double signal = h_corrected->GetBinContent(i,j); |
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344 | if(debug) printf("signal %f\n",signal); |
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345 | efficiency += signal; |
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346 | nPoints++; |
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347 | } |
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348 | } |
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349 | printf("Signal sum = %f\n # of points = %d\n",efficiency,nPoints); |
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350 | } |
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351 | |||
352 | /** Draws the sum of channel signals |
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353 | * Each channel is a 2d ('h2d') histogram |
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354 | * Suitable for 8x8 chs scan |
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355 | */ |
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356 | if( strstr(plopt, "sum") != NULL ) { |
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357 | int nX = chXend - chXstart + 1; |
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358 | int nY = chYend - chYstart + 1; |
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359 | TCanvas* canvas12 = new TCanvas("canvas12","c2",8*200, 8*200); |
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360 | canvas12->cd(); |
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361 | gStyle->SetOptStat(0); |
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362 | |||
363 | // final histogram parameters |
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364 | TH2F* h0 = (TH2F*) rootfile->Get("h2d0"); |
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365 | Int_t binsX = h0->GetXaxis()->GetNbins(); |
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366 | Int_t minX = h0->GetXaxis()->GetFirst(); |
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367 | Int_t maxX = h0->GetXaxis()->GetLast()+1; |
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368 | Int_t binsY = h0->GetYaxis()->GetNbins(); |
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369 | Int_t minY = h0->GetYaxis()->GetFirst(); |
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370 | Int_t maxY = h0->GetYaxis()->GetLast()+1; |
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371 | Double_t xLowUser = h0->GetXaxis()->GetBinLowEdge(minX); |
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372 | Double_t xUpUser = h0->GetXaxis()->GetBinUpEdge(maxX); |
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373 | Double_t yLowUser = h0->GetYaxis()->GetBinLowEdge(minY); |
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374 | Double_t yUpUser = h0->GetYaxis()->GetBinUpEdge(maxY); |
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375 | if (debug) printf("xLow %f xUp %f\n",xLowUser,xUpUser); |
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376 | TH2F* h_corrected = new TH2F("h_corrected","h_corrected",binsX,xLowUser,xUpUser, binsY,yLowUser,yUpUser); |
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377 | TH2F* h[9]; |
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378 | |||
379 | // 2d histogram noise subtraction and poisson scaling |
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380 | for(int i=chYstart; i<=chYend; i++) { |
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381 | for(int j=chXstart; j<=chXend; j++) { |
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382 | int chPosition = map[j][i]; |
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383 | char hname[128]; |
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384 | sprintf(hname, "h2d%d", chPosition); |
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385 | int histogram = nX*(i-chYstart)+(j-chXstart); |
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386 | h[histogram] = (TH2F *) rootfile->Get(hname); |
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387 | int noise = getNoise(h[histogram], 1, 170); |
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388 | if (debug) printf("noise: %d\n",noise); |
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389 | for(int k=minX; k<=maxX; k++) { |
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390 | for(int l=minY; l<=maxY; l++) { |
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391 | int signal = h[histogram]->GetBinContent(k,l); // detected |
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392 | //double p = ((signal - noise) > 0.1) ? (signal-noise) : 0.1; |
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393 | double p = signal - noise; |
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394 | p /= 10000.; |
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395 | double p0 = 1.0 - p; // events with zero photons |
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396 | //double eta = (-log(p0) * p0 ) / (1-p0-0.00001); |
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397 | double eta = -log(p0); |
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398 | //printf("p=%f p0=%f log(p0)=%f eta=%f\n",p,p0,log(p0),eta); |
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399 | double x = k*(xUpUser-xLowUser)/double(binsX); |
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400 | double y = l*(yUpUser-yLowUser)/double(binsY); |
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401 | h_corrected->Fill(x-c_xOffset, y-c_yOffset, signal); |
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402 | } |
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403 | } |
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404 | |||
405 | } |
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406 | } |
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407 | |||
408 | h_corrected->SetTitle("SiPM#2 n_p.e.;x[mm];y[mm]"); |
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409 | //h_corrected->GetZaxis()->SetRangeUser(-0.05,.30); |
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410 | h_corrected->Draw("colz"); |
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411 | |||
412 | TCanvas* canvas13 = new TCanvas("canvas13","canvas13",600,300); |
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413 | canvas13->Divide(2); |
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414 | canvas13->cd(1); |
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415 | h[16]->Draw("colz"); |
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416 | canvas13->cd(2); |
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417 | h[8]->Draw("colz"); |
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418 | } |
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419 | |||
420 | /** Draws the beam profile and fits it with error function |
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421 | * on some background function |
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422 | */ |
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423 | if (strstr(plopt, "beam") != NULL) { |
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424 | |||
425 | TCanvas* canvas9 = new TCanvas("canvas9","canvas9", 500,500); |
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426 | canvas9->cd(); |
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427 | char hname[128]; |
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428 | sprintf(hname, "hnhitsx%d", 36); |
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429 | TH1F* h_laser = (TH1F*)rootfile->Get(hname); |
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430 | h_laser->Draw(); |
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431 | h_laser->SetStats(1); |
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432 | |||
433 | TF1* err = new TF1("err","[0]+[1]*TMath::Erf((x-[2])/[3])",17.2,17.50); |
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434 | err->SetParameter(0,2500); |
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435 | err->SetParameter(1, h_laser->GetMaximum()); |
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436 | err->SetParameter(2, h_laser->GetBinCenter(h_laser->GetMaximumBin())); |
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437 | err->SetParameter(3, 0.001); |
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438 | h_laser->Fit(err,"qr"); |
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439 | h_laser->Fit(err,"lr"); |
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440 | double sigma = err->GetParameter(3); |
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441 | printf("sigma = %2.0f um, FWHM = %2.0f um\n", sigma*1000, 2.35*sigma*1000); |
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442 | } |
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443 | |||
444 | if (strstr(plopt, "map") != NULL) { |
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445 | for (int i=7; i>=0; i--) { |
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446 | //for (int j=7; j>=0; j--) printf("(%d, %d) ", j,i); |
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447 | for (int j=7; j>=0; j--) printf("%2d ", map[j][i]); |
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448 | printf("\n"); |
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449 | } |
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450 | |||
451 | } |
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452 | |||
453 | return(0); |
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454 | } |
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455 | |||
456 | /** Function calculates the noise from one channel |
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457 | * it runs through the bins along x and returns the average value |
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458 | */ |
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459 | double getNoise(TH2F* histogram, int yStart, int yEnd) |
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460 | { |
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461 | double noise=0; |
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462 | int count=0; |
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463 | for(int j=yStart; j<yEnd; j++) { |
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464 | double value = histogram->GetBinContent(j,2); |
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465 | //if (noise < value) noise = value; |
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466 | noise += value; |
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467 | count++; |
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468 | } |
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469 | return (noise/double(count)); |
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470 | } |
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471 |