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Rev | Author | Line No. | Line |
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35 | f9daq | 1 | ////////////////////////////////////////// |
2 | // Data to root conversion root script |
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3 | // |
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4 | // Contributors: Rok Pestotnik, Rok Dolenec, Dino Tahirovic |
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5 | // |
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6 | // 3/1/2014 TDC cut relative to tdc offset |
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7 | // 5/3/2014 TH3F h_correctedTDC; commented 'delete' commands |
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8 | // 12/3/2014 declarations of all histos before while{} |
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9 | |||
10 | #include "stdio.h" |
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11 | #include "TROOT.h" |
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12 | #include "TFile.h" |
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13 | #include "TNtuple.h" |
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14 | #include "TH1F.h" |
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15 | #include "TH2F.h" |
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16 | #include "TH3F.h" |
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17 | #include "TF1.h" |
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18 | #include "TMath.h" |
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19 | #include "TStyle.h" |
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20 | #include "TCanvas.h" |
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21 | #include "TLine.h" |
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22 | #include "zlib.h" |
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23 | |||
24 | // ------------------------------------------------------------------------------ |
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25 | |||
26 | #define POSMARG 1000 |
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27 | |||
28 | #define READBUFFERLENGTH 10000 |
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29 | |||
30 | // data format |
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31 | #define MAXDATA 16 |
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32 | #define NCH 64 |
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33 | #define TDC_BIN 1.0416 // 1 TDC bin in ns |
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34 | #define MIKRO_BIN 0.49609/1000. //1 mikro step in mm; stage MM3MF |
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39 | f9daq | 35 | #define OFFSETX 4800 // Right edge of SiPM+Lightguide |
36 | #define OFFSETY 3400 // Lower edge of SiPM+Lightguide |
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35 | f9daq | 37 | |
38 | #define RUNREC_ID 1 |
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39 | #define ENDREC_ID 2 |
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40 | #define POSREC_ID 3 |
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41 | #define EVTREC_ID 4 |
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42 | #define THRREC_ID 5 |
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36 | f9daq | 43 | #define BIASREC_ID 6 |
35 | f9daq | 44 | |
45 | typedef struct { |
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46 | unsigned int id,len; |
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47 | unsigned int fver,time; |
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36 | f9daq | 48 | unsigned int thLow, thUp, thStep; |
49 | unsigned int biasLow, biasUp, biasStep; |
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35 | f9daq | 50 | unsigned int nev,nch,ped,xy; |
51 | int nx,x0,dx,ny,y0,dy; |
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52 | } RUNREC; |
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53 | RUNREC *runrec; |
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54 | RUNREC run; |
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55 | |||
56 | typedef struct { |
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57 | unsigned int id,len; |
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58 | unsigned int time; |
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59 | } ENDREC; |
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60 | ENDREC *endrec; |
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61 | |||
62 | typedef struct { |
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63 | unsigned int id,len; |
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64 | unsigned int time; |
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65 | int ix; |
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66 | int x; |
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67 | int xset; |
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68 | int iy; |
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69 | int y; |
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70 | int yset; |
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71 | } POSREC; |
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72 | POSREC *posrec; |
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73 | POSREC pos; |
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74 | |||
75 | typedef struct { |
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76 | unsigned int id; |
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77 | unsigned int len; |
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78 | unsigned int nev; |
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79 | } EVTREC; |
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80 | EVTREC *evtrec; |
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81 | |||
82 | typedef struct { |
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83 | unsigned int id; |
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84 | unsigned int len; |
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85 | unsigned int threshold; |
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86 | } THRREC; |
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87 | THRREC *thrrec; |
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88 | THRREC thr; |
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89 | |||
36 | f9daq | 90 | typedef struct { |
91 | unsigned int id; |
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92 | unsigned int len; |
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93 | unsigned int bias; |
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94 | } BIASREC; |
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95 | BIASREC *biasrec; |
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96 | BIASREC bias; |
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97 | |||
35 | f9daq | 98 | double padCenter[NCH][2]; |
99 | |||
100 | int position(int, int, int); |
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101 | |||
102 | // ------------------------------------------------------------------------------ |
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103 | |||
36 | f9daq | 104 | int analysisBias(char* dfile0="test", int dbg=0, double tdcCut=5.0) |
35 | f9daq | 105 | { |
50 | f9daq | 106 | const double c_tdcOffset = 97*TDC_BIN; // ns, SiPM4 |
35 | f9daq | 107 | |
108 | printf(" Data to root conversion program\nUsage:\nd2r(input file name <without.dat>, debug on/off, TDC cut +-[ns])\n\n"); |
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109 | |||
110 | char fullname[256]; |
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111 | char sbuff[256]; |
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112 | FILE *fp; |
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113 | |||
114 | //Chanel information |
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115 | |||
116 | double tdcOffset[NCH]; |
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117 | sprintf(fullname, "d2r.ini"); |
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118 | if( (fp=fopen(fullname, "rt")) == NULL ) |
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119 | printf("Cannot open pad centers file %s !!!\n", fullname); |
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120 | else { |
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121 | printf("Opened pad centers file %s\n", fullname); |
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122 | char* result = fgets(sbuff,256, fp); |
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123 | if (dbg) printf("Read buffer %s\n", result); |
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124 | printf("%s", sbuff); |
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125 | for(int i=0; i<NCH; i++) { |
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126 | int channel; |
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127 | int message = fscanf(fp, "%d %lf %lf %lf\n", &channel, &padCenter[i][0], &padCenter[i][1], &tdcOffset[i]); |
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128 | if (dbg) printf("Read d2r.ini returned %d\n", message); |
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129 | } |
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130 | fclose(fp); |
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131 | } |
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132 | for(int i=0; i<NCH; i++) { |
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133 | tdcOffset[i] += c_tdcOffset; |
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134 | printf("%.2lf %.2lf %.2lf\n", padCenter[i][0], padCenter[i][1], tdcOffset[i]); |
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135 | } |
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136 | |||
137 | //data buffer |
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138 | unsigned int readbuf[READBUFFERLENGTH]; |
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139 | unsigned int buf[READBUFFERLENGTH]; |
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140 | |||
141 | //data file |
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142 | gzFile dfp; |
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143 | char dfile[256]; |
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144 | int ftype=0; |
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145 | int fcount=1; |
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146 | do { |
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147 | switch(ftype++) { |
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148 | case 0: |
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149 | sprintf(dfile, "./data/%s_file%02d.dat", dfile0, fcount); |
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150 | break; |
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151 | case 1: |
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152 | sprintf(dfile, "./data/%s_file%02d.dat.gz", dfile0, fcount); |
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153 | break; |
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154 | case 2: |
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155 | sprintf(dfile, "./data/%s_file%02d.gz", dfile0, fcount); |
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156 | break; |
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157 | default: |
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158 | printf(" Cannot find data file for %s !!!\n", dfile0); |
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159 | return -1; |
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160 | } |
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161 | dfp=gzopen(dfile,"rb"); |
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162 | } while(!dfp); |
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163 | printf("Opened data file %s\n", dfile); |
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164 | |||
165 | //opens ROOT file |
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166 | char fnameroot[256]; |
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167 | sprintf(fnameroot, "root/%s.root", dfile0); |
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168 | TFile rootfile(fnameroot,"RECREATE",dfile0); |
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169 | if (rootfile.IsZombie()) { |
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170 | std::cout << "Error opening file" << std::endl; |
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171 | exit(-1); |
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172 | } |
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173 | if (rootfile.IsOpen()) std::cout << "ROOT file opened for writing." << std::endl; |
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174 | |||
175 | // ----------------------------------------------- |
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176 | // loop trough records |
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177 | unsigned int rec_id, rec_len; |
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178 | unsigned int ulsize = sizeof(unsigned int); |
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179 | //unsigned int ulsize = 4; |
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180 | if (dbg) printf("Size of unsigned int: %lu\n", sizeof(unsigned int)); |
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181 | int ceve=0; |
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182 | int end_of_file = 0; |
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183 | |||
184 | int ii; |
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185 | int nint; |
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186 | int nb; |
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187 | int status; |
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188 | char hname[256]; |
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50 | f9daq | 189 | // Full range TDC data for every channel |
35 | f9daq | 190 | TH2F* htdc = new TH2F("htdc",";TDC channel;SiPM channel",512,-0.5,511.5,NCH,-0.5,NCH-0.5); |
50 | f9daq | 191 | // TDC data in specific time window |
192 | TH3F* h_correctedTDC = new TH3F("h_correctedTDC",";SiPM channel; ASD threshold [V]; t [ns]", |
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35 | f9daq | 193 | NCH, -0.5, NCH-0.5, |
194 | 101, 1.0, 2.0, |
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195 | 33, -16.5*TDC_BIN, 16.5*TDC_BIN); |
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50 | f9daq | 196 | // Hits distribution in every channel per stage position |
35 | f9daq | 197 | TH1F* hnhitsx[NCH]; // move to 2d with (channel, position) |
198 | TH1F* hnhitsy[NCH]; //-||- |
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50 | f9daq | 199 | // 2d hits distribution |
35 | f9daq | 200 | TH2F* h2d[NCH]; //-||- |
50 | f9daq | 201 | int nBiasSteps = 20; |
202 | double biasLow = 71.0; |
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203 | double biasUp = 73.0; |
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204 | TH2F* h_bias = new TH2F("h_bias", "", 64, 0, 63, nBiasSteps, biasLow, biasUp); |
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205 | int nSteps = 51; |
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206 | double thrLow = 1.0; |
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207 | double thrUp = 2.0; |
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35 | f9daq | 208 | TH2F* h_threshold = new TH2F("h_threshold",";SiPM ch;Threshold[V]", |
209 | 64,-0.5,63.5, |
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50 | f9daq | 210 | nSteps, thrLow, thrUp); |
211 | // Bias vs. ASD threshold per channel to estimate working point |
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212 | TH3F* h_biasThreshold = new TH3F("h_biasThreshold","", 64,-0.5, 63.5, |
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213 | 31, 71.0, 74.0, 51, 1.0, 2.0); |
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35 | f9daq | 214 | TH2F* h_ch33 = new TH2F("h_ch33","ch. 33;x;y",100,20000,30000,100,0,10000); |
215 | TNtuple* nt = new TNtuple("nt", "nt", "ch:x:y:tdc"); |
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216 | |||
217 | while(1) { |
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218 | if(gzeof(dfp)) end_of_file = 1; |
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219 | |||
220 | gzread(dfp, (voidp)&readbuf, 2*ulsize); |
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221 | rec_id=readbuf[0]; |
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222 | rec_len=readbuf[1]; |
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223 | |||
224 | |||
225 | if(dbg) printf("-----------------------------------------------\n"); |
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226 | if(dbg) printf("[%d] rec_id = %d | rec_len = %u\n", ceve, rec_id, rec_len); |
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227 | |||
50 | f9daq | 228 | |
229 | |||
36 | f9daq | 230 | |
35 | f9daq | 231 | switch(rec_id) |
232 | { |
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233 | case RUNREC_ID: |
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234 | if (dbg) printf("RUNREC\n"); |
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235 | gzread(dfp, (voidp)&readbuf[2], (rec_len-2*ulsize)); |
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236 | runrec = (RUNREC *) readbuf; |
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237 | run=*runrec; |
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238 | |||
239 | if(dbg) { |
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240 | printf("RUNREC_ID\n"); |
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241 | printf("id = %d, len = %d, time = %d\n", run.id, run.len, run.time); |
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242 | printf("nev = %d, nch = %d\n", run.nev, run.nch); |
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243 | printf("nx = %d, x0 = %d, dx = %d\n", run.nx, run.x0, run.dx); |
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244 | printf("ny = %d, y0 = %d, dy = %d\n", run.ny, run.y0, run.dy); |
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245 | printf("thLow = %d, thUp = %d, thStep = %d\n", run.thLow, run.thUp, run.thStep); |
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246 | } |
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247 | |||
248 | //create histograms |
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249 | //nt = (TNtuple*) gROOT->FindObject("nt"); |
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250 | //if (nt) delete nt; |
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251 | |||
252 | //sprintf(hname, "htdc"); |
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253 | //htdc = (TH2F*) gROOT->FindObject(hname); |
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254 | //if (htdc) delete htdc; |
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255 | //htdc = new TH2F("htdc",";TDC channel;SiPM channel",512,0,512,NCH,0,NCH); |
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40 | f9daq | 256 | |
35 | f9daq | 257 | //TH1F* gsumV673A[NCH/16] = new TH1F(hn,hname,256,-0.5,255.5); |
258 | for(int i=0; i<NCH; i++) { |
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259 | /* |
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260 | sprintf(hname, "htdcpos%d", i); |
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261 | htdcpos[i] = (TH1F*)gROOT->FindObject(hname); |
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262 | if(htdcpos[i]) delete htdcpos[i]; |
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263 | htdcpos[i] = new TH1F(hname, hname, 512, 0, 512*TDC_BIN); |
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264 | |||
265 | sprintf(hname, "htdc%d", i); |
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266 | htdc[i] = (TH1F*)gROOT->FindObject(hname); |
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267 | if(htdc[i]) delete htdc[i]; |
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268 | htdc[i] = new TH1F(hname, hname, 512, 0*TDC_BIN, 512*TDC_BIN); |
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269 | */ |
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270 | |||
271 | sprintf(hname, "hnhitsx%d", i); |
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272 | hnhitsx[i] = (TH1F*)gROOT->FindObject(hname); |
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273 | if(hnhitsx[i]) delete hnhitsx[i]; |
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274 | hnhitsx[i] = new TH1F(hname, hname, run.nx, |
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275 | (run.x0 - OFFSETX - 0.5*run.dx)*MIKRO_BIN, |
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276 | (run.x0 - OFFSETX + (run.nx-0.5)*run.dx)*MIKRO_BIN); |
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277 | |||
278 | sprintf(hname, "hnhitsy%d", i); |
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279 | hnhitsy[i] = (TH1F*)gROOT->FindObject(hname); |
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280 | if(hnhitsy[i]) delete hnhitsy[i]; |
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281 | //hnhitsy[i] = new TH1F(hname, hname, run.ny, (run.y0-0.5*run.dy)*MIKRO_BIN, (run.y0+(run.ny-0.5)*run.dy)*MIKRO_BIN); |
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282 | hnhitsy[i] = new TH1F(hname, hname, run.ny, |
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283 | (run.y0 - 0.5*run.dy - OFFSETY)*MIKRO_BIN, |
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284 | (run.y0 + (run.ny-0.5)*run.dy - OFFSETY)*MIKRO_BIN); |
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285 | //hnhitsy[i] = new TH1F(hname, hname, 100, 0,100); |
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286 | |||
287 | sprintf(hname, "h2d%d", i); |
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288 | h2d[i] = (TH2F*)gROOT->FindObject(hname); |
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289 | if(h2d[i]) delete h2d[i]; |
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290 | h2d[i] = new TH2F(hname, hname, run.nx, |
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291 | (run.x0 - OFFSETX - 0.5*run.dx)*MIKRO_BIN, |
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292 | (run.x0 - OFFSETX + (run.nx-0.5)*run.dx)*MIKRO_BIN, |
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293 | run.ny, |
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294 | (run.y0 - OFFSETY - 0.5*run.dy)*MIKRO_BIN, |
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295 | (run.y0 - OFFSETY + (run.ny-0.5)*run.dy)*MIKRO_BIN); |
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296 | } |
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297 | |||
36 | f9daq | 298 | nBiasSteps = (run.biasUp - run.biasLow)/double(run.biasStep) + 1; |
40 | f9daq | 299 | h_correctedTDC = (TH3F*) gROOT->FindObject("h_correctedTDC"); |
300 | if (h_correctedTDC) delete h_correctedTDC; |
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301 | nSteps = (run.thUp - run.thLow)/double(run.thStep) + 1; |
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302 | if (dbg) printf("nSteps %d\n", nSteps); |
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50 | f9daq | 303 | biasLow = (run.biasLow - 0.5*run.biasStep)/1000.0; |
304 | biasUp = (run.biasUp + 0.5*run.biasStep)/1000.0; |
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40 | f9daq | 305 | h_correctedTDC = new TH3F("h_correctedTDC",";SiPM channel; ASD threshold [V]; t [ns]", |
50 | f9daq | 306 | NCH, -0.5, NCH-0.5, |
307 | nBiasSteps, biasLow, biasUp, |
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40 | f9daq | 308 | 2*tdcCut+1, |
309 | -tdcCut*TDC_BIN - 0.5*TDC_BIN, |
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310 | tdcCut*TDC_BIN + 0.5*TDC_BIN); |
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311 | |||
36 | f9daq | 312 | h_bias = (TH2F*) gROOT->FindObject("h_bias"); |
313 | if (h_bias) delete h_bias; |
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314 | h_bias = new TH2F("h_bias",";Channel; Bias [V]", 64, -0.5, 63.5, |
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50 | f9daq | 315 | nBiasSteps, biasLow, biasUp); |
36 | f9daq | 316 | |
35 | f9daq | 317 | if (h_threshold) delete h_threshold; |
50 | f9daq | 318 | thrLow = (run.thLow - 0.5*run.thStep)/1000.0; |
319 | thrUp = (run.thUp + 0.5*run.thStep)/1000.0; |
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35 | f9daq | 320 | h_threshold = new TH2F("h_threshold",";SiPM ch;Threshold[V]",64,-0.5,63.5, |
50 | f9daq | 321 | nSteps, thrLow, thrUp); |
35 | f9daq | 322 | |
323 | //h_threshold = new TH2F("h_threshold","Threshold scan;SiPM ch;Threshold[mV]",64,-0.5,63.5, |
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324 | // 101,995,2005); |
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325 | |||
326 | if (h_ch33) delete h_ch33; |
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327 | h_ch33 = new TH2F("h_ch33","ch. 33;x;y",100,20000,30000,100,0,10000); |
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328 | |||
50 | f9daq | 329 | h_biasThreshold = (TH3F*) gROOT->FindObject("h_biasThreshold"); |
330 | if (h_biasThreshold) delete h_biasThreshold; |
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331 | h_biasThreshold = new TH3F("h_biasThreshold", ";Channel;Bias[V];Threshold[V]", |
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332 | 64, -0.5, 63.5, |
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333 | nBiasSteps, biasLow, biasUp, |
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334 | nSteps, thrLow, thrUp); |
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335 | |||
35 | f9daq | 336 | if (dbg) printf("RUNREC: all histos created.\n"); |
337 | break; |
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338 | |||
339 | case POSREC_ID: |
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340 | if (dbg) printf("POSREC\n"); |
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341 | gzread(dfp, (voidp)&readbuf[2], (rec_len-2*ulsize)); |
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342 | posrec = (POSREC *) readbuf; |
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343 | pos=*posrec; |
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344 | |||
345 | if(dbg) { |
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346 | printf("POSREC_ID\n"); |
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347 | printf("id = %d, len = %d, time = %d\n", posrec->id, posrec->len, posrec->time); |
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348 | printf("ix = %d, x = %d, xset = %d\n", posrec->ix, posrec->x, posrec->xset); |
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349 | printf("iy = %d, y = %d, yset = %d\n", posrec->iy, posrec->y, posrec->yset); |
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350 | } else printf(" [%d,%d] %d, %d\n", pos.ix, pos.iy, pos.xset, pos.yset); |
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351 | |||
352 | break; |
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353 | |||
354 | case EVTREC_ID: |
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355 | gzread(dfp, (voidp)&readbuf[2], ulsize); // last field of event record |
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356 | evtrec = (EVTREC *) readbuf; |
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357 | //evtrec->nev = buf[0]; |
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358 | //if (rec_len < 0 || rec_len > 10000) { |
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359 | if (rec_len > READBUFFERLENGTH) { |
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360 | printf("Len %u\n", rec_len); |
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361 | return(1); |
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362 | } |
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363 | nb = rec_len - 3*ulsize; // no. of bytes to read |
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364 | gzread(dfp, (voidp)&buf, nb); |
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365 | |||
366 | if(dbg) { |
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367 | printf("EVTREC_ID\n"); |
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368 | printf("id = %d, len = %d, nev = %d\n", evtrec->id, evtrec->len, evtrec->nev); |
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369 | //for(int datai = 0; datai < NCH; datai++) printf("%u ", evtrec->data[datai]); |
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370 | //printf("\n"); |
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371 | //for(int datai = NCH; datai < NCH+NCH; datai++) printf("%u ", evtrec->data[datai]); |
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372 | //printf("\n"); |
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373 | break; |
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374 | } |
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375 | |||
376 | nint = nb / ulsize; // no. of subrecords |
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377 | if (dbg) printf("No. of subrecords %d \n", nint); |
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378 | ii=0; |
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379 | |||
50 | f9daq | 380 | while (ii<nint){ |
381 | int recid = buf[ii++]; |
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382 | int len = buf[ii++]; |
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383 | if (dbg) printf("Buffer pointer %d\n", ii); |
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384 | unsigned int *dbuf = (unsigned int *)&buf[ii]; |
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385 | //if (n%1000==0) |
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386 | if (dbg) printf("%d 0x%03x Len=%d\n",evtrec->nev,recid,len); |
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387 | //unsigned short edge; |
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388 | //int nhits; |
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389 | if (recid==0x140 || recid==0x141) { |
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390 | for (int i=0; i<len; i++) { |
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391 | int data = dbuf[i] & 0xFFFF ; |
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392 | int edge_type = (dbuf[i]>>16)&0x1 ; |
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393 | int overflow = (dbuf[i]>>17)&0x1 ; |
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394 | int tdc_num = (dbuf[i]>>25)&0x1 ; |
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395 | int channel = ((dbuf[i]>>18)&0x1F) | tdc_num<<5 ; |
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396 | int ev_dat = (dbuf[i]>>23)&0x1 ; |
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397 | int last_dat = (dbuf[i]>>30)&0x1 ; |
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398 | int nval_dat = (dbuf[i]>>31)&0x1 ; |
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399 | if (dbg){ |
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400 | if (ev_dat) printf("Event %d\n",data); |
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401 | else printf("ch=%d edge=%d ev=%d data=%d last=%d nval=%d\n", |
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402 | channel, edge_type,ev_dat,data,last_dat,nval_dat); |
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403 | } |
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404 | if (!ev_dat){ |
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405 | if (!edge_type && !overflow) { |
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406 | htdc->Fill(data, channel); |
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407 | if (dbg) printf("ch: %d tdc: %d\n", channel, data); |
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408 | if (dbg) nt->Fill(channel, pos.ix, pos.iy, data); |
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409 | //double tdcmin = tdcOffset[channel] - tdcCut; |
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410 | //double tdcmax = tdcOffset[channel] + tdcCut; |
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411 | double time = data*TDC_BIN - tdcOffset[channel]; |
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412 | h_biasThreshold->Fill(channel, bias.bias/1000.0, thr.threshold/1000.0); |
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35 | f9daq | 413 | |
50 | f9daq | 414 | if(time >= -tdcCut and time <= tdcCut) { |
415 | h_correctedTDC->Fill(channel, bias.bias/1000.0, time); |
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416 | hnhitsx[channel]->Fill((pos.xset - OFFSETX) * MIKRO_BIN); |
||
417 | hnhitsy[channel]->Fill((pos.yset - OFFSETY) * MIKRO_BIN); |
||
418 | h2d[channel]->Fill((pos.xset - OFFSETX) * MIKRO_BIN, (pos.yset - OFFSETY) * MIKRO_BIN); |
||
419 | |||
420 | if (position(pos.xset-OFFSETX, pos.yset-OFFSETY, channel)) { |
||
421 | //h_ch33->Fill(pos.xset-OFFSETX, pos.yset-OFFSETY); |
||
422 | h_threshold->Fill(channel, thr.threshold/1000.0); |
||
423 | h_bias->Fill(channel, bias.bias/1000.0); |
||
424 | } |
||
425 | |||
426 | } |
||
427 | //gV673A->Fill(data,channel); |
||
428 | //gsumV673A[channel/16]->Fill(data); |
||
429 | } |
||
430 | } |
||
431 | if (last_dat) break; |
||
432 | } |
||
433 | } // if (recid== 0x140 || recid== 0x141) |
||
434 | ii += len; |
||
435 | } //while |
||
436 | |||
35 | f9daq | 437 | break; |
438 | |||
439 | case THRREC_ID: |
||
440 | status = gzread(dfp, (voidp)&readbuf[2], (rec_len-2*ulsize)); |
||
441 | thrrec = (THRREC*) readbuf; |
||
442 | thr = *thrrec; |
||
443 | if (dbg) printf("THRREC id = %d len = %d threshold %d\n", |
||
444 | thrrec->id, thrrec->len, thrrec->threshold); |
||
445 | break; |
||
446 | |||
447 | case ENDREC_ID: |
||
448 | gzread(dfp, (voidp)&readbuf[2], (rec_len-2*ulsize)); |
||
449 | endrec = (ENDREC *) readbuf; |
||
450 | |||
36 | f9daq | 451 | case BIASREC_ID: |
452 | status = gzread(dfp, (voidp)&readbuf[2], (rec_len-2*ulsize)); |
||
453 | biasrec = (BIASREC*) readbuf; |
||
454 | bias = *biasrec; |
||
455 | if (dbg) printf("BIASREC id = %d len = %d bias %d\n", |
||
456 | bias.id, bias.len, bias.bias); |
||
457 | break; |
||
458 | |||
35 | f9daq | 459 | if(dbg) { |
460 | printf("ENDREC_ID\n"); |
||
461 | printf("id = %d, len = %d, time = %d\n", endrec->id, endrec->len, endrec->time); |
||
462 | } else printf(" ENDREC\n"); |
||
463 | |||
464 | fcount++; |
||
465 | switch(ftype-1) { |
||
466 | case 0: |
||
467 | sprintf(dfile, "./data/%s_file%02d.dat", dfile0, fcount); |
||
468 | break; |
||
469 | case 1: |
||
470 | sprintf(dfile, "./data/%s_file%02d.dat.gz", dfile0, fcount); |
||
471 | break; |
||
472 | case 2: |
||
473 | sprintf(dfile, "./data/%s_file%02d.gz", dfile0, fcount); |
||
474 | break; |
||
475 | } |
||
476 | |||
477 | if(dfp) gzclose(dfp); |
||
478 | |||
479 | dfp=gzopen(dfile,"rb"); |
||
480 | if(!dfp) { |
||
481 | printf(" Cannot open data file: %s ---> Exiting\n", dfile); |
||
482 | end_of_file = 1; |
||
483 | } else { |
||
484 | printf(" Opened data file: %s\n", dfile); |
||
485 | end_of_file = 0; |
||
486 | } |
||
487 | |||
488 | break; |
||
489 | |||
490 | default: |
||
491 | printf("switch(rec_id): default !!!\n"); |
||
492 | end_of_file = 1; |
||
493 | break; |
||
494 | } |
||
495 | |||
496 | ceve++; |
||
497 | if ( (ceve%50000) == 0) printf(" Current event = %d\n", ceve); |
||
498 | //if(dbg) if( ceve>dbg ) break; |
||
499 | if (end_of_file) break; |
||
500 | } |
||
501 | |||
502 | if(dfp) { |
||
503 | gzclose(dfp); |
||
504 | //delete dfp; |
||
505 | } |
||
506 | //if(dbg) return 0; |
||
507 | if(rootfile.IsOpen()) { |
||
508 | nt->Write(); |
||
509 | rootfile.Write(); |
||
510 | printf("Saved to %s\n", fnameroot); |
||
511 | rootfile.Close(); |
||
512 | //delete rootfile; |
||
513 | } |
||
514 | |||
515 | return 0; |
||
516 | } |
||
517 | |||
518 | int position(int x, int y, int channel) |
||
519 | { |
||
520 | int flag = 0; |
||
40 | f9daq | 521 | if ( (x > (padCenter[channel][0] - 5040)) and (x < (padCenter[channel][0] + 5040)) and |
522 | (y > (padCenter[channel][1] - 5040)) and (y < (padCenter[channel][1] + 5040)) ) flag = 1; |
||
35 | f9daq | 523 | return flag; |
524 | } |