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Rev | Author | Line No. | Line |
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29 | f9daq | 1 | #define USE_DAQ |
2 | #define USE_MIKRO |
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3 | |||
4 | // Izberi ustrezni interface v meniju projektnega okna |
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5 | // Options->CompilerDefines (dodaj /DSISVME ali /DWIENVME) |
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6 | #ifdef USE_DAQ |
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7 | # define USE_CAMAC |
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32 | f9daq | 8 | #include "c:\HOME\dino\sipmScan\include\camac.h" |
29 | f9daq | 9 | # ifdef SISVME |
10 | # include "sisvme_dll.h" |
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11 | # endif |
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12 | # ifdef WIENVME |
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13 | # include "wienvme_dll.h" |
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14 | # endif |
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15 | # include "CAENV673A.h" |
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16 | # include "CAENV462.h" |
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17 | #endif |
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18 | |||
19 | #ifdef USE_MIKRO |
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20 | # include "MIKRO.h" |
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21 | #endif |
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22 | |||
23 | #include <userint.h> |
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24 | #include <ansi_c.h> |
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25 | #include <utility.h> |
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26 | #include <analysis.h> |
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27 | |||
32 | f9daq | 28 | #include "c:\HOME\dino\sipmScan\include\sipmThreshold_ui.h" |
29 | f9daq | 29 | |
30 | #ifdef USE_DAQ |
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31 | # define USE_CAMAC |
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32 | # include "camac.h" |
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33 | # define NDAC 1 |
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34 | |||
35 | # define CAEN_V673A 0x22220000 // IJS |
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36 | //#define CAEN_V673A 0x10110000 // FMF |
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37 | # define CAEN_V462 0x100300 |
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38 | #endif |
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39 | |||
40 | #ifdef USE_MIKRO |
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41 | # define MIKRO_COM 5 |
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42 | # define MIKRO_X 1 |
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43 | # define USE_MIKRO_Y |
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44 | # define MIKRO_Y 2 |
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45 | # define USE_MIKRO_Z |
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46 | # define MIKRO_Z 3 |
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90 | f9daq | 47 | # define STEP_TOLERANCE 1 |
29 | f9daq | 48 | #endif |
49 | |||
50 | #define MAXCH 512 |
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51 | #define MAX_THREADS 10 |
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52 | |||
53 | #define IWAIT 200 |
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54 | |||
55 | #define NCH 64 |
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56 | |||
57 | static int p1h, pID, rID, tfID; |
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58 | static int ph_tdc, ph_adc; |
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59 | static int dtdc[NCH][2][MAXCH]; |
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60 | static int something[NCH][2][MAXCH]; |
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61 | |||
62 | static int daq_on; |
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63 | static int poolHandle = 0; |
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64 | static int ntics,dummy; |
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65 | |||
66 | /************************************************************/ |
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67 | void wait_loop(unsigned long iloop) |
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68 | |||
69 | { |
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70 | int i; |
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71 | |||
72 | for (i=0;i<iloop;i++); |
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73 | return; |
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74 | } |
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75 | |||
76 | int CVICALLBACK cb_timer (int panel, int control, int event, void *callbackData, |
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77 | int eventData1, int eventData2) |
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78 | { |
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79 | QueueUserEvent (9000, p1h, P1_TIMER); |
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80 | return (0); |
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81 | } |
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82 | |||
83 | int update_plots (void) |
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84 | { |
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85 | int irange, ch; |
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86 | |||
87 | GetCtrlVal (p1h, P1_PLCH, &ch); |
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88 | |||
89 | if (ph_tdc>0) DeleteGraphPlot (p1h, P1_TDC, ph_tdc, VAL_DELAYED_DRAW); |
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90 | GetCtrlVal (p1h, P1_TDCHL, &irange); |
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91 | ph_tdc = PlotY (p1h, P1_TDC, &dtdc[ch][irange], MAXCH, VAL_INTEGER, |
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92 | VAL_VERTICAL_BAR, VAL_EMPTY_SQUARE, VAL_SOLID, 1, VAL_RED); |
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93 | |||
94 | if (ph_adc>0) DeleteGraphPlot (p1h, P1_ADC, ph_adc, VAL_DELAYED_DRAW); |
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95 | GetCtrlVal (p1h, P1_ADCHL, &irange); |
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96 | ph_adc = PlotY (p1h, P1_ADC, &something[ch][irange], MAXCH, VAL_INTEGER, |
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97 | VAL_VERTICAL_BAR, VAL_EMPTY_SQUARE, VAL_SOLID, 1, VAL_BLUE); |
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98 | return (0); |
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99 | } |
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100 | |||
101 | |||
102 | int module_header(int recid,unsigned long *data,int len){ |
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103 | data[0] = recid; |
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104 | data[1] = (len >0)? len : 0 ; |
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105 | return data[1]+2; |
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106 | } |
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107 | |||
108 | int SetDac(int, double); |
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109 | |||
110 | int CVICALLBACK daq_run(void *functionData) |
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111 | { |
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112 | // *** |
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113 | // variable declarations |
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114 | int i,j; |
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115 | int dtype,ch,rg,adc,cres,bsr; |
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116 | |||
117 | //unsigned short aa[NCH][4]; |
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118 | unsigned long tdc[NCH]; |
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119 | unsigned long step_minutes, end_time_s, cur_time_s; |
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120 | int start_hours, start_minutes, start_seconds; |
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121 | |||
122 | int status,fmax,fcount,fev; |
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123 | int popupret; |
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124 | int mikroX; // check the position |
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125 | int mikroY; // check the position |
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126 | |||
127 | char dfile[MAX_PATHNAME_LEN],dfile0[MAX_PATHNAME_LEN]; |
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128 | int supr0,tdcmin,fseed; |
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129 | float frac; |
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130 | double fracg; |
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131 | unsigned short dum16; |
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132 | int count; |
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133 | int print = 0; |
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134 | int timer_out = 0; |
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135 | //time_t t,told, tstart; |
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136 | int ntrig; |
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137 | int chip, len; |
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138 | unsigned long *pdata; |
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139 | |||
140 | FILE *fp; |
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141 | #define RUNREC_ID 1 |
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142 | #define ENDREC_ID 2 |
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143 | #define POSREC_ID 3 |
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144 | #define EVTREC_ID 4 |
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145 | #define THRREC_ID 5 |
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146 | |||
147 | typedef struct { |
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148 | unsigned long id,len; |
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149 | unsigned long fver,time; |
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150 | unsigned long nev,nch,ped,xy; |
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151 | unsigned long thLow, thUp, thStep; |
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152 | long nx,x0,dx,ny,y0,dy; |
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153 | } RUNREC; |
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154 | RUNREC runrec; |
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155 | |||
156 | typedef struct { |
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157 | unsigned long id,len; |
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158 | unsigned long time; |
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159 | } ENDREC; |
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160 | ENDREC endrec; |
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161 | |||
162 | typedef struct { |
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163 | unsigned long id,len; |
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164 | unsigned long time; |
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165 | long ix,x,xset,iy,y,yset; |
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166 | } POSREC; |
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167 | POSREC posrec; |
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168 | |||
169 | typedef struct { |
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170 | unsigned long id,len; |
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171 | unsigned long nev; |
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172 | //unsigned short data[NCH]; |
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173 | } EVTREC; |
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174 | EVTREC evtrec; |
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175 | |||
176 | typedef struct { |
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177 | unsigned long id; |
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178 | unsigned long len; |
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179 | unsigned long threshold; |
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180 | } THRREC; |
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181 | THRREC thrrec; |
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182 | |||
183 | double thresholdLow; |
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184 | double thresholdUp; |
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185 | double thresholdStep; |
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186 | |||
187 | #define BSIZE 20000 |
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188 | |||
189 | int maxn = BSIZE-4; // 2 words x 2 headers |
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190 | int tdcdata, edge_type, overflow, tdc_num, channel, ev_dat, last_dat, nval_dat; |
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191 | // end of declarations |
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192 | // *** |
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193 | |||
194 | runrec.id = RUNREC_ID; |
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195 | runrec.len = sizeof(runrec); |
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196 | //runrec.fver = 0x10000; |
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197 | runrec.nch = NCH; |
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198 | GetCtrlVal(p1h, P1_ADCHLSAVE, &runrec.xy);//runrec.xy = 1; |
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199 | GetCtrlVal(p1h, P1_DEBUG, &print); |
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200 | endrec.id = ENDREC_ID; |
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201 | endrec.len = sizeof(endrec); |
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202 | posrec.id = POSREC_ID; |
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203 | posrec.len = sizeof(posrec); |
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204 | evtrec.id = EVTREC_ID; |
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205 | evtrec.len = sizeof(evtrec); |
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206 | thrrec.id = THRREC_ID; |
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207 | thrrec.len = sizeof(thrrec); |
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208 | |||
209 | |||
210 | cres = 0; |
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211 | |||
212 | GetCtrlVal (p1h, P1_NEVE, &runrec.nev); |
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213 | GetCtrlVal (p1h, P1_PEDESTAL, &runrec.ped); |
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214 | |||
215 | GetCtrlVal (p1h, P1_NX, &runrec.nx); |
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216 | GetCtrlVal (p1h, P1_XSTEP, &runrec.dx); |
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217 | GetCtrlVal (p1h, P1_XMIN, &runrec.x0); |
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218 | GetCtrlVal (p1h, P1_NY, &runrec.ny); |
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219 | GetCtrlVal (p1h, P1_YSTEP, &runrec.dy); |
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220 | GetCtrlVal (p1h, P1_YMIN, &runrec.y0); |
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221 | |||
222 | GetCtrlVal (p1h, P1_NMIN, &step_minutes); |
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223 | GetSystemTime(&start_hours, &start_minutes, &start_seconds); |
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224 | //cur_time_s = start_hours*3600 + start_minutes*60 + start_seconds; |
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225 | time(&cur_time_s); |
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226 | end_time_s = cur_time_s + step_minutes*60; |
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227 | printf("START:%2d-%2d-%2d (cur_time = %u s, end_time = %u s)\n", start_hours, start_minutes, start_seconds, cur_time_s, end_time_s); |
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228 | |||
229 | //GetCtrlVal (p1h, P1_DSAVE, &dsave); |
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230 | //if (dsave) { |
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231 | GetCtrlVal (p1h, P1_DFILE, dfile0); |
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232 | |||
233 | fev=0; |
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234 | fcount=1; |
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235 | GetCtrlVal (p1h, P1_NEWF, &fmax); |
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236 | fmax*=1000000;//fmax in Mega Bytes |
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237 | //} |
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238 | GetCtrlVal (p1h, P1_SUPR, &supr0); |
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239 | if (supr0) { |
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240 | GetCtrlVal (p1h, P1_TDCMIN, &tdcmin); |
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241 | GetCtrlVal (p1h, P1_FRAC, &frac); |
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242 | } |
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243 | |||
244 | GetCtrlVal (p1h, P1_STHRLOW, &thresholdLow); |
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245 | runrec.thLow = thresholdLow*1000; // mV |
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246 | GetCtrlVal (p1h, P1_STHRUP, &thresholdUp); |
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247 | runrec.thUp = thresholdUp*1000; // mV |
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248 | GetCtrlVal (p1h, P1_STEP, &thresholdStep); |
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249 | runrec.thStep = thresholdStep*1000; // mV |
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250 | |||
251 | |||
252 | #ifdef USE_DAQ |
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253 | V673A_map(0,CAEN_V673A,0); |
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254 | V673A_init(0); |
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255 | |||
256 | V462_map(0,CAEN_V462,0); |
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257 | V462_set0(0,1); |
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258 | #endif |
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259 | |||
260 | //if (dsave) { |
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261 | sprintf(dfile,"%s_file%02d.dat",dfile0,fcount); |
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262 | |||
263 | fp = fopen (dfile, "wb"); |
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264 | time (&runrec.time); |
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265 | status = fwrite (&runrec, 1, runrec.len, fp); |
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266 | //} |
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267 | if (supr0) { |
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268 | fseed = runrec.time & 0x7fffffff; |
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269 | Uniform (1, fseed, &fracg); |
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270 | } |
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271 | |||
272 | thrrec.threshold = (unsigned long) ceil(thresholdLow*1000); // threshold in mV |
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273 | while (thrrec.threshold <= thresholdUp*1000) { |
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274 | SetDac(0, thrrec.threshold/1000.0); |
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275 | SetCtrlVal(p1h, P1_STHRLOW, thrrec.threshold/1000.0); |
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276 | //wait_loop(100000); |
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277 | status = fwrite(&thrrec, 1, thrrec.len, fp); |
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278 | if (print) printf("THRREC status %d len %d threshold %d\n", status, thrrec.len, thrrec.threshold); |
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279 | |||
280 | for (posrec.ix=0; posrec.ix<runrec.nx; posrec.ix++) { |
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281 | posrec.xset = runrec.x0 + posrec.ix*runrec.dx; |
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282 | #ifdef USE_MIKRO |
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283 | //printf("MIKRO_MoveTo (1, x);%d\n",posrec.x); |
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284 | do { |
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285 | MIKRO_MoveTo (MIKRO_X, posrec.xset); |
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286 | MIKRO_GetPosition(MIKRO_X, &mikroX); |
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287 | } while (abs(posrec.xset - mikroX) > STEP_TOLERANCE); |
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288 | //printf("->MIKRO_MoveTo (1, x);%d\n",posrec.xset); |
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289 | #endif |
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290 | //SetCtrlVal (p1h, P1_X, posrec.xset); |
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291 | posrec.xset = mikroX; // set the true value |
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292 | SetCtrlVal(p1h, P1_X, mikroX); |
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293 | SetCtrlVal (p1h, P1_IX, posrec.ix); |
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294 | for (posrec.iy=0; posrec.iy<runrec.ny; posrec.iy++) { |
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295 | posrec.yset = runrec.y0 + posrec.iy*runrec.dy; |
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296 | #ifdef USE_MIKRO_Y |
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297 | //printf("MIKRO_MoveTo (2, y);%d\n",y); |
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298 | do { |
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299 | MIKRO_MoveTo (MIKRO_Y, posrec.yset); |
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300 | MIKRO_GetPosition(MIKRO_Y, &mikroY); |
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301 | } while (abs(posrec.yset - mikroY) > STEP_TOLERANCE); |
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302 | //printf("->MIKRO_MoveTo (2, y);%d\n",posrec.yset); |
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303 | #endif |
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304 | //SetCtrlVal (p1h, P1_Y, posrec.yset); |
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305 | posrec.yset = mikroY; // set the true value |
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306 | SetCtrlVal (p1h, P1_Y, mikroY); |
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307 | SetCtrlVal (p1h, P1_IY, posrec.iy); |
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308 | //if (dsave) { |
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309 | if (fmax && (ftell(fp) > fmax)) { |
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310 | fcount+=1; |
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311 | sprintf(dfile,"%s_file%02d.dat",dfile0,fcount); |
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312 | fclose(fp); |
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313 | fp = fopen (dfile, "wb"); |
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314 | } |
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315 | |||
316 | time (&posrec.time); |
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317 | status = fwrite (&posrec, 1, posrec.len, fp); |
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318 | if (print) printf("POSREC status %d len %d\n", status, posrec.len); |
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319 | //} |
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320 | |||
321 | // clear the plots |
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322 | for (j=0;j<NCH;j++) { |
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323 | for (i=0;i<MAXCH;i++){ |
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324 | dtdc[j][0][i]=0; |
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325 | dtdc[j][1][i]=0; |
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326 | } |
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327 | } |
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328 | |||
329 | evtrec.nev=1; |
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330 | //time(&t); |
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331 | //tstart=t; |
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332 | if (print) printf("RUN START.\n"); |
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333 | |||
334 | do { |
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335 | unsigned long word[BSIZE]; |
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336 | count=0; |
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337 | ntics=0; |
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338 | if (print) printf("Event counter: %d\n", evtrec.nev); |
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339 | |||
340 | //if (t!=told ) printf("%d in %2.2f min daq::event() %s\n",i, (double)(t-tstart)/60., ctime(&t)); |
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341 | |||
342 | #ifdef USE_DAQ |
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343 | #ifdef CAEN_V673A |
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344 | |||
345 | |||
346 | V462_start0(0); |
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347 | //tmlnk (tout); |
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348 | do { |
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349 | ntrig = V673A_ntrig(0); |
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350 | } while (ntrig==0 &&(ntics<2)); |
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351 | //tmulk(); |
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352 | //if (timer_out) { |
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353 | // fprintf(stderr,"-----------------> V673a timeout !!!\n"); |
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354 | // V673A_clallb(0); |
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355 | // continue; |
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356 | //} |
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357 | |||
358 | if (ntics>=2) { |
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359 | fprintf(stderr,"-----------------> V673a timeout !!!\n"); |
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360 | printf("Timer tics %d\n", ntics); |
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361 | ntics = 0; |
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362 | evtrec.nev--; |
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363 | V673A_clallb(0); |
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364 | continue; |
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365 | } |
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366 | |||
367 | if (ntrig>0){ |
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368 | // chip readout |
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369 | for (chip=0;chip<2;chip++){ |
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370 | if (chip) len = V673A_read1 (0, &word[count+2],maxn-count-2); |
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371 | else len = V673A_read0 (0, &word[count+2],maxn-count-2); |
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372 | |||
373 | if (len>16*32*4){ |
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374 | if (print) printf("Length > 2048 per chip!\n"); |
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375 | chip=2; |
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376 | V673A_clallb(0); |
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377 | evtrec.nev--; |
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378 | continue; |
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379 | } |
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380 | pdata=&word[count+2]; |
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381 | for(i=0;i< len;i++){ |
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382 | tdcdata = pdata[i] & 0xFFFF ; |
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383 | edge_type = (pdata[i]>>16)&0x1 ; |
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384 | overflow = (pdata[i]>>17)&0x1 ; |
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385 | tdc_num = (pdata[i]>>25)&0x1 ; |
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386 | channel = ((pdata[i]>>18)&0x1F) |tdc_num<<5 ; |
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387 | ev_dat = (pdata[i]>>23)&0x1 ; |
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388 | last_dat = (pdata[i]>>30)&0x1 ; |
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389 | nval_dat = (pdata[i]>>31)&0x1 ; |
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390 | if (ev_dat) { |
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391 | if(print) printf("Event %d\n",tdcdata); |
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392 | } else { |
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393 | dtdc[channel][edge_type][tdcdata]++; |
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394 | |||
395 | if (print) printf |
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396 | ("ch=%d edge=%d ev=%d data=%d last=%d nval=%d\n",channel, edge_type,ev_dat,tdcdata,last_dat,nval_dat); |
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397 | } |
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398 | } |
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399 | if (count+2 < maxn) count+=module_header(0x140+chip,&word[count],len); |
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400 | } |
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401 | if (print) printf("Received triggers: %d \n", ntrig); |
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402 | } else { |
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403 | if (ntrig==0) { |
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404 | fprintf(stderr,"-----------------> no trigger"); |
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405 | break; |
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406 | } else { |
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407 | if (print) fprintf(stderr,"-----------------> wrong number of triggers in chips V673a !!!\n"); |
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408 | } |
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409 | V673A_clallb(0); |
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410 | evtrec.nev--; |
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411 | continue; |
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412 | } |
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413 | |||
414 | V673A_clallb(0); |
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415 | #endif |
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416 | #endif |
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417 | |||
418 | |||
419 | GetCtrlVal(p1h, P1_ADCHLSAVE, &runrec.xy); |
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420 | evtrec.len = count*sizeof(unsigned long) + sizeof(evtrec); |
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421 | if (print) printf("EVTREC.len = %d bytes.\n", evtrec.len); |
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422 | |||
423 | status = fwrite (&evtrec, 1, sizeof(evtrec), fp); |
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424 | status = fwrite (&word, 1, count*sizeof(unsigned long), fp); |
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425 | |||
426 | |||
427 | if (!(evtrec.nev%1000)) SetCtrlVal (p1h, P1_CEVE, evtrec.nev); |
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428 | |||
429 | if (!((evtrec.nev+1)%1000)) { |
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430 | if (fmax && (ftell(fp) > fmax)) { |
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431 | time (&endrec.time); |
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432 | status = fwrite (&endrec, 1, endrec.len, fp); |
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433 | fcount+=1; |
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434 | sprintf(dfile,"%s_file%02d.dat",dfile0,fcount); |
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435 | fclose(fp); |
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436 | fp = fopen (dfile, "wb"); |
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437 | } |
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438 | } |
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439 | |||
440 | if(step_minutes > 0) { |
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441 | GetSystemTime(&start_hours, &start_minutes, &start_seconds); |
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442 | //cur_time_s = start_hours*3600 + start_minutes*60 + start_seconds; |
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443 | time(&cur_time_s); |
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444 | if(cur_time_s >= end_time_s) { |
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445 | end_time_s = cur_time_s + step_minutes*60; |
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446 | printf("STEP (nev):%2d-%2d-%2d @ %d\n", start_hours, start_minutes, start_seconds, posrec.xset); |
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447 | break; |
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448 | } |
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449 | } |
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450 | //told=t; |
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451 | |||
452 | GetCtrlVal(p1h, P1_DAQ, &daq_on); |
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453 | |||
454 | } while (evtrec.nev++<runrec.nev && daq_on); |
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455 | if (!daq_on) break; |
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456 | } // x loop |
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457 | if (!daq_on) break; |
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458 | } // y loop |
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459 | if (!daq_on) break; |
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460 | thrrec.threshold += thresholdStep*1000; |
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461 | } // threhsold loop |
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462 | |||
463 | //if (dsave) { |
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464 | time (&endrec.time); |
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465 | status = fwrite (&endrec, 1, endrec.len, fp); |
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466 | if (print) printf("ENDREC status %d len %d\n", status, endrec.len); |
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467 | fclose(fp); |
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468 | //} |
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469 | GetSystemTime(&start_hours, &start_minutes, &start_seconds); |
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470 | printf("STOP:%2d-%2d-%2d (start_time = %u s, end_time = %u s)\n", start_hours, start_minutes, start_seconds, runrec.time, endrec.time); |
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471 | printf("Elapsed time: %u s.\n", endrec.time-runrec.time); |
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472 | |||
473 | daq_on=0; |
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474 | SetCtrlVal (p1h, P1_DAQ, daq_on); |
||
475 | SetCtrlVal (p1h, P1_CEVE, evtrec.nev); |
||
476 | if (print) printf("RUN END. \n\n"); |
||
477 | |||
478 | return 0; |
||
479 | } |
||
480 | |||
481 | |||
482 | int SetDac(int ch, double val){ |
||
483 | |||
484 | const unsigned int maxdac=0xFFF; |
||
485 | const double RANGE = +9.9976; //V |
||
486 | unsigned int dac; |
||
487 | |||
488 | if ((val > RANGE) || (val < 0)) { |
||
489 | printf("DAC value OUT OF RANGE!!!\n"); |
||
490 | return(-1); |
||
491 | } |
||
492 | |||
493 | dac = (val/RANGE)*maxdac; |
||
494 | CSSA_W(NDAC,ch,16,&dac); |
||
495 | printf("DAC ch %d set to %f V dac=%d\n", ch, val, dac); |
||
496 | return 0; |
||
497 | } |
||
498 | |||
499 | int __stdcall WinMain (HINSTANCE hInstance, HINSTANCE hPrevInstance, |
||
500 | LPSTR lpszCmdLine, int nCmdShow) |
||
501 | { |
||
502 | int i,j,status,refon; |
||
503 | long int xpos, ypos, zpos; |
||
504 | char dfile[300]; |
||
505 | FILE *fp; |
||
506 | |||
507 | typedef struct { |
||
508 | unsigned long id,len; |
||
509 | unsigned long fver,time; |
||
510 | unsigned long nev,nch,ped,xy; |
||
511 | long nx,x0,dx,ny,y0,dy; |
||
512 | } RUNREC; |
||
513 | RUNREC runrec; |
||
514 | |||
515 | if (InitCVIRTE (hInstance, 0, 0) == 0) |
||
516 | return -1; /* out of memory */ |
||
517 | |||
518 | SetSleepPolicy(VAL_SLEEP_MORE); |
||
519 | CmtNewThreadPool (MAX_THREADS, &poolHandle); |
||
520 | |||
521 | SetStdioWindowOptions (1000, 0, 0); |
||
522 | SetStdioWindowSize (200, 560); |
||
523 | SetStdioWindowPosition (825, 250); |
||
524 | |||
525 | #ifdef USE_DAQ |
||
526 | VME_START(NULL); |
||
527 | #endif |
||
528 | |||
529 | #ifdef USE_MIKRO |
||
530 | MIKRO_Open (MIKRO_COM); |
||
531 | MIKRO_Init (MIKRO_X,0); |
||
532 | #ifdef USE_MIKRO_Y |
||
533 | MIKRO_Init (MIKRO_Y,0); |
||
534 | #endif |
||
535 | #ifdef USE_MIKRO_Z |
||
536 | MIKRO_Init (MIKRO_Z,0); |
||
537 | #endif |
||
538 | #endif |
||
539 | |||
32 | f9daq | 540 | if ((p1h = LoadPanel (0, "include/sipmThreshold_ui.uir", P1)) < 0) return -1; |
29 | f9daq | 541 | DisplayPanel (p1h); |
542 | SetCtrlAttribute (p1h, P1_PLCH, ATTR_MAX_VALUE, NCH-1); |
||
543 | |||
544 | GetCtrlVal(p1h, P1_ADCHLSAVE, &runrec.xy); |
||
545 | SetCtrlVal(p1h, P1_ADCHL, runrec.xy-2); |
||
546 | |||
547 | QueueUserEvent (1000, p1h, P1_RESET); |
||
37 | f9daq | 548 | QueueUserEvent (1000, p1h, P1_ASD8THR); |
29 | f9daq | 549 | QueueUserEvent (1000, p1h, P1_AMPDISSHTHR); |
37 | f9daq | 550 | QueueUserEvent (1000, p1h, P1_BIAS); |
29 | f9daq | 551 | do { |
552 | GetUserEvent (1, &pID, &rID); |
||
553 | switch (rID) { |
||
554 | case P1_TIMER: |
||
555 | ntics+=1; |
||
556 | GetCtrlVal (p1h, P1_REFON, &refon); |
||
557 | if (refon) update_plots(); |
||
558 | break; |
||
559 | case P1_REFRESH: |
||
560 | update_plots(); |
||
561 | break; |
||
562 | case P1_DAQ: |
||
563 | GetCtrlVal (p1h, P1_DAQ, &daq_on); |
||
564 | if (daq_on) { |
||
565 | CmtScheduleThreadPoolFunction (poolHandle, daq_run, (void *)&dummy, &tfID); |
||
566 | } else { |
||
567 | CmtWaitForThreadPoolFunctionCompletion (poolHandle, tfID, |
||
568 | OPT_TP_PROCESS_EVENTS_WHILE_WAITING); |
||
569 | CmtReleaseThreadPoolFunctionID (poolHandle, tfID); |
||
570 | } |
||
571 | break; |
||
572 | |||
573 | case P1_ZSET: |
||
574 | if (!daq_on) { |
||
575 | GetCtrlVal (p1h, P1_ZSET, &zpos); |
||
576 | #ifdef USE_MIKRO_Z |
||
577 | MIKRO_MoveTo (MIKRO_Z, zpos); |
||
578 | #endif |
||
579 | } |
||
580 | break; |
||
581 | case P1_REREAD: |
||
582 | if (!daq_on) { |
||
583 | status = FileSelectPopup ("", "*.dat", ".dat", |
||
584 | "Choose the previous file", |
||
585 | VAL_LOAD_BUTTON, 0, 0, 1, 0, dfile); |
||
586 | if (status==1) { |
||
587 | fp = fopen (dfile, "rb"); |
||
588 | status = fread (&runrec, 1, sizeof(runrec), fp); |
||
589 | fclose(fp); |
||
590 | if (runrec.id==1) { |
||
591 | SetCtrlVal (p1h, P1_NX, runrec.nx); |
||
592 | SetCtrlVal (p1h, P1_XSTEP, runrec.dx); |
||
593 | SetCtrlVal (p1h, P1_XMIN, runrec.x0); |
||
594 | SetCtrlVal (p1h, P1_NY, runrec.ny); |
||
595 | SetCtrlVal (p1h, P1_YSTEP, runrec.dy); |
||
596 | SetCtrlVal (p1h, P1_YMIN, runrec.y0); |
||
597 | SetCtrlVal (p1h, P1_NEVE, runrec.nev); |
||
598 | } |
||
599 | } |
||
600 | } |
||
601 | break; |
||
602 | case P1_MGET: |
||
603 | #ifdef USE_MIKRO |
||
604 | MIKRO_GetPosition(MIKRO_X,&xpos); |
||
605 | Delay(0.01); |
||
606 | SetCtrlVal (p1h, P1_X, xpos); |
||
607 | #ifdef USE_MIKRO_Y |
||
608 | MIKRO_GetPosition(MIKRO_Y,&ypos); |
||
609 | Delay(0.01); |
||
610 | SetCtrlVal (p1h, P1_Y, ypos); |
||
611 | #endif |
||
612 | #ifdef USE_MIKRO_Z |
||
613 | MIKRO_GetPosition(MIKRO_Z,&zpos); |
||
614 | Delay(0.01); |
||
615 | SetCtrlVal (p1h, P1_Z, zpos); |
||
616 | #endif |
||
617 | #endif |
||
618 | break; |
||
619 | case P1_HO: |
||
620 | if (!daq_on) { |
||
621 | SetWaitCursor (1); |
||
622 | #ifdef USE_MIKRO |
||
623 | MIKRO_ReferenceMove (MIKRO_X); |
||
624 | #ifdef USE_MIKRO_Y |
||
625 | MIKRO_ReferenceMove (MIKRO_Y); |
||
626 | #endif |
||
627 | #ifdef USE_MIKRO_Z |
||
628 | MIKRO_ReferenceMove (MIKRO_Z); |
||
629 | #endif |
||
630 | #endif |
||
631 | SetWaitCursor (0); |
||
632 | } |
||
633 | break; |
||
634 | case P1_RESET: |
||
635 | for (j=0;j<NCH;j++) { |
||
636 | for (i=0;i<MAXCH;i++){ |
||
637 | dtdc[j][0][i]=0; |
||
638 | dtdc[j][1][i]=0; |
||
639 | |||
640 | } |
||
641 | } |
||
642 | update_plots(); |
||
643 | break; |
||
644 | case P1_TDCLOG: |
||
645 | GetCtrlVal (p1h, P1_TDCLOG, &status); |
||
646 | SetCtrlAttribute (p1h, P1_TDC, ATTR_YMAP_MODE, status); |
||
647 | update_plots(); |
||
648 | break; |
||
649 | case P1_ADCLOG: |
||
650 | GetCtrlVal (p1h, P1_ADCLOG, &status); |
||
651 | SetCtrlAttribute (p1h, P1_ADC, ATTR_YMAP_MODE, status); |
||
652 | update_plots(); |
||
653 | break; |
||
37 | f9daq | 654 | case P1_ASD8THR: |
29 | f9daq | 655 | { |
656 | double value; |
||
37 | f9daq | 657 | GetCtrlVal (p1h, P1_STHRLOW, &value); |
29 | f9daq | 658 | SetDac(0, value); |
659 | |||
660 | } |
||
37 | f9daq | 661 | break; |
662 | case P1_BIAS: |
||
663 | { |
||
664 | double value; |
||
665 | GetCtrlVal (p1h, P1_SBIAS, &value); |
||
666 | SetDac(2, value); |
||
667 | } |
||
668 | break; |
||
29 | f9daq | 669 | case P1_AMPDISSHTHR: |
670 | { |
||
671 | double value; |
||
672 | GetCtrlVal (p1h, P1_SAMPDISSHTHR, &value); |
||
673 | SetDac(1, value); |
||
674 | |||
675 | } |
||
676 | break; |
||
677 | |||
678 | } |
||
679 | |||
680 | } while ((rID != P1_EXIT)||daq_on); |
||
681 | |||
682 | CmtDiscardThreadPool (poolHandle); |
||
683 | DiscardPanel (p1h); |
||
684 | |||
685 | #ifdef USE_MIKRO |
||
686 | MIKRO_Close (); |
||
687 | #endif |
||
688 | |||
689 | #ifdef USE_DAQ |
||
690 | VME_STOP(); |
||
691 | #endif |
||
692 | return 0; |
||
693 | |||
694 | } |