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101 f9daq 1
#include "TH1.h"
2
#include "TH2.h"
3
#include "TGraph.h"
4
#include "TCanvas.h"
5
#include "TStyle.h"
6
#include "TLegend.h"
7
//#include "TROOT.h"
8
 
9
#include <stdio.h>
10
 
11
#define DATA_PATH  "./data/"
12
#define CFRAC 0.4
13
#define DWIDTH 1024
14
void drs(int nev=1000, int updfrq=20, const char *FileName="./data/x1.dat", int trgch=0, int debug=0)
15
{
16
  int i,j,ich,iev;
17
  int stat;
18
  char histname[128];
19
//  char FileName[300]="./data/n2.dat";
20
  FILE *fin;
21
 
22
  char recid[5]="SAMO";
23
  unsigned short *srecid = (unsigned short *) &recid[0];
24
  unsigned int * irecid;
25
  struct evrec {
26
    unsigned long evn;
27
    unsigned short tYear,tMonth,tDay,tHour,tMin,tSec,tmSec,reserved;
28
  } evrec;
29
 
30
  float dtdata[4][DWIDTH];
31
  float tcdata[4][DWIDTH];
32
  float tccalib[4];
33
 
34
  short lwfm[4];
35
  int nwfm[4];
36
  int board;
37
 
38
//  int imin[4]={250,250,250,250};
39
//  int imax[4]={750,750,750,750};
40
  unsigned short ichdat[4][DWIDTH];
41
  float chdat[4][DWIDTH],achdat[4][DWIDTH],chmax[4][2],chmin[4][2];
42
  float letime[4][2],cftime[4][2],qdc[4];
43
//  float threshold[4][2]={{0.,-0.02},{0.,0.},{0.,0.},{0.,-0.25}};
44
//  float twin[4][2]={{120.,130.},{100.,150.},{100.,150.},{70.,90.}};
45
//  float adcgate[4][2]={{124.,136.},{120.,140.},{120.,140.},{70.,90.}};
46
//  float threshold[4][2]={{0.,-0.05},{0.,-0.05},{0.,-0.25},{0.,-0.25}};
47
//  float twin[4][2]={{80.,100.},{80.,100.},{90.,110.},{50.,70.}};
48
//  float adcgate[4][2]={{80.,110.},{80.,110.},{90.,110.},{50.,70.}};
49
  float threshold[4][2]={{0.,-0.1},{0.,-0.05},{0.,-0.25},{0.,-0.25}};
50
  float twin[4][2]={{100.,120.},{100.,120.},{40.,130.},{60.,80.}};
51
  float adcgate[4][2]={{105.,125.},{105.,125.},{110.,130.},{60.,80.}};
52
  float vcut[4][2]={{-1,1},{-1,1},{-1,1},{-1,1}};
53
 
54
//  gROOT->Reset();
55
 
56
  gStyle->SetOptStat(1111111);
57
//  gStyle->SetPalette(52);
58
 
59
  TH1F *h1_chmax[4];
60
  TH1F *h1_chmaxt[4];
61
  TH1F *h1_chmin[4];
62
  TH1F *h1_chmint[4];
63
  TH1F *h1_letime[4][2];
64
  TH1F *h1_cftime[4][2];
65
  TH1F *h1_cftdif[4];
66
  TH1F *h1_qdc[4];
67
  TH2F *h2_dpo[4];
68
  TH2F *h2_tdcadc[4];
69
  TH2F *h2_ctdcadc[4];
70
  TH2F *h2_ctalk;
71
  TGraph *gr_wfm[4];
72
  TCanvas *c_wfm= new TCanvas("c_wfm","WFM",50,50,700,700);
73
  TLegend *leg = new TLegend(0.8, 0.8, 1, 1);
74
  c_wfm->Divide(1,1);
75
  c_wfm->cd(1);
76
 
77
  for (i=0;i<4;i++) {
78
    sprintf(histname,"chmax_%02d",i);
79
    h1_chmax[i]=new TH1F(histname,histname,1100,-0.55,0.55);
80
    sprintf(histname,"chmaxt_%02d",i);
81
    h1_chmaxt[i]=new TH1F(histname,histname,DWIDTH,-0.1,204.7);
82
    sprintf(histname,"chmin_%02d",i);
83
    h1_chmin[i]=new TH1F(histname,histname,1100,-0.55,0.55);
84
    sprintf(histname,"chmint_%02d",i);
85
    h1_chmint[i]=new TH1F(histname,histname,DWIDTH,-0.1,204.7);
86
    sprintf(histname,"letimep_%02d",i);
87
    h1_letime[i][0]=new TH1F(histname,histname,500,twin[i][0],twin[i][1]);
88
    sprintf(histname,"letimen_%02d",i);
89
    h1_letime[i][1]=new TH1F(histname,histname,500,twin[i][0],twin[i][1]);
90
    sprintf(histname,"cftimep_%02d",i);
91
    h1_cftime[i][0]=new TH1F(histname,histname,500,twin[i][0],twin[i][1]);
92
    sprintf(histname,"cftimen_%02d",i);
93
    h1_cftime[i][1]=new TH1F(histname,histname,500,twin[i][0],twin[i][1]);
94
    sprintf(histname,"cftdif_%02d",i);
95
    h1_cftdif[i]=new TH1F(histname,histname,2000,twin[i][0],twin[i][1]);
96
    sprintf(histname,"qdc_%02d",i);
97
    h1_qdc[i]=new TH1F(histname,histname,500,-0.1,4.9);
98
    sprintf(histname,"dpo_%02d",i);
99
    h2_dpo[i]=new TH2F(histname,histname,DWIDTH,-0.1,204.7,1100,-0.55,0.55);
100
    sprintf(histname,"tdcadc_%02d",i);
101
    h2_tdcadc[i]=new TH2F(histname,histname,250,0.,0.5,400,twin[i][0],twin[i][1]);
102
    sprintf(histname,"ctdcadc_%02d",i);
103
    h2_ctdcadc[i]=new TH2F(histname,histname,250,0.,0.5,400,twin[i][0],twin[i][1]);
104
    gr_wfm[i]=new TGraph(DWIDTH);
105
    gr_wfm[i]->SetMinimum(-0.55);
106
    gr_wfm[i]->SetMaximum(0.55);
107
    gr_wfm[i]->SetLineColor(i+1);
108
    gr_wfm[i]->SetMarkerColor(i+1);
109
    sprintf(histname,"ch %d",i);
110
    leg->AddEntry(gr_wfm[i], histname, "l");
111
    if (i) gr_wfm[i]->Draw("LP"); else gr_wfm[i]->Draw("ALP");
112
 
113
  }
114
  leg->Draw();
115
  h2_ctalk=new TH2F("ctalk","ctalk",250,0.,0.5,250,0.,0.5);
116
 
117
  fin=fopen(FileName,"rb");
118
 
119
  printf("%s, %lu\n",recid,sizeof(evrec));
120
 
121
 
122
  for (i=0;i<4;i++){
123
    nwfm[i]=0;
124
    for (j=0;j<DWIDTH;j++){
125
      achdat[i][j]=0;
126
    }
127
  }
128
  unsigned int trgcell = 0;
129
  int event = -1;
130
 
131
  iev=0;
132
  while(!feof(fin)){
133
    if (iev>=nev) break;
134
    stat=fread(recid,1,4,fin);
135
    if (debug){
136
      if (recid[1]=='#') printf("%c%c%u\n",recid[0],recid[1],srecid[1]);
137
      else  printf("%s\n",recid );
138
    }
139
    switch (recid[0]){
140
       case 'T':
141
           switch (recid[1]){
142
             case 'I': event=0; break;
143
             case '#': trgcell = srecid[1]; break;
144
           }
145
           break;
146
       case 'B':
147
           board = srecid[1];
148
           break;
149
       case 'C':
150
           sscanf(recid,"C%d",&ich);
151
           ich=ich-1;
152
           if (event) {
153
             stat=fread(ichdat[ich],1,sizeof(ichdat[ich]),fin);
154
           } else {
155
             stat=fread(dtdata[ich],1,sizeof(float)*DWIDTH,fin);
156
 
157
           }
158
           break;
159
       case 'E':
160
           stat=fread(&evrec.evn,1,sizeof(evrec),fin);
161
           iev++;
162
           event=1;
163
           break;
164
       default:
165
           printf("Unknown header!\n");
166
           break;
167
    }
168
 
169
 
170
    if (recid[0] == 'E'){
171
         for ( i=0;i<4;i++){
172
           if (!lwfm[i]) continue;
173
           if ((chmin[i][0]>vcut[i][0])&&(chmin[i][0]<vcut[i][1])) {
174
             h1_cftdif[i]->Fill(cftime[i][1]-cftime[trgch][1]+110.);
175
           }
176
//      h2_tdcadc[i]->Fill(-chmin[i][0],letime[i][1]-cftime[trgch][1]+72);
177
//      h2_ctdcadc[i]->Fill(-chmin[i][0],cftime[i][1]-cftime[trgch][1]+72);
178
           h2_tdcadc[i]->Fill(-chmin[0][0],letime[i][1]-cftime[trgch][1]+72);
179
           h2_ctdcadc[i]->Fill(-chmin[0][0],cftime[i][1]-cftime[trgch][1]+72);
180
         }
181
         h2_ctalk->Fill(-chmin[0][0],-chmin[1][0]);
182
    }
183
    if (event<1) continue;
184
    if (recid[0]!='C') continue;
185
 
186
 
187
 
188
    lwfm[ich]=0;
189
    qdc[ich]=0;
190
    chmax[ich][0]=-1; chmax[ich][1]=-1;
191
    chmin[ich][0]=1; chmin[ich][1]=-1;
192
    letime[ich][0]=-1.; letime[ich][1]=-1.;
193
    cftime[ich][0]=-1.; cftime[ich][1]=-1.;
194
 
195
 
196
      lwfm[ich]=1;
197
      nwfm[ich]+=1;
198
 
199
      float sum=0;
200
      for (i=0;i<DWIDTH;i++) {
201
         sum+= dtdata[ich][(i+trgcell)%DWIDTH];
202
         tcdata[ich][i]=sum;        
203
      }
204
      tccalib[ich]=tcdata[ich][(DWIDTH-trgcell)%DWIDTH];
205
 
206
      for (i=0;i<DWIDTH;i++) {
207
         tcdata[ich][i]-=(tccalib[ich]-tccalib[0]); // assume ich 0 is connected and always first in the data          
208
      }
209
 
210
      for (i=0;i<DWIDTH;i++) {
211
//      for (i=imin[ich];i<imax[ich];i++) {
212
        chdat[ich][i]=-0.5+(float)ichdat[ich][i]/0xFFFF;
213
        achdat[ich][i]+=chdat[ich][i];
214
        if (chdat[ich][i]>chmax[ich][0]) {
215
          chmax[ich][0]=chdat[ich][i];
216
          chmax[ich][1]=tcdata[ich][i];
217
        }
218
        if (chdat[ich][i]<chmin[ich][0]) {
219
          chmin[ich][0]=chdat[ich][i];
220
          chmin[ich][1]=tcdata[ich][i];
221
        }
222
        float tdata = tcdata[ich][i];
223
        float tdatap = tcdata[ich][i+1];
224
        float tdatan = tcdata[ich][i-1];
225
 
226
        if ((tdata>adcgate[ich][0])&&(tdata<adcgate[ich][1])) {
227
          qdc[ich]+=-chdat[ich][i]*(tdatap-tdatan)/2;
228
        }
229
        if ((tdata>twin[ich][0])&&(tdata<twin[ich][1])) {
230
          if ((chdat[ich][i]<threshold[ich][1])&&(letime[ich][1]<0.)) {
231
            letime[ich][1]=tdatan+(tdata-tdatan)*
232
                           (threshold[ich][1]-chdat[ich][i-1])/(chdat[ich][i]-chdat[ich][i-1]);
233
// preveri za 0!!                           
234
          }
235
        }
236
      }
237
 
238
 
239
      i=ich;
240
 
241
 
242
      for (j=0;j<DWIDTH;j++) {
243
        float tdata  = tcdata[i][j];
244
        float tdatap = tcdata[i][j+1];
245
        float tdatan = tcdata[i][j-1];
246
        h2_dpo[i]->Fill(tdata,chdat[i][j]);
247
        gr_wfm[i]->SetPoint(j,tdata,chdat[i][j]+0.05*(i-1));
248
        if ((tdata>twin[i][0])&&(tdata<twin[i][1])) {
249
          if ((chmin[i][0]<threshold[i][1])&&(chdat[i][j]<chmin[i][0]*CFRAC)&&(cftime[i][1]<0.)) {
250
            cftime[i][1]=tdatan+(tdata-tdatan)*
251
                           (chmin[i][0]*CFRAC-chdat[i][j-1])/(chdat[i][j]-chdat[i][j-1]);
252
// preveri za 0!!                           
253
          }
254
        }
255
      }
256
 
257
 
258
      if ((chmax[i][1]>twin[i][0])&&(chmax[i][1]<twin[i][1])) {
259
        h1_chmax[i]->Fill(chmax[i][0]);
260
        if (chmax[i][0]>threshold[i][0]) h1_chmaxt[i]->Fill(chmax[i][1]);
261
      }
262
      if ((chmin[i][1]>twin[i][0])&&(chmin[i][1]<twin[i][1])) {
263
        h1_chmin[i]->Fill(chmin[i][0]);
264
        if (chmin[i][0]<threshold[i][1]) h1_chmint[i]->Fill(chmin[i][1]);
265
      }
266
      h1_qdc[i]->Fill(qdc[i]);
267
      h1_letime[i][1]->Fill(letime[i][1]);
268
      h1_cftime[i][1]->Fill(cftime[i][1]);
269
//84,56
270
 
271
 
272
 
273
 
274
    if (!(iev%updfrq)) {
275
      c_wfm->Update();
276
      for (j=0;j<DWIDTH;j++) {
277
        achdat[i][j]/=nwfm[i];
278
        gr_wfm[i]->SetPoint(j,tcdata[i][j],achdat[i][j]+0.05*(i-1));
279
      }
280
      printf("processing event %d\n",iev);
281
    }
282
 
283
 
284
 
285
 
286
  }
287
 
288
 
289
  printf("number of events: %d\n",iev);
290
  fclose(fin);
291
 
292
  TCanvas* c_dpo= new TCanvas("c_dpo","DPO",750,50,700,700);
293
  c_dpo->Divide(2,2);
294
  for (i=0;i<4;i++) {c_dpo->cd(i+1);h2_dpo[i]->Draw("colz");}
295
 
296
  TCanvas* c_cftdif= new TCanvas("c_cftdif","DPO",750,50,700,700);
297
  c_cftdif->Divide(2,2);
298
  for (i=0;i<4;i++) {c_cftdif->cd(i+1);h1_cftdif[i]->Draw();}
299
 
300
  return;
301
}