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35 f9daq 1
#include "TROOT.h"
2
#include "TFile.h"
3
#include "TBenchmark.h"
4
#include "TH1F.h"
5
#include "TH2F.h"
6
#include "TH3F.h"
7
#include "TCanvas.h"
8
#include "TStyle.h"
9
#include "TPad.h"
10
#include "TF1.h"
11
#include "TGraph.h"
12
#include "TSpectrum.h"
13
#include "stdio.h"
14
 
15
#include "include/RTUtil.h"
16
 
17
double getNoise(TH2F*, int, int);
18
 
36 f9daq 19
int biasScan(char filename[256] = "test", char plopt[256]="th", int chXstart=0, int chXend=7, int chYstart=0, int chYend=7, bool debug = false)
35 f9daq 20
{
21
  const int c_nChannels = 64;
22
  const double c_xOffset = 1; // mm
23
  const double c_yOffset = 0.7;
24
 
25
  int map[8][8]={{32,34,53,55,40,42,61,63},
26
                 {48,50,37,39,56,58,45,47},
27
                 {33,35,52,54,41,43,60,62},
28
                 {49,51,36,38,57,59,44,46},
29
                 {17,19,4,6,25,27,12,14},
30
                 {1,3,20,22,9,11,28,30},
31
                 {16,18,5,7,24,26,13,15},
32
                 {0,2,21,23,8,10,29,31}
33
                };
34
 
35
 
36
  RTSetStyle(gStyle);
37
 
38
  // open the file with histograms
39
  char fnameroot[256];
40
  TFile* rootfile;
41
        sprintf(fnameroot, "root/%s.root", filename);
42
        rootfile = (TFile *) gROOT->FindObject(filename);
43
        if(rootfile==NULL) rootfile = new TFile(fnameroot);
44
        if(rootfile==NULL) {
45
          printf("Cannot open root file %s!!!\n",fnameroot);
46
          return(0);
47
        }
48
 
49
  if(strstr(plopt, "tdc") != NULL) {
50
    TCanvas *canvas21 = new TCanvas("canvas21","canvas21",1600,800);
51
    TH3F* h0 = (TH3F*) rootfile->Get("h_correctedTDC");
52
          Int_t binsX = h0->GetXaxis()->GetNbins();
53
    Int_t minX  = h0->GetXaxis()->GetFirst();
54
    Int_t maxX  = h0->GetXaxis()->GetLast()+1;
55
    Int_t binsY = h0->GetYaxis()->GetNbins();
56
    Int_t minY  = h0->GetYaxis()->GetFirst();
57
    Int_t maxY  = h0->GetYaxis()->GetLast()+1;
58
    Int_t binsZ = h0->GetZaxis()->GetNbins();
59
    Int_t minZ  = h0->GetZaxis()->GetFirst();
60
    Int_t maxZ  = h0->GetZaxis()->GetLast()+1;
61
    Double_t xLowUser  = h0->GetXaxis()->GetBinLowEdge(minX);
62
    Double_t xUpUser = h0->GetXaxis()->GetBinUpEdge(maxX);
63
    Double_t yLowUser  = h0->GetYaxis()->GetBinLowEdge(minY);
64
    Double_t yUpUser = h0->GetYaxis()->GetBinUpEdge(maxY);
65
 
66
    canvas21->Divide(2);
67
    //h0->Draw();
68
    canvas21->cd(1);
69
    //h0->Project3D("xy")->Draw("colz");
70
    //canvas21->cd(2);
71
    //h0->Project3D("yz")->Draw("colz");
72
    //canvas21->cd(3);
73
    TH2D* h_correctedTDC = (TH2D*) h0->Project3D("xz");
74
    //h0->GetZaxis()->SetRangeUser(-5,5);
75
    //h0->Project3D("xzo")->Draw("colz");
76
    h_correctedTDC->SetTitle("; t [ns]; Channel");
77
    h_correctedTDC->Draw("colz");
78
    /*
79
    TH1F* tdc1 = new TH1F("tdc1",";TDC [ns];Events",binsZ, minZ, maxZ);
80
    //for(int j=minY; j<maxY; j++) {
81
      for(int k=minZ; k<maxZ; k++) {
82
        double signal = h0->GetBinContent(1,1,k);
83
        tdc1->Fill(k,signal);
84
        //}
85
        }
86
    tdc1->Draw();
87
    */
88
 
89
    TH2D* h_timeWalk = (TH2D*) h0->Project3D("zy");
90
    canvas21->cd(2);
91
    h_timeWalk->SetTitle(";Threshold [V]; t [ns]");
92
    h_timeWalk->Draw("colz");
93
  }
94
 
36 f9daq 95
  if (strstr(plopt, "bias") != NULL) {
96
    TCanvas* canvas01 = new TCanvas("canvas01","",800, 800);
97
    canvas01->cd();
98
    TH2F* h_bias = (TH2F*) rootfile->Get("h_bias");
99
    h_bias->Draw("colz");
100
  }
101
 
102
  if (strstr(plopt, "th") != NULL) {
103
   TCanvas* canvas1 = new TCanvas("canvas1","",800,800);
104
   canvas1->cd();
105
   //gPad->SetLogz();
106
   //canvas1->SetLogz();
107
   TH2F* h_threshold = (TH2F*) rootfile->Get("h_threshold");
108
   h_threshold->SetTitleOffset(1.5,"y");
109
   //h_threshold->GetZaxis()->SetRangeUser(0,1000);
110
   h_threshold->SetContour(20);
111
 
112
   h_threshold->Draw("colz");
113
 
114
   TCanvas* canvas2 = new TCanvas("canvas2","",1600,800);
115
   canvas2->Divide(2);
116
   TH1D* h_projection1 = h_threshold->ProjectionY("Ch 37",38,38);
117
   canvas2->cd(1);
118
   //h_projection1->GetYaxis()->SetRangeUser(0,1000);
119
   //gPad->SetLogy();
120
   h_projection1->Draw();
121
 
122
   TH1D* h_projection2 = h_threshold->ProjectionY("Ch 38",39,39);
123
   canvas2->cd(2);
124
   //gPad->SetLogy();
125
   h_projection2->Draw();
126
  }
127
 
35 f9daq 128
  if(strstr(plopt,"16") != NULL)
129
  {
36 f9daq 130
  TH2F* h_threshold = (TH2F*) rootfile->Get("h_bias");
35 f9daq 131
  TCanvas* canvas = new TCanvas("canvas","",1600,1600);
132
  canvas->cd();
133
  TVirtualPad *main = new TPad("main","main",0,0,1,1,10,1);
134
  main->Draw();
135
  main->Divide(4,4);
136
  for(int i=chXstart; i<chXend; i++) {
137
    for(int j=chYstart; j<chYend; j++) {
138
      int channel = map[i][j];
139
      TH1D* h_projection = h_threshold->ProjectionY("",channel+1,channel+1);
140
      int canvasPosition = i-chXend+4*(chYend-j)+1;
141
      printf(" %d ", canvasPosition);
142
      main->cd(canvasPosition);
143
      char name[128];
144
      sprintf(name,"Channel %d",channel);
145
      h_projection->SetTitle(name);
36 f9daq 146
      h_projection->DrawCopy("ex0");
35 f9daq 147
    }
148
  }
149
  printf("\n");
150
  }
151
 
36 f9daq 152
  if(strstr(plopt, "1ch") != NULL)
153
  {
154
    TH2F* h_bias = (TH2F*) rootfile->Get("h_bias");
155
    TCanvas* canvas = new TCanvas("canvas","",1600,1600);
156
    canvas->cd();
157
    int channel = map[chXstart][chXend];
158
    TH1D* h_projection = h_bias->ProjectionY("",channel+1,channel+1);
159
    char name[128];
160
    sprintf(name,"Channel %d",channel);
161
    h_projection->SetTitle(name);
162
    h_projection->DrawCopy("ex0");
163
  }
164
 
35 f9daq 165
  if( strstr(plopt, "all") != NULL ) {
166
    TCanvas *canvas2 = new TCanvas("canvas2","Hits x;;",2000,2000);
167
    TCanvas *canvas3 = new TCanvas("canvas3","Hits y;;",2000,2000);
168
    canvas2->Divide(8,8);
169
    canvas3->Divide(8,8);
170
    TH1F* h_hitsx;
171
    TH1F* h_hitsy;
172
    for(int i=0; i<c_nChannels; i++) {
173
      canvas2->cd(i+1);
174
      char hname[128];
175
      sprintf(hname, "hnhitsx%d", i);
176
      h_hitsx = (TH1F*)rootfile->Get(hname);
177
      h_hitsx->Draw();
178
      canvas3->cd(i+1);
179
      sprintf(hname, "hnhitsy%d", i);
180
      h_hitsy = (TH1F*)rootfile->Get(hname);
181
      h_hitsy->Draw();  
182
    }
183
  }
184
 
185
  if( strstr(plopt, "x") != NULL ) {
186
    TCanvas *canvas10 = new TCanvas("canvas10","Ch x;;",500,500);
187
    TH1F* h_hitsx;
188
    canvas10->cd();
189
    char hname[128];
190
    sprintf(hname, "hnhitsx%d", chXstart);
191
    h_hitsx = (TH1F*)rootfile->Get(hname);
192
    h_hitsx->Draw("colz");
193
  }
194
 
195
  if( strstr(plopt, "y") != NULL ) {
196
    TCanvas *canvas11 = new TCanvas("canvas11","Ch x;;",500,500);
197
    TH1F* h_hitsy;
198
    canvas11->cd();
199
    char hname[128];
200
    sprintf(hname, "hnhitsy%d", chXstart);
201
    h_hitsy = (TH1F*)rootfile->Get(hname);
202
    h_hitsy->Draw();
203
  }
204
 
205
  if( strstr(plopt, "share") != NULL ) {
206
   /*TCanvas *canvas4 = new TCanvas("canvas1","canvas1",1000,1000);
207
   int nChannels = chYend-chYstart+1;
208
   int ncols = nChannels/2;
209
   printf("nch %d nch\\2 %d\n", nChannels, ncols);
210
   canvas4->Divide(2,ncols);
211
   TH1F* h_hitsy;
212
   for(int i=chYstart; i<=chYend; i++){
213
     canvas4->cd(i-chYstart+1);
214
     char hname[128];
215
     int chPosition = map[0][i];
216
     sprintf(hname, "hnhitsy%d", chPosition);
217
     h_hitsy = (TH1F*)rootfile->Get(hname);
218
     h_hitsy->Draw();
219
   }*/
220
 
221
   TCanvas *canvas4 = new TCanvas("canvas4","canvas4",500,500);
222
   canvas4->cd();
223
   for(int i=chXstart; i<=chXend; i++) {
224
     TH1F* h_hitsx;
225
     char hname[128];
226
     int chPosition = map[i][chYstart];
227
     sprintf(hname, "hnhitsx%d", chPosition);
228
     h_hitsx = (TH1F*)rootfile->Get(hname);
229
     h_hitsx->SetTitle("Scan X;x [mm]; Entries");
230
     h_hitsx->GetYaxis()->SetTitleOffset(1.3);
231
     h_hitsx->SetStats(0);
232
     if (i == chXstart)
233
      h_hitsx->Draw();
234
     else {
235
      h_hitsx->SetLineColor(i+1);
236
      h_hitsx->Draw("same");
237
     }
238
   }
239
   //sprintf(fullname, "ps/%s_Yshare.eps", filename);
240
         //canvas4->SaveAs(fullname);
241
 
242
   TCanvas *canvas5 = new TCanvas("canvas5","canvas5",500,500);
243
   canvas5->cd();
244
   for(int i=chYstart; i<=chYend; i++) {
245
     TH1F* h_hitsy;
246
     char hname[128];
247
     int chPosition = map[chXstart][i];
248
     sprintf(hname, "hnhitsy%d", chPosition);
249
     h_hitsy = (TH1F*)rootfile->Get(hname);
250
     h_hitsy->SetTitle("Scan Y;y [mm]; Entries");
251
     h_hitsy->GetYaxis()->SetTitleOffset(1.3);
252
     h_hitsy->SetStats(0);
253
     if (i == chYstart)
254
      h_hitsy->Draw();
255
     else {
256
      h_hitsy->SetLineColor(i+1);
257
      h_hitsy->Draw("same");
258
     }
259
   }
260
   //sprintf(fullname, "ps/%s_Yshare.eps", filename);
261
         //canvas5->SaveAs(fullname);
262
  }
263
 
264
  /** Draws the signal from 8 channels in x-row
265
    * for one specific y bin, so the background and cross-talk
266
    * can be estimated.
267
    * Draws also a 2d scan of these channels.
268
    */
269
  if (strstr(plopt, "line") != NULL) {
270
    TCanvas* canvas6 = new TCanvas("canvas6","canvas6",500,500);
271
    canvas6->cd(0);
272
    gStyle->SetOptStat(0);
273
 
274
    TH2F* h0 = (TH2F*) rootfile->Get("h2d0");
275
          Int_t binsX = h0->GetXaxis()->GetNbins();
276
    Int_t minX  = h0->GetXaxis()->GetFirst();
277
    Int_t maxX  = h0->GetXaxis()->GetLast()+1;
278
    Int_t binsY = h0->GetYaxis()->GetNbins();
279
    Int_t minY  = h0->GetYaxis()->GetFirst();
280
    Int_t maxY  = h0->GetYaxis()->GetLast()+1;
281
    Double_t xLowUser  = h0->GetXaxis()->GetBinLowEdge(minX);
282
    Double_t xUpUser = h0->GetXaxis()->GetBinUpEdge(maxX);
283
    Double_t yLowUser  = h0->GetYaxis()->GetBinLowEdge(minY);
284
    Double_t yUpUser = h0->GetYaxis()->GetBinUpEdge(maxY);
285
    if (debug) printf("xLow %f xUp %f\n",xLowUser,xUpUser);
286
 
287
    //! 1-dimension position in x vs. hits
288
    TH2F* h[8];
289
    TH1F* h_line[8];
290
    for(int j=0; j<8; j++) {
291
      h_line[j] = new TH1F("h_line", "h_line", binsX, xLowUser, xUpUser);
292
    }
293
 
294
    for(int j=chXstart; j<=chXend; j++) {
295
      int chPosition = map[j][chYstart];
296
      char hname[128];
297
      sprintf(hname, "h2d%d", chPosition);  
298
      int histogram = j;
299
      h[histogram] = (TH2F *) rootfile->Get(hname);
300
      int noise = getNoise(h[histogram], 1, 160);
301
      for(int k=minX; k<=maxX; k++) {
302
        int l=chYstart*20+12;
303
        //for(int l=12; l<=16; l++) {
304
          double signal = h[histogram]->GetBinContent(k,l);
305
          //signal -= noise;
306
          //signal /= 5*10000.0;
307
          double eta = -log(1 - signal);
308
          double x = k*(xUpUser-xLowUser)/double(binsX);
309
          //double y = l*(yUpUser-yLowUser)/double(binsY);
310
          h_line[j]->Fill(x-c_xOffset, signal);
311
        //}
312
      }
313
      if (j == chXstart) {
314
        h_line[j]->SetTitle("SiPM#2 w/o noise subtraction;x[mm];Hits");
315
        //h_line[j]->GetYaxis()->SetRangeUser(-0.05, 0.3);
316
        //h_line[j]->GetYaxis()->SetRangeUser(-50, 2500);
317
        h_line[j]->Draw("");
318
      }
319
      else {
320
        h_line[j]->SetLineColor(j+1);
321
        h_line[j]->Draw("same");
322
      }
323
    }
324
 
325
 
326
    //! 2d scan
327
    TCanvas* canvas61 = new TCanvas("canvas61","canvas61",8*200,300);
328
    canvas61->cd();
329
    TH2F* h_corrected = new TH2F("h_corrected","h_corrected",binsX,xLowUser,xUpUser, binsY,yLowUser,yUpUser);
330
    for(int i=chXstart; i<=chXend; i++) {
331
      //int canvasPosition = nX*(i-chYstart)+(j-chXstart)+1;
332
      //int canvasPosition = nX*(chYend-i)+chXstart+1;
333
      //if (debug) printf("canvas %d\n",canvasPosition);
334
        int chPosition = map[i][chYstart];
335
        char hname[128];
336
              sprintf(hname, "h2d%d", chPosition);  
337
              int histogram = i;
338
              h[histogram] = (TH2F *) rootfile->Get(hname);
339
              int noise = getNoise(h[histogram], 1, 100);
340
 
341
              for(int k=minX; k<=maxX; k++) {
342
          for(int l=minY; l<=maxY; l++) {
343
            int signal = h[histogram]->GetBinContent(k,l); // detected
344
            //p /= 10000.;
345
            //double p0 = 1.0 - p; // events with zero photons
346
            //double eta = (-log(p0) * p0 ) / (1-p0-0.00001);
347
            //double eta = -log(p0);
348
            //printf("p=%f p0=%f log(p0)=%f eta=%f\n",p,p0,log(p0),eta);      
349
            //double signal = ((p - noise) > 0.1) ? (p-noise) : 0.1;
350
            double p = signal - noise;
351
            p /= 10000.0;
352
            double eta = -log(1 - p);
353
            double x = k*(xUpUser-xLowUser)/double(binsX);
354
            double y = l*(yUpUser-yLowUser)/double(binsY);
355
            h_corrected->Fill(x-c_xOffset, y-c_yOffset, eta);
356
          }
357
        }
358
    }
359
    h_corrected->SetTitle("SiPM#2 n_pe = - ln(P0);x[mm];y[mm]");
360
    h_corrected->GetZaxis()->SetRangeUser(-0.05,0.30);
361
    h_corrected->Draw("colz");
362
 
363
  }
364
 
365
  /** Draws the sum of the channels
366
    * Each channel is a 2d plot
367
    * Intended for the study of 1 channel
368
    */
369
  if (strstr(plopt, "2d") != NULL) {
370
 
371
    int nX = chXend - chXstart + 1;
372
    int nY = chYend - chYstart + 1;
373
    TCanvas* canvas7 = new TCanvas("canvas7","canvas7", nX*400,nY*400);
374
    printf("nx %d ny %d\n",nX,nY);
375
    canvas7->Divide(nX,nY);
376
    for(int i=chYstart; i<=chYend; i++) {
377
      for(int j=chXstart; j<=chXend; j++) {
378
      //int canvasPosition = nX*(i-chYstart)+(j-chXstart)+1;
379
      int canvasPosition = nX*(chYend-i)+(j-chXstart)+1;
380
      if (debug) printf("canvas %d\n",canvasPosition);
381
        canvas7->cd(canvasPosition);
382
        char hname[128];
383
        int chPosition = map[j][i];
384
        sprintf(hname, "h2d%d", chPosition);
385
        TH2F* h_2d = (TH2F*)rootfile->Get(hname);
386
        h_2d->Draw("colz");
387
      } //x
388
    }
389
 
390
    // Number of photoelectrons - Poissonian correction
391
    TCanvas* canvas8 = new TCanvas("canvas8","canvas8", 1000,1000);
392
    canvas8->cd();
393
    gStyle->SetOptStat(0);
394
      char hname[128];
395
      int chPosition = map[1][2];
396
      sprintf(hname, "h2d%d", chPosition);
397
      TH2F* h_2d = (TH2F*)rootfile->Get(hname);
398
 
399
      Int_t binsX = h_2d->GetXaxis()->GetNbins();
400
      Int_t minX  = h_2d->GetXaxis()->GetFirst();
401
      Int_t maxX  = h_2d->GetXaxis()->GetLast()+1;
402
      Int_t binsY = h_2d->GetYaxis()->GetNbins();
403
      Int_t minY  = h_2d->GetYaxis()->GetFirst();
404
      Int_t maxY  = h_2d->GetYaxis()->GetLast()+1;
405
      Double_t xLowUser  = h_2d->GetXaxis()->GetBinLowEdge(minX);
406
      Double_t xUpUser   = h_2d->GetXaxis()->GetBinUpEdge(maxX);
407
      Double_t yLowUser  = h_2d->GetYaxis()->GetBinLowEdge(minY);
408
      Double_t yUpUser =   h_2d->GetYaxis()->GetBinUpEdge(maxY);
409
      if (debug) printf("xLow %f xUp %f\n",xLowUser,xUpUser);
410
      TH2F* h_corrected = new TH2F("h_corrected","h_corrected",binsX, xLowUser, xUpUser, binsY, yLowUser, yUpUser);
411
 
412
      double noise = getNoise(h_2d, 1, 89);
413
      if(debug) printf("Noise = %f\n", noise);
414
      for(int k=minX; k<=maxX; k++) {
415
        for(int j=minY; j<=maxY; j++) {
416
          double signal = h_2d->GetBinContent(k,j); // detected
417
          //double p = ((signal - noise) > 1) ? (signal-noise) : 1;
418
          double p = signal - noise;
419
          p /= 10000.;
420
          double p0 = 1.0 - p; // events with zero photons
421
          //double eta = (-log(p0) * p0 ) / (1-p0-0.00001);
422
          double eta = -log(p0); // constant of the poissonian statistics
423
          if (debug) printf("p=%f p0=%f log(p0)=%f eta=%f\n",p,p0,log(p0),eta);
424
          double x = k*(xUpUser-xLowUser)/double(binsX);
425
          double y = j*(yUpUser-yLowUser)/double(binsY);
426
          h_corrected->Fill(x+3,y+8, eta);
427
        }
428
       }
429
      h_corrected->SetTitle("n_pe = - ln P(0);x[mm];y[mm]");
430
      h_corrected->GetZaxis()->SetRangeUser(-0.05,0.3);
431
      h_corrected->Draw("colz");
432
 
433
      // collection efficiency
434
      int nPoints =0;
435
      double efficiency=0;
436
      for (int i=18; i<=58; i++) {
437
        for (int j=19; j<=59; j++) {
438
          double signal = h_corrected->GetBinContent(i,j);
439
          if(debug) printf("signal %f\n",signal);
440
          efficiency += signal;
441
          nPoints++;
442
        }
443
      }  
444
    printf("Signal sum = %f\n   # of points = %d\n",efficiency,nPoints);
445
  }
446
 
447
  /** Draws the sum of channel signals
448
    * Each channel is a 2d ('h2d') histogram
449
    * Suitable for 8x8 chs scan
450
    */
451
  if( strstr(plopt, "sum") != NULL ) {
452
    int nX = chXend - chXstart + 1;
453
    int nY = chYend - chYstart + 1;
454
          TCanvas* canvas12 = new TCanvas("canvas12","c2",8*200, 8*200);
455
          canvas12->cd();
456
          gStyle->SetOptStat(0);
457
 
458
    // final histogram parameters
459
    TH2F* h0 = (TH2F*) rootfile->Get("h2d0");
460
          Int_t binsX = h0->GetXaxis()->GetNbins();
461
    Int_t minX  = h0->GetXaxis()->GetFirst();
462
    Int_t maxX  = h0->GetXaxis()->GetLast()+1;
463
    Int_t binsY = h0->GetYaxis()->GetNbins();
464
    Int_t minY  = h0->GetYaxis()->GetFirst();
465
    Int_t maxY  = h0->GetYaxis()->GetLast()+1;
466
    Double_t xLowUser  = h0->GetXaxis()->GetBinLowEdge(minX);
467
    Double_t xUpUser = h0->GetXaxis()->GetBinUpEdge(maxX);
468
    Double_t yLowUser  = h0->GetYaxis()->GetBinLowEdge(minY);
469
    Double_t yUpUser = h0->GetYaxis()->GetBinUpEdge(maxY);
470
    if (debug) printf("xLow %f xUp %f\n",xLowUser,xUpUser);
471
    TH2F* h_corrected = new TH2F("h_corrected","h_corrected",binsX,xLowUser,xUpUser, binsY,yLowUser,yUpUser);
472
    TH2F* h[9];
473
 
474
    // 2d histogram noise subtraction and poisson scaling
475
    for(int i=chYstart; i<=chYend; i++) {
476
      for(int j=chXstart; j<=chXend; j++) {
477
        int chPosition = map[j][i];
478
        char hname[128];
479
              sprintf(hname, "h2d%d", chPosition);  
480
              int histogram = nX*(i-chYstart)+(j-chXstart);
481
              h[histogram] = (TH2F *) rootfile->Get(hname);
482
              int noise = getNoise(h[histogram], 1, 170);
483
              if (debug) printf("noise: %d\n",noise);
484
              for(int k=minX; k<=maxX; k++) {
485
          for(int l=minY; l<=maxY; l++) {
486
            int signal = h[histogram]->GetBinContent(k,l); // detected
487
            //double p = ((signal - noise) > 0.1) ? (signal-noise) : 0.1;
488
            double p = signal - noise;
489
            p /= 10000.;
490
            double p0 = 1.0 - p; // events with zero photons
491
            //double eta = (-log(p0) * p0 ) / (1-p0-0.00001);
492
            double eta = -log(p0);
493
            //printf("p=%f p0=%f log(p0)=%f eta=%f\n",p,p0,log(p0),eta);
494
            double x = k*(xUpUser-xLowUser)/double(binsX);
495
            double y = l*(yUpUser-yLowUser)/double(binsY);
496
            h_corrected->Fill(x-c_xOffset, y-c_yOffset, signal);
497
          }
498
        }    
499
 
500
      }
501
    }
502
 
503
    h_corrected->SetTitle("SiPM#2 n_p.e.;x[mm];y[mm]");
504
    //h_corrected->GetZaxis()->SetRangeUser(-0.05,.30);
505
    h_corrected->Draw("colz");
506
 
507
    TCanvas* canvas13 = new TCanvas("canvas13","canvas13",600,300);
508
    canvas13->Divide(2);
509
    canvas13->cd(1);
510
    //h[16]->Draw("colz");
511
    canvas13->cd(2);
512
    //h[8]->Draw("colz");
513
  }
514
 
515
  return(0);
516
}
517
 
518
/** Function calculates the noise from one channel
519
  * it runs through the bins along x and returns the average value
520
  */
521
double getNoise(TH2F* histogram, int yStart, int yEnd)
522
{
523
  double noise=0;
524
  int count=0;
525
  for(int j=yStart; j<yEnd; j++) {
526
    double value = histogram->GetBinContent(j,2);
527
    //if (noise < value) noise = value;
528
    noise += value;
529
    count++;
530
    }
531
  return (noise/double(count));
532
}
533