source: trunk/Mars/mcore/DrsCalib.h@ 13233

Last change on this file since 13233 was 12967, checked in by tbretz, 13 years ago
Fixed some trivial compiler warnings.
File size: 22.8 KB
Line 
1#ifndef MARS_DrsCalib
2#define MARS_DrsCalib
3
4#include <math.h> // fabs
5#include <errno.h> // errno
6
7#include "fits.h"
8
9class DrsCalibrate
10{
11protected:
12 uint64_t fNumEntries;
13
14 size_t fNumSamples;
15 size_t fNumChannels;
16
17 std::vector<int64_t> fSum;
18 std::vector<int64_t> fSum2;
19
20public:
21 DrsCalibrate() : fNumEntries(0), fNumSamples(0), fNumChannels(0) { }
22 void Reset()
23 {
24 fNumEntries = 0;
25 fNumSamples = 0;
26 fNumChannels = 0;
27
28 fSum.clear();
29 fSum2.clear();
30 }
31
32 void InitSize(uint16_t channels, uint16_t samples)
33 {
34 fNumChannels = channels;
35 fNumSamples = samples;
36
37 fSum.resize(samples*channels);
38 fSum2.resize(samples*channels);
39 }
40
41 void AddRel(const int16_t *val, const int16_t *start)
42 {
43 for (size_t ch=0; ch<fNumChannels; ch++)
44 {
45 const int16_t spos = start[ch];
46 if (spos<0)
47 continue;
48
49 const size_t pos = ch*1024;
50
51 for (size_t i=0; i<1024; i++)
52 {
53 // Value is relative to trigger
54 // Abs is corresponding index relative to DRS pipeline
55 const size_t rel = pos + i;
56 const size_t abs = pos + (spos+i)%1024;
57
58 const int64_t v = val[rel];
59
60 fSum[abs] += v;
61 fSum2[abs] += v*v;
62 }
63 }
64
65 fNumEntries++;
66 }
67
68 void AddRel(const int16_t *val, const int16_t *start,
69 const int32_t *offset, const uint32_t scale)
70 {
71 for (size_t ch=0; ch<fNumChannels; ch++)
72 {
73 const int16_t spos = start[ch];
74 if (spos<0)
75 continue;
76
77 const size_t pos = ch*fNumSamples;
78
79 for (size_t i=0; i<fNumSamples; i++)
80 {
81 // Value is relative to trigger
82 // Offset is relative to DRS pipeline
83 // Abs is corresponding index relative to DRS pipeline
84 const size_t rel = pos + i;
85 const size_t abs = pos + (spos+i)%fNumSamples;
86
87 const int64_t v = int64_t(val[rel])*scale-offset[abs];
88
89 fSum[abs] += v;
90 fSum2[abs] += v*v;
91 }
92 }
93
94 fNumEntries++;
95 }
96 /*
97 void AddAbs(const int16_t *val, const int16_t *start,
98 const int32_t *offset, const uint32_t scale)
99 {
100 for (size_t ch=0; ch<fNumChannels; ch++)
101 {
102 const int16_t spos = start[ch];
103 if (spos<0)
104 continue;
105
106 const size_t pos = ch*fNumSamples;
107
108 for (size_t i=0; i<fNumSamples; i++)
109 {
110 // Value is relative to trigger
111 // Offset is relative to DRS pipeline
112 // Abs is corresponding index relative to DRS pipeline
113 const size_t rel = pos + i;
114 const size_t abs = pos + (spos+i)%fNumSamples;
115
116 const int64_t v = int64_t(val[rel])*scale-offset[abs];
117
118 fSum[rel] += v;
119 fSum2[rel] += v*v;
120 }
121 }
122
123 fNumEntries++;
124 }*/
125
126 void AddAbs(const int16_t *val, const int16_t *start,
127 const int32_t *offset, const uint32_t scale)
128 {
129 // 1440 without tm, 1600 with tm
130 for (size_t ch=0; ch<fNumChannels; ch++)
131 {
132 const int16_t spos = start[ch];
133 if (spos<0)
134 continue;
135
136 const size_t pos = ch*fNumSamples;
137 const size_t drs = ch>1439 ? ((ch-1440)*9+8)*1024 : ch*1024;
138
139 for (size_t i=0; i<fNumSamples; i++)
140 {
141 // Value is relative to trigger
142 // Offset is relative to DRS pipeline
143 // Abs is corresponding index relative to DRS pipeline
144 const size_t rel = pos + i;
145 const size_t abs = drs + (spos+i)%1024;
146
147 const int64_t v = int64_t(val[rel])*scale-offset[abs];
148
149 fSum[rel] += v;
150 fSum2[rel] += v*v;
151 }
152 }
153
154 fNumEntries++;
155 }
156
157
158 static void ApplyCh(float *vec, const int16_t *val, int16_t start, uint32_t roi,
159 const int32_t *offset, const uint32_t scaleabs,
160 const int64_t *gain, const uint64_t scalegain)
161 {
162 if (start<0)
163 {
164 memset(vec, 0, roi);
165 return;
166 }
167
168 for (size_t i=0; i<roi; i++)
169 {
170 // Value is relative to trigger
171 // Offset is relative to DRS pipeline
172 // Abs is corresponding index relative to DRS pipeline
173 const size_t abs = (start+i)%1024;
174
175 const int64_t v =
176 + int64_t(val[i])*scaleabs-offset[abs]
177 ;
178
179 const int64_t div = gain[abs];
180 vec[i] = double(v)*scalegain/div;
181 }
182 }
183
184 static void ApplyCh(float *vec, const int16_t *val, int16_t start, uint32_t roi,
185 const int32_t *offset, const uint32_t scaleabs,
186 const int64_t *gain, const uint64_t scalegain,
187 const int64_t *trgoff, const uint64_t scalerel)
188 {
189 if (start<0)
190 {
191 memset(vec, 0, roi);
192 return;
193 }
194
195 for (size_t i=0; i<roi; i++)
196 {
197 // Value is relative to trigger
198 // Offset is relative to DRS pipeline
199 // Abs is corresponding index relative to DRS pipeline
200 const size_t abs = (start+i)%1024;
201
202 const int64_t v =
203 + (int64_t(val[i])*scaleabs-offset[abs])*scalerel
204 - trgoff[i]
205 ;
206
207 const int64_t div = gain[abs]*scalerel;
208 vec[i] = double(v)*scalegain/div;
209 }
210 }
211
212 static void RemoveSpikes(float *vec, uint32_t roi)
213 {
214 if (roi<4)
215 return;
216
217 for (size_t ch=0; ch<1440; ch++)
218 {
219 float *p = vec + ch*roi;
220
221 for (size_t i=1; i<roi-2; i++)
222 {
223 if (p[i]-p[i-1]>25 && p[i]-p[i+1]>25)
224 {
225 p[i] = (p[i-1]+p[i+1])/2;
226 }
227
228 if (p[i]-p[i-1]>22 && fabs(p[i]-p[i+1])<4 && p[i+1]-p[i+2]>22)
229 {
230 p[i] = (p[i-1]+p[i+2])/2;
231 p[i+1] = p[i];
232 }
233 }
234 }
235 }
236
237 static void RemoveSpikes2(float *vec, uint32_t roi)//from Werner
238 {
239 if (roi<4)
240 return;
241
242 for (size_t ch=0; ch<1440; ch++)
243 {
244 float *p = vec + ch*roi;
245
246 std::vector<float> Ameas(p, p+roi);
247
248 std::vector<float> N1mean(roi);
249 for (size_t i=2; i<roi-2; i++)
250 {
251 N1mean[i] = (p[i-1] + p[i+1])/2.;
252 }
253
254 const float fract = 0.8;
255 float x, xp, xpp;
256
257 for (size_t i=0; i<roi-3; i++)
258 {
259 x = Ameas[i] - N1mean[i];
260 if ( x > -5.)
261 continue;
262
263 xp = Ameas[i+1] - N1mean[i+1];
264 xpp = Ameas[i+2] - N1mean[i+2];
265
266 if(Ameas[i+2] - (Ameas[i] + Ameas[i+3])/2. > 10.)
267 {
268 p[i+1]=(Ameas[i] + Ameas[i+3])/2.;
269 p[i+2]=(Ameas[i] + Ameas[i+3])/2.;
270
271 i += 3;
272
273 continue;
274 }
275 if ( (xp > -2.*x*fract) && (xpp < -10.) )
276 {
277 p[i+1] = N1mean[i+1];
278 N1mean[i+2] = (Ameas[i+1] - Ameas[i+3] / 2.);
279
280 i += 2;
281 }
282 }
283 }
284 }
285
286 std::pair<std::vector<double>,std::vector<double> > GetSampleStats() const
287 {
288 if (fNumEntries==0)
289 return make_pair(std::vector<double>(),std::vector<double>());
290
291 std::vector<double> mean(fSum.size());
292 std::vector<double> error(fSum.size());
293
294 std::vector<int64_t>::const_iterator it = fSum.begin();
295 std::vector<int64_t>::const_iterator i2 = fSum2.begin();
296 std::vector<double>::iterator im = mean.begin();
297 std::vector<double>::iterator ie = error.begin();
298
299 while (it!=fSum.end())
300 {
301 *im = /*cnt<fResult.size() ? fResult[cnt] :*/ double(*it)/fNumEntries;
302 *ie = sqrt(double(*i2*int64_t(fNumEntries) - *it * *it))/fNumEntries;
303
304 im++;
305 ie++;
306 it++;
307 i2++;
308 }
309
310
311 /*
312 valarray<double> ...
313
314 mean /= fNumEntries;
315 error = sqrt(error/fNumEntries - mean*mean);
316 */
317
318 return make_pair(mean, error);
319 }
320
321 void GetSampleStats(float *ptr, float scale) const
322 {
323 const size_t sz = fNumSamples*fNumChannels;
324
325 if (fNumEntries==0)
326 {
327 memset(ptr, 0, sizeof(float)*sz*2);
328 return;
329 }
330
331 std::vector<int64_t>::const_iterator it = fSum.begin();
332 std::vector<int64_t>::const_iterator i2 = fSum2.begin();
333
334 while (it!=fSum.end())
335 {
336 *ptr = scale*double(*it)/fNumEntries;
337 *(ptr+sz) = scale*sqrt(double(*i2*int64_t(fNumEntries) - *it * *it))/fNumEntries;
338
339 ptr++;
340 it++;
341 i2++;
342 }
343 }
344
345 static void GetPixelStats(float *ptr, const float *data, uint16_t roi)
346 {
347 if (roi==0)
348 return;
349
350 for (int i=0; i<1440; i++)
351 {
352 const float *vec = data+i*roi;
353
354 int pos = 0;
355 double sum = vec[0];
356 double sum2 = vec[0]*vec[0];
357 for (int j=1; j<roi; j++)
358 {
359 sum += vec[j];
360 sum2 += vec[j]*vec[j];
361
362 if (vec[j]>vec[pos])
363 pos = j;
364 }
365 sum /= roi;
366 sum2 /= roi;
367
368 *(ptr+0*1440+i) = sum;
369 *(ptr+1*1440+i) = sqrt(sum2 - sum * sum);
370 *(ptr+2*1440+i) = vec[pos];
371 *(ptr+3*1440+i) = pos;
372 }
373 }
374
375 static void GetPixelMax(float *max, const float *data, uint16_t roi, int32_t first, int32_t last)
376 {
377 if (roi==0 || first<0 || last<0 || first>=roi || last>=roi || last<first)
378 return;
379
380 for (int i=0; i<1440; i++)
381 {
382 const float *beg = data+i*roi+first;
383 const float *end = data+i*roi+last;
384
385 const float *pmax = beg;
386
387 for (const float *ptr=beg+1; ptr<=end; ptr++)
388 if (*ptr>*pmax)
389 pmax = ptr;
390
391 max[i] = *pmax;
392 }
393 }
394
395 const std::vector<int64_t> &GetSum() const { return fSum; }
396
397 uint64_t GetNumEntries() const { return fNumEntries; }
398};
399
400class DrsCalibrateTime
401{
402public:
403 uint64_t fNumEntries;
404
405 size_t fNumSamples;
406 size_t fNumChannels;
407
408 std::vector<std::pair<double, double>> fStat;
409
410public:
411 DrsCalibrateTime() : fNumEntries(0), fNumSamples(0), fNumChannels(0)
412 {
413 InitSize(160, 1024);
414 }
415
416 DrsCalibrateTime(const DrsCalibrateTime &p) : fNumEntries(p.fNumEntries), fNumSamples(p.fNumSamples), fNumChannels(p.fNumChannels), fStat(p.fStat)
417 {
418 }
419
420 double Sum(uint32_t i) const { return fStat[i].first; }
421 double W(uint32_t i) const { return fStat[i].second; }
422
423 void InitSize(uint16_t channels, uint16_t samples)
424 {
425 fNumChannels = channels;
426 fNumSamples = samples;
427
428 fNumEntries = 0;
429
430 fStat.clear();
431
432 fStat.resize(samples*channels);
433 }
434
435 void AddT(const float *val, const int16_t *start, signed char edge=0)
436 {
437 if (fNumSamples!=1024 || fNumChannels!=160)
438 return;
439
440 // Rising or falling edge detection has the advantage that
441 // we are much less sensitive to baseline shifts
442
443 for (size_t ch=0; ch<160; ch++)
444 {
445 const size_t tm = ch*9+8;
446
447 const int16_t spos = start[tm];
448 if (spos<0)
449 continue;
450
451 const size_t pos = ch*1024;
452
453 double p_prev = 0;
454 int32_t i_prev = -1;
455
456 for (size_t i=0; i<1024-1; i++)
457 {
458 const size_t rel = tm*1024 + i;
459
460 const float &v0 = val[rel]; //-avg;
461 const float &v1 = val[rel+1];//-avg;
462
463 // Is rising edge?
464 if (edge>0 && v0>0)
465 continue;
466
467 // Is falling edge?
468 if (edge<0 && v0<0)
469 continue;
470
471 // Has sign changed?
472 if ((v0<0 && v1<0) || (v0>0 && v1>0))
473 continue;
474
475 const double p = v0==v1 ? 0.5 : v0/(v0-v1);
476
477 const double l = i+p - (i_prev+p_prev);
478
479 if (i_prev>=0)
480 {
481 const double w0 = 1-p_prev;
482 const double w1 = p;
483
484 fStat[pos+(spos+i_prev)%1024].first += w0*l;
485 fStat[pos+(spos+i_prev)%1024].second += w0;
486
487 for (size_t k=i_prev+1; k<i; k++)
488 {
489 fStat[pos+(spos+k)%1024].first += l;
490 fStat[pos+(spos+k)%1024].second += 1;
491 }
492
493 fStat[pos+(spos+i)%1024].first += w1*l;
494 fStat[pos+(spos+i)%1024].second += w1;
495 }
496
497 p_prev = p;
498 i_prev = i;
499 }
500 }
501 fNumEntries++;
502 }
503
504 void FillEmptyBins()
505 {
506 for (int ch=0; ch<160; ch++)
507 {
508 const auto beg = fStat.begin() + ch*1024;
509 const auto end = beg + 1024;
510
511 double avg = 0;
512 uint32_t num = 0;
513 for (auto it=beg; it!=end; it++)
514 {
515 if (it->second<fNumEntries-0.5)
516 continue;
517
518 avg += it->first / it->second;
519 num++;
520 }
521 avg /= num;
522
523 for (auto it=beg; it!=end; it++)
524 {
525 if (it->second>=fNumEntries-0.5)
526 continue;
527
528 // {
529 // result[i+1].first = *is2;
530 // result[i+1].second = *iw2;
531 // }
532 // else
533 // {
534 it->first = avg*fNumEntries;
535 it->second = fNumEntries;
536 // }
537 }
538 }
539 }
540
541 DrsCalibrateTime GetComplete() const
542 {
543 DrsCalibrateTime rc(*this);
544 rc.FillEmptyBins();
545 return rc;
546 }
547
548 void CalcResult()
549 {
550 for (int ch=0; ch<160; ch++)
551 {
552 const auto beg = fStat.begin() + ch*1024;
553 const auto end = beg + 1024;
554
555 // Calculate mean
556 double s = 0;
557 double w = 0;
558
559 for (auto it=beg; it!=end; it++)
560 {
561 s += it->first;
562 w += it->second;
563 }
564
565 s /= w;
566
567 double sumw = 0;
568 double sumv = 0;
569 int n = 0;
570
571 // Sums about many values are numerically less stable than
572 // just sums over less. So we do the exercise from both sides.
573 for (auto it=beg; it!=end-512; it++, n++)
574 {
575 const double valv = it->first;
576 const double valw = it->second;
577
578 it->first = sumv>0 ? n*(1-s*sumw/sumv) :0;
579
580 sumv += valv;
581 sumw += valw;
582 }
583
584 sumw = 0;
585 sumv = 0;
586 n = 1;
587
588 for (auto it=end-1; it!=beg-1+512; it--, n++)
589 {
590 const double valv = it->first;
591 const double valw = it->second;
592
593 sumv += valv;
594 sumw += valw;
595
596 it->first = sumv>0 ? n*(s*sumw/sumv-1) : 0;
597 }
598 }
599 }
600
601 DrsCalibrateTime GetResult() const
602 {
603 DrsCalibrateTime rc(*this);
604 rc.CalcResult();
605 return rc;
606 }
607
608 double Offset(uint32_t ch, double pos) const
609 {
610 const auto p = fStat.begin() + ch*1024;
611
612 const uint32_t f = floor(pos);
613
614 const double v0 = p[f].first;
615 const double v1 = p[(f+1)%1024].first;
616
617 return v0 + fmod(pos, 1)*(v1-v0);
618 }
619
620 double Calib(uint32_t ch, double pos) const
621 {
622 return pos-Offset(ch, pos);
623 }
624};
625
626struct DrsCalibration
627{
628 std::vector<int32_t> fOffset;
629 std::vector<int64_t> fGain;
630 std::vector<int64_t> fTrgOff;
631
632 uint64_t fNumOffset;
633 uint64_t fNumGain;
634 uint64_t fNumTrgOff;
635
636 uint32_t fStep;
637 uint16_t fRoi; // Region of interest for trgoff
638 uint16_t fNumTm; // Number of time marker channels in trgoff
639
640// uint16_t fDAC[8];
641
642 DrsCalibration() :
643 fOffset (1440*1024, 0),
644 fGain (1440*1024, 4096),
645 fTrgOff (1600*1024, 0),
646 fNumOffset(1),
647 fNumGain(2000),
648 fNumTrgOff(1),
649 fStep(0)
650 {
651 }
652
653 void Clear()
654 {
655 // Default gain:
656 // 0.575*[45590]*2.5V / 2^16 = 0.99999 V
657 fOffset.assign(1440*1024, 0);
658 fGain.assign (1440*1024, 4096);
659 fTrgOff.assign(1600*1024, 0);
660
661 fNumOffset = 1;
662 fNumGain = 2000;
663 fNumTrgOff = 1;
664
665 fStep = 0;
666 }
667
668 std::string ReadFitsImp(const std::string &str, std::vector<float> &vec)
669 {
670 std::fits file(str);
671 if (!file)
672 {
673 std::ostringstream msg;
674 msg << "Could not open file '" << str << "': " << strerror(errno);
675 return msg.str();
676 }
677
678 if (file.GetStr("TELESCOP")!="FACT")
679 {
680 std::ostringstream msg;
681 msg << "Reading '" << str << "' failed: Not a valid FACT file (TELESCOP not FACT in header)";
682 return msg.str();
683 }
684
685 if (!file.HasKey("STEP"))
686 {
687 std::ostringstream msg;
688 msg << "Reading '" << str << "' failed: Is not a DRS calib file (STEP not found in header)";
689 return msg.str();
690 }
691
692 if (file.GetNumRows()!=1)
693 {
694 std::ostringstream msg;
695 msg << "Reading '" << str << "' failed: Number of rows in table is not 1.";
696 return msg.str();
697 }
698
699 fStep = file.GetUInt("STEP");
700 fNumOffset = file.GetUInt("NBOFFSET");
701 fNumGain = file.GetUInt("NBGAIN");
702 fNumTrgOff = file.GetUInt("NBTRGOFF");
703 fRoi = file.GetUInt("NROI");
704 fNumTm = file.HasKey("NTM") ? file.GetUInt("NTM") : 0;
705/*
706 fDAC[0] = file.GetUInt("DAC_A");
707 fDAC[1] = file.GetUInt("DAC_B");
708 fDAC[4] = file.GetUInt("DAC_C");
709*/
710 vec.resize(1440*1024*4 + (1440+fNumTm)*fRoi*2 + 4);
711
712 float *base = vec.data();
713
714 reinterpret_cast<uint32_t*>(base)[0] = fRoi;
715
716 file.SetPtrAddress("RunNumberBaseline", base+1, 1);
717 file.SetPtrAddress("RunNumberGain", base+2, 1);
718 file.SetPtrAddress("RunNumberTriggerOffset", base+3, 1);
719 file.SetPtrAddress("BaselineMean", base+4+0*1024*1440, 1024*1440);
720 file.SetPtrAddress("BaselineRms", base+4+1*1024*1440, 1024*1440);
721 file.SetPtrAddress("GainMean", base+4+2*1024*1440, 1024*1440);
722 file.SetPtrAddress("GainRms", base+4+3*1024*1440, 1024*1440);
723 file.SetPtrAddress("TriggerOffsetMean", base+4+4*1024*1440, fRoi*1440);
724 file.SetPtrAddress("TriggerOffsetRms", base+4+4*1024*1440+fRoi*1440, fRoi*1440);
725 if (fNumTm>0)
726 {
727 file.SetPtrAddress("TriggerOffsetTMMean", base+4+4*1024*1440+ 2*fRoi*1440, fRoi*fNumTm);
728 file.SetPtrAddress("TriggerOffsetTMRms", base+4+4*1024*1440+ 2*fRoi*1440+ fRoi*fNumTm, fRoi*fNumTm);
729 }
730
731 if (!file.GetNextRow())
732 {
733 std::ostringstream msg;
734 msg << "Reading data from " << str << " failed.";
735 return msg.str();
736 }
737/*
738 fDAC[2] = fDAC[1];
739 fDAC[4] = fDAC[1];
740
741 fDAC[5] = fDAC[4];
742 fDAC[6] = fDAC[4];
743 fDAC[7] = fDAC[4];
744*/
745 fOffset.resize(1024*1440);
746 fGain.resize(1024*1440);
747
748 fTrgOff.resize(fRoi*(1440+fNumTm));
749
750 // Convert back to ADC counts: 256/125 = 4096/2000
751 // Convert back to sum (mean * num_entries)
752 for (int i=0; i<1024*1440; i++)
753 {
754 fOffset[i] = fNumOffset *256*base[i+1024*1440*0+4]/125;
755 fGain[i] = fNumOffset*fNumGain*256*base[i+1024*1440*2+4]/125;
756 }
757
758 for (int i=0; i<fRoi*1440; i++)
759 fTrgOff[i] = fNumOffset*fNumTrgOff*256*base[i+1024*1440*4+4]/125;
760
761 for (int i=0; i<fRoi*fNumTm; i++)
762 fTrgOff[i+1440*fRoi] = fNumOffset*fNumTrgOff*256*base[i+1024*1440*4+2*fRoi*1440+4]/125;
763
764
765 // DAC: 0..2.5V == 0..65535
766 // V-mV: 1000
767 //fNumGain *= 2500*50000;
768 //for (int i=0; i<1024*1440; i++)
769 // fGain[i] *= 65536;
770 if (fStep==0)
771 {
772 for (int i=0; i<1024*1440; i++)
773 fGain[i] = fNumOffset*4096;
774 }
775 else
776 {
777 fNumGain *= 1953125;
778 for (int i=0; i<1024*1440; i++)
779 fGain[i] *= 1024;
780 }
781
782 // Now mark the stored DRS data as "officially valid"
783 // However, this is not thread safe. It only ensures that
784 // this data is not used before it is completely and correctly
785 // read.
786 fStep++;
787
788 return std::string();
789 }
790
791 std::string ReadFitsImp(const std::string &str)
792 {
793 std::vector<float> vec;
794 return ReadFitsImp(str, vec);
795 }
796
797 bool IsValid() { return fStep>2; }
798
799 bool Apply(float *vec, const int16_t *val, const int16_t *start, uint32_t roi)
800 {
801 if (roi!=fRoi)
802 {
803 for (size_t ch=0; ch<1440; ch++)
804 {
805 const size_t pos = ch*roi;
806 const size_t drs = ch*1024;
807
808 DrsCalibrate::ApplyCh(vec+pos, val+pos, start[ch], roi,
809 fOffset.data()+drs, fNumOffset,
810 fGain.data() +drs, fNumGain);
811 }
812
813 return false;
814 }
815
816 for (size_t ch=0; ch<1440; ch++)
817 {
818 const size_t pos = ch*fRoi;
819 const size_t drs = ch*1024;
820
821 DrsCalibrate::ApplyCh(vec+pos, val+pos, start[ch], roi,
822 fOffset.data()+drs, fNumOffset,
823 fGain.data() +drs, fNumGain,
824 fTrgOff.data()+pos, fNumTrgOff);
825 }
826
827 for (size_t ch=0; ch<fNumTm; ch++)
828 {
829 const size_t pos = (ch+1440)*fRoi;
830 const size_t drs = (ch*9+8)*1024;
831
832 DrsCalibrate::ApplyCh(vec+pos, val+pos, start[ch], roi,
833 fOffset.data()+drs, fNumOffset,
834 fGain.data() +drs, fNumGain,
835 fTrgOff.data()+pos, fNumTrgOff);
836 }
837
838 return true;
839 }
840};
841
842#endif
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