source: tags/Mars-V0.8.6/mpedestal/MPedCalcFromLoGain.cc

Last change on this file was 5030, checked in by tbretz, 20 years ago
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1/* ======================================================================== *\
2!
3! *
4! * This file is part of MARS, the MAGIC Analysis and Reconstruction
5! * Software. It is distributed to you in the hope that it can be a useful
6! * and timesaving tool in analysing Data of imaging Cerenkov telescopes.
7! * It is distributed WITHOUT ANY WARRANTY.
8! *
9! * Permission to use, copy, modify and distribute this software and its
10! * documentation for any purpose is hereby granted without fee,
11! * provided that the above copyright notice appear in all copies and
12! * that both that copyright notice and this permission notice appear
13! * in supporting documentation. It is provided "as is" without express
14! * or implied warranty.
15! *
16!
17!
18! Author(s): Josep Flix 04/2001 <mailto:jflix@ifae.es>
19! Author(s): Thomas Bretz 05/2001 <mailto:tbretz@astro.uni-wuerzburg.de>
20! Author(s): Sebastian Commichau 12/2003
21! Author(s): Javier Rico 01/2004 <mailto:jrico@ifae.es>
22! Author(s): Markus Gaug 01/2004 <mailto:markus@ifae.es>
23! Author(s): Florian Goebel 06/2004 <mailto:fgoebel@mppmu.mpg.de>
24!
25! Copyright: MAGIC Software Development, 2000-2004
26!
27!
28\* ======================================================================== */
29
30/////////////////////////////////////////////////////////////////////////////
31//
32// MPedCalcLoGain
33//
34//
35// This task is derived form MPedCalcPedRun, described below. However, It
36// calculates the pedstals using the low gain slices, whenever the difference
37// between the highest and the lowest slice in the high gain
38// slices is below a given threshold (SetMaxHiGainVar). In this case the receiver
39// boards do not switch to lo gain and the so called lo gain slices are actually
40// high gain slices.
41//
42// MPedCalcLoGain also fills the ABoffset in MPedestalPix which allows to correct
43// the 150 MHz clock noise.
44//
45// This task takes a pedestal run file and fills MPedestalCam during
46// the Process() with the pedestal and rms computed in an event basis.
47// In the PostProcess() MPedestalCam is finally filled with the pedestal
48// mean and rms computed in a run basis.
49// More than one run (file) can be merged
50//
51// MPedCalcPedRun applies the following formula (1):
52//
53// Pedestal per slice = sum(x_i) / n / slices
54// PedRMS per slice = Sqrt( ( sum(x_i^2) - sum(x_i)^2/n ) / n-1 / slices )
55//
56// where x_i is the sum of "slices" FADC slices and sum means the sum over all
57// events. "n" is the number of events, "slices" is the number of summed FADC samples.
58//
59// Note that the slice-to-slice fluctuations are not Gaussian, but Poissonian, thus
60// asymmetric and they are correlated.
61//
62// It is important to know that the Pedestal per slice and PedRMS per slice depend
63// on the number of used FADC slices, as seen in the following plots:
64//
65//Begin_Html
66/*
67<img src="images/PedestalStudyInner.gif">
68*/
69//End_Html
70//
71//Begin_Html
72/*
73<img src="images/PedestalStudyOuter.gif">
74*/
75//
76// The plots show the inner and outer pixels, respectivly and have the following meaning:
77//
78// 1) The calculated mean pedestal per slice (from MPedCalcFromLoGain)
79// 2) The fitted mean pedestal per slice (from MHPedestalCam)
80// 3) The calculated pedestal RMS per slice (from MPedCalcFromLoGain)
81// 4) The fitted sigma of the pedestal distribution per slice
82// (from MHPedestalCam)
83// 5) The relative difference between calculation and histogram fit
84// for the mean
85// 6) The relative difference between calculation and histogram fit
86// for the sigma or RMS, respectively.
87//
88// The calculated means do not change significantly except for the case of 2 slices,
89// however the RMS changes from 5.7 per slice in the case of 2 extracted slices
90// to 8.3 per slice in the case of 26 extracted slices. This change is very significant.
91//
92// The plots have been produced on run 20123. You can reproduce them using
93// the macro pedestalstudies.C
94//
95// Usage of this class:
96// ====================
97//
98// Call: SetRange(higainfirst, higainlast, logainfirst, logainlast)
99// to modify the ranges in which the window is allowed to move.
100// Defaults are:
101//
102// fHiGainFirst = fgHiGainFirst = 0
103// fHiGainLast = fgHiGainLast = 29
104// fLoGainFirst = fgLoGainFirst = 0
105// fLoGainLast = fgLoGainLast = 14
106//
107// Call: SetWindowSize(windowhigain, windowlogain)
108// to modify the sliding window widths. Windows have to be an even number.
109// In case of odd numbers, the window will be modified.
110//
111// Defaults are:
112//
113// fHiGainWindowSize = fgHiGainWindowSize = 14
114// fLoGainWindowSize = fgLoGainWindowSize = 0
115//
116// Variables:
117// fgHiGainFirst; First FADC slice Hi-Gain (currently set to: 3)
118// fgHiGainLast: Last FADC slice Hi-Gain (currently set to: 14)
119// fgLoGainFirst: First FADC slice Lo-Gain (currently set to: 3)
120// fgLoGainLast: Last FADC slice Lo-Gain (currently set to: 14)
121// fgHiGainWindowSize: The extraction window Hi-Gain
122// fgLoGainWindowSize: The extraction window Lo-Gain
123// fgMaxHiGainVar: The maximum difference between the highest and lowest slice
124// in the high gain window allowed in order to use low gain
125//
126// Input Containers:
127// MRawEvtData
128// MRawRunHeader
129// MGeomCam
130//
131// Output Containers:
132// MPedestalCam
133//
134// See also: MPedestalCam, MPedestalPix, MHPedestalCam, MExtractor
135//
136/////////////////////////////////////////////////////////////////////////////
137#include "MPedCalcFromLoGain.h"
138#include "MExtractor.h"
139
140#include "MParList.h"
141
142#include "MLog.h"
143#include "MLogManip.h"
144
145#include "MRawRunHeader.h"
146#include "MRawEvtPixelIter.h"
147#include "MRawEvtData.h"
148
149#include "MPedestalPix.h"
150#include "MPedestalCam.h"
151
152#include "MGeomPix.h"
153#include "MGeomCam.h"
154
155ClassImp(MPedCalcFromLoGain);
156
157using namespace std;
158
159const Byte_t MPedCalcFromLoGain::fgHiGainFirst = 0;
160const Byte_t MPedCalcFromLoGain::fgHiGainLast = 11;
161const Byte_t MPedCalcFromLoGain::fgLoGainFirst = 1;
162const Byte_t MPedCalcFromLoGain::fgLoGainLast = 14;
163const Byte_t MPedCalcFromLoGain::fgHiGainWindowSize = 12;
164const Byte_t MPedCalcFromLoGain::fgLoGainWindowSize = 14;
165const Byte_t MPedCalcFromLoGain::fgMaxHiGainVar = 40;
166
167// --------------------------------------------------------------------------
168//
169// Default constructor:
170//
171// Sets:
172// - all pointers to NULL
173// - fWindowSizeHiGain to fgHiGainWindowSize
174// - fWindowSizeLoGain to fgLoGainWindowSize
175//
176// Calls:
177// - AddToBranchList("fHiGainPixId");
178// - AddToBranchList("fHiGainFadcSamples");
179// - SetRange(fgHiGainFirst, fgHiGainLast, fgLoGainFirst, fgLoGainLast)
180// - Clear()
181//
182MPedCalcFromLoGain::MPedCalcFromLoGain(const char *name, const char *title)
183 : fWindowSizeHiGain(fgHiGainWindowSize),
184 fWindowSizeLoGain(fgLoGainWindowSize),
185 fGeom(NULL), fPedContainerName("MPedestalCam")
186{
187 fName = name ? name : "MPedCalcFromLoGain";
188 fTitle = title ? title : "Task to calculate pedestals from pedestal runs raw data";
189
190 AddToBranchList("fHiGainPixId");
191 AddToBranchList("fLoGainPixId");
192 AddToBranchList("fHiGainFadcSamples");
193 AddToBranchList("fLoGainFadcSamples");
194
195 SetRange();
196 SetMaxHiGainVar();
197 SetPedestalUpdate(kTRUE);
198 SetNumEventsDump(500);
199
200 Clear();
201}
202
203// --------------------------------------------------------------------------
204//
205// Sets:
206// - fNumSamplesTot to 0
207// - fRawEvt to NULL
208// - fRunHeader to NULL
209// - fPedestals to NULL
210//
211void MPedCalcFromLoGain::Clear(const Option_t *o)
212{
213 fRawEvt = NULL;
214 fRunHeader = NULL;
215 fPedestals = NULL;
216
217 // If the size is yet set, set the size
218 if (fSumx.GetSize()>0)
219 {
220 // Reset contents of arrays.
221 fSumx.Reset();
222 fSumx2.Reset();
223 fSumAB0.Reset();
224 fSumAB1.Reset();
225 fNumEventsUsed.Reset();
226 fTotalCounter.Reset();
227 }
228}
229
230// --------------------------------------------------------------------------
231//
232// SetRange:
233//
234// Calls:
235// - MExtractor::SetRange(hifirst,hilast,lofirst,lolast);
236// - SetWindowSize(fWindowSizeHiGain,fWindowSizeLoGain);
237//
238void MPedCalcFromLoGain::SetRange(Byte_t hifirst, Byte_t hilast, Byte_t lofirst, Byte_t lolast)
239{
240 MExtractor::SetRange(hifirst, hilast, lofirst, lolast);
241
242 //
243 // Redo the checks if the window is still inside the ranges
244 //
245 SetWindowSize(fWindowSizeHiGain,fWindowSizeLoGain);
246}
247
248// --------------------------------------------------------------------------
249//
250void MPedCalcFromLoGain::SetMaxHiGainVar(Byte_t maxvar)
251{
252 fMaxHiGainVar = maxvar;
253}
254
255// --------------------------------------------------------------------------
256//
257// Checks:
258// - if a window is odd, subtract one
259// - if a window is bigger than the one defined by the ranges, set it to the available range
260// - if a window is smaller than 2, set it to 2
261//
262// Sets:
263// - fNumHiGainSamples to: (Float_t)fWindowSizeHiGain
264// - fNumLoGainSamples to: (Float_t)fWindowSizeLoGain
265// - fSqrtHiGainSamples to: TMath::Sqrt(fNumHiGainSamples)
266// - fSqrtLoGainSamples to: TMath::Sqrt(fNumLoGainSamples)
267//
268void MPedCalcFromLoGain::SetWindowSize(Byte_t windowh, Byte_t windowl)
269{
270 fWindowSizeHiGain = windowh & ~1;
271 fWindowSizeLoGain = windowl & ~1;
272
273 if (fWindowSizeHiGain != windowh)
274 {
275 *fLog << warn;
276 *fLog << GetDescriptor() << ": HiGain window has to be even, set to: ";
277 *fLog << int(fWindowSizeHiGain) << " samples " << endl;
278 }
279
280 if (fWindowSizeLoGain != windowl)
281 {
282 *fLog << warn;
283 *fLog << GetDescriptor() << ": Lo Gain window has to be even, set to: ";
284 *fLog << int(fWindowSizeLoGain) << " samples " << endl;
285 }
286
287 const Byte_t availhirange = (fHiGainLast-fHiGainFirst+1) & ~1;
288 const Byte_t availlorange = (fLoGainLast-fLoGainFirst+1) & ~1;
289
290 if (fWindowSizeHiGain > availhirange)
291 {
292 *fLog << warn;
293 *fLog << GetDescriptor() << ": HiGain window " << (int)fWindowSizeHiGain;
294 *fLog << " out of range [" << (int)fHiGainFirst;
295 *fLog << "," << (int)fHiGainLast << "]" << endl;
296 *fLog << "Will set window size to " << (int)availhirange << endl;
297 fWindowSizeHiGain = availhirange;
298 }
299
300 if (fWindowSizeLoGain > availlorange)
301 {
302 *fLog << warn;
303 *fLog << GetDescriptor() << ": LoGain window " << (int)fWindowSizeLoGain;
304 *fLog << " out of range [" << (int)fLoGainFirst;
305 *fLog << "," << (int)fLoGainLast << "]" << endl;
306 *fLog << "Will set window size to " << (int)availlorange << endl;
307 fWindowSizeLoGain = availlorange;
308 }
309 /*
310 fNumHiGainSamples = (Float_t)fWindowSizeHiGain;
311 fNumLoGainSamples = (Float_t)fWindowSizeLoGain;
312
313 fSqrtHiGainSamples = TMath::Sqrt(fNumHiGainSamples);
314 fSqrtLoGainSamples = TMath::Sqrt(fNumLoGainSamples);
315 */
316}
317
318// --------------------------------------------------------------------------
319//
320// Look for the following input containers:
321//
322// - MRawEvtData
323// - MRawRunHeader
324// - MGeomCam
325//
326// The following output containers are also searched and created if
327// they were not found:
328//
329// - MPedestalCam
330//
331Int_t MPedCalcFromLoGain::PreProcess(MParList *pList)
332{
333 Clear();
334
335 fRawEvt = (MRawEvtData*)pList->FindObject("MRawEvtData");
336 if (!fRawEvt)
337 {
338 *fLog << err << "MRawEvtData not found... aborting." << endl;
339 return kFALSE;
340 }
341
342 fRunHeader = (MRawRunHeader*)pList->FindObject(AddSerialNumber("MRawRunHeader"));
343 if (!fRunHeader)
344 {
345 *fLog << err << AddSerialNumber("MRawRunHeader") << " not found... aborting." << endl;
346 return kFALSE;
347 }
348
349 fGeom = (MGeomCam*)pList->FindObject("MGeomCam");
350 if (!fGeom)
351 {
352 *fLog << err << "MGeomCam not found... aborting." << endl;
353 return kFALSE;
354 }
355
356 fPedestals = (MPedestalCam*)pList->FindCreateObj("MPedestalCam", AddSerialNumber(fPedContainerName));
357 if (!fPedestals)
358 return kFALSE;
359
360 if (fNumEventsDump<=0 && fPedestalUpdate)
361 {
362 *fLog << warn << "Pedestal Update switched on and Number of Events to dump <= 0... fNumEventsDump=1000" << endl;
363 fNumEventsDump=1000;
364 }
365
366 *fLog << inf << "Continous update switched " << (fPedestalUpdate?"on":"off");
367 if (fPedestalUpdate)
368 *fLog << " (dump each " << fNumEventsDump << " events)" << endl;
369 *fLog << endl;
370
371 return kTRUE;
372}
373
374// --------------------------------------------------------------------------
375//
376// The ReInit searches for:
377// - MRawRunHeader::GetNumSamplesHiGain()
378// - MRawRunHeader::GetNumSamplesLoGain()
379//
380// In case that the variables fHiGainLast and fLoGainLast are smaller than
381// the even part of the number of samples obtained from the run header, a
382// warning is given an the range is set back accordingly. A call to:
383// - SetRange(fHiGainFirst, fHiGainLast-diff, fLoGainFirst, fLoGainLast) or
384// - SetRange(fHiGainFirst, fHiGainLast, fLoGainFirst, fLoGainLast-diff)
385// is performed in that case. The variable diff means here the difference
386// between the requested range (fHiGainLast) and the available one. Note that
387// the functions SetRange() are mostly overloaded and perform more checks,
388// modifying the ranges again, if necessary.
389//
390Bool_t MPedCalcFromLoGain::ReInit(MParList *pList)
391{
392 if (fRunHeader->GetNumSamplesHiGain()<1)
393 {
394 *fLog << err << "ERROR - Number of available HiGainSamples<1... abort." << endl;
395 return kFALSE;
396 }
397 if (fRunHeader->GetNumSamplesLoGain()<1)
398 {
399 *fLog << err << "ERROR - Number of available LoGainSamples<1... abort." << endl;
400 return kFALSE;
401 }
402
403 fHiGainFirst = TMath::Max(fHiGainFirst, 0);
404 fHiGainLast = TMath::Min(fHiGainLast, fRunHeader->GetNumSamplesHiGain()-1);
405
406 fLoGainFirst = TMath::Max(fLoGainFirst, 0);
407 fLoGainLast = TMath::Min(fLoGainLast, fRunHeader->GetNumSamplesLoGain()-1);
408
409 const Double_t wh = fWindowSizeHiGain;
410 const Double_t wl = fWindowSizeLoGain;
411 const Double_t fh = fHiGainFirst;
412 const Double_t fl = fLoGainFirst;;
413
414 fWindowSizeHiGain = TMath::Min(fWindowSizeHiGain, fHiGainLast-fHiGainFirst+1);
415 fWindowSizeLoGain = TMath::Min(fWindowSizeLoGain, fLoGainLast-fLoGainFirst+1);
416
417 SetRange(fHiGainFirst, fHiGainLast, fLoGainFirst, fLoGainLast);
418
419 if (wh!=fWindowSizeHiGain || fh!=fHiGainFirst || wl!=fWindowSizeLoGain || fl!=fLoGainFirst)
420 {
421 *fLog << inf << endl;
422 *fLog << "Taking " << Form("%2d", (int)fWindowSizeHiGain) << " slices of Hi-Gain starting at slice " << (int)fHiGainFirst << endl;
423 *fLog << "Taking " << Form("%2d", (int)fWindowSizeLoGain) << " slices of Lo-Gain starting at slice " << (int)fLoGainFirst << endl;
424 }
425
426 if (fWindowSizeHiGain==0)
427 {
428 *fLog << err << "ERROR - HiGain windows size == 0... abort." << endl;
429 return kFALSE;
430 }
431 if (fWindowSizeLoGain==0)
432 {
433 *fLog << err << "ERROR - HiGain windows size == 0... abort." << endl;
434 return kFALSE;
435 }
436
437 // If the size is not yet set, set the size
438 if (fSumx.GetSize()==0)
439 {
440 const Int_t npixels = fPedestals->GetSize();
441
442 fSumx. Set(npixels);
443 fSumx2.Set(npixels);
444 fSumAB0.Set(npixels);
445 fSumAB1.Set(npixels);
446 fNumEventsUsed.Set(npixels);
447 fTotalCounter.Set(npixels);
448
449 // Reset contents of arrays.
450 fSumx.Reset();
451 fSumx2.Reset();
452 fSumAB0.Reset();
453 fSumAB1.Reset();
454 fNumEventsUsed.Reset();
455 fTotalCounter.Reset();
456 }
457
458 return kTRUE;
459}
460
461void MPedCalcFromLoGain::Calc(ULong_t n, UInt_t idx)
462{
463 const ULong_t nsamplestot = n*fWindowSizeLoGain;
464
465 const Float_t sum = fSumx.At(idx);
466 const Float_t sum2 = fSumx2.At(idx);
467 const Float_t ped = sum/nsamplestot;
468
469 // 1. Calculate the Variance of the sums:
470 Float_t var = (sum2-sum*sum/n)/(n-1.);
471
472 // 2. Scale the variance to the number of slices:
473 var /= (Float_t)(fWindowSizeLoGain);
474
475 // 3. Calculate the RMS from the Variance:
476 const Float_t rms = var<0 ? 0 : TMath::Sqrt(var);
477
478 // 4. Calculate the amplitude of the 150MHz "AB" noise
479 const Float_t abOffs = (fSumAB0[idx] - fSumAB1[idx]) / nsamplestot;
480
481 (*fPedestals)[idx].Set(ped, rms, abOffs, n);
482
483 fTotalCounter[idx]++;
484}
485
486// --------------------------------------------------------------------------
487//
488// Fill the MPedestalCam container with the signal mean and rms for the event.
489// Store the measured signal in arrays fSumx and fSumx2 so that we can
490// calculate the overall mean and rms in the PostProcess()
491//
492Int_t MPedCalcFromLoGain::Process()
493{
494 MRawEvtPixelIter pixel(fRawEvt);
495
496 while (pixel.Next())
497 {
498 const UInt_t idx = pixel.GetPixelId();
499
500 Byte_t *ptr = pixel.GetHiGainSamples() + fHiGainFirst;
501 Byte_t *end = ptr + fWindowSizeHiGain;
502
503 UInt_t sum = 0;
504 UInt_t sqr = 0;
505
506 UInt_t max = 0;
507 UInt_t min = 255;
508
509 // Find the maximum and minimum signal per slice in the high gain window
510 do {
511 if (*ptr > max)
512 max = *ptr;
513 if (*ptr < min)
514 min = *ptr;
515 } while (++ptr != end);
516
517 // If the maximum in the high gain window is smaller than
518 if (max-min>=fMaxHiGainVar || max>=255)
519 continue;
520
521 ptr = pixel.GetLoGainSamples() + fLoGainFirst;
522 end = ptr + fWindowSizeLoGain;
523
524 Byte_t *firstSlice = ptr;
525
526 do {
527 sum += *ptr;
528 sqr += *ptr * *ptr;
529 } while (++ptr != end);
530
531 const Float_t msum = (Float_t)sum;
532 const Float_t sqrsum = msum*msum;
533
534 fSumx[idx] += msum;
535 fSumx2[idx] += sqrsum;
536 fNumEventsUsed[idx]++;
537
538 // Calculate the amplitude of the 150MHz "AB" noise
539
540 if (pixel.IsABFlagValid())
541 {
542 const Int_t abFlag = (fRunHeader->GetNumSamplesHiGain()
543 + fLoGainFirst + pixel.HasABFlag()) & 0x1;
544 for (Int_t islice=0; islice<fWindowSizeLoGain; islice+=2)
545 {
546 const Int_t sliceAB0 = islice + abFlag;
547 const Int_t sliceAB1 = islice - abFlag + 1;
548 fSumAB0[idx] += firstSlice[sliceAB0];
549 fSumAB1[idx] += firstSlice[sliceAB1];
550 }
551 }
552
553 if (!fPedestalUpdate || fNumEventsUsed[idx]<fNumEventsDump)
554 continue;
555
556 Calc(fNumEventsDump, idx);
557
558 fNumEventsUsed[idx]=0;
559 fSumx[idx]=0;
560 fSumx2[idx]=0;
561 fSumAB0[idx]=0;
562 fSumAB1[idx]=0;
563 }
564
565 if (fPedestalUpdate)
566 {
567 //fPedestals->ReCalc(*fGeom);
568 fPedestals->SetReadyToSave();
569 }
570
571 return kTRUE;
572}
573
574// --------------------------------------------------------------------------
575//
576// Compute signal mean and rms in the whole run and store it in MPedestalCam
577//
578Int_t MPedCalcFromLoGain::PostProcess()
579{
580 // Compute pedestals and rms from the whole run
581 if (fPedestalUpdate || GetNumExecutions()<1)
582 return kTRUE;
583
584 *fLog << flush << inf << "Calculating pedestals..." << flush;
585
586 Double_t sum = 0;
587
588 const Int_t npix = fGeom->GetNumPixels();
589 for (Int_t idx=0; idx<npix; idx++)
590 {
591 const ULong_t n = fNumEventsUsed[idx];
592 if (n>1)
593 Calc(n, idx);
594 sum += n;
595 }
596
597 *fLog << flush << inf << "Calculating means..." << flush;
598
599 fPedestals->SetTotalEntries((UInt_t)(sum/npix*(fWindowSizeLoGain+fWindowSizeHiGain)));
600 fPedestals->ReCalc(*fGeom);
601 fPedestals->SetReadyToSave();
602 return kTRUE;
603}
604
605Int_t MPedCalcFromLoGain::ReadEnv(const TEnv &env, TString prefix, Bool_t print)
606{
607 if (MExtractor::ReadEnv(env, prefix, print)==kERROR)
608 return kERROR;
609
610 Bool_t rc=kFALSE;
611
612 Byte_t hw = fWindowSizeHiGain;
613 Byte_t lw = fWindowSizeLoGain;
614 if (IsEnvDefined(env, prefix, "WindowSizeHiGain", print))
615 {
616 hw = GetEnvValue(env, prefix, "WindowSizeHiGain", hw);
617 rc = kTRUE;
618 }
619 if (IsEnvDefined(env, prefix, "WindowSizeLoGain", print))
620 {
621 lw = GetEnvValue(env, prefix, "WindowSizeLoGain", lw);
622 rc = kTRUE;
623 }
624
625 if (rc)
626 SetWindowSize(hw, lw);
627
628 if (IsEnvDefined(env, prefix, "NumEventsDump", print))
629 {
630 SetNumEventsDump(GetEnvValue(env, prefix, "NumEventsDump", fNumEventsDump));
631 rc = kTRUE;
632 }
633
634 if (IsEnvDefined(env, prefix, "MaxHiGainVar", print))
635 {
636 SetMaxHiGainVar(GetEnvValue(env, prefix, "MaxHiGainVar", fMaxHiGainVar));
637 rc = kTRUE;
638 }
639
640 if (IsEnvDefined(env, prefix, "PedestalUpdate", print))
641 {
642 SetPedestalUpdate(GetEnvValue(env, prefix, "PedestalUpdate", fPedestalUpdate));
643 rc = kTRUE;
644 }
645
646 return rc;
647}
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