source: tags/Mars-V0.9/mcalib/MCalibrateData.cc

Last change on this file was 6855, 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): Javier Lopez 12/2003 <mailto:jlopez@ifae.es>
19! Author(s): Javier Rico 01/2004 <mailto:jrico@ifae.es>
20! Author(s): Wolfgang Wittek 02/2004 <mailto:wittek@mppmu.mpg.de>
21! Author(s): Markus Gaug 04/2004 <mailto:markus@ifae.es>
22! Author(s): Hendrik Bartko 08/2004 <mailto:hbartko@mppmu.mpg.de>
23! Author(s): Thomas Bretz 08/2004 <mailto:tbretz@astro.uni-wuerzburg.de>
24!
25! Copyright: MAGIC Software Development, 2000-2004
26!
27!
28\* ======================================================================== */
29
30///////////////////////////////////////////////////////////////////////////////////
31//
32// MCalibrateData
33//
34// This task takes the integrated charge from MExtractedSignal and applies
35// the calibration constants from MCalibrationCam to convert the summed FADC
36// slices into photons. The number of photons obtained is stored in MSignalCam.
37// Optionally, the calibration of pedestals from an MPedestalCam container into
38// an MPedPhotCam container can be chosen with the member functions
39// SetPedestalType(). Default is 'kRun', i.e. calibration of pedestals from a
40// dedicated pedestal run.
41// In case, the chosen pedestal type is kRun or kEvent, in ReInit() the MPedPhotCam
42// container is filled using the information from MPedestalCam, MExtractedSignalCam,
43// MCalibrationChargeCam and MCalibrationQECam
44//
45// Selection of different calibration methods is allowed through the
46// SetCalibrationMode() member function (default: kFfactor)
47//
48// The calibration modes which exclude non-valid pixels are the following:
49//
50// kFfactor: calibrates using the F-Factor method
51// kBlindpixel: calibrates using the BlindPixel method
52// kBlindpixel: calibrates using the BlindPixel method
53// kFlatCharge: perform a charge flat-flatfielding. Outer pixels are area-corrected.
54// kDummy: calibrates with fixed conversion factors of 1 and errors of 0.
55//
56// The calibration modes which include all pixels regardless of their validity is:
57//
58// kNone: calibrates with fixed conversion factors of 1 and errors of 0.
59//
60// Use the kDummy and kNone methods ONLY FOR DEBUGGING!
61//
62//
63// This class can calibrate data and/or pedestals. To switch off calibration of data
64// set the Calibration Mode to kSkip. To switch on pedestal calibration call either
65// SetPedestalFlag(MCalibrateData::kRun) (calibration is done once in ReInit)
66// SetPedestalFlag(MCalibrateData::kEvent) (calibration is done for each event)
67//
68// By calling AddPedestal() you can control the name of the
69// MPedestalCam and/or MPedPhotCam container which is used.
70//
71// Assume you want to calibrate "MPedestalCam" once and "MPedestalFromLoGain" [MPedestalCam]
72// event-by-event, so:
73// MCalibrateData cal1;
74// cal1.SetCalibrationMode(MCalibrateData::kSkip);
75// cal1.SetPedestalFlag(MCalibrateData::kRun);
76// MCalibrateData cal2;
77// cal2.SetCalibrationMode(MCalibrateData::kSkip);
78// cal2.AddPedestal("FromLoGain");
79// cal2.SetPedestalFlag(MCalibrateData::kEvent);
80//
81//
82// Input Containers:
83// [MPedestalCam]
84// [MExtractedSignalCam]
85// [MCalibrationChargeCam]
86// [MCalibrationQECam]
87// MBadPixelsCam
88//
89// Output Containers:
90// [MPedPhotCam]
91// [MSignalCam]
92//
93// See also: MJCalibration, MJPedestal, MJExtractSignal, MJExtractCalibTest
94//
95//////////////////////////////////////////////////////////////////////////////
96#include "MCalibrateData.h"
97
98#include <fstream>
99
100#include <TEnv.h>
101
102#include "MLog.h"
103#include "MLogManip.h"
104
105#include "MParList.h"
106#include "MH.h"
107
108#include "MGeomCam.h"
109
110#include "MPedestalCam.h"
111#include "MPedestalPix.h"
112
113#include "MCalibrationChargeCam.h"
114#include "MCalibrationChargePix.h"
115
116#include "MCalibrationQECam.h"
117#include "MCalibrationQEPix.h"
118
119#include "MCalibConstCam.h"
120#include "MCalibConstPix.h"
121
122#include "MExtractedSignalCam.h"
123#include "MExtractedSignalPix.h"
124
125#include "MPedPhotCam.h"
126#include "MPedPhotPix.h"
127
128#include "MBadPixelsCam.h"
129#include "MBadPixelsPix.h"
130
131#include "MSignalCam.h"
132
133ClassImp(MCalibrateData);
134
135using namespace std;
136
137const Float_t MCalibrateData::fgCalibConvMinLimit = 0.01;
138const Float_t MCalibrateData::fgCalibConvMaxLimit = 5.;
139// --------------------------------------------------------------------------
140//
141// Default constructor.
142//
143// Sets all pointers to NULL
144//
145// Initializes:
146// - fCalibrationMode to kDefault
147// - fPedestalFlag to kNo
148//
149MCalibrateData::MCalibrateData(CalibrationMode_t calmode,const char *name, const char *title)
150 : fGeomCam(NULL), fBadPixels(NULL), fCalibrations(NULL),
151 fQEs(NULL), fSignals(NULL), fCerPhotEvt(NULL), fCalibConstCam(NULL),
152 fPedestalFlag(kNo), fSignalType(kPhot), fRenormFactor(1.)
153{
154
155 fName = name ? name : "MCalibrateData";
156 fTitle = title ? title : "Task to calculate the number of photons in one event";
157
158 SetCalibrationMode(calmode);
159
160 SetCalibConvMinLimit();
161 SetCalibConvMaxLimit();
162
163 fNamesPedestal.SetOwner();
164}
165
166void MCalibrateData::AddPedestal(const char *name)
167{
168 TString ped(name);
169 TString pho(name);
170 ped.Prepend("MPedestal");
171 pho.Prepend("MPedPhot");
172
173 fNamesPedestal.Add(new TNamed(ped, pho));
174}
175
176void MCalibrateData::AddPedestal(const char *pedestal, const char *pedphot)
177{
178 fNamesPedestal.Add(new TNamed(pedestal, pedphot));
179}
180
181// --------------------------------------------------------------------------
182//
183// The PreProcess searches for the following input containers:
184//
185// - MGeomCam
186// - MPedestalCam
187// - MCalibrationChargeCam
188// - MCalibrationQECam
189// - MExtractedSignalCam
190// - MBadPixelsCam
191//
192// The following output containers are also searched and created if
193// they were not found:
194//
195// - MPedPhotCam
196// - MSignalCam
197//
198Int_t MCalibrateData::PreProcess(MParList *pList)
199{
200 // input containers
201
202 fBadPixels = (MBadPixelsCam*)pList->FindObject(AddSerialNumber("MBadPixelsCam"));
203 if (!fBadPixels)
204 {
205 *fLog << err << AddSerialNumber("MBadPixelsCam") << " not found ... aborting" << endl;
206 return kFALSE;
207 }
208
209 fSignals = 0;
210 fCerPhotEvt = 0;
211 if (fCalibrationMode>kSkip)
212 {
213 fSignals = (MExtractedSignalCam*)pList->FindObject(AddSerialNumber("MExtractedSignalCam"));
214 if (!fSignals)
215 {
216 *fLog << err << AddSerialNumber("MExtractedSignalCam") << " not found ... aborting" << endl;
217 return kFALSE;
218 }
219
220 fCerPhotEvt = (MSignalCam*)pList->FindCreateObj(AddSerialNumber("MSignalCam"));
221 if (!fCerPhotEvt)
222 return kFALSE;
223
224 fCalibConstCam = (MCalibConstCam*)pList->FindCreateObj(AddSerialNumber("MCalibConstCam"));
225 if (!fCalibConstCam)
226 return kFALSE;
227 }
228
229 fCalibrations = 0;
230 fQEs = 0;
231 if (fCalibrationMode>kNone)
232 {
233 fCalibrations = (MCalibrationChargeCam*)pList->FindObject(AddSerialNumber("MCalibrationChargeCam"));
234 if (!fCalibrations)
235 {
236 *fLog << err << AddSerialNumber("MCalibrationChargeCam") << " not found ... aborting." << endl;
237 return kFALSE;
238 }
239
240 fQEs = (MCalibrationQECam*)pList->FindObject(AddSerialNumber("MCalibrationQECam"));
241 if (!fQEs)
242 {
243 *fLog << err << AddSerialNumber("MCalibrationQECam") << " not found ... aborting." << endl;
244 return kFALSE;
245 }
246
247 }
248
249 if (fNamesPedestal.GetSize()>0 && fPedestalFlag==kNo)
250 {
251 *fLog << warn << "Pedestal list contains entries, but mode is set to kNo... setting to kEvent." << endl;
252 fPedestalFlag = kEvent;
253 }
254
255 if (fPedestalFlag)
256 {
257 if (fNamesPedestal.GetSize()==0)
258 {
259 *fLog << inf << "No container names specified... using default: MPedestalCam and MPedPhotCam." << endl;
260 AddPedestal();
261 }
262
263 fPedestalCams.Clear();
264 fPedPhotCams.Clear();
265
266 TIter Next(&fNamesPedestal);
267 TObject *o=0;
268 while ((o=Next()))
269 {
270 TObject *pedcam = pList->FindObject(AddSerialNumber(o->GetName()), "MPedestalCam");
271 if (!pedcam)
272 {
273 *fLog << err << AddSerialNumber(o->GetName()) << " [MPedestalCam] not found ... aborting" << endl;
274 return kFALSE;
275 }
276 TObject *pedphot = pList->FindCreateObj("MPedPhotCam", AddSerialNumber(o->GetTitle()));
277 if (!pedphot)
278 return kFALSE;
279
280 fPedestalCams.Add(pedcam);
281 fPedPhotCams.Add(pedphot);
282 }
283 }
284
285 switch (fSignalType)
286 {
287 case kPhe:
288 fRenormFactor = MCalibrationQEPix::gkDefaultAverageQE;
289 break;
290 case kPhot:
291 fRenormFactor = 1.;
292 break;
293 }
294
295 fCalibConsts.Reset();
296 fCalibFFactors.Reset();
297 fHiLoConv.Reset();
298 fHiLoConvErr.Reset();
299
300 return kTRUE;
301}
302
303// --------------------------------------------------------------------------
304//
305// The ReInit searches for the following input containers:
306//
307// - MGeomCam
308//
309// Check for validity of the selected calibration method, switch to a
310// different one in case of need
311//
312// Fill the MPedPhotCam container using the information from MPedestalCam,
313// MExtractedSignalCam and MCalibrationCam
314//
315Bool_t MCalibrateData::ReInit(MParList *pList)
316{
317 fGeomCam = (MGeomCam*)pList->FindObject(AddSerialNumber("MGeomCam"));
318 if (!fGeomCam)
319 {
320 *fLog << err << "No MGeomCam found... aborting." << endl;
321 return kFALSE;
322 }
323
324 // Sizes might have changed
325 if (fPedestalFlag)
326 {
327 TIter Next(&fPedestalCams);
328 MPedestalCam *cam=0;
329 while ((cam=(MPedestalCam*)Next()))
330 if ((Int_t)cam->GetSize() != fSignals->GetSize())
331 {
332 *fLog << err << "Size mismatch of " << cam->GetDescriptor() << " and MCalibrationCam... abort." << endl;
333 return kFALSE;
334 }
335 }
336
337 if(fCalibrationMode == kBlindPixel && !fQEs->IsBlindPixelMethodValid())
338 {
339 *fLog << warn << "Blind pixel calibration method not valid, switching to F-factor method" << endl;
340 fCalibrationMode = kFfactor;
341 }
342
343 if(fCalibrationMode == kPinDiode && !fQEs->IsPINDiodeMethodValid())
344 {
345 *fLog << warn << "PIN diode calibration method not valid, switching to F-factor method" << endl;
346 fCalibrationMode = kFfactor;
347 }
348
349 if(fCalibrationMode == kCombined && !fQEs->IsCombinedMethodValid())
350 {
351 *fLog << warn << "Combined calibration method not valid, switching to F-factor method" << endl;
352 fCalibrationMode = kFfactor;
353 }
354
355 //
356 // output information or warnings:
357 //
358 switch(fCalibrationMode)
359 {
360 case kBlindPixel:
361 break;
362 case kFfactor:
363 break;
364 case kPinDiode:
365 *fLog << err << "PIN Diode Calibration mode not yet available!" << endl;
366 return kFALSE;
367 break;
368 case kCombined:
369 *fLog << err << "Combined Calibration mode not yet available!" << endl;
370 return kFALSE;
371 break;
372 case kFlatCharge:
373 *fLog << warn << "WARNING - Flat-fielding charges - only for muon calibration!" << endl;
374 break;
375 case kDummy:
376 *fLog << warn << "WARNING - Dummy calibration, no calibration applied!" << endl;
377 break;
378 case kNone:
379 *fLog << warn << "WARNING - No calibration applied!" << endl;
380 break;
381 default:
382 *fLog << warn << "WARNING - Calibration mode value (" << fCalibrationMode << ") not known" << endl;
383 return kFALSE;
384 }
385
386 //
387 // output information or warnings:
388 //
389 switch(fSignalType)
390 {
391 case kPhe:
392 *fLog << warn << "WARNING - Renormalization to photo-electrons applied!" << endl;
393 break;
394 case kPhot:
395 break;
396 }
397
398 const Int_t npixels = fGeomCam->GetNumPixels();
399
400 if (fCalibrationMode > kNone)
401 {
402
403 if (fCalibrations->GetSize() != npixels)
404 {
405 *fLog << err << GetDescriptor()
406 << ": Size mismatch between MGeomCam and MCalibrationChargeCam ... abort!" << endl;
407 return kFALSE;
408 }
409
410 if (fBadPixels->GetSize() != npixels)
411 {
412 *fLog << err << GetDescriptor()
413 << ": Size mismatch between MGeomCam and MBadPixelsCam ... abort!" << endl;
414 return kFALSE;
415 }
416
417 if (fBadPixels->GetSize() != npixels)
418 {
419 *fLog << err << GetDescriptor()
420 << ": Size mismatch between MGeomCam and MBadPixelsCam ... abort!" << endl;
421 return kFALSE;
422 }
423 }
424
425 fCalibConsts .Set(npixels);
426 fCalibFFactors.Set(npixels);
427 fHiLoConv .Set(npixels);
428 fHiLoConvErr .Set(npixels);
429
430 if (!UpdateConversionFactors())
431 return kFALSE;
432
433 if (TestPedestalFlag(kRun))
434 Calibrate(kFALSE, kTRUE);
435
436 return kTRUE;
437}
438
439// --------------------------------------------------------------------------
440//
441// Update the conversion factors and F-Factors from MCalibrationCams into
442// the arrays. Later, the here pre-calcualted conversion factors get simply
443// copied from memory.
444//
445// This function can be called from outside in case that the MCalibrationCams
446// have been updated...
447//
448Bool_t MCalibrateData::UpdateConversionFactors( const MCalibrationChargeCam *updatecam)
449{
450
451 *fLog << inf << GetDescriptor()
452 << ": Updating Conversion Factors... " << endl;
453
454 fCalibConsts.Reset();
455 fCalibFFactors.Reset();
456 fHiLoConv.Reset();
457 fHiLoConvErr.Reset();
458
459 //
460 // For the moment, we use only a dummy zenith for the calibration:
461 //
462 const Float_t zenith = -1.;
463
464 UInt_t skip = 0;
465
466 for (UInt_t pixidx=0; pixidx<fGeomCam->GetNumPixels(); pixidx++)
467 {
468
469 Float_t hiloconv = 1.;
470 Float_t hiloconverr = 0.;
471 Float_t calibConv = 1.;
472 Float_t calibConvVar = 0.;
473 Float_t calibFFactor = 0.;
474
475 Float_t calibQE = 1.;
476 Float_t calibQEVar = 0.;
477
478 Float_t calibUpdate = 1.;
479
480 MCalibConstPix &cpix = (*fCalibConstCam)[pixidx];
481
482 if(fCalibrationMode!=kNone)
483 {
484 if ((*fBadPixels)[pixidx].IsUnsuitable(MBadPixelsPix::kUnsuitableRun))
485 {
486 skip++;
487 calibConv = -1.;
488 continue;
489 }
490
491 MCalibrationChargePix &pix = (MCalibrationChargePix&)(*fCalibrations)[pixidx];
492 MCalibrationChargePix &avpix = (MCalibrationChargePix&)fCalibrations->GetAverageArea(0);
493
494 hiloconv = pix.GetConversionHiLo ();
495 hiloconverr= pix.GetConversionHiLoErr();
496
497 calibConv = pix.GetMeanConvFADC2Phe();
498 calibConvVar = pix.GetMeanConvFADC2PheVar();
499 calibFFactor = pix.GetMeanFFactorFADC2Phot();
500
501 MCalibrationQEPix &qe = (MCalibrationQEPix&) (*fQEs)[pixidx];
502
503 if (updatecam)
504 {
505 MCalibrationChargePix &upix = (MCalibrationChargePix&)(*updatecam)[pixidx];
506 //
507 // Correct for the possible change in amplification of the individual pixels chain
508 //
509 const Float_t pixmean = upix.GetConvertedMean();
510 calibUpdate = (pixmean == 0.) ? 1. : pix.GetConvertedMean() / pixmean;
511 //
512 // Correct for global shifts in light emission
513 //
514 MCalibrationChargePix &ugpix = (MCalibrationChargePix&)updatecam->GetAverageArea(0);
515
516 const Float_t globmean = avpix.GetConvertedMean();
517 calibUpdate = (globmean == 0.) ? 1. : ugpix.GetConvertedMean() / globmean;
518
519 MBadPixelsPix &ubad = (MBadPixelsPix&) updatecam->GetAverageBadArea(0);
520 if (ubad.IsUncalibrated(MBadPixelsPix::kChargeIsPedestal))
521 {
522 *fLog << warn << GetDescriptor() << "Probably calibration pulses have been lost!!!!" << endl;
523 *fLog << warn << "Will not update calib. factors any more!!!!" << endl;
524 calibUpdate = 1.;
525 }
526 }
527
528 switch(fCalibrationMode)
529 {
530 case kFlatCharge:
531 {
532 calibConv = avpix.GetConvertedMean()
533 / (pix.GetConvertedMean() * fGeomCam->GetPixRatio(pixidx));
534 calibConvVar = (avpix.GetMeanRelVar() + pix.GetMeanRelVar()) * calibConv * calibConv;
535 if (pix.IsFFactorMethodValid())
536 {
537 const Float_t convmin1 = qe.GetQECascadesFFactor(zenith)/pix.GetMeanConvFADC2Phe();
538 if (convmin1 > 0)
539 calibFFactor *= TMath::Sqrt(convmin1);
540 else
541 calibFFactor = -1.;
542 }
543 break;
544 }
545 case kBlindPixel:
546 if (!qe.IsBlindPixelMethodValid())
547 {
548 skip++;
549 continue;
550 }
551 calibQE = qe.GetQECascadesBlindPixel ( zenith );
552 calibQEVar = qe.GetQECascadesBlindPixelVar( zenith );
553 break;
554
555 case kPinDiode:
556 if (!qe.IsPINDiodeMethodValid())
557 {
558 skip++;
559 continue;
560 }
561 calibQE = qe.GetQECascadesPINDiode ( zenith );
562 calibQEVar = qe.GetQECascadesPINDiodeVar( zenith );
563 break;
564
565 case kFfactor:
566 if (!pix.IsFFactorMethodValid())
567 {
568 skip++;
569 continue;
570 }
571 calibQE = qe.GetQECascadesFFactor ( zenith );
572 calibQEVar = qe.GetQECascadesFFactorVar( zenith );
573 break;
574
575 case kCombined:
576 if (!qe.IsCombinedMethodValid())
577 {
578 skip++;
579 continue;
580 }
581 calibQE = qe.GetQECascadesCombined ( zenith );
582 calibQEVar = qe.GetQECascadesCombinedVar( zenith );
583 break;
584
585 case kDummy:
586 hiloconv = 1.;
587 hiloconverr = 0.;
588 calibUpdate = 1.;
589 break;
590 } /* switch calibration mode */
591 } /* if(fCalibrationMode!=kNone) */
592 else
593 {
594 calibConv = 1./fGeomCam->GetPixRatio(pixidx);
595 }
596
597 calibConv /= calibQE;
598
599 if (calibConv != 0. && calibQE != 0.)
600 {
601 // Now doing:
602 calibConvVar = calibConvVar/(calibConv*calibConv) + calibQEVar/(calibQE*calibQE);
603 calibConvVar *= (calibConv*calibConv);
604 // The above two lines had been commented by TB and replaced by the following line
605 // (without notice to me!) but it is simply wrong!
606 // calibConvVar += calibQEVar*(calibConv*calibConv)/(calibQE*calibQE);
607 }
608
609 calibConv *= fRenormFactor * calibUpdate;
610 calibFFactor *= TMath::Sqrt(fRenormFactor);
611
612 fHiLoConv [pixidx] = hiloconv;
613 fHiLoConvErr [pixidx] = hiloconverr;
614 fCalibConsts [pixidx] = calibConv;
615 fCalibFFactors[pixidx] = calibFFactor;
616
617 if (calibConv < fCalibConvMinLimit || calibConv > fCalibConvMaxLimit)
618 {
619 (*fBadPixels)[pixidx].SetUnsuitable(MBadPixelsPix::kUnsuitableRun);
620 calibConv = -1.;
621 calibFFactor = -1.;
622 }
623 cpix.SetCalibConst(calibConv);
624 cpix.SetCalibFFactor(calibFFactor);
625
626 } /* for (Int_t pixidx=0; pixidx<fGeomCam->GetNumPixels(); pixidx++) */
627
628 if (skip>fGeomCam->GetNumPixels()*0.9)
629 {
630 *fLog << warn << GetDescriptor()
631 << ": WARNING - GetConversionFactor has skipped more than 90% of the pixels... abort." << endl;
632 return kFALSE;
633 }
634
635
636
637 // Print();
638
639 return kTRUE;
640}
641
642
643// --------------------------------------------------------------------------
644//
645// Apply the conversion factors and F-Factors from the arrays to the data.
646//
647// The flags 'data' and 'pedestal' decide whether the signal and/or the pedetals
648// shall be calibrated, respectively.
649//
650Int_t MCalibrateData::Calibrate(Bool_t data, Bool_t pedestal) const
651{
652 if (!data && !pedestal)
653 return kTRUE;
654
655 const UInt_t npix = fSignals->GetSize();
656 const Float_t slices = fSignals->GetNumUsedHiGainFADCSlices();
657 const Float_t sqrtslices = TMath::Sqrt(slices);
658
659 Int_t numsatlo=0;
660 Int_t numsathi=0;
661
662 for (UInt_t pixidx=0; pixidx<npix; pixidx++)
663 {
664
665 if (data)
666 {
667 const MExtractedSignalPix &sig = (*fSignals)[pixidx];
668
669 Float_t signal = 0.;
670 Float_t signalErr = 0.;
671
672 if (sig.IsLoGainUsed())
673 {
674 if (fHiLoConv[pixidx] < 0.5)
675 {
676 signal = sig.GetExtractedSignalHiGain()*1.5;
677 signalErr = sig.GetExtractedSignalHiGain()*0.5;
678 }
679 else
680 {
681 const Float_t siglo = sig.GetExtractedSignalLoGain();
682
683 if (siglo > 0.1) // low-gain signal has been extracted successfully
684 {
685 signal = siglo*fHiLoConv [pixidx];
686 signalErr = siglo*fHiLoConvErr[pixidx];
687 }
688 else // low-gain signal has not been extracted successfully, get a rough estimate from the high-gain
689 {
690 signal = sig.GetExtractedSignalHiGain()*1.5;
691 signalErr = sig.GetExtractedSignalHiGain()*0.5;
692 }
693 }
694 }
695 else
696 {
697 if (sig.GetExtractedSignalHiGain() <= 9999.)
698 signal = sig.GetExtractedSignalHiGain();
699 }
700
701 const Float_t nphot = signal * fCalibConsts [pixidx];
702 const Float_t nphotErr = TMath::Sqrt(TMath::Abs(nphot)) * fCalibFFactors[pixidx];
703
704 fCerPhotEvt->AddPixel(pixidx, nphot, nphotErr);
705
706 if (sig.GetNumHiGainSaturated() > 0)
707 numsathi++;
708
709 if (sig.GetNumLoGainSaturated() > 0)
710 numsatlo++;
711 } /* if (data) */
712
713
714 if (pedestal)
715 {
716 TIter NextPed(&fPedestalCams);
717 TIter NextPhot(&fPedPhotCams);
718
719 MPedestalCam *pedestal = 0;
720 MPedPhotCam *pedphot = 0;
721
722 const Float_t pedmeancalib = slices *fCalibConsts[pixidx];
723 const Float_t pedrmscalib = sqrtslices*fCalibConsts[pixidx];
724
725 while ((pedestal=(MPedestalCam*)NextPed()) &&
726 (pedphot =(MPedPhotCam*)NextPhot()))
727 {
728 // pedestals/(used FADC slices) in [number of photons]
729 const Float_t mean = (*pedestal)[pixidx].GetPedestal() *pedmeancalib;
730 const Float_t rms = (*pedestal)[pixidx].GetPedestalRms()*pedrmscalib;
731
732 (*pedphot)[pixidx].Set(mean, rms);
733 pedphot->SetReadyToSave();
734 }
735 } /* if (pedestal) */
736 }
737
738 if (data)
739 {
740 fCerPhotEvt->SetNumPixelsSaturated(numsathi, numsatlo);
741 fCerPhotEvt->SetReadyToSave();
742 }
743 return kTRUE;
744}
745
746// --------------------------------------------------------------------------
747//
748// Apply the calibration factors to the extracted signal according to the
749// selected calibration method
750//
751Int_t MCalibrateData::Process()
752{
753 return Calibrate(fCalibrationMode!=kSkip, TestPedestalFlag(kEvent));
754}
755
756// --------------------------------------------------------------------------
757//
758// Implementation of SavePrimitive. Used to write the call to a constructor
759// to a macro. In the original root implementation it is used to write
760// gui elements to a macro-file.
761//
762void MCalibrateData::StreamPrimitive(ofstream &out) const
763{
764 out << " " << ClassName() << " " << GetUniqueName() << "(\"";
765 out << "\"" << fName << "\", \"" << fTitle << "\");" << endl;
766
767 if (TestPedestalFlag(kEvent))
768 out << " " << GetUniqueName() << ".EnablePedestalType(MCalibrateData::kEvent)" << endl;
769 if (TestPedestalFlag(kRun))
770 out << " " << GetUniqueName() << ".EnablePedestalType(MCalibrateData::kRun)" << endl;
771
772 if (fCalibrationMode != kDefault)
773 {
774 out << " " << GetUniqueName() << ".SetCalibrationMode(MCalibrateData::";
775 switch (fCalibrationMode)
776 {
777 case kSkip: out << "kSkip"; break;
778 case kNone: out << "kNone"; break;
779 case kFlatCharge: out << "kFlatCharge"; break;
780 case kBlindPixel: out << "kBlindPixel"; break;
781 case kFfactor: out << "kFfactor"; break;
782 case kPinDiode: out << "kPinDiode"; break;
783 case kCombined: out << "kCombined"; break;
784 case kDummy: out << "kDummy"; break;
785 default: out << (int)fCalibrationMode; break;
786 }
787 out << ")" << endl;
788 }
789
790 TIter Next(&fNamesPedestal);
791 TObject *o=0;
792 while ((o=Next()))
793 {
794 out << " " << GetUniqueName() << ".AddPedestal(\"";
795 out << o->GetName() << "\", \"" << o->GetTitle() << "\");" << endl;
796 }
797}
798
799// --------------------------------------------------------------------------
800//
801// Read the setup from a TEnv, eg:
802// MJPedestal.MCalibrateDate.PedestalFlag: no,run,event
803// MJPedestal.MCalibrateDate.CalibrationMode: skip,none,flatcharge,blindpixel,ffactor,pindiode,combined,dummy,default
804//
805Int_t MCalibrateData::ReadEnv(const TEnv &env, TString prefix, Bool_t print)
806{
807 Bool_t rc = kFALSE;
808 if (IsEnvDefined(env, prefix, "PedestalFlag", print))
809 {
810 rc = kTRUE;
811 TString s = GetEnvValue(env, prefix, "PedestalFlag", "");
812 s.ToLower();
813 if (s.BeginsWith("no"))
814 SetPedestalFlag(kNo);
815 if (s.BeginsWith("run"))
816 SetPedestalFlag(kRun);
817 if (s.BeginsWith("event"))
818 SetPedestalFlag(kEvent);
819 }
820
821 if (IsEnvDefined(env, prefix, "CalibrationMode", print))
822 {
823 rc = kTRUE;
824 TString s = GetEnvValue(env, prefix, "CalibrationMode", "");
825 s.ToLower();
826 if (s.BeginsWith("skip"))
827 SetCalibrationMode(kSkip);
828 if (s.BeginsWith("none"))
829 SetCalibrationMode(kNone);
830 if (s.BeginsWith("flatcharge"))
831 SetCalibrationMode(kFlatCharge);
832 if (s.BeginsWith("blindpixel"))
833 SetCalibrationMode(kBlindPixel);
834 if (s.BeginsWith("ffactor"))
835 SetCalibrationMode(kFfactor);
836 if (s.BeginsWith("pindiode"))
837 SetCalibrationMode(kPinDiode);
838 if (s.BeginsWith("combined"))
839 SetCalibrationMode(kCombined);
840 if (s.BeginsWith("dummy"))
841 SetCalibrationMode(kDummy);
842 if (s.BeginsWith("default"))
843 SetCalibrationMode();
844 }
845
846 if (IsEnvDefined(env, prefix, "SignalType", print))
847 {
848 rc = kTRUE;
849 TString s = GetEnvValue(env, prefix, "SignalType", "");
850 s.ToLower();
851 if (s.BeginsWith("phot"))
852 SetSignalType(kPhot);
853 if (s.BeginsWith("phe"))
854 SetSignalType(kPhe);
855 if (s.BeginsWith("default"))
856 SetSignalType();
857 }
858
859 if (IsEnvDefined(env, prefix, "CalibConvMinLimit", print))
860 {
861 fCalibConvMinLimit = GetEnvValue(env, prefix, "CalibConvMinLimit", fCalibConvMinLimit);
862 rc = kTRUE;
863 }
864
865 if (IsEnvDefined(env, prefix, "CalibConvMaxLimit", print))
866 {
867 fCalibConvMaxLimit = GetEnvValue(env, prefix, "CalibConvMaxLimit", fCalibConvMaxLimit);
868 rc = kTRUE;
869 }
870
871 return rc;
872}
873
874void MCalibrateData::Print(Option_t *o) const
875{
876
877 *fLog << all << GetDescriptor() << ":" << endl;
878
879 for (UInt_t pixidx=0; pixidx<fGeomCam->GetNumPixels(); pixidx++)
880 {
881 *fLog << all
882 << Form("%s%3i","Pixel: ",pixidx)
883 << Form("%s%4.2f"," CalibConst: ",fCalibConsts[pixidx])
884 << Form("%s%4.2f"," F-Factor: ",fCalibFFactors[pixidx])
885 << Form("%s%4.2f"," HiLoConv: ",fHiLoConv[pixidx])
886 << endl;
887 }
888}
889
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