source: trunk/MagicSoft/Mars/mhcalib/MHCalibrationTestTimeCam.cc@ 5212

Last change on this file since 5212 was 5137, checked in by gaug, 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): Markus Gaug 02/2004 <mailto:markus@ifae.es>
19!
20! Copyright: MAGIC Software Development, 2000-2004
21!
22!
23\* ======================================================================== */
24/////////////////////////////////////////////////////////////////////////////
25//
26// MHCalibrationTestTimeCam
27//
28// Fills the calibrated signal from an MArrivalTime into
29// MHCalibrationTestTimePix for every:
30//
31// - Pixel, stored in the TObjArray's MHCalibrationCam::fHiGainArray
32// or MHCalibrationCam::fHiGainArray, respectively.
33//
34// - Average pixel per AREA index (e.g. inner and outer for the MAGIC camera),
35// stored in the TObjArray's MHCalibrationCam::fAverageHiGainAreas and
36// MHCalibrationCam::fAverageHiGainAreas
37//
38// - Average pixel per camera SECTOR (e.g. sectors 1-6 for the MAGIC camera),
39// stored in the TObjArray's MHCalibrationCam::fAverageHiGainSectors
40// and MHCalibrationCam::fAverageHiGainSectors
41//
42// The signals are filled into a histogram and an array, in order to perform
43// a Fourier analysis (see MHGausEvents). The signals are moreover averaged on an
44// event-by-event basis and written into the corresponding average pixels.
45//
46// The histograms are fitted to a Gaussian, mean and sigma with its errors
47// and the fit probability are extracted. If none of these values are NaN's and
48// if the probability is bigger than MHGausEvents::fProbLimit (default: 0.5%),
49// the fit is declared valid.
50// Otherwise, the fit is repeated within ranges of the previous mean
51// +- MHCalibrationPix::fPickupLimit (default: 5) sigma (see MHCalibrationPix::RepeatFit())
52// In case this does not make the fit valid, the histogram means and RMS's are
53// taken directly (see MHCalibrationPix::BypassFit()) and the following flags are set:
54// - MBadPixelsPix::SetUncalibrated( MBadPixelsPix::kHiGainNotFitted ) and
55// - MBadPixelsPix::SetUnsuitable( MBadPixelsPix::kUnreliableRun )
56//
57// Outliers of more than MHCalibrationPix::fPickupLimit (default: 5) sigmas
58// from the mean are counted as Pickup events (stored in MHCalibrationPix::fPickup)
59//
60// The class also fills arrays with the signal vs. event number, creates a fourier
61// spectrum (see MHGausEvents::CreateFourierSpectrum()) and investigates if the
62// projected fourier components follow an exponential distribution.
63// In case that the probability of the exponential fit is less than
64// MHGausEvents::fProbLimit (default: 0.5%), the following flags are set:
65// - MBadPixelsPix::SetUncalibrated( MBadPixelsPix::kHiGainOscillating ) and
66// - MBadPixelsPix::SetUnsuitable( MBadPixelsPix::kUnreliableRun )
67//
68// This same procedure is performed for the average pixels.
69//
70// The following results are written into an MCalibrationCam:
71//
72// - MCalibrationPix::SetMean()
73// - MCalibrationPix::SetMeanErr()
74// - MCalibrationPix::SetSigma()
75// - MCalibrationPix::SetSigmaErr()
76// - MCalibrationPix::SetProb()
77// - MCalibrationPix::SetNumPickup()
78//
79// For all averaged areas, the fitted sigma is multiplied with the square root of
80// the number involved pixels in order to be able to compare it to the average of
81// sigmas in the camera.
82//
83/////////////////////////////////////////////////////////////////////////////
84#include "MHCalibrationTestTimeCam.h"
85
86#include "MHCalibrationPix.h"
87
88#include "MLog.h"
89#include "MLogManip.h"
90
91#include "MParList.h"
92
93#include "MCalibrationCam.h"
94#include "MCalibrationPix.h"
95
96#include "MArrivalTime.h"
97
98#include "MGeomCam.h"
99#include "MGeomPix.h"
100
101#include "MBadPixelsCam.h"
102#include "MBadPixelsPix.h"
103
104#include <TOrdCollection.h>
105
106ClassImp(MHCalibrationTestTimeCam);
107
108using namespace std;
109
110const Int_t MHCalibrationTestTimeCam::fgNbins = 600;
111const Axis_t MHCalibrationTestTimeCam::fgFirst = -0.5;
112const Axis_t MHCalibrationTestTimeCam::fgLast = 29.5;
113const TString MHCalibrationTestTimeCam::gsHistName = "TestTime";
114const TString MHCalibrationTestTimeCam::gsHistTitle = "Calibrated Calibration Arrival Times";
115const TString MHCalibrationTestTimeCam::gsHistXTitle = "Arrival Time [FADC slices]";
116const TString MHCalibrationTestTimeCam::gsHistYTitle = "Nr. events";
117// --------------------------------------------------------------------------
118//
119// Default Constructor.
120//
121// Sets:
122// - fNbins to fgNbins
123// - fFirst to fgFirst
124// - fLast to fgLast
125//
126// - fHistName to gsHistName
127// - fHistTitle to gsHistTitle
128// - fHistXTitle to gsHistXTitle
129// - fHistYTitle to gsHistYTitle
130//
131MHCalibrationTestTimeCam::MHCalibrationTestTimeCam(const char *name, const char *title)
132{
133
134 fName = name ? name : "MHCalibrationTestTimeCam";
135 fTitle = title ? title : "Histogram class for testing the calibration of arrival times";
136
137 SetNbins(fgNbins);
138 SetFirst(fgFirst);
139 SetLast (fgLast );
140
141 SetHistName (gsHistName .Data());
142 SetHistTitle (gsHistTitle .Data());
143 SetHistXTitle(gsHistXTitle.Data());
144 SetHistYTitle(gsHistYTitle.Data());
145
146}
147
148// --------------------------------------------------------------------------
149//
150// Searches pointer to:
151// - MArrivalTime
152//
153// Calls:
154// - MHCalibrationCam::InitHiGainArrays()
155//
156// Sets:
157// - SetLoGain(kFALSE);
158//
159Bool_t MHCalibrationTestTimeCam::ReInitHists(MParList *pList)
160{
161
162 MArrivalTime *signal = (MArrivalTime*)pList->FindObject("MArrivalTime");
163 if (!signal)
164 {
165 *fLog << err << "MArrivalTime not found... abort." << endl;
166 return kFALSE;
167 }
168
169 const Int_t npixels = fGeom->GetNumPixels();
170 const Int_t nsectors = fGeom->GetNumSectors();
171 const Int_t nareas = fGeom->GetNumAreas();
172
173 InitHiGainArrays(npixels,nareas,nsectors);
174
175 SetLoGain(kFALSE);
176
177 return kTRUE;
178}
179
180
181// -------------------------------------------------------------------------------
182//
183// Retrieves pointer to MArrivalTime:
184//
185// Retrieves from MGeomCam:
186// - number of pixels
187// - number of pixel areas
188// - number of sectors
189//
190// Fills HiGain histograms (MHGausEvents::FillHistAndArray())
191// with:
192// - MArrivalTime::GetArrivalTime(pixid) - MArrivalTime::GetArrivalTime(1);
193// (i.e. the time difference between pixel i and pixel 1 (hardware number: 2) )
194//
195Bool_t MHCalibrationTestTimeCam::FillHists(const MParContainer *par, const Stat_t w)
196{
197
198 MArrivalTime *calibration = (MArrivalTime*)par;
199 if (!calibration)
200 {
201 gLog << err << "No argument in MHCalibrationRelTimeCam::Fill... abort." << endl;
202 return kFALSE;
203 }
204
205 const Int_t npixels = fGeom->GetNumPixels();
206 const Int_t nareas = fGeom->GetNumAreas();
207 const Int_t nsectors = fGeom->GetNumSectors();
208
209 TArrayF sumareahi (nareas);
210 TArrayF sumsectorhi(nsectors);
211 TArrayI numareahi (nareas);
212 TArrayI numsectorhi(nsectors);
213
214 for (Int_t i=0; i<npixels; i++)
215 {
216
217 MHCalibrationPix &histhi = (*this)[i];
218
219 if (histhi.IsExcluded())
220 continue;
221
222 const Float_t time = (*calibration)[i];
223 const Int_t aidx = (*fGeom)[i].GetAidx();
224 const Int_t sector = (*fGeom)[i].GetSector();
225
226 histhi.FillHistAndArray(time) ;
227 sumareahi [aidx] += time;
228 numareahi [aidx] ++;
229 sumsectorhi[sector] += time;
230 numsectorhi[sector] ++;
231 }
232
233 for (Int_t j=0; j<nareas; j++)
234 {
235 MHCalibrationPix &histhi = GetAverageHiGainArea(j);
236 histhi.FillHistAndArray(numareahi[j] == 0 ? 0. : sumareahi[j]/numareahi[j]);
237
238 }
239
240 for (Int_t j=0; j<nsectors; j++)
241 {
242 MHCalibrationPix &histhi = GetAverageHiGainSector(j);
243 histhi.FillHistAndArray(numsectorhi[j] == 0 ? 0. : sumsectorhi[j]/numsectorhi[j]);
244
245 }
246
247 return kTRUE;
248}
249
250// --------------------------------------------------------------------------
251//
252//
253Bool_t MHCalibrationTestTimeCam::FinalizeHists()
254{
255
256 for (Int_t i=0; i<fHiGainArray->GetSize(); i++)
257 {
258
259 MHCalibrationPix &hist = (*this)[i];
260
261 if (hist.IsExcluded())
262 continue;
263
264 if (hist.IsEmpty())
265 continue;
266
267 if (!hist.FitGaus())
268 if (!hist.RepeatFit())
269 {
270 hist.BypassFit();
271 }
272
273 hist.CreateFourierSpectrum();
274
275 }
276
277 for (Int_t j=0; j<fAverageHiGainAreas->GetSize(); j++)
278 {
279
280 MHCalibrationPix &hist = GetAverageHiGainArea(j);
281 if (hist.IsEmpty())
282 continue;
283
284 if (!hist.FitGaus())
285 if (!hist.RepeatFit())
286 {
287 hist.BypassFit();
288 }
289
290 hist.CreateFourierSpectrum();
291
292
293 }
294
295 for (Int_t j=0; j<fAverageHiGainSectors->GetSize(); j++)
296 {
297
298 MHCalibrationPix &hist = GetAverageHiGainSector(j);
299 if (hist.IsEmpty())
300 continue;
301
302 if (!hist.FitGaus())
303 if (!hist.RepeatFit())
304 {
305 hist.BypassFit();
306 }
307 hist.CreateFourierSpectrum();
308
309
310 }
311
312 return kTRUE;
313}
314
315// --------------------------------------------------------------------------
316//
317void MHCalibrationTestTimeCam::FinalizeBadPixels()
318{
319
320}
321
322// --------------------------------------------------------------------------
323//
324// The types are as follows:
325//
326// Fitted values:
327// ==============
328//
329// 0: Fitted Mean Time Calibration (MHGausEvents::GetMean())
330// 1: Error Mean Time Calibration (MHGausEvents::GetMeanErr())
331// 2: Sigma fitted Time Calibration (MHGausEvents::GetSigma())
332// 3: Error Sigma Time Calibration (MHGausEvents::GetSigmaErr())
333//
334// Useful variables derived from the fit results:
335// =============================================
336//
337// 4: Returned probability of Gauss fit (calls: MHGausEvents::GetProb())
338//
339// Localized defects:
340// ==================
341//
342// 5: Gaus fit not OK (calls: MHGausEvents::IsGausFitOK())
343// 6: Fourier spectrum not OK (calls: MHGausEvents::IsFourierSpectrumOK())
344//
345Bool_t MHCalibrationTestTimeCam::GetPixelContent(Double_t &val, Int_t idx, const MGeomCam &cam, Int_t type) const
346{
347
348 if (fHiGainArray->GetSize() <= idx)
349 return kFALSE;
350
351 const MHCalibrationPix &pix = (*this)[idx];
352
353 if (pix.IsExcluded())
354 return kFALSE;
355
356 switch (type)
357 {
358 case 0:
359 val = pix.GetMean();
360 break;
361 case 1:
362 val = pix.GetMeanErr();
363 break;
364 case 2:
365 val = pix.GetSigma();
366 break;
367 case 3:
368 val = pix.GetSigmaErr();
369 break;
370 case 4:
371 val = pix.GetProb();
372 break;
373 case 5:
374 if (!pix.IsGausFitOK())
375 val = 1.;
376 break;
377 case 6:
378 if (!pix.IsFourierSpectrumOK())
379 val = 1.;
380 break;
381 default:
382 return kFALSE;
383 }
384 return kTRUE;
385}
386
387// --------------------------------------------------------------------------
388//
389// Calls MHCalibrationPix::DrawClone() for pixel idx
390//
391void MHCalibrationTestTimeCam::DrawPixelContent(Int_t idx) const
392{
393 (*this)[idx].DrawClone();
394}
395
396
397//------------------------------------------------------------
398//
399// For all averaged areas, the fitted sigma is multiplied with the square root of
400// the number involved pixels
401//
402void MHCalibrationTestTimeCam::CalcAverageSigma()
403{
404
405 for (UInt_t j=0; j<fGeom->GetNumAreas(); j++)
406 {
407
408 MHCalibrationPix &hist = GetAverageHiGainArea(j);
409
410 const Float_t numsqr = TMath::Sqrt((Float_t)fAverageAreaNum[j]);
411 fAverageAreaSigma[j] = hist.GetSigma () * numsqr;
412 fAverageAreaSigmaVar[j] = hist.GetSigmaErr () * hist.GetSigmaErr() * numsqr;
413
414 fAverageAreaRelSigma [j] = fAverageAreaSigma[j] / hist.GetMean();
415 fAverageAreaRelSigmaVar[j] = fAverageAreaSigmaVar[j] / (fAverageAreaSigma[j]*fAverageAreaSigma[j]);
416 fAverageAreaRelSigmaVar[j] += hist.GetMeanErr()*hist.GetMeanErr()/hist.GetMean()/hist.GetMean();
417 fAverageAreaRelSigmaVar[j] *= fAverageAreaRelSigma[j];
418 }
419}
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