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75d8233f | 1 | /************************************************************************** |
2 | * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
3 | * * | |
4 | * Author: The ALICE Off-line Project. * | |
5 | * Contributors are mentioned in the code where appropriate. * | |
6 | * * | |
7 | * Permission to use, copy, modify and distribute this software and its * | |
8 | * documentation strictly for non-commercial purposes is hereby granted * | |
9 | * without fee, provided that the above copyright notice appears in all * | |
10 | * copies and that both the copyright notice and this permission notice * | |
11 | * appear in the supporting documentation. The authors make no claims * | |
12 | * about the suitability of this software for any purpose. It is * | |
13 | * provided "as is" without express or implied warranty. * | |
14 | **************************************************************************/ | |
15 | ||
75d8233f | 16 | /* $Id$ */ |
17 | ||
3cd27a08 | 18 | //////////////////////////////////////////////////////////////////////////////////////// |
19 | // // | |
20 | // Implementation of the TPC Central Electrode calibration // | |
21 | // // | |
22 | // Origin: Jens Wiechula, Marian Ivanov J.Wiechula@gsi.de, Marian.Ivanov@cern.ch // | |
23 | // // | |
24 | //////////////////////////////////////////////////////////////////////////////////////// | |
7fb602b1 | 25 | // |
26 | // | |
27 | // ************************************************************************************* | |
28 | // * Class Description * | |
29 | // ************************************************************************************* | |
30 | // | |
31 | /* BEGIN_HTML | |
32 | <h4>The AliTPCCalibCE class is used to get calibration data from the Central Electrode | |
33 | using laser runs.</h4> | |
34 | ||
35 | The information retrieved is | |
36 | <ul style="list-style-type: square;"> | |
37 | <li>Time arrival from the CE</li> | |
38 | <li>Signal width</li> | |
39 | <li>Signal sum</li> | |
40 | </ul> | |
41 | ||
42 | <h4>Overview:</h4> | |
43 | <ol style="list-style-type: upper-roman;"> | |
44 | <li><a href="#working">Working principle</a></li> | |
45 | <li><a href="#user">User interface for filling data</a></li> | |
46 | <li><a href="#info">Stored information</a></li> | |
47 | </ol> | |
48 | ||
49 | <h3><a name="working">I. Working principle</a></h3> | |
50 | ||
51 | <h4>Raw laser data is processed by calling one of the ProcessEvent(...) functions | |
52 | (see below). These in the end call the Update(...) function.</h4> | |
53 | ||
54 | <ul style="list-style-type: square;"> | |
55 | <li>the Update(...) function:<br /> | |
56 | In this function the array fPadSignal is filled with the adc signals between the specified range | |
57 | fFirstTimeBin and fLastTimeBin for the current pad. | |
58 | before going to the next pad the ProcessPad() function is called, which analyses the data for one pad | |
59 | stored in fPadSignal. | |
60 | </li> | |
61 | <ul style="list-style-type: square;"> | |
62 | <li>the ProcessPad() function:</li> | |
63 | <ol style="list-style-type: decimal;"> | |
64 | <li>Find Pedestal and Noise information</li> | |
65 | <ul style="list-style-type: square;"> | |
66 | <li>use database information which has to be set by calling<br /> | |
67 | SetPedestalDatabase(AliTPCCalPad *pedestalTPC, AliTPCCalPad *padNoiseTPC)</li> | |
68 | <li>if no information from the pedestal data base | |
69 | is available the informaion is calculated on the fly | |
70 | ( see FindPedestal() function )</li> | |
71 | </ul> | |
72 | <li>Find local maxima of the pad signal</li> | |
73 | <ul style="list-style-type: square;"> | |
74 | <li>maxima arise from the laser tracks, the CE and also periodic postpeaks after the CE signal have | |
75 | have been observed ( see FindLocalMaxima(...) )</li> | |
76 | </ul> | |
77 | <li>Find the CE signal information</li> | |
78 | <ul style="list-style-type: square;"> | |
79 | <li>to find the position of the CE signal the Tmean information from the previos event is used | |
80 | as the CE signal the local maximum closest to this Tmean is identified</li> | |
81 | <li>calculate mean = T0, RMS = signal width and Q sum in a range of -4+7 timebins around Q max position | |
82 | the Q sum is scaled by pad area (see FindPulserSignal(...) function)</li> | |
83 | </ul> | |
84 | <li>Fill a temprary array for the T0 information (GetPadTimesEvent(fCurrentSector,kTRUE)) (why see below)</li> | |
85 | <li>Fill the Q sum and RMS values in the histograms (GetHisto[RMS,Q](ROC,kTRUE))</li> | |
86 | </ol> | |
87 | </ul> | |
88 | </ul> | |
89 | ||
90 | <h4>At the end of each event the EndEvent() function is called</h4> | |
91 | ||
92 | <ul style="list-style-type: square;"> | |
93 | <li>the EndEvent() function:</li> | |
94 | <ul style="list-style-type: square;"> | |
95 | <li>calculate the mean T0 for side A and side C. Fill T0 histogram with Time0-<Time0 for side[A,C]> | |
96 | This is done to overcome syncronisation problems between the trigger and the fec clock.</li> | |
97 | <li>calculate Mean T for each ROC using the COG aroud the median of the LocalMaxima distribution in one sector</li> | |
98 | <li>calculate Mean Q</li> | |
99 | <li>calculate Global fit parameters for Pol1 and Pol2 fits</li> | |
100 | </ul> | |
101 | </ul> | |
102 | ||
103 | <h4>After accumulating the desired statistics the Analyse() function has to be called.</h4> | |
104 | <ul style="list-style-type: square;"> | |
105 | <li>the Analyse() function:</li> | |
106 | <ul style="list-style-type: square;"> | |
107 | <li>calculate the mean values of T0, RMS, Q for each pad, using | |
108 | the AliMathBase::GetCOG(...) function</li> | |
109 | <li>fill the calibration storage classes (AliTPCCalROC) for each ROC</li> | |
110 | (The calibration information is stored in the TObjArrays fCalRocArrayT0, fCalRocArrayRMS and fCalRocArrayQ</li> | |
111 | </ul> | |
112 | </ul> | |
113 | ||
114 | <h3><a name="user">II. User interface for filling data</a></h3> | |
115 | ||
116 | <h4>To Fill information one of the following functions can be used:</h4> | |
117 | ||
118 | <ul style="list-style-type: none;"> | |
119 | <li> Bool_t ProcessEvent(eventHeaderStruct *event);</li> | |
120 | <ul style="list-style-type: square;"> | |
121 | <li>process Date event</li> | |
122 | <li>use AliTPCRawReaderDate and call ProcessEvent(AliRawReader *rawReader)</li> | |
123 | </ul> | |
124 | <br /> | |
125 | ||
126 | <li> Bool_t ProcessEvent(AliRawReader *rawReader);</li> | |
127 | <ul style="list-style-type: square;"> | |
128 | <li>process AliRawReader event</li> | |
129 | <li>use AliTPCRawStream to loop over data and call ProcessEvent(AliTPCRawStream *rawStream)</li> | |
130 | </ul> | |
131 | <br /> | |
132 | ||
133 | <li> Bool_t ProcessEvent(AliTPCRawStream *rawStream);</li> | |
134 | <ul style="list-style-type: square;"> | |
135 | <li>process event from AliTPCRawStream</li> | |
136 | <li>call Update function for signal filling</li> | |
137 | </ul> | |
138 | <br /> | |
139 | ||
140 | <li> Int_t Update(const Int_t isector, const Int_t iRow, const Int_t | |
141 | iPad, const Int_t iTimeBin, const Float_t signal);</li> | |
142 | <ul style="list-style-type: square;"> | |
143 | <li>directly fill signal information (sector, row, pad, time bin, pad) | |
144 | to the reference histograms</li> | |
145 | </ul> | |
146 | </ul> | |
147 | ||
148 | <h4>It is also possible to merge two independently taken calibrations using the function</h4> | |
149 | ||
150 | <ul style="list-style-type: none;"> | |
151 | <li> void Merge(AliTPCCalibSignal *sig)</li> | |
152 | <ul style="list-style-type: square;"> | |
153 | <li>copy histograms in 'sig' if they do not exist in this instance</li> | |
154 | <li>Add histograms in 'sig' to the histograms in this instance if the allready exist</li> | |
155 | <li>After merging call Analyse again!</li> | |
156 | </ul> | |
157 | </ul> | |
158 | ||
159 | ||
160 | <h4>example: filling data using root raw data:</h4> | |
161 | <pre> | |
162 | void fillCE(Char_t *filename) | |
163 | { | |
164 | rawReader = new AliRawReaderRoot(fileName); | |
165 | if ( !rawReader ) return; | |
166 | AliTPCCalibCE *calib = new AliTPCCalibCE; | |
167 | while (rawReader->NextEvent()){ | |
168 | calib->ProcessEvent(rawReader); | |
169 | } | |
170 | calib->Analyse(); | |
171 | calib->DumpToFile("CEData.root"); | |
172 | delete rawReader; | |
173 | delete calib; | |
174 | } | |
175 | </pre> | |
176 | ||
177 | <h3><a name="info">III. What kind of information is stored and how to retrieve it</a></h4> | |
178 | ||
179 | <h4><a name="info:stored">III.1 Stored information</a></h4> | |
180 | <ul style="list-style-type: none;"> | |
181 | <li>Histograms:</li> | |
182 | <ul style="list-style-type: none;"> | |
183 | <li>For each ROC three TH2S histos 'Reference Histograms' (ROC channel vs. [Time0, signal width, Q sum]) | |
184 | is created when it is filled for the first time (GetHisto[T0,RMS,Q](ROC,kTRUE)). The histos are | |
185 | stored in the TObjArrays fHistoT0Array, fHistoRMSArray and fHistoQArray.</li> | |
186 | </ul> | |
187 | <br /> | |
188 | ||
189 | <li>Calibration Data:</li> | |
190 | <ul style="list-style-type: none;"> | |
191 | <li>For each ROC three types of calibration data (AliTPCCalROC) is stored: for the mean arrival Time, | |
192 | the signal width and the signal Sum. The AliTPCCalROC objects are stored in the TObjArrays | |
193 | fCalRocArrayT0, fCalRocArrayRMS , fCalRocArrayQ. The object for each roc is created the first time it | |
194 | is accessed (GetCalRoc[T0,RMS,Q](ROC,kTRUE));</li> | |
195 | </ul> | |
196 | <br /> | |
197 | ||
198 | <li>For each event the following information is stored:</li> | |
199 | ||
200 | <ul style="list-style-type: square;"> | |
201 | <li>event time ( TVectorD fVEventTime )</li> | |
202 | <li>event id ( TVectorD fVEventNumber )</li> | |
203 | <br /> | |
204 | <li>mean arrival time for each ROC ( TObjArray fTMeanArrayEvent )</li> | |
205 | <li>mean Q for each ROC ( TObjArray fQMeanArrayEvent )</li> | |
206 | <li>parameters of a plane fit for each ROC ( TObjArray fParamArrayEventPol1 )</li> | |
207 | <li>parameters of a 2D parabola fit for each ROC ( TObjArray fParamArrayEventPol2 )</li> | |
208 | </ul> | |
209 | </ul> | |
210 | ||
211 | <h4><a name="info:retrieve">III.2 Retrieving information</a></h4> | |
212 | <ul style="list-style-type: none;"> | |
213 | <li>Accessing the 'Reference Histograms' (Time0, signal width and Q sum information pad by pad):</li> | |
214 | <ul style="list-style-type: square;"> | |
215 | <li>TH2F *GetHistoT0(Int_t sector);</li> | |
216 | <li>TH2F *GetHistoRMS(Int_t sector);</li> | |
217 | <li>TH2F *GetHistoQ(Int_t sector);</li> | |
218 | </ul> | |
219 | <br /> | |
220 | ||
221 | <li>Accessing the calibration storage objects:</li> | |
222 | <ul style="list-style-type: square;"> | |
223 | <li>AliTPCCalROC *GetCalRocT0(Int_t sector); // for the Time0 values</li> | |
224 | <li>AliTPCCalROC *GetCalRocRMS(Int_t sector); // for the signal width values</li> | |
225 | <li>AliTPCCalROC *GetCalRocQ(Int_t sector); // for the Q sum values</li> | |
226 | </ul> | |
227 | <br /> | |
228 | ||
229 | <li>Accessin the event by event information:</li> | |
230 | <ul style="list-style-type: square;"> | |
231 | <li>The event by event information can be displayed using the</li> | |
232 | <li>MakeGraphTimeCE(Int_t sector, Int_t xVariable, Int_t fitType, Int_t fitParameter)</li> | |
233 | <li>which creates a graph from the specified variables</li> | |
234 | </ul> | |
235 | </ul> | |
236 | ||
237 | <h4>example for visualisation:</h4> | |
238 | <pre> | |
239 | //if the file "CEData.root" was created using the above example one could do the following: | |
240 | TFile fileCE("CEData.root") | |
241 | AliTPCCalibCE *ce = (AliTPCCalibCE*)fileCE->Get("AliTPCCalibCE"); | |
242 | ce->GetCalRocT0(0)->Draw("colz"); | |
243 | ce->GetCalRocRMS(0)->Draw("colz"); | |
244 | ||
245 | //or use the AliTPCCalPad functionality: | |
246 | AliTPCCalPad padT0(ped->GetCalPadT0()); | |
247 | AliTPCCalPad padSigWidth(ped->GetCalPadRMS()); | |
248 | padT0->MakeHisto2D()->Draw("colz"); //Draw A-Side Time0 Information | |
249 | padSigWidth->MakeHisto2D()->Draw("colz"); //Draw A-Side signal width Information | |
250 | ||
251 | //display event by event information: | |
252 | //Draw mean arrival time as a function of the event time for oroc sector A00 | |
253 | ce->MakeGraphTimeCE(36, 0, 2)->Draw("alp"); | |
254 | //Draw first derivative in local x from a plane fit as a function of the event time for oroc sector A00 | |
255 | ce->MakeGraphTimeCE(36, 0, 0, 1)->Draw("alp"); | |
256 | </pre> | |
257 | END_HTML */ | |
258 | ////////////////////////////////////////////////////////////////////////////////////// | |
259 | ||
260 | ||
3cd27a08 | 261 | //Root includes |
262 | #include <TObjArray.h> | |
263 | #include <TH1F.h> | |
264 | #include <TH2S.h> | |
265 | #include <TString.h> | |
266 | #include <TVectorF.h> | |
267 | #include <TVectorD.h> | |
268 | #include <TMatrixD.h> | |
269 | #include <TMath.h> | |
270 | #include <TGraph.h> | |
271 | #include <TString.h> | |
ac940b58 | 272 | #include <TMap.h> |
3cd27a08 | 273 | #include <TDirectory.h> |
274 | #include <TSystem.h> | |
275 | #include <TFile.h> | |
276 | ||
277 | //AliRoot includes | |
4c6d06dc | 278 | #include "AliLog.h" |
3cd27a08 | 279 | #include "AliRawReader.h" |
280 | #include "AliRawReaderRoot.h" | |
281 | #include "AliRawReaderDate.h" | |
282 | #include "AliRawEventHeaderBase.h" | |
283 | #include "AliTPCRawStream.h" | |
08205ed7 | 284 | #include "AliTPCRawStreamFast.h" |
3cd27a08 | 285 | #include "AliTPCcalibDB.h" |
286 | #include "AliTPCCalROC.h" | |
287 | #include "AliTPCCalPad.h" | |
288 | #include "AliTPCROC.h" | |
289 | #include "AliTPCParam.h" | |
290 | #include "AliTPCCalibCE.h" | |
291 | #include "AliMathBase.h" | |
292 | #include "TTreeStream.h" | |
293 | ||
294 | //date | |
295 | #include "event.h" | |
296 | ClassImp(AliTPCCalibCE) | |
297 | ||
298 | ||
7fb602b1 | 299 | AliTPCCalibCE::AliTPCCalibCE() : |
880c3382 | 300 | AliTPCCalibRawBase(), |
301 | fNbinsT0(200), | |
302 | fXminT0(-5), | |
303 | fXmaxT0(5), | |
304 | fNbinsQ(200), | |
305 | fXminQ(1), | |
306 | fXmaxQ(40), | |
307 | fNbinsRMS(100), | |
308 | fXminRMS(0.1), | |
309 | fXmaxRMS(5.1), | |
310 | fPeakDetMinus(2), | |
311 | fPeakDetPlus(3), | |
312 | fPeakIntMinus(2), | |
313 | fPeakIntPlus(2), | |
314 | fNoiseThresholdMax(5.), | |
315 | fNoiseThresholdSum(8.), | |
316 | fIsZeroSuppressed(kFALSE), | |
317 | fLastSector(-1), | |
318 | fSecRejectRatio(.4), | |
319 | fParam(new AliTPCParam), | |
320 | fPedestalTPC(0x0), | |
321 | fPadNoiseTPC(0x0), | |
322 | fPedestalROC(0x0), | |
323 | fPadNoiseROC(0x0), | |
324 | fCalRocArrayT0(72), | |
325 | fCalRocArrayT0Err(72), | |
326 | fCalRocArrayQ(72), | |
327 | fCalRocArrayRMS(72), | |
328 | fCalRocArrayOutliers(72), | |
329 | fHistoQArray(72), | |
330 | fHistoT0Array(72), | |
331 | fHistoRMSArray(72), | |
332 | fMeanT0rms(0), | |
333 | fMeanQrms(0), | |
334 | fMeanRMSrms(0), | |
335 | fHistoTmean(72), | |
336 | fParamArrayEventPol1(72), | |
337 | fParamArrayEventPol2(72), | |
338 | fTMeanArrayEvent(72), | |
339 | fQMeanArrayEvent(72), | |
340 | fVEventTime(1000), | |
341 | fVEventNumber(1000), | |
342 | fVTime0SideA(1000), | |
343 | fVTime0SideC(1000), | |
344 | fTimeStamp(0), | |
345 | fEventId(-1), | |
346 | fRunNumber(-1), | |
347 | fOldRunNumber(-1), | |
348 | fPadTimesArrayEvent(72), | |
349 | fPadQArrayEvent(72), | |
350 | fPadRMSArrayEvent(72), | |
351 | fPadPedestalArrayEvent(72), | |
352 | fCurrentChannel(-1), | |
353 | fCurrentSector(-1), | |
354 | fCurrentRow(-1), | |
355 | fMaxPadSignal(-1), | |
356 | fMaxTimeBin(-1), | |
357 | fPadSignal(1024), | |
358 | fPadPedestal(0), | |
359 | fPadNoise(0), | |
360 | fVTime0Offset(72), | |
361 | fVTime0OffsetCounter(72), | |
362 | fVMeanQ(72), | |
363 | fVMeanQCounter(72), | |
364 | fCurrentCETimeRef(0) | |
75d8233f | 365 | { |
880c3382 | 366 | // |
367 | // AliTPCSignal default constructor | |
368 | // | |
369 | SetNameTitle("AliTPCCalibCE","AliTPCCalibCE"); | |
370 | fFirstTimeBin=650; | |
371 | fLastTimeBin=1000; | |
372 | fParam->Update(); | |
75d8233f | 373 | } |
374 | //_____________________________________________________________________ | |
375 | AliTPCCalibCE::AliTPCCalibCE(const AliTPCCalibCE &sig) : | |
880c3382 | 376 | AliTPCCalibRawBase(sig), |
377 | fNbinsT0(sig.fNbinsT0), | |
378 | fXminT0(sig.fXminT0), | |
379 | fXmaxT0(sig.fXmaxT0), | |
380 | fNbinsQ(sig.fNbinsQ), | |
381 | fXminQ(sig.fXminQ), | |
382 | fXmaxQ(sig.fXmaxQ), | |
383 | fNbinsRMS(sig.fNbinsRMS), | |
384 | fXminRMS(sig.fXminRMS), | |
385 | fXmaxRMS(sig.fXmaxRMS), | |
386 | fPeakDetMinus(sig.fPeakDetMinus), | |
387 | fPeakDetPlus(sig.fPeakDetPlus), | |
388 | fPeakIntMinus(sig.fPeakIntMinus), | |
389 | fPeakIntPlus(sig.fPeakIntPlus), | |
390 | fNoiseThresholdMax(sig.fNoiseThresholdMax), | |
391 | fNoiseThresholdSum(sig.fNoiseThresholdSum), | |
392 | fIsZeroSuppressed(sig.fIsZeroSuppressed), | |
393 | fLastSector(-1), | |
394 | fSecRejectRatio(.4), | |
395 | fParam(new AliTPCParam), | |
396 | fPedestalTPC(0x0), | |
397 | fPadNoiseTPC(0x0), | |
398 | fPedestalROC(0x0), | |
399 | fPadNoiseROC(0x0), | |
400 | fCalRocArrayT0(72), | |
401 | fCalRocArrayT0Err(72), | |
402 | fCalRocArrayQ(72), | |
403 | fCalRocArrayRMS(72), | |
404 | fCalRocArrayOutliers(72), | |
405 | fHistoQArray(72), | |
406 | fHistoT0Array(72), | |
407 | fHistoRMSArray(72), | |
408 | fMeanT0rms(sig.fMeanT0rms), | |
409 | fMeanQrms(sig.fMeanQrms), | |
410 | fMeanRMSrms(sig.fMeanRMSrms), | |
411 | fHistoTmean(72), | |
412 | fParamArrayEventPol1(72), | |
413 | fParamArrayEventPol2(72), | |
414 | fTMeanArrayEvent(72), | |
415 | fQMeanArrayEvent(72), | |
416 | fVEventTime(sig.fVEventTime), | |
417 | fVEventNumber(sig.fVEventNumber), | |
418 | fVTime0SideA(sig.fVTime0SideA), | |
419 | fVTime0SideC(sig.fVTime0SideC), | |
420 | fTimeStamp(0), | |
421 | fEventId(-1), | |
422 | fRunNumber(-1), | |
423 | fOldRunNumber(-1), | |
424 | fPadTimesArrayEvent(72), | |
425 | fPadQArrayEvent(72), | |
426 | fPadRMSArrayEvent(72), | |
427 | fPadPedestalArrayEvent(72), | |
428 | fCurrentChannel(-1), | |
429 | fCurrentSector(-1), | |
430 | fCurrentRow(-1), | |
431 | fMaxPadSignal(-1), | |
432 | fMaxTimeBin(-1), | |
433 | fPadSignal(1024), | |
434 | fPadPedestal(0), | |
435 | fPadNoise(0), | |
436 | fVTime0Offset(72), | |
437 | fVTime0OffsetCounter(72), | |
438 | fVMeanQ(72), | |
439 | fVMeanQCounter(72), | |
440 | fCurrentCETimeRef(0) | |
75d8233f | 441 | { |
ac940b58 | 442 | // |
880c3382 | 443 | // AliTPCSignal copy constructor |
ac940b58 | 444 | // |
75d8233f | 445 | |
ac940b58 | 446 | for (Int_t iSec = 0; iSec < 72; ++iSec){ |
447 | const AliTPCCalROC *calQ = (AliTPCCalROC*)sig.fCalRocArrayQ.UncheckedAt(iSec); | |
448 | const AliTPCCalROC *calT0 = (AliTPCCalROC*)sig.fCalRocArrayT0.UncheckedAt(iSec); | |
449 | const AliTPCCalROC *calRMS = (AliTPCCalROC*)sig.fCalRocArrayRMS.UncheckedAt(iSec); | |
450 | const AliTPCCalROC *calOut = (AliTPCCalROC*)sig.fCalRocArrayOutliers.UncheckedAt(iSec); | |
75d8233f | 451 | |
ac940b58 | 452 | const TH2S *hQ = (TH2S*)sig.fHistoQArray.UncheckedAt(iSec); |
453 | const TH2S *hT0 = (TH2S*)sig.fHistoT0Array.UncheckedAt(iSec); | |
454 | const TH2S *hRMS = (TH2S*)sig.fHistoRMSArray.UncheckedAt(iSec); | |
75d8233f | 455 | |
ac940b58 | 456 | if ( calQ != 0x0 ) fCalRocArrayQ.AddAt(new AliTPCCalROC(*calQ), iSec); |
457 | if ( calT0 != 0x0 ) fCalRocArrayT0.AddAt(new AliTPCCalROC(*calT0), iSec); | |
458 | if ( calRMS != 0x0 ) fCalRocArrayRMS.AddAt(new AliTPCCalROC(*calRMS), iSec); | |
459 | if ( calOut != 0x0 ) fCalRocArrayOutliers.AddAt(new AliTPCCalROC(*calOut), iSec); | |
75d8233f | 460 | |
ac940b58 | 461 | if ( hQ != 0x0 ){ |
ac940b58 | 462 | TH2S *hNew = new TH2S(*hQ); |
463 | hNew->SetDirectory(0); | |
464 | fHistoQArray.AddAt(hNew,iSec); | |
ac940b58 | 465 | } |
466 | if ( hT0 != 0x0 ){ | |
ac940b58 | 467 | TH2S *hNew = new TH2S(*hT0); |
468 | hNew->SetDirectory(0); | |
469 | fHistoT0Array.AddAt(hNew,iSec); | |
ac940b58 | 470 | } |
471 | if ( hRMS != 0x0 ){ | |
ac940b58 | 472 | TH2S *hNew = new TH2S(*hRMS); |
473 | hNew->SetDirectory(0); | |
474 | fHistoRMSArray.AddAt(hNew,iSec); | |
75d8233f | 475 | } |
ac940b58 | 476 | } |
75d8233f | 477 | |
880c3382 | 478 | //copy fit parameters event by event |
ac940b58 | 479 | TObjArray *arr=0x0; |
480 | for (Int_t iSec=0; iSec<72; ++iSec){ | |
481 | arr = (TObjArray*)sig.fParamArrayEventPol1.UncheckedAt(iSec); | |
482 | if ( arr ){ | |
483 | TObjArray *arrEvents = new TObjArray(arr->GetSize()); | |
484 | fParamArrayEventPol1.AddAt(arrEvents, iSec); | |
485 | for (Int_t iEvent=0; iEvent<arr->GetSize(); ++iEvent) | |
486 | if ( TVectorD *vec=(TVectorD*)arr->UncheckedAt(iEvent) ) | |
487 | arrEvents->AddAt(new TVectorD(*vec),iEvent); | |
488 | } | |
7fb602b1 | 489 | |
ac940b58 | 490 | arr = (TObjArray*)sig.fParamArrayEventPol2.UncheckedAt(iSec); |
491 | if ( arr ){ | |
492 | TObjArray *arrEvents = new TObjArray(arr->GetSize()); | |
493 | fParamArrayEventPol2.AddAt(arrEvents, iSec); | |
494 | for (Int_t iEvent=0; iEvent<arr->GetSize(); ++iEvent) | |
495 | if ( TVectorD *vec=(TVectorD*)arr->UncheckedAt(iEvent) ) | |
496 | arrEvents->AddAt(new TVectorD(*vec),iEvent); | |
7fb602b1 | 497 | } |
498 | ||
ac940b58 | 499 | TVectorF *vMeanTime = (TVectorF*)sig.fTMeanArrayEvent.UncheckedAt(iSec); |
500 | TVectorF *vMeanQ = (TVectorF*)sig.fQMeanArrayEvent.UncheckedAt(iSec); | |
501 | if ( vMeanTime ) | |
502 | fTMeanArrayEvent.AddAt(new TVectorF(*vMeanTime), iSec); | |
503 | if ( vMeanQ ) | |
504 | fQMeanArrayEvent.AddAt(new TVectorF(*vMeanQ), iSec); | |
505 | } | |
506 | ||
7fb602b1 | 507 | |
ac940b58 | 508 | fVEventTime.ResizeTo(sig.fVEventTime); |
509 | fVEventNumber.ResizeTo(sig.fVEventNumber); | |
510 | fVEventTime.SetElements(sig.fVEventTime.GetMatrixArray()); | |
511 | fVEventNumber.SetElements(sig.fVEventNumber.GetMatrixArray()); | |
7fb602b1 | 512 | |
ac940b58 | 513 | fParam->Update(); |
75d8233f | 514 | } |
ac940b58 | 515 | //_____________________________________________________________________ |
516 | AliTPCCalibCE::AliTPCCalibCE(const TMap *config) : | |
880c3382 | 517 | AliTPCCalibRawBase(), |
ac940b58 | 518 | fNbinsT0(200), |
519 | fXminT0(-5), | |
520 | fXmaxT0(5), | |
521 | fNbinsQ(200), | |
522 | fXminQ(1), | |
523 | fXmaxQ(40), | |
524 | fNbinsRMS(100), | |
525 | fXminRMS(0.1), | |
526 | fXmaxRMS(5.1), | |
880c3382 | 527 | fPeakDetMinus(2), |
528 | fPeakDetPlus(3), | |
529 | fPeakIntMinus(2), | |
530 | fPeakIntPlus(2), | |
ac940b58 | 531 | fNoiseThresholdMax(5.), |
532 | fNoiseThresholdSum(8.), | |
533 | fIsZeroSuppressed(kFALSE), | |
534 | fLastSector(-1), | |
535 | fSecRejectRatio(.4), | |
ac940b58 | 536 | fParam(new AliTPCParam), |
537 | fPedestalTPC(0x0), | |
538 | fPadNoiseTPC(0x0), | |
539 | fPedestalROC(0x0), | |
540 | fPadNoiseROC(0x0), | |
541 | fCalRocArrayT0(72), | |
542 | fCalRocArrayT0Err(72), | |
543 | fCalRocArrayQ(72), | |
544 | fCalRocArrayRMS(72), | |
545 | fCalRocArrayOutliers(72), | |
546 | fHistoQArray(72), | |
547 | fHistoT0Array(72), | |
548 | fHistoRMSArray(72), | |
549 | fMeanT0rms(0), | |
550 | fMeanQrms(0), | |
551 | fMeanRMSrms(0), | |
552 | fHistoTmean(72), | |
553 | fParamArrayEventPol1(72), | |
554 | fParamArrayEventPol2(72), | |
555 | fTMeanArrayEvent(72), | |
556 | fQMeanArrayEvent(72), | |
880c3382 | 557 | fVEventTime(1000), |
558 | fVEventNumber(1000), | |
559 | fVTime0SideA(1000), | |
560 | fVTime0SideC(1000), | |
ac940b58 | 561 | fTimeStamp(0), |
562 | fEventId(-1), | |
563 | fRunNumber(-1), | |
564 | fOldRunNumber(-1), | |
565 | fPadTimesArrayEvent(72), | |
566 | fPadQArrayEvent(72), | |
567 | fPadRMSArrayEvent(72), | |
568 | fPadPedestalArrayEvent(72), | |
569 | fCurrentChannel(-1), | |
570 | fCurrentSector(-1), | |
571 | fCurrentRow(-1), | |
572 | fMaxPadSignal(-1), | |
573 | fMaxTimeBin(-1), | |
574 | fPadSignal(1024), | |
575 | fPadPedestal(0), | |
576 | fPadNoise(0), | |
577 | fVTime0Offset(72), | |
578 | fVTime0OffsetCounter(72), | |
579 | fVMeanQ(72), | |
580 | fVMeanQCounter(72), | |
880c3382 | 581 | fCurrentCETimeRef(0) |
ac940b58 | 582 | { |
583 | // | |
584 | // constructor which uses a tmap as input to set some specific parameters | |
585 | // | |
880c3382 | 586 | SetNameTitle("AliTPCCalibCE","AliTPCCalibCE"); |
587 | fFirstTimeBin=650; | |
588 | fLastTimeBin=1000; | |
ac940b58 | 589 | if (config->GetValue("FirstTimeBin")) fFirstTimeBin = ((TObjString*)config->GetValue("FirstTimeBin"))->GetString().Atoi(); |
590 | if (config->GetValue("LastTimeBin")) fLastTimeBin = ((TObjString*)config->GetValue("LastTimeBin"))->GetString().Atoi(); | |
591 | if (config->GetValue("NbinsT0")) fNbinsT0 = ((TObjString*)config->GetValue("NbinsT0"))->GetString().Atoi(); | |
592 | if (config->GetValue("XminT0")) fXminT0 = ((TObjString*)config->GetValue("XminT0"))->GetString().Atof(); | |
593 | if (config->GetValue("XmaxT0")) fXmaxT0 = ((TObjString*)config->GetValue("XmaxT0"))->GetString().Atof(); | |
594 | if (config->GetValue("NbinsQ")) fNbinsQ = ((TObjString*)config->GetValue("NbinsQ"))->GetString().Atoi(); | |
595 | if (config->GetValue("XminQ")) fXminQ = ((TObjString*)config->GetValue("XminQ"))->GetString().Atof(); | |
596 | if (config->GetValue("XmaxQ")) fXmaxQ = ((TObjString*)config->GetValue("XmaxQ"))->GetString().Atof(); | |
597 | if (config->GetValue("NbinsRMS")) fNbinsRMS = ((TObjString*)config->GetValue("NbinsRMS"))->GetString().Atoi(); | |
598 | if (config->GetValue("XminRMS")) fXminRMS = ((TObjString*)config->GetValue("XminRMS"))->GetString().Atof(); | |
599 | if (config->GetValue("XmaxRMS")) fXmaxRMS = ((TObjString*)config->GetValue("XmaxRMS"))->GetString().Atof(); | |
880c3382 | 600 | if (config->GetValue("PeakDetMinus")) fPeakDetMinus = ((TObjString*)config->GetValue("PeakDetMinus"))->GetString().Atoi(); |
601 | if (config->GetValue("PeakDetPlus")) fPeakDetPlus = ((TObjString*)config->GetValue("PeakDetPlus"))->GetString().Atoi(); | |
602 | if (config->GetValue("PeakIntMinus")) fPeakIntMinus = ((TObjString*)config->GetValue("PeakIntMinus"))->GetString().Atoi(); | |
603 | if (config->GetValue("PeakIntPlus")) fPeakIntPlus = ((TObjString*)config->GetValue("PeakIntPlus"))->GetString().Atoi(); | |
ac940b58 | 604 | if (config->GetValue("NoiseThresholdMax")) fNoiseThresholdMax = ((TObjString*)config->GetValue("NoiseThresholdMax"))->GetString().Atof(); |
605 | if (config->GetValue("NoiseThresholdSum")) fNoiseThresholdSum = ((TObjString*)config->GetValue("NoiseThresholdSum"))->GetString().Atof(); | |
606 | if (config->GetValue("IsZeroSuppressed")) fIsZeroSuppressed = (Bool_t)((TObjString*)config->GetValue("IsZeroSuppressed"))->GetString().Atoi(); | |
880c3382 | 607 | if (config->GetValue("UseL1Phase")) fUseL1Phase = (Bool_t)((TObjString*)config->GetValue("UseL1Phase"))->GetString().Atoi(); |
ac940b58 | 608 | if (config->GetValue("SecRejectRatio")) fSecRejectRatio = ((TObjString*)config->GetValue("SecRejectRatio"))->GetString().Atof(); |
609 | ||
610 | fParam->Update(); | |
611 | } | |
612 | ||
75d8233f | 613 | //_____________________________________________________________________ |
614 | AliTPCCalibCE& AliTPCCalibCE::operator = (const AliTPCCalibCE &source) | |
615 | { | |
616 | // | |
617 | // assignment operator | |
618 | // | |
619 | if (&source == this) return *this; | |
620 | new (this) AliTPCCalibCE(source); | |
621 | ||
622 | return *this; | |
623 | } | |
624 | //_____________________________________________________________________ | |
625 | AliTPCCalibCE::~AliTPCCalibCE() | |
626 | { | |
627 | // | |
628 | // destructor | |
629 | // | |
630 | ||
631 | fCalRocArrayT0.Delete(); | |
ef7f7670 | 632 | fCalRocArrayT0Err.Delete(); |
75d8233f | 633 | fCalRocArrayQ.Delete(); |
634 | fCalRocArrayRMS.Delete(); | |
7fb602b1 | 635 | fCalRocArrayOutliers.Delete(); |
75d8233f | 636 | |
637 | fHistoQArray.Delete(); | |
638 | fHistoT0Array.Delete(); | |
639 | fHistoRMSArray.Delete(); | |
640 | ||
7fb602b1 | 641 | fHistoTmean.Delete(); |
642 | ||
643 | fParamArrayEventPol1.Delete(); | |
644 | fParamArrayEventPol2.Delete(); | |
645 | fTMeanArrayEvent.Delete(); | |
646 | fQMeanArrayEvent.Delete(); | |
647 | ||
75d8233f | 648 | fPadTimesArrayEvent.Delete(); |
649 | fPadQArrayEvent.Delete(); | |
650 | fPadRMSArrayEvent.Delete(); | |
651 | fPadPedestalArrayEvent.Delete(); | |
652 | ||
75d8233f | 653 | // if ( fHTime0 ) delete fHTime0; |
75d8233f | 654 | delete fParam; |
655 | } | |
656 | //_____________________________________________________________________ | |
7fb602b1 | 657 | Int_t AliTPCCalibCE::Update(const Int_t icsector, |
75d8233f | 658 | const Int_t icRow, |
659 | const Int_t icPad, | |
660 | const Int_t icTimeBin, | |
661 | const Float_t csignal) | |
662 | { | |
ac940b58 | 663 | // |
664 | // Signal filling methode on the fly pedestal and Time offset correction if necessary. | |
665 | // no extra analysis necessary. Assumes knowledge of the signal shape! | |
666 | // assumes that it is looped over consecutive time bins of one pad | |
667 | // | |
4c6d06dc | 668 | |
ac940b58 | 669 | //temp |
4c6d06dc | 670 | |
b401648b | 671 | if (icRow<0) return 0; |
672 | if (icPad<0) return 0; | |
673 | if (icTimeBin<0) return 0; | |
ac940b58 | 674 | if ( (icTimeBin>fLastTimeBin) || (icTimeBin<fFirstTimeBin) ) return 0; |
75d8233f | 675 | |
ac940b58 | 676 | Int_t iChannel = fROC->GetRowIndexes(icsector)[icRow]+icPad; // global pad position in sector |
75d8233f | 677 | |
ac940b58 | 678 | //init first pad and sector in this event |
679 | if ( fCurrentChannel == -1 ) { | |
680 | fLastSector=-1; | |
681 | fCurrentChannel = iChannel; | |
682 | fCurrentSector = icsector; | |
683 | fCurrentRow = icRow; | |
684 | } | |
75d8233f | 685 | |
ac940b58 | 686 | //process last pad if we change to a new one |
687 | if ( iChannel != fCurrentChannel ){ | |
688 | ProcessPad(); | |
689 | fLastSector=fCurrentSector; | |
690 | fCurrentChannel = iChannel; | |
691 | fCurrentSector = icsector; | |
692 | fCurrentRow = icRow; | |
693 | } | |
75d8233f | 694 | |
ac940b58 | 695 | //fill signals for current pad |
696 | fPadSignal.GetMatrixArray()[icTimeBin]=csignal; | |
697 | if ( csignal > fMaxPadSignal ){ | |
698 | fMaxPadSignal = csignal; | |
699 | fMaxTimeBin = icTimeBin; | |
700 | } | |
701 | return 0; | |
75d8233f | 702 | } |
703 | //_____________________________________________________________________ | |
704 | void AliTPCCalibCE::FindPedestal(Float_t part) | |
705 | { | |
ac940b58 | 706 | // |
75d8233f | 707 | // find pedestal and noise for the current pad. Use either database or |
708 | // truncated mean with part*100% | |
ac940b58 | 709 | // |
710 | Bool_t noPedestal = kTRUE; | |
7fb602b1 | 711 | |
712 | //use pedestal database if set | |
ac940b58 | 713 | if (fPedestalTPC&&fPadNoiseTPC){ |
75d8233f | 714 | //only load new pedestals if the sector has changed |
ac940b58 | 715 | if ( fCurrentSector!=fLastSector ){ |
716 | fPedestalROC = fPedestalTPC->GetCalROC(fCurrentSector); | |
717 | fPadNoiseROC = fPadNoiseTPC->GetCalROC(fCurrentSector); | |
718 | } | |
75d8233f | 719 | |
ac940b58 | 720 | if ( fPedestalROC&&fPadNoiseROC ){ |
721 | fPadPedestal = fPedestalROC->GetValue(fCurrentChannel)*(Float_t)(!fIsZeroSuppressed); | |
722 | fPadNoise = fPadNoiseROC->GetValue(fCurrentChannel); | |
723 | noPedestal = kFALSE; | |
75d8233f | 724 | } |
725 | ||
ac940b58 | 726 | } |
727 | ||
75d8233f | 728 | //if we are not running with pedestal database, or for the current sector there is no information |
729 | //available, calculate the pedestal and noise on the fly | |
ac940b58 | 730 | if ( noPedestal ) { |
731 | fPadPedestal = 0; | |
732 | fPadNoise = 0; | |
733 | if ( fIsZeroSuppressed ) return; | |
734 | const Int_t kPedMax = 100; //maximum pedestal value | |
735 | Float_t max = 0; | |
736 | Float_t maxPos = 0; | |
737 | Int_t median = -1; | |
738 | Int_t count0 = 0; | |
739 | Int_t count1 = 0; | |
740 | // | |
741 | Float_t padSignal=0; | |
742 | // | |
743 | UShort_t histo[kPedMax]; | |
744 | memset(histo,0,kPedMax*sizeof(UShort_t)); | |
bf57d87d | 745 | |
7fb602b1 | 746 | //fill pedestal histogram |
ac940b58 | 747 | for (Int_t i=fFirstTimeBin; i<=fLastTimeBin; ++i){ |
748 | padSignal = fPadSignal.GetMatrixArray()[i]; | |
749 | if (padSignal<=0) continue; | |
750 | if (padSignal>max && i>10) { | |
751 | max = padSignal; | |
752 | maxPos = i; | |
753 | } | |
754 | if (padSignal>kPedMax-1) continue; | |
755 | histo[int(padSignal+0.5)]++; | |
756 | count0++; | |
757 | } | |
7fb602b1 | 758 | //find median |
ac940b58 | 759 | for (Int_t i=1; i<kPedMax; ++i){ |
760 | if (count1<count0*0.5) median=i; | |
761 | count1+=histo[i]; | |
762 | } | |
75d8233f | 763 | // truncated mean |
ac940b58 | 764 | // |
765 | Float_t count=histo[median] ,mean=histo[median]*median, rms=histo[median]*median*median ; | |
766 | // | |
767 | for (Int_t idelta=1; idelta<10; ++idelta){ | |
768 | if (median-idelta<=0) continue; | |
769 | if (median+idelta>kPedMax) continue; | |
770 | if (count<part*count1){ | |
771 | count+=histo[median-idelta]; | |
772 | mean +=histo[median-idelta]*(median-idelta); | |
773 | rms +=histo[median-idelta]*(median-idelta)*(median-idelta); | |
774 | count+=histo[median+idelta]; | |
775 | mean +=histo[median+idelta]*(median+idelta); | |
776 | rms +=histo[median+idelta]*(median+idelta)*(median+idelta); | |
777 | } | |
778 | } | |
779 | if ( count > 0 ) { | |
780 | mean/=count; | |
781 | rms = TMath::Sqrt(TMath::Abs(rms/count-mean*mean)); | |
782 | fPadPedestal = mean; | |
783 | fPadNoise = rms; | |
75d8233f | 784 | } |
ac940b58 | 785 | } |
75d8233f | 786 | } |
787 | //_____________________________________________________________________ | |
ac940b58 | 788 | void AliTPCCalibCE::UpdateCETimeRef() |
789 | { | |
790 | // Find the time reference of the last valid CE signal in sector | |
791 | // for irocs of the A-Side the reference of the corresponging OROC is returned | |
792 | // the reason are the non reflective bands on the A-Side, which make the reference very uncertain | |
793 | if ( fLastSector == fCurrentSector ) return; | |
794 | Int_t sector=fCurrentSector; | |
795 | if ( sector < 18 ) sector+=36; | |
796 | fCurrentCETimeRef=0; | |
797 | TVectorF *vtRef = GetTMeanEvents(sector); | |
798 | if ( !vtRef ) return; | |
799 | Int_t vtRefSize= vtRef->GetNrows(); | |
800 | if ( vtRefSize < fNevents+1 ) vtRef->ResizeTo(vtRefSize+100); | |
801 | else vtRefSize=fNevents; | |
802 | while ( (*vtRef)[vtRefSize]==0 && vtRefSize>=0 ) --vtRefSize; | |
803 | fCurrentCETimeRef=(*vtRef)[vtRefSize]; | |
804 | AliDebug(3,Form("Sector: %02d - T0 ref: %.2f",fCurrentSector,fCurrentCETimeRef)); | |
805 | } | |
806 | //_____________________________________________________________________ | |
75d8233f | 807 | void AliTPCCalibCE::FindCESignal(TVectorD ¶m, Float_t &qSum, const TVectorF maxima) |
808 | { | |
ac940b58 | 809 | // |
75d8233f | 810 | // Find position, signal width and height of the CE signal (last signal) |
811 | // param[0] = Qmax, param[1] = mean time, param[2] = rms; | |
812 | // maxima: array of local maxima of the pad signal use the one closest to the mean CE position | |
ac940b58 | 813 | // |
75d8233f | 814 | |
ac940b58 | 815 | Float_t ceQmax =0, ceQsum=0, ceTime=0, ceRMS=0; |
816 | Int_t cemaxpos = 0; | |
817 | Float_t ceSumThreshold = fNoiseThresholdSum*fPadNoise; // threshold for the signal sum | |
880c3382 | 818 | const Int_t kCemin = fPeakIntMinus; // range for the analysis of the ce signal +- channels from the peak |
819 | const Int_t kCemax = fPeakIntPlus; | |
75d8233f | 820 | |
ac940b58 | 821 | Float_t minDist = 25; //initial minimum distance betweek roc mean ce signal and pad ce signal |
bf57d87d | 822 | |
75d8233f | 823 | // find maximum closest to the sector mean from the last event |
ac940b58 | 824 | for ( Int_t imax=0; imax<maxima.GetNrows(); ++imax){ |
7fb602b1 | 825 | // get sector mean of last event |
ac940b58 | 826 | Float_t tmean = fCurrentCETimeRef; |
827 | if ( TMath::Abs( tmean-maxima[imax] ) < minDist ) { | |
828 | minDist = tmean-maxima[imax]; | |
829 | cemaxpos = (Int_t)maxima[imax]; | |
75d8233f | 830 | } |
ac940b58 | 831 | } |
880c3382 | 832 | // printf("L1 phase TB: %f\n",GetL1PhaseTB()); |
ac940b58 | 833 | if (cemaxpos!=0){ |
834 | ceQmax = fPadSignal.GetMatrixArray()[cemaxpos]-fPadPedestal; | |
880c3382 | 835 | for (Int_t i=cemaxpos-kCemin; i<=cemaxpos+kCemax; ++i){ |
ac940b58 | 836 | if ( (i>fFirstTimeBin) && (i<fLastTimeBin) ){ |
837 | Float_t signal = fPadSignal.GetMatrixArray()[i]-fPadPedestal; | |
838 | if (signal>0) { | |
839 | ceTime+=signal*(i+0.5); | |
840 | ceRMS +=signal*(i+0.5)*(i+0.5); | |
841 | ceQsum+=signal; | |
842 | } | |
843 | } | |
75d8233f | 844 | } |
ac940b58 | 845 | } |
846 | if (ceQmax&&ceQsum>ceSumThreshold) { | |
847 | ceTime/=ceQsum; | |
848 | ceRMS = TMath::Sqrt(TMath::Abs(ceRMS/ceQsum-ceTime*ceTime)); | |
880c3382 | 849 | ceTime-=GetL1PhaseTB(); |
ac940b58 | 850 | fVTime0Offset.GetMatrixArray()[fCurrentSector]+=ceTime; // mean time for each sector |
851 | fVTime0OffsetCounter.GetMatrixArray()[fCurrentSector]++; | |
852 | ||
853 | //Normalise Q to the 'cell-size': The wire density is the same in the IROC and OROC, therefore the | |
854 | // the pick-up signal should scale with the pad area. In addition | |
855 | // the signal should decrease with the wire distance (4mm in IROC, 6mm in OROC), | |
856 | // ratio 2/3. The pad area we express in cm2. We normalise the signal | |
857 | // to the OROC signal (factor 2/3 for the IROCs). | |
858 | Float_t norm = fParam->GetPadPitchWidth(fCurrentSector)*fParam->GetPadPitchLength(fCurrentSector,fCurrentRow); | |
859 | if ( fCurrentSector<fParam->GetNInnerSector() ) norm*=3./2.; | |
860 | ||
861 | ceQsum/=norm; | |
862 | fVMeanQ.GetMatrixArray()[fCurrentSector]+=ceQsum; | |
863 | fVMeanQCounter.GetMatrixArray()[fCurrentSector]++; | |
864 | } else { | |
865 | ceQmax=0; | |
866 | ceTime=0; | |
867 | ceRMS =0; | |
868 | ceQsum=0; | |
869 | } | |
870 | param[0] = ceQmax; | |
880c3382 | 871 | param[1] = ceTime; |
ac940b58 | 872 | param[2] = ceRMS; |
873 | qSum = ceQsum; | |
75d8233f | 874 | } |
875 | //_____________________________________________________________________ | |
3cd27a08 | 876 | Bool_t AliTPCCalibCE::IsPeak(Int_t pos, Int_t tminus, Int_t tplus) const |
75d8233f | 877 | { |
ac940b58 | 878 | // |
75d8233f | 879 | // Check if 'pos' is a Maximum. Consider 'tminus' timebins before |
880 | // and 'tplus' timebins after 'pos' | |
ac940b58 | 881 | // |
882 | if ( (pos-tminus)<fFirstTimeBin || (pos+tplus)>fLastTimeBin ) return kFALSE; | |
883 | for (Int_t iTime = pos; iTime>pos-tminus; --iTime) | |
884 | if ( fPadSignal[iTime-1] >= fPadSignal[iTime] ) return kFALSE; | |
885 | for (Int_t iTime = pos, iTime2=pos; iTime<pos+tplus; ++iTime, ++iTime2){ | |
886 | if ( (iTime==pos) && (fPadSignal[iTime+1]==fPadSignal[iTime]) ) // allow two timebins with same adc value | |
887 | ++iTime2; | |
888 | if ( fPadSignal[iTime2+1] >= fPadSignal[iTime2] ) return kFALSE; | |
889 | } | |
890 | return kTRUE; | |
75d8233f | 891 | } |
892 | //_____________________________________________________________________ | |
893 | void AliTPCCalibCE::FindLocalMaxima(TVectorF &maxima) | |
894 | { | |
ac940b58 | 895 | // |
75d8233f | 896 | // Find local maxima on the pad signal and Histogram them |
ac940b58 | 897 | // |
4c6d06dc | 898 | Float_t ceThreshold = fNoiseThresholdMax*TMath::Max(fPadNoise,Float_t(1.)); // threshold for the signal |
ac940b58 | 899 | Int_t count = 0; |
4c6d06dc | 900 | // Int_t tminus = 2; |
901 | // Int_t tplus = 3; | |
880c3382 | 902 | for (Int_t i=fLastTimeBin-fPeakDetPlus-1; i>=fFirstTimeBin+fPeakDetMinus; --i){ |
903 | if ( (fPadSignal[i]-fPadPedestal)>ceThreshold && IsPeak(i,fPeakDetMinus,fPeakDetPlus) ){ | |
ac940b58 | 904 | if (count<maxima.GetNrows()){ |
905 | maxima.GetMatrixArray()[count++]=i; | |
906 | GetHistoTmean(fCurrentSector,kTRUE)->Fill(i); | |
907 | } | |
75d8233f | 908 | } |
ac940b58 | 909 | } |
75d8233f | 910 | } |
911 | //_____________________________________________________________________ | |
7fb602b1 | 912 | void AliTPCCalibCE::ProcessPad() |
75d8233f | 913 | { |
880c3382 | 914 | // |
915 | // Process data of current pad | |
916 | // | |
917 | FindPedestal(); | |
918 | ||
919 | TVectorF maxima(15); // the expected maximum number of maxima in the complete TPC should be 8 laser beam layers | |
7fb602b1 | 920 | // + central electrode and possibly post peaks from the CE signal |
921 | // however if we are on a high noise pad a lot more peaks due to the noise might occur | |
880c3382 | 922 | FindLocalMaxima(maxima); |
923 | if ( (fNevents == 0) || (fOldRunNumber!=fRunNumber) ) return; // return because we don't have Time0 info for the CE yet | |
924 | ||
925 | UpdateCETimeRef(); // update the time refenrence for the current sector | |
926 | if ( fCurrentCETimeRef==0 ) return; //return if we don't have time 0 info, eg if only one side has laser | |
927 | TVectorD param(3); | |
928 | Float_t qSum; | |
929 | FindCESignal(param, qSum, maxima); | |
930 | ||
931 | Double_t meanT = param[1]; | |
932 | Double_t sigmaT = param[2]; | |
933 | ||
75d8233f | 934 | //Fill Event T0 counter |
880c3382 | 935 | (*GetPadTimesEvent(fCurrentSector,kTRUE)).GetMatrixArray()[fCurrentChannel] = meanT; |
936 | ||
75d8233f | 937 | //Fill Q histogram |
880c3382 | 938 | GetHistoQ(fCurrentSector,kTRUE)->Fill( TMath::Sqrt(qSum), fCurrentChannel ); |
939 | ||
75d8233f | 940 | //Fill RMS histogram |
880c3382 | 941 | GetHistoRMS(fCurrentSector,kTRUE)->Fill( sigmaT, fCurrentChannel ); |
942 | ||
943 | ||
75d8233f | 944 | //Fill debugging info |
880c3382 | 945 | if ( GetStreamLevel()>0 ){ |
946 | (*GetPadPedestalEvent(fCurrentSector,kTRUE)).GetMatrixArray()[fCurrentChannel]=fPadPedestal; | |
947 | (*GetPadRMSEvent(fCurrentSector,kTRUE)).GetMatrixArray()[fCurrentChannel]=sigmaT; | |
948 | (*GetPadQEvent(fCurrentSector,kTRUE)).GetMatrixArray()[fCurrentChannel]=qSum; | |
949 | } | |
950 | ||
951 | ResetPad(); | |
75d8233f | 952 | } |
953 | //_____________________________________________________________________ | |
7fb602b1 | 954 | void AliTPCCalibCE::EndEvent() |
75d8233f | 955 | { |
ac940b58 | 956 | // Process data of current pad |
957 | // The Functions 'SetTimeStamp' and 'SetRunNumber' should be called | |
958 | // before the EndEvent function to set the event timestamp and number!!! | |
959 | // This is automatically done if the ProcessEvent(AliRawReader *rawReader) | |
960 | // function was called | |
75d8233f | 961 | |
ac940b58 | 962 | //check if last pad has allready been processed, if not do so |
963 | if ( fMaxTimeBin>-1 ) ProcessPad(); | |
75d8233f | 964 | |
ac940b58 | 965 | AliDebug(3, Form("EndEvent() - Start; Event: %05d", fNevents)); |
4c6d06dc | 966 | |
ac940b58 | 967 | TVectorD param(3); |
968 | TMatrixD dummy(3,3); | |
7fb602b1 | 969 | // TVectorF vMeanTime(72); |
970 | // TVectorF vMeanQ(72); | |
ac940b58 | 971 | AliTPCCalROC *calIroc=new AliTPCCalROC(0); |
972 | AliTPCCalROC *calOroc=new AliTPCCalROC(36); | |
973 | ||
974 | //find mean time0 offset for side A and C | |
975 | //use only orocs due to the better statistics | |
976 | Double_t time0Side[2]; //time0 for side A:0 and C:1 | |
977 | Double_t time0SideCount[2]; //time0 counter for side A:0 and C:1 | |
978 | time0Side[0]=0;time0Side[1]=0;time0SideCount[0]=0;time0SideCount[1]=0; | |
979 | for ( Int_t iSec = 36; iSec<72; ++iSec ){ | |
980 | time0Side[(iSec/18)%2] += fVTime0Offset.GetMatrixArray()[iSec]; | |
981 | time0SideCount[(iSec/18)%2] += fVTime0OffsetCounter.GetMatrixArray()[iSec]; | |
982 | } | |
983 | if ( time0SideCount[0] >0 ) | |
984 | time0Side[0]/=time0SideCount[0]; | |
985 | if ( time0SideCount[1] >0 ) | |
986 | time0Side[1]/=time0SideCount[1]; | |
75d8233f | 987 | // end find time0 offset |
ac940b58 | 988 | AliDebug(3,Form("time0Side/time0SideCount: A=%.2f/%.2f, C=%.2f/%.2f",time0Side[0],time0SideCount[0],time0Side[1],time0SideCount[1])); |
989 | Int_t nSecMeanT=0; | |
990 | //loop over all ROCs, fill CE Time histogram corrected for the mean Time0 of each ROC | |
991 | for ( Int_t iSec = 0; iSec<72; ++iSec ){ | |
992 | AliDebug(4,Form("Processing sector '%02d'\n",iSec)); | |
993 | //find median and then calculate the mean around it | |
994 | TH1S *hMeanT = GetHistoTmean(iSec); //histogram with local maxima position information | |
995 | if ( !hMeanT ) continue; | |
996 | //continue if not enough data is filled in the meanT histogram. This is the case if we do not have a laser event. | |
997 | if ( hMeanT->GetEffectiveEntries() < fROC->GetNChannels(iSec)*fSecRejectRatio ){ | |
998 | hMeanT->Reset(); | |
999 | AliDebug(3,Form("Skipping sec. '%02d': Not enough statistics\n",iSec)); | |
1000 | continue; | |
1001 | } | |
1002 | ||
1003 | Double_t entries = hMeanT->GetEffectiveEntries(); | |
1004 | Double_t sum = 0; | |
1005 | Short_t *arr = hMeanT->GetArray()+1; | |
1006 | Int_t ibin=0; | |
1007 | for ( ibin=0; ibin<hMeanT->GetNbinsX(); ++ibin){ | |
1008 | sum+=arr[ibin]; | |
1009 | if ( sum>=(entries/2.) ) break; | |
1010 | } | |
1011 | Int_t delta = 4; | |
1012 | Int_t firstBin = fFirstTimeBin+ibin-delta; | |
1013 | Int_t lastBin = fFirstTimeBin+ibin+delta; | |
1014 | if ( firstBin<fFirstTimeBin ) firstBin=fFirstTimeBin; | |
1015 | if ( lastBin>fLastTimeBin ) lastBin =fLastTimeBin; | |
1016 | Float_t median =AliMathBase::GetCOG(arr+ibin-delta,2*delta,firstBin,lastBin); | |
1017 | ||
7fb602b1 | 1018 | // check boundaries for ebye info of mean time |
ac940b58 | 1019 | TVectorF *vMeanTime=GetTMeanEvents(iSec,kTRUE); |
1020 | Int_t vSize=vMeanTime->GetNrows(); | |
1021 | if ( vSize < fNevents+1 ){ | |
1022 | vMeanTime->ResizeTo(vSize+100); | |
1023 | } | |
880c3382 | 1024 | |
1025 | // store mean time for the readout sides | |
1026 | vSize=fVTime0SideA.GetNrows(); | |
1027 | if ( vSize < fNevents+1 ){ | |
1028 | fVTime0SideA.ResizeTo(vSize+100); | |
1029 | fVTime0SideC.ResizeTo(vSize+100); | |
1030 | } | |
1031 | fVTime0SideA.GetMatrixArray()[fNevents]=time0Side[0]; | |
1032 | fVTime0SideC.GetMatrixArray()[fNevents]=time0Side[1]; | |
ac940b58 | 1033 | |
1034 | vMeanTime->GetMatrixArray()[fNevents]=median; | |
1035 | nSecMeanT++; | |
1036 | // end find median | |
1037 | ||
1038 | TVectorF *vTimes = GetPadTimesEvent(iSec); | |
1039 | if ( !vTimes ) continue; //continue if no time information for this sector is available | |
1040 | ||
1041 | AliTPCCalROC calIrocOutliers(0); | |
1042 | AliTPCCalROC calOrocOutliers(36); | |
1043 | ||
1044 | // calculate mean Q of the sector | |
1045 | TVectorF *vMeanQ=GetQMeanEvents(iSec,kTRUE); | |
1046 | vSize=vMeanQ->GetNrows(); | |
1047 | if ( vSize < fNevents+1 ){ | |
1048 | vMeanQ->ResizeTo(vSize+100); | |
1049 | } | |
1050 | Float_t meanQ = 0; | |
1051 | if ( fVMeanQCounter.GetMatrixArray()[iSec]>0 ) meanQ=fVMeanQ.GetMatrixArray()[iSec]/fVMeanQCounter.GetMatrixArray()[iSec]; | |
1052 | vMeanQ->GetMatrixArray()[fNevents]=meanQ; | |
1053 | ||
1054 | for ( UInt_t iChannel=0; iChannel<fROC->GetNChannels(iSec); ++iChannel ){ | |
1055 | Float_t time = (*vTimes).GetMatrixArray()[iChannel]; | |
75d8233f | 1056 | |
1057 | //set values for temporary roc calibration class | |
ac940b58 | 1058 | if ( iSec < 36 ) { |
1059 | calIroc->SetValue(iChannel, time); | |
1060 | if ( time == 0 ) calIrocOutliers.SetValue(iChannel,1); | |
bf57d87d | 1061 | |
ac940b58 | 1062 | } else { |
1063 | calOroc->SetValue(iChannel, time); | |
1064 | if ( time == 0 ) calOrocOutliers.SetValue(iChannel,1); | |
1065 | } | |
75d8233f | 1066 | |
ac940b58 | 1067 | if ( (fNevents>0) && (fOldRunNumber==fRunNumber) ) |
1068 | GetHistoT0(iSec,kTRUE)->Fill( time-time0Side[(iSec/18)%2],iChannel ); | |
75d8233f | 1069 | |
1070 | ||
1071 | ||
1072 | //------------------------------- Debug start ------------------------------ | |
880c3382 | 1073 | if ( GetStreamLevel()>0 ){ |
1074 | TTreeSRedirector *streamer=GetDebugStreamer(); | |
1075 | if (streamer){ | |
1076 | Int_t row=0; | |
1077 | Int_t pad=0; | |
1078 | Int_t padc=0; | |
1079 | ||
1080 | Float_t q = (*GetPadQEvent(iSec))[iChannel]; | |
1081 | Float_t rms = (*GetPadRMSEvent(iSec))[iChannel]; | |
1082 | ||
1083 | UInt_t channel=iChannel; | |
1084 | Int_t sector=iSec; | |
1085 | ||
1086 | while ( channel > (fROC->GetRowIndexes(sector)[row]+fROC->GetNPads(sector,row)-1) ) row++; | |
1087 | pad = channel-fROC->GetRowIndexes(sector)[row]; | |
1088 | padc = pad-(fROC->GetNPads(sector,row)/2); | |
1089 | ||
75d8233f | 1090 | // TH1F *h1 = new TH1F(Form("hSignalD%d.%d.%d",sector,row,pad), |
1091 | // Form("hSignalD%d.%d.%d",sector,row,pad), | |
1092 | // fLastTimeBin-fFirstTimeBin, | |
1093 | // fFirstTimeBin,fLastTimeBin); | |
1094 | // h1->SetDirectory(0); | |
ac940b58 | 1095 | // |
7fb602b1 | 1096 | // for (Int_t i=fFirstTimeBin; i<fLastTimeBin+1; ++i) |
75d8233f | 1097 | // h1->Fill(i,fPadSignal(i)); |
880c3382 | 1098 | |
1099 | Double_t t0Sec = 0; | |
1100 | if (fVTime0OffsetCounter.GetMatrixArray()[iSec]>0) | |
1101 | t0Sec = fVTime0Offset.GetMatrixArray()[iSec]/fVTime0OffsetCounter.GetMatrixArray()[iSec]; | |
1102 | Double_t t0Side = time0Side[(iSec/18)%2]; | |
1103 | (*streamer) << "DataPad" << | |
ac940b58 | 1104 | "Event=" << fNevents << |
1105 | "RunNumber=" << fRunNumber << | |
1106 | "TimeStamp=" << fTimeStamp << | |
1107 | "Sector="<< sector << | |
1108 | "Row=" << row<< | |
1109 | "Pad=" << pad << | |
1110 | "PadC=" << padc << | |
1111 | "PadSec="<< channel << | |
1112 | "Time0Sec=" << t0Sec << | |
1113 | "Time0Side=" << t0Side << | |
1114 | "Time=" << time << | |
1115 | "RMS=" << rms << | |
1116 | "Sum=" << q << | |
1117 | "MeanQ=" << meanQ << | |
880c3382 | 1118 | // "hist.=" << h1 << |
ac940b58 | 1119 | "\n"; |
880c3382 | 1120 | |
1121 | // delete h1; | |
1122 | } | |
ac940b58 | 1123 | } |
880c3382 | 1124 | //----------------------------- Debug end ------------------------------ |
ac940b58 | 1125 | }// end channel loop |
1126 | ||
1127 | TVectorD paramPol1(3); | |
1128 | TVectorD paramPol2(6); | |
1129 | TMatrixD matPol1(3,3); | |
1130 | TMatrixD matPol2(6,6); | |
1131 | Float_t chi2Pol1=0; | |
1132 | Float_t chi2Pol2=0; | |
1133 | ||
1134 | if ( (fNevents>0) && (fOldRunNumber==fRunNumber) ){ | |
1135 | if ( iSec < 36 ){ | |
1136 | calIroc->GlobalFit(&calIrocOutliers,0,paramPol1,matPol1,chi2Pol1,0); | |
1137 | calIroc->GlobalFit(&calIrocOutliers,0,paramPol2,matPol2,chi2Pol2,1); | |
1138 | } else { | |
1139 | calOroc->GlobalFit(&calOrocOutliers,0,paramPol1,matPol1,chi2Pol1,0); | |
1140 | calOroc->GlobalFit(&calOrocOutliers,0,paramPol2,matPol2,chi2Pol2,1); | |
1141 | } | |
75d8233f | 1142 | |
ac940b58 | 1143 | GetParamArrayPol1(iSec,kTRUE)->AddAtAndExpand(new TVectorD(paramPol1), fNevents); |
1144 | GetParamArrayPol2(iSec,kTRUE)->AddAtAndExpand(new TVectorD(paramPol2), fNevents); | |
1145 | } | |
75d8233f | 1146 | |
1147 | //------------------------------- Debug start ------------------------------ | |
880c3382 | 1148 | if ( GetStreamLevel()>0 ){ |
1149 | TTreeSRedirector *streamer=GetDebugStreamer(); | |
1150 | if ( streamer ) { | |
1151 | (*streamer) << "DataRoc" << | |
3cd27a08 | 1152 | // "Event=" << fEvent << |
ac940b58 | 1153 | "RunNumber=" << fRunNumber << |
1154 | "TimeStamp=" << fTimeStamp << | |
1155 | "Sector="<< iSec << | |
1156 | "hMeanT.=" << hMeanT << | |
1157 | "median=" << median << | |
1158 | "paramPol1.=" << ¶mPol1 << | |
1159 | "paramPol2.=" << ¶mPol2 << | |
1160 | "matPol1.=" << &matPol1 << | |
1161 | "matPol2.=" << &matPol2 << | |
1162 | "chi2Pol1=" << chi2Pol1 << | |
1163 | "chi2Pol2=" << chi2Pol2 << | |
1164 | "\n"; | |
880c3382 | 1165 | } |
ac940b58 | 1166 | } |
75d8233f | 1167 | //------------------------------- Debug end ------------------------------ |
ac940b58 | 1168 | hMeanT->Reset(); |
1169 | }// end sector loop | |
4d885988 | 1170 | //return if no sector has a valid mean time |
ac940b58 | 1171 | if ( nSecMeanT == 0 ) return; |
4d885988 | 1172 | |
1173 | ||
7fb602b1 | 1174 | // fTMeanArrayEvent.AddAtAndExpand(new TVectorF(vMeanTime),fNevents); |
1175 | // fQMeanArrayEvent.AddAtAndExpand(new TVectorF(vMeanQ),fNevents); | |
ac940b58 | 1176 | if ( fVEventTime.GetNrows() < fNevents+1 ) { |
1177 | fVEventTime.ResizeTo((Int_t)(fVEventTime.GetNrows()+100)); | |
1178 | fVEventNumber.ResizeTo((Int_t)(fVEventNumber.GetNrows()+100)); | |
1179 | } | |
1180 | fVEventTime.GetMatrixArray()[fNevents] = fTimeStamp; | |
1181 | fVEventNumber.GetMatrixArray()[fNevents] = fEventId; | |
75d8233f | 1182 | |
ac940b58 | 1183 | fNevents++; |
1184 | fOldRunNumber = fRunNumber; | |
75d8233f | 1185 | |
ac940b58 | 1186 | delete calIroc; |
1187 | delete calOroc; | |
1188 | AliDebug(3, Form("EndEvent() - End; Event: %05d", fNevents)); | |
75d8233f | 1189 | } |
1190 | //_____________________________________________________________________ | |
7fb602b1 | 1191 | TH2S* AliTPCCalibCE::GetHisto(Int_t sector, TObjArray *arr, |
75d8233f | 1192 | Int_t nbinsY, Float_t ymin, Float_t ymax, |
a6e0ebfe | 1193 | const Char_t *type, Bool_t force) |
75d8233f | 1194 | { |
1195 | // | |
1196 | // return pointer to TH2S histogram of 'type' | |
1197 | // if force is true create a new histogram if it doesn't exist allready | |
1198 | // | |
1199 | if ( !force || arr->UncheckedAt(sector) ) | |
1200 | return (TH2S*)arr->UncheckedAt(sector); | |
1201 | ||
7fb602b1 | 1202 | // if we are forced and histogram doesn't exist yet create it |
75d8233f | 1203 | Char_t name[255], title[255]; |
1204 | ||
1205 | sprintf(name,"hCalib%s%.2d",type,sector); | |
1206 | sprintf(title,"%s calibration histogram sector %.2d",type,sector); | |
1207 | ||
1208 | // new histogram with Q calib information. One value for each pad! | |
1209 | TH2S* hist = new TH2S(name,title, | |
1210 | nbinsY, ymin, ymax, | |
1211 | fROC->GetNChannels(sector),0,fROC->GetNChannels(sector)); | |
1212 | hist->SetDirectory(0); | |
1213 | arr->AddAt(hist,sector); | |
1214 | return hist; | |
1215 | } | |
1216 | //_____________________________________________________________________ | |
7fb602b1 | 1217 | TH2S* AliTPCCalibCE::GetHistoT0(Int_t sector, Bool_t force) |
75d8233f | 1218 | { |
1219 | // | |
1220 | // return pointer to T0 histogram | |
1221 | // if force is true create a new histogram if it doesn't exist allready | |
1222 | // | |
1223 | TObjArray *arr = &fHistoT0Array; | |
1224 | return GetHisto(sector, arr, fNbinsT0, fXminT0, fXmaxT0, "T0", force); | |
1225 | } | |
1226 | //_____________________________________________________________________ | |
7fb602b1 | 1227 | TH2S* AliTPCCalibCE::GetHistoQ(Int_t sector, Bool_t force) |
75d8233f | 1228 | { |
1229 | // | |
1230 | // return pointer to Q histogram | |
1231 | // if force is true create a new histogram if it doesn't exist allready | |
1232 | // | |
1233 | TObjArray *arr = &fHistoQArray; | |
1234 | return GetHisto(sector, arr, fNbinsQ, fXminQ, fXmaxQ, "Q", force); | |
1235 | } | |
1236 | //_____________________________________________________________________ | |
7fb602b1 | 1237 | TH2S* AliTPCCalibCE::GetHistoRMS(Int_t sector, Bool_t force) |
75d8233f | 1238 | { |
1239 | // | |
1240 | // return pointer to Q histogram | |
1241 | // if force is true create a new histogram if it doesn't exist allready | |
1242 | // | |
1243 | TObjArray *arr = &fHistoRMSArray; | |
1244 | return GetHisto(sector, arr, fNbinsRMS, fXminRMS, fXmaxRMS, "RMS", force); | |
1245 | } | |
1246 | //_____________________________________________________________________ | |
1247 | TH1S* AliTPCCalibCE::GetHisto(Int_t sector, TObjArray *arr, | |
a6e0ebfe | 1248 | const Char_t *type, Bool_t force) |
75d8233f | 1249 | { |
1250 | // | |
1251 | // return pointer to TH1S histogram | |
1252 | // if force is true create a new histogram if it doesn't exist allready | |
1253 | // | |
1254 | if ( !force || arr->UncheckedAt(sector) ) | |
1255 | return (TH1S*)arr->UncheckedAt(sector); | |
1256 | ||
1257 | // if we are forced and histogram doesn't yes exist create it | |
1258 | Char_t name[255], title[255]; | |
1259 | ||
1260 | sprintf(name,"hCalib%s%.2d",type,sector); | |
1261 | sprintf(title,"%s calibration histogram sector %.2d",type,sector); | |
1262 | ||
4d885988 | 1263 | // new histogram with calib information. One value for each pad! |
75d8233f | 1264 | TH1S* hist = new TH1S(name,title, |
1265 | fLastTimeBin-fFirstTimeBin,fFirstTimeBin,fLastTimeBin); | |
1266 | hist->SetDirectory(0); | |
1267 | arr->AddAt(hist,sector); | |
1268 | return hist; | |
1269 | } | |
1270 | //_____________________________________________________________________ | |
1271 | TH1S* AliTPCCalibCE::GetHistoTmean(Int_t sector, Bool_t force) | |
1272 | { | |
1273 | // | |
1274 | // return pointer to Q histogram | |
1275 | // if force is true create a new histogram if it doesn't exist allready | |
1276 | // | |
1277 | TObjArray *arr = &fHistoTmean; | |
1278 | return GetHisto(sector, arr, "LastTmean", force); | |
1279 | } | |
1280 | //_____________________________________________________________________ | |
3cd27a08 | 1281 | TVectorF* AliTPCCalibCE::GetVectSector(Int_t sector, TObjArray *arr, UInt_t size, Bool_t force) const |
75d8233f | 1282 | { |
1283 | // | |
1284 | // return pointer to Pad Info from 'arr' for the current event and sector | |
1285 | // if force is true create it if it doesn't exist allready | |
1286 | // | |
1287 | if ( !force || arr->UncheckedAt(sector) ) | |
1288 | return (TVectorF*)arr->UncheckedAt(sector); | |
1289 | ||
7fb602b1 | 1290 | TVectorF *vect = new TVectorF(size); |
75d8233f | 1291 | arr->AddAt(vect,sector); |
1292 | return vect; | |
1293 | } | |
1294 | //_____________________________________________________________________ | |
7fb602b1 | 1295 | TVectorF* AliTPCCalibCE::GetPadTimesEvent(Int_t sector, Bool_t force) |
75d8233f | 1296 | { |
1297 | // | |
1298 | // return pointer to Pad Times Array for the current event and sector | |
1299 | // if force is true create it if it doesn't exist allready | |
1300 | // | |
1301 | TObjArray *arr = &fPadTimesArrayEvent; | |
7fb602b1 | 1302 | return GetVectSector(sector,arr,fROC->GetNChannels(sector),force); |
75d8233f | 1303 | } |
1304 | //_____________________________________________________________________ | |
7fb602b1 | 1305 | TVectorF* AliTPCCalibCE::GetPadQEvent(Int_t sector, Bool_t force) |
75d8233f | 1306 | { |
1307 | // | |
1308 | // return pointer to Pad Q Array for the current event and sector | |
1309 | // if force is true create it if it doesn't exist allready | |
1310 | // for debugging purposes only | |
1311 | // | |
1312 | ||
1313 | TObjArray *arr = &fPadQArrayEvent; | |
7fb602b1 | 1314 | return GetVectSector(sector,arr,fROC->GetNChannels(sector),force); |
75d8233f | 1315 | } |
1316 | //_____________________________________________________________________ | |
7fb602b1 | 1317 | TVectorF* AliTPCCalibCE::GetPadRMSEvent(Int_t sector, Bool_t force) |
75d8233f | 1318 | { |
1319 | // | |
1320 | // return pointer to Pad RMS Array for the current event and sector | |
1321 | // if force is true create it if it doesn't exist allready | |
1322 | // for debugging purposes only | |
1323 | // | |
1324 | TObjArray *arr = &fPadRMSArrayEvent; | |
7fb602b1 | 1325 | return GetVectSector(sector,arr,fROC->GetNChannels(sector),force); |
75d8233f | 1326 | } |
1327 | //_____________________________________________________________________ | |
7fb602b1 | 1328 | TVectorF* AliTPCCalibCE::GetPadPedestalEvent(Int_t sector, Bool_t force) |
75d8233f | 1329 | { |
1330 | // | |
1331 | // return pointer to Pad RMS Array for the current event and sector | |
1332 | // if force is true create it if it doesn't exist allready | |
1333 | // for debugging purposes only | |
1334 | // | |
1335 | TObjArray *arr = &fPadPedestalArrayEvent; | |
7fb602b1 | 1336 | return GetVectSector(sector,arr,fROC->GetNChannels(sector),force); |
1337 | } | |
1338 | //_____________________________________________________________________ | |
1339 | TVectorF* AliTPCCalibCE::GetTMeanEvents(Int_t sector, Bool_t force) | |
1340 | { | |
1341 | // | |
1342 | // return pointer to the EbyE info of the mean arrival time for 'sector' | |
1343 | // if force is true create it if it doesn't exist allready | |
1344 | // | |
1345 | TObjArray *arr = &fTMeanArrayEvent; | |
1346 | return GetVectSector(sector,arr,100,force); | |
75d8233f | 1347 | } |
1348 | //_____________________________________________________________________ | |
7fb602b1 | 1349 | TVectorF* AliTPCCalibCE::GetQMeanEvents(Int_t sector, Bool_t force) |
1350 | { | |
1351 | // | |
1352 | // return pointer to the EbyE info of the mean arrival time for 'sector' | |
1353 | // if force is true create it if it doesn't exist allready | |
1354 | // | |
1355 | TObjArray *arr = &fQMeanArrayEvent; | |
1356 | return GetVectSector(sector,arr,100,force); | |
1357 | } | |
1358 | //_____________________________________________________________________ | |
3cd27a08 | 1359 | AliTPCCalROC* AliTPCCalibCE::GetCalRoc(Int_t sector, TObjArray* arr, Bool_t force) const |
75d8233f | 1360 | { |
1361 | // | |
1362 | // return pointer to ROC Calibration | |
1363 | // if force is true create a new histogram if it doesn't exist allready | |
1364 | // | |
1365 | if ( !force || arr->UncheckedAt(sector) ) | |
1366 | return (AliTPCCalROC*)arr->UncheckedAt(sector); | |
1367 | ||
1368 | // if we are forced and histogram doesn't yes exist create it | |
1369 | ||
1370 | // new AliTPCCalROC for T0 information. One value for each pad! | |
1371 | AliTPCCalROC *croc = new AliTPCCalROC(sector); | |
75d8233f | 1372 | arr->AddAt(croc,sector); |
1373 | return croc; | |
1374 | } | |
1375 | //_____________________________________________________________________ | |
7fb602b1 | 1376 | AliTPCCalROC* AliTPCCalibCE::GetCalRocT0(Int_t sector, Bool_t force) |
75d8233f | 1377 | { |
1378 | // | |
ef7f7670 | 1379 | // return pointer to Time 0 ROC Calibration |
75d8233f | 1380 | // if force is true create a new histogram if it doesn't exist allready |
1381 | // | |
1382 | TObjArray *arr = &fCalRocArrayT0; | |
1383 | return GetCalRoc(sector, arr, force); | |
1384 | } | |
1385 | //_____________________________________________________________________ | |
ef7f7670 | 1386 | AliTPCCalROC* AliTPCCalibCE::GetCalRocT0Err(Int_t sector, Bool_t force) |
1387 | { | |
1388 | // | |
1389 | // return pointer to the error of Time 0 ROC Calibration | |
1390 | // if force is true create a new histogram if it doesn't exist allready | |
1391 | // | |
1392 | TObjArray *arr = &fCalRocArrayT0Err; | |
1393 | return GetCalRoc(sector, arr, force); | |
1394 | } | |
1395 | //_____________________________________________________________________ | |
7fb602b1 | 1396 | AliTPCCalROC* AliTPCCalibCE::GetCalRocQ(Int_t sector, Bool_t force) |
75d8233f | 1397 | { |
1398 | // | |
1399 | // return pointer to T0 ROC Calibration | |
1400 | // if force is true create a new histogram if it doesn't exist allready | |
1401 | // | |
1402 | TObjArray *arr = &fCalRocArrayQ; | |
1403 | return GetCalRoc(sector, arr, force); | |
1404 | } | |
1405 | //_____________________________________________________________________ | |
7fb602b1 | 1406 | AliTPCCalROC* AliTPCCalibCE::GetCalRocRMS(Int_t sector, Bool_t force) |
75d8233f | 1407 | { |
1408 | // | |
1409 | // return pointer to signal width ROC Calibration | |
1410 | // if force is true create a new histogram if it doesn't exist allready | |
1411 | // | |
1412 | TObjArray *arr = &fCalRocArrayRMS; | |
1413 | return GetCalRoc(sector, arr, force); | |
1414 | } | |
1415 | //_____________________________________________________________________ | |
1416 | AliTPCCalROC* AliTPCCalibCE::GetCalRocOutliers(Int_t sector, Bool_t force) | |
1417 | { | |
1418 | // | |
1419 | // return pointer to Outliers | |
1420 | // if force is true create a new histogram if it doesn't exist allready | |
1421 | // | |
1422 | TObjArray *arr = &fCalRocArrayOutliers; | |
1423 | return GetCalRoc(sector, arr, force); | |
1424 | } | |
1425 | //_____________________________________________________________________ | |
3cd27a08 | 1426 | TObjArray* AliTPCCalibCE::GetParamArray(Int_t sector, TObjArray* arr, Bool_t force) const |
75d8233f | 1427 | { |
1428 | // | |
1429 | // return pointer to TObjArray of fit parameters | |
1430 | // if force is true create a new histogram if it doesn't exist allready | |
1431 | // | |
1432 | if ( !force || arr->UncheckedAt(sector) ) | |
1433 | return (TObjArray*)arr->UncheckedAt(sector); | |
1434 | ||
1435 | // if we are forced and array doesn't yes exist create it | |
1436 | ||
1437 | // new TObjArray for parameters | |
1438 | TObjArray *newArr = new TObjArray; | |
1439 | arr->AddAt(newArr,sector); | |
1440 | return newArr; | |
1441 | } | |
1442 | //_____________________________________________________________________ | |
1443 | TObjArray* AliTPCCalibCE::GetParamArrayPol1(Int_t sector, Bool_t force) | |
1444 | { | |
1445 | // | |
1446 | // return pointer to TObjArray of fit parameters from plane fit | |
1447 | // if force is true create a new histogram if it doesn't exist allready | |
1448 | // | |
1449 | TObjArray *arr = &fParamArrayEventPol1; | |
1450 | return GetParamArray(sector, arr, force); | |
1451 | } | |
1452 | //_____________________________________________________________________ | |
1453 | TObjArray* AliTPCCalibCE::GetParamArrayPol2(Int_t sector, Bool_t force) | |
1454 | { | |
1455 | // | |
1456 | // return pointer to TObjArray of fit parameters from parabola fit | |
1457 | // if force is true create a new histogram if it doesn't exist allready | |
1458 | // | |
1459 | TObjArray *arr = &fParamArrayEventPol2; | |
1460 | return GetParamArray(sector, arr, force); | |
1461 | } | |
1462 | //_____________________________________________________________________ | |
7fb602b1 | 1463 | void AliTPCCalibCE::ResetEvent() |
75d8233f | 1464 | { |
1465 | // | |
1466 | // Reset global counters -- Should be called before each event is processed | |
1467 | // | |
1468 | fLastSector=-1; | |
1469 | fCurrentSector=-1; | |
1470 | fCurrentRow=-1; | |
1471 | fCurrentChannel=-1; | |
1472 | ||
1473 | ResetPad(); | |
1474 | ||
1475 | fPadTimesArrayEvent.Delete(); | |
1476 | fPadQArrayEvent.Delete(); | |
1477 | fPadRMSArrayEvent.Delete(); | |
1478 | fPadPedestalArrayEvent.Delete(); | |
1479 | ||
7fb602b1 | 1480 | for ( Int_t i=0; i<72; ++i ){ |
bf57d87d | 1481 | fVTime0Offset.GetMatrixArray()[i]=0; |
1482 | fVTime0OffsetCounter.GetMatrixArray()[i]=0; | |
1483 | fVMeanQ.GetMatrixArray()[i]=0; | |
1484 | fVMeanQCounter.GetMatrixArray()[i]=0; | |
75d8233f | 1485 | } |
1486 | } | |
1487 | //_____________________________________________________________________ | |
7fb602b1 | 1488 | void AliTPCCalibCE::ResetPad() |
75d8233f | 1489 | { |
1490 | // | |
1491 | // Reset pad infos -- Should be called after a pad has been processed | |
1492 | // | |
7fb602b1 | 1493 | for (Int_t i=fFirstTimeBin; i<fLastTimeBin+1; ++i) |
bf57d87d | 1494 | fPadSignal.GetMatrixArray()[i] = 0; |
75d8233f | 1495 | fMaxTimeBin = -1; |
1496 | fMaxPadSignal = -1; | |
1497 | fPadPedestal = -1; | |
1498 | fPadNoise = -1; | |
1499 | } | |
1500 | //_____________________________________________________________________ | |
7fb602b1 | 1501 | void AliTPCCalibCE::Merge(AliTPCCalibCE *ce) |
1502 | { | |
1503 | // | |
1504 | // Merge ce to the current AliTPCCalibCE | |
1505 | // | |
1506 | ||
1507 | //merge histograms | |
1508 | for (Int_t iSec=0; iSec<72; ++iSec){ | |
1509 | TH2S *hRefQmerge = ce->GetHistoQ(iSec); | |
1510 | TH2S *hRefT0merge = ce->GetHistoT0(iSec); | |
1511 | TH2S *hRefRMSmerge = ce->GetHistoRMS(iSec); | |
1512 | ||
1513 | ||
1514 | if ( hRefQmerge ){ | |
1515 | TDirectory *dir = hRefQmerge->GetDirectory(); hRefQmerge->SetDirectory(0); | |
1516 | TH2S *hRefQ = GetHistoQ(iSec); | |
1517 | if ( hRefQ ) hRefQ->Add(hRefQmerge); | |
1518 | else { | |
1519 | TH2S *hist = new TH2S(*hRefQmerge); | |
1520 | hist->SetDirectory(0); | |
1521 | fHistoQArray.AddAt(hist, iSec); | |
1522 | } | |
1523 | hRefQmerge->SetDirectory(dir); | |
1524 | } | |
1525 | if ( hRefT0merge ){ | |
1526 | TDirectory *dir = hRefT0merge->GetDirectory(); hRefT0merge->SetDirectory(0); | |
1527 | TH2S *hRefT0 = GetHistoT0(iSec); | |
1528 | if ( hRefT0 ) hRefT0->Add(hRefT0merge); | |
1529 | else { | |
1530 | TH2S *hist = new TH2S(*hRefT0merge); | |
1531 | hist->SetDirectory(0); | |
1532 | fHistoT0Array.AddAt(hist, iSec); | |
1533 | } | |
1534 | hRefT0merge->SetDirectory(dir); | |
1535 | } | |
1536 | if ( hRefRMSmerge ){ | |
1537 | TDirectory *dir = hRefRMSmerge->GetDirectory(); hRefRMSmerge->SetDirectory(0); | |
1538 | TH2S *hRefRMS = GetHistoRMS(iSec); | |
1539 | if ( hRefRMS ) hRefRMS->Add(hRefRMSmerge); | |
1540 | else { | |
1541 | TH2S *hist = new TH2S(*hRefRMSmerge); | |
1542 | hist->SetDirectory(0); | |
1543 | fHistoRMSArray.AddAt(hist, iSec); | |
1544 | } | |
1545 | hRefRMSmerge->SetDirectory(dir); | |
1546 | } | |
1547 | ||
1548 | } | |
1549 | ||
1550 | // merge time information | |
1551 | ||
1552 | ||
1553 | Int_t nCEevents = ce->GetNeventsProcessed(); | |
1554 | for (Int_t iSec=0; iSec<72; ++iSec){ | |
1555 | TObjArray *arrPol1CE = ce->GetParamArrayPol1(iSec); | |
1556 | TObjArray *arrPol2CE = ce->GetParamArrayPol2(iSec); | |
1557 | TVectorF *vMeanTimeCE = ce->GetTMeanEvents(iSec); | |
1558 | TVectorF *vMeanQCE = ce->GetQMeanEvents(iSec); | |
1559 | ||
1560 | TObjArray *arrPol1 = 0x0; | |
1561 | TObjArray *arrPol2 = 0x0; | |
1562 | TVectorF *vMeanTime = 0x0; | |
1563 | TVectorF *vMeanQ = 0x0; | |
1564 | ||
1565 | //resize arrays | |
1566 | if ( arrPol1CE && arrPol2CE ){ | |
1567 | arrPol1 = GetParamArrayPol1(iSec,kTRUE); | |
1568 | arrPol2 = GetParamArrayPol2(iSec,kTRUE); | |
1569 | arrPol1->Expand(fNevents+nCEevents); | |
1570 | arrPol2->Expand(fNevents+nCEevents); | |
1571 | } | |
1572 | if ( vMeanTimeCE && vMeanQCE ){ | |
d8faeea7 | 1573 | vMeanTime = GetTMeanEvents(iSec,kTRUE); |
1574 | vMeanQ = GetQMeanEvents(iSec,kTRUE); | |
7fb602b1 | 1575 | vMeanTime->ResizeTo(fNevents+nCEevents); |
1576 | vMeanQ->ResizeTo(fNevents+nCEevents); | |
1577 | } | |
1578 | ||
1579 | ||
1580 | for (Int_t iEvent=0; iEvent<nCEevents; ++iEvent){ | |
1581 | if ( arrPol1CE && arrPol2CE ){ | |
1582 | TVectorD *paramPol1 = (TVectorD*)(arrPol1CE->UncheckedAt(iEvent)); | |
1583 | TVectorD *paramPol2 = (TVectorD*)(arrPol2CE->UncheckedAt(iEvent)); | |
1584 | if ( paramPol1 && paramPol2 ){ | |
1585 | GetParamArrayPol1(iSec,kTRUE)->AddAt(new TVectorD(*paramPol1), fNevents+iEvent); | |
1586 | GetParamArrayPol2(iSec,kTRUE)->AddAt(new TVectorD(*paramPol2), fNevents+iEvent); | |
1587 | } | |
1588 | } | |
1589 | if ( vMeanTimeCE && vMeanQCE ){ | |
1590 | vMeanTime->GetMatrixArray()[fNevents+iEvent]=vMeanTimeCE->GetMatrixArray()[iEvent]; | |
1591 | vMeanQ->GetMatrixArray()[fNevents+iEvent]=vMeanQCE->GetMatrixArray()[iEvent]; | |
1592 | } | |
1593 | } | |
1594 | } | |
1595 | ||
1596 | ||
1597 | ||
1598 | TVectorD* eventTimes = ce->GetEventTimes(); | |
1599 | TVectorD* eventIds = ce->GetEventIds(); | |
1600 | fVEventTime.ResizeTo(fNevents+nCEevents); | |
1601 | fVEventNumber.ResizeTo(fNevents+nCEevents); | |
1602 | ||
1603 | for (Int_t iEvent=0; iEvent<nCEevents; ++iEvent){ | |
1604 | Double_t evTime = eventTimes->GetMatrixArray()[iEvent]; | |
1605 | Double_t evId = eventIds->GetMatrixArray()[iEvent]; | |
1606 | fVEventTime.GetMatrixArray()[fNevents+iEvent] = evTime; | |
1607 | fVEventNumber.GetMatrixArray()[fNevents+iEvent] = evId; | |
1608 | } | |
1609 | fNevents+=nCEevents; //increase event counter | |
1610 | ||
1611 | } | |
1612 | //_____________________________________________________________________ | |
1613 | TGraph *AliTPCCalibCE::MakeGraphTimeCE(Int_t sector, Int_t xVariable, Int_t fitType, Int_t fitParameter) | |
75d8233f | 1614 | { |
ac940b58 | 1615 | // |
1616 | // Make graph from fit parameters of pol1 fit, pol2 fit, mean arrival time or mean Q for ROC 'sector' | |
880c3382 | 1617 | // or side (-1: A-Side, -2: C-Side) |
ac940b58 | 1618 | // xVariable: 0-event time, 1-event id, 2-internal event counter |
1619 | // fitType: 0-pol1 fit, 1-pol2 fit, 2-mean time, 3-mean Q | |
1620 | // fitParameter: fit parameter ( 0-2 for pol1 ([0]+[1]*x+[2]*y), | |
1621 | // 0-5 for pol2 ([0]+[1]*x+[2]*y+[3]*x*x+[4]*y*y+[5]*x*y), | |
1622 | // not used for mean time and mean Q ) | |
1623 | // for an example see class description at the beginning | |
1624 | // | |
75d8233f | 1625 | |
ac940b58 | 1626 | Double_t *x = new Double_t[fNevents]; |
1627 | Double_t *y = new Double_t[fNevents]; | |
75d8233f | 1628 | |
ac940b58 | 1629 | TVectorD *xVar = 0x0; |
1630 | TObjArray *aType = 0x0; | |
1631 | Int_t npoints=0; | |
75d8233f | 1632 | |
1633 | // sanity checks | |
ac940b58 | 1634 | if ( !GetHistoT0(sector) ) return 0x0; //Sector has not been filled |
880c3382 | 1635 | if ( (sector<-2) || (sector>71) ) return 0x0; |
ac940b58 | 1636 | if ( (xVariable<0) || (xVariable>2) ) return 0x0; |
1637 | if ( (fitType<0) || (fitType>3) ) return 0x0; | |
880c3382 | 1638 | if ( sector>=0&&!GetTMeanEvents(sector) ) return 0x0; //no mean time information available |
1639 | if ( sector<0 && fitType!=2) return 0x0; | |
1640 | ||
1641 | if (sector>=0){ | |
1642 | if ( fitType==0 ){ | |
1643 | if ( (fitParameter<0) || (fitParameter>2) ) return 0x0; | |
1644 | aType = &fParamArrayEventPol1; | |
1645 | if ( aType->At(sector)==0x0 ) return 0x0; | |
1646 | } | |
1647 | else if ( fitType==1 ){ | |
1648 | if ( (fitParameter<0) || (fitParameter>5) ) return 0x0; | |
1649 | aType = &fParamArrayEventPol2; | |
1650 | if ( aType->At(sector)==0x0 ) return 0x0; | |
1651 | } | |
75d8233f | 1652 | |
880c3382 | 1653 | } |
ac940b58 | 1654 | if ( xVariable == 0 ) xVar = &fVEventTime; |
1655 | if ( xVariable == 1 ) xVar = &fVEventNumber; | |
1656 | if ( xVariable == 2 ) { | |
1657 | xVar = new TVectorD(fNevents); | |
1658 | for ( Int_t i=0;i<fNevents; ++i) (*xVar)[i]=i; | |
1659 | } | |
880c3382 | 1660 | |
ac940b58 | 1661 | for (Int_t ievent =0; ievent<fNevents; ++ievent){ |
1662 | if ( fitType<2 ){ | |
1663 | TObjArray *events = (TObjArray*)(aType->At(sector)); | |
1664 | if ( events->GetSize()<=ievent ) break; | |
1665 | TVectorD *v = (TVectorD*)(events->At(ievent)); | |
1666 | if ( (v!=0x0) && ((*xVar)[ievent]>0) ) { x[npoints]=(*xVar)[ievent]; y[npoints]=(*v)[fitParameter]; npoints++;} | |
1667 | } else if (fitType == 2) { | |
1668 | Double_t xValue=(*xVar)[ievent]; | |
880c3382 | 1669 | Double_t yValue=0; |
1670 | if (sector>=0) yValue = (*GetTMeanEvents(sector))[ievent]; | |
1671 | else if (sector==-1) yValue=fVTime0SideA(ievent); | |
1672 | else if (sector==-2) yValue=fVTime0SideC(ievent); | |
ac940b58 | 1673 | if ( yValue>0 && xValue>0 ) { x[npoints]=xValue; y[npoints]=yValue;npoints++;} |
1674 | }else if (fitType == 3) { | |
1675 | Double_t xValue=(*xVar)[ievent]; | |
1676 | Double_t yValue=(*GetQMeanEvents(sector))[ievent]; | |
1677 | if ( yValue>0 && xValue>0 ) { x[npoints]=xValue; y[npoints]=yValue;npoints++;} | |
75d8233f | 1678 | } |
ac940b58 | 1679 | } |
75d8233f | 1680 | |
ac940b58 | 1681 | TGraph *gr = new TGraph(npoints); |
75d8233f | 1682 | //sort xVariable increasing |
ac940b58 | 1683 | Int_t *sortIndex = new Int_t[npoints]; |
1684 | TMath::Sort(npoints,x,sortIndex); | |
1685 | for (Int_t i=0;i<npoints;++i){ | |
1686 | gr->SetPoint(i,x[sortIndex[i]],y[sortIndex[i]]); | |
1687 | } | |
75d8233f | 1688 | |
1689 | ||
ac940b58 | 1690 | if ( xVariable == 2 ) delete xVar; |
1691 | delete x; | |
1692 | delete y; | |
1693 | delete sortIndex; | |
1694 | return gr; | |
75d8233f | 1695 | } |
1696 | //_____________________________________________________________________ | |
1697 | void AliTPCCalibCE::Analyse() | |
1698 | { | |
880c3382 | 1699 | // |
1700 | // Calculate calibration constants | |
1701 | // | |
1702 | ||
1703 | TVectorD paramQ(3); | |
1704 | TVectorD paramT0(3); | |
1705 | TVectorD paramRMS(3); | |
1706 | TMatrixD dummy(3,3); | |
1707 | ||
1708 | Float_t channelCounter=0; | |
1709 | fMeanT0rms=0; | |
1710 | fMeanQrms=0; | |
1711 | fMeanRMSrms=0; | |
1712 | ||
1713 | for (Int_t iSec=0; iSec<72; ++iSec){ | |
1714 | TH2S *hT0 = GetHistoT0(iSec); | |
1715 | if (!hT0 ) continue; | |
1716 | ||
1717 | AliTPCCalROC *rocQ = GetCalRocQ (iSec,kTRUE); | |
1718 | AliTPCCalROC *rocT0 = GetCalRocT0 (iSec,kTRUE); | |
1719 | AliTPCCalROC *rocT0Err = GetCalRocT0Err (iSec,kTRUE); | |
1720 | AliTPCCalROC *rocRMS = GetCalRocRMS(iSec,kTRUE); | |
1721 | AliTPCCalROC *rocOut = GetCalRocOutliers(iSec,kTRUE); | |
1722 | ||
1723 | TH2S *hQ = GetHistoQ(iSec); | |
1724 | TH2S *hRMS = GetHistoRMS(iSec); | |
1725 | ||
1726 | Short_t *arrayhQ = hQ->GetArray(); | |
1727 | Short_t *arrayhT0 = hT0->GetArray(); | |
1728 | Short_t *arrayhRMS = hRMS->GetArray(); | |
1729 | ||
1730 | UInt_t nChannels = fROC->GetNChannels(iSec); | |
1731 | ||
1732 | //debug | |
1733 | Int_t row=0; | |
1734 | Int_t pad=0; | |
1735 | Int_t padc=0; | |
1736 | //! debug | |
1737 | ||
1738 | for (UInt_t iChannel=0; iChannel<nChannels; ++iChannel){ | |
1739 | ||
1740 | ||
1741 | Float_t cogTime0 = -1000; | |
1742 | Float_t cogQ = -1000; | |
1743 | Float_t cogRMS = -1000; | |
1744 | Float_t cogOut = 0; | |
1745 | Float_t rms = 0; | |
1746 | Float_t rmsT0 = 0; | |
1747 | ||
1748 | ||
1749 | Int_t offsetQ = (fNbinsQ+2)*(iChannel+1)+1; | |
1750 | Int_t offsetT0 = (fNbinsT0+2)*(iChannel+1)+1; | |
1751 | Int_t offsetRMS = (fNbinsRMS+2)*(iChannel+1)+1; | |
1752 | ||
1753 | cogQ = AliMathBase::GetCOG(arrayhQ+offsetQ,fNbinsQ,fXminQ,fXmaxQ,&rms); | |
1754 | fMeanQrms+=rms; | |
1755 | cogTime0 = AliMathBase::GetCOG(arrayhT0+offsetT0,fNbinsT0,fXminT0,fXmaxT0,&rmsT0); | |
1756 | fMeanT0rms+=rmsT0; | |
1757 | cogRMS = AliMathBase::GetCOG(arrayhRMS+offsetRMS,fNbinsRMS,fXminRMS,fXmaxRMS,&rms); | |
1758 | fMeanRMSrms+=rms; | |
1759 | channelCounter++; | |
1760 | ||
1761 | /* | |
7fb602b1 | 1762 | //outlier specifications |
880c3382 | 1763 | if ( (cogQ < ??) && (cogTime0 > ??) && (cogTime0<??) && ( cogRMS>??) ){ |
1764 | cogOut = 1; | |
1765 | cogTime0 = 0; | |
1766 | cogQ = 0; | |
1767 | cogRMS = 0; | |
1768 | } | |
75d8233f | 1769 | */ |
880c3382 | 1770 | rocQ->SetValue(iChannel, cogQ*cogQ); |
1771 | rocT0->SetValue(iChannel, cogTime0); | |
1772 | rocT0Err->SetValue(iChannel, rmsT0); | |
1773 | rocRMS->SetValue(iChannel, cogRMS); | |
1774 | rocOut->SetValue(iChannel, cogOut); | |
1775 | ||
1776 | ||
1777 | //debug | |
1778 | if ( GetStreamLevel() > 0 ){ | |
1779 | TTreeSRedirector *streamer=GetDebugStreamer(); | |
1780 | if ( streamer ) { | |
1781 | ||
1782 | while ( iChannel > (fROC->GetRowIndexes(iSec)[row]+fROC->GetNPads(iSec,row)-1) ) row++; | |
1783 | pad = iChannel-fROC->GetRowIndexes(iSec)[row]; | |
1784 | padc = pad-(fROC->GetNPads(iSec,row)/2); | |
1785 | ||
1786 | (*streamer) << "DataEnd" << | |
1787 | "Sector=" << iSec << | |
1788 | "Pad=" << pad << | |
1789 | "PadC=" << padc << | |
1790 | "Row=" << row << | |
1791 | "PadSec=" << iChannel << | |
1792 | "Q=" << cogQ << | |
1793 | "T0=" << cogTime0 << | |
1794 | "RMS=" << cogRMS << | |
1795 | "\n"; | |
1796 | } | |
1797 | } | |
1798 | //! debug | |
1799 | ||
ef7f7670 | 1800 | } |
880c3382 | 1801 | |
1802 | } | |
1803 | if ( channelCounter>0 ){ | |
1804 | fMeanT0rms/=channelCounter; | |
1805 | fMeanQrms/=channelCounter; | |
1806 | fMeanRMSrms/=channelCounter; | |
1807 | } | |
1808 | // if ( fDebugStreamer ) fDebugStreamer->GetFile()->Write(); | |
75d8233f | 1809 | // delete fDebugStreamer; |
bf57d87d | 1810 | // fDebugStreamer = 0x0; |
880c3382 | 1811 | fVEventTime.ResizeTo(fNevents); |
1812 | fVEventNumber.ResizeTo(fNevents); | |
1813 | fVTime0SideA.ResizeTo(fNevents); | |
1814 | fVTime0SideC.ResizeTo(fNevents); | |
75d8233f | 1815 | } |