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da268e11 | 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 | ||
16 | ||
17 | ||
18 | /* | |
f12abd89 | 19 | Responsible: marian.ivanov@cern.ch |
20 | Code to analyze the TPC calibration and to produce OCDB entries | |
21 | ||
22 | ||
da268e11 | 23 | .x ~/rootlogon.C |
24 | gSystem->Load("libANALYSIS"); | |
25 | gSystem->Load("libTPCcalib"); | |
da268e11 | 26 | |
27 | AliTPCPreprocessorOffline proces; | |
b322e06a | 28 | TString ocdbPath="local:////" |
29 | ocdbPath+=gSystem->GetFromPipe("pwd"); | |
30 | ||
31 | proces.CalibTimeGain("CalibObjects.root",run0,run1,ocdbPath); | |
32 | proces.CalibTimeVdrift("CalibObjects.root",run0,run1,ocdbPath); | |
f12abd89 | 33 | // take the raw calibration data from the file CalibObjects.root |
34 | // and make a OCDB entry with run validity run0-run1 | |
35 | // results are stored at the ocdbPath - local or alien ... | |
36 | // default storage ""- data stored at current working directory | |
da268e11 | 37 | |
68d461b2 | 38 | e.g. |
6d64657a | 39 | gSystem->Load("libANALYSIS"); |
40 | gSystem->Load("libTPCcalib"); | |
41 | AliTPCPreprocessorOffline proces; | |
42 | proces.CalibTimeGain("TPCMultObjects.root",114000,140040,0); | |
68d461b2 | 43 | TFile oo("OCDB/TPC/Calib/TimeGain/Run114000_121040_v0_s0.root") |
44 | TObjArray * arr = AliCDBEntry->GetObject() | |
45 | arr->At(4)->Draw("alp") | |
46 | ||
da268e11 | 47 | */ |
f12abd89 | 48 | #include "Riostream.h" |
49 | #include <fstream> | |
da268e11 | 50 | #include "TMap.h" |
51 | #include "TGraphErrors.h" | |
52 | #include "AliExternalTrackParam.h" | |
53 | #include "TFile.h" | |
54 | #include "TGraph.h" | |
55 | #include "TMultiGraph.h" | |
56 | #include "TCanvas.h" | |
57 | #include "THnSparse.h" | |
58 | #include "TLegend.h" | |
59 | #include "TPad.h" | |
60 | #include "TH2D.h" | |
391ffdb2 | 61 | #include "TH3D.h" |
da268e11 | 62 | #include "AliTPCROC.h" |
63 | #include "AliTPCCalROC.h" | |
da268e11 | 64 | #include "AliESDfriend.h" |
da268e11 | 65 | #include "AliTPCcalibTime.h" |
66 | #include "AliSplineFit.h" | |
67 | #include "AliCDBMetaData.h" | |
68 | #include "AliCDBId.h" | |
69 | #include "AliCDBManager.h" | |
70 | #include "AliCDBStorage.h" | |
71 | #include "AliTPCcalibBase.h" | |
72 | #include "AliTPCcalibDB.h" | |
73 | #include "AliTPCcalibDButil.h" | |
74 | #include "AliRelAlignerKalman.h" | |
75 | #include "AliTPCParamSR.h" | |
76 | #include "AliTPCcalibTimeGain.h" | |
56b51ad9 | 77 | #include "AliTPCcalibGainMult.h" |
da268e11 | 78 | #include "AliSplineFit.h" |
f3023796 | 79 | #include "AliTPCComposedCorrection.h" |
80 | #include "AliTPCExBTwist.h" | |
81 | #include "AliTPCCalibGlobalMisalignment.h" | |
82 | #include "TStatToolkit.h" | |
83 | #include "TChain.h" | |
84 | #include "TCut.h" | |
85 | #include "AliTrackerBase.h" | |
da268e11 | 86 | #include "AliTPCPreprocessorOffline.h" |
da268e11 | 87 | |
88 | ||
89 | ClassImp(AliTPCPreprocessorOffline) | |
90 | ||
91 | AliTPCPreprocessorOffline::AliTPCPreprocessorOffline(): | |
f12abd89 | 92 | TNamed("TPCPreprocessorOffline","TPCPreprocessorOffline"), |
40120adc | 93 | fMinEntries(500), // minimal number of entries for fit |
da268e11 | 94 | startRun(0), // start Run - used to make fast selection in THnSparse |
95 | endRun(0), // end Run - used to make fast selection in THnSparse | |
96 | startTime(0), // startTime - used to make fast selection in THnSparse | |
97 | endTime(0), // endTime - used to make fast selection in THnSparse | |
98 | ocdbStorage(""), // path to the OCDB storage | |
99 | fVdriftArray(new TObjArray), | |
100 | fTimeDrift(0), | |
101 | fGraphMIP(0), // graph time dependence of MIP | |
102 | fGraphCosmic(0), // graph time dependence at Plateu | |
391ffdb2 | 103 | fGraphAttachmentMIP(0), |
da268e11 | 104 | fFitMIP(0), // fit of dependence - MIP |
105 | fFitCosmic(0), // fit of dependence - Plateu | |
106 | fGainArray(new TObjArray), // array to be stored in the OCDB | |
107 | fGainMIP(0), // calibration component for MIP | |
68d461b2 | 108 | fGainCosmic(0), // calibration component for cosmic |
56b51ad9 | 109 | fGainMult(0), |
f3023796 | 110 | fAlignTree(0), // alignment tree |
68d461b2 | 111 | fSwitchOnValidation(kFALSE) // flag to switch on validation of OCDB parameters |
da268e11 | 112 | { |
113 | // | |
f12abd89 | 114 | // default constructor |
115 | // | |
da268e11 | 116 | } |
117 | ||
118 | AliTPCPreprocessorOffline::~AliTPCPreprocessorOffline() { | |
119 | // | |
120 | // Destructor | |
121 | // | |
122 | } | |
123 | ||
124 | ||
125 | ||
126 | ||
40120adc | 127 | void AliTPCPreprocessorOffline::GetRunRange(AliTPCcalibTime * const timeDrift){ |
da268e11 | 128 | // |
129 | // find the fist and last run | |
130 | // | |
f12abd89 | 131 | TObjArray *hisArray =timeDrift->GetHistoDrift(); |
da268e11 | 132 | {for (Int_t i=0; i<hisArray->GetEntriesFast(); i++){ |
133 | THnSparse* addHist=(THnSparse*)hisArray->UncheckedAt(i); | |
40120adc | 134 | if (addHist->GetEntries()<fMinEntries) continue; |
da268e11 | 135 | if (!addHist) continue; |
136 | TH1D* histo =addHist->Projection(3); | |
137 | TH1D* histoTime=addHist->Projection(0); | |
138 | printf("%s\t%f\t%d\t%d\n",histo->GetName(), histo->GetEntries(),histo->FindFirstBinAbove(0),histo->FindLastBinAbove(0)); | |
139 | ||
140 | if (startRun<=0){ | |
141 | startRun=histo->FindFirstBinAbove(0); | |
142 | endRun =histo->FindLastBinAbove(0); | |
143 | }else{ | |
144 | startRun=TMath::Min(histo->FindFirstBinAbove(0),startRun); | |
145 | endRun =TMath::Max(histo->FindLastBinAbove(0),endRun); | |
146 | } | |
147 | if (startTime==0){ | |
148 | startTime=histoTime->FindFirstBinAbove(0); | |
149 | endTime =histoTime->FindLastBinAbove(0); | |
150 | }else{ | |
151 | startTime=TMath::Min(histoTime->FindFirstBinAbove(0),startTime); | |
152 | endTime =TMath::Max(histoTime->FindLastBinAbove(0),endTime); | |
153 | } | |
154 | delete histo; | |
155 | delete histoTime; | |
156 | }} | |
157 | if (startRun<0) startRun=0; | |
158 | if (endRun<0) endRun=100000000; | |
159 | printf("Run range :\t%d-%d\n", startRun, endRun); | |
160 | printf("Time range :\t%d-%d\n", startTime, endTime); | |
161 | ||
162 | } | |
163 | ||
164 | ||
165 | ||
40120adc | 166 | void AliTPCPreprocessorOffline::CalibTimeVdrift(const Char_t* file, Int_t ustartRun, Int_t uendRun, TString pocdbStorage){ |
da268e11 | 167 | // |
40120adc | 168 | // make calibration of the drift velocity |
169 | // Input parameters: | |
170 | // file - the location of input file | |
171 | // ustartRun, uendrun - run validity period | |
172 | // pocdbStorage - path to hte OCDB storage | |
173 | // - if empty - local storage 'pwd' uesed | |
da268e11 | 174 | if (pocdbStorage.Length()>0) ocdbStorage=pocdbStorage; |
175 | else | |
176 | ocdbStorage="local://"+gSystem->GetFromPipe("pwd")+"/OCDB"; | |
177 | // | |
178 | // 1. Initialization and run range setting | |
179 | TFile fcalib(file); | |
68d461b2 | 180 | TObjArray * array = (TObjArray*)fcalib.Get("TPCCalib"); |
181 | if (array){ | |
182 | fTimeDrift = (AliTPCcalibTime *)array->FindObject("calibTime"); | |
183 | } else { | |
184 | fTimeDrift = (AliTPCcalibTime*)fcalib.Get("calibTime"); | |
185 | } | |
186 | if(!fTimeDrift) return; | |
187 | ||
da268e11 | 188 | startRun=ustartRun; |
189 | endRun=ustartRun; | |
190 | TObjArray *hisArray =fTimeDrift->GetHistoDrift(); | |
191 | GetRunRange(fTimeDrift); | |
192 | for (Int_t i=0; i<hisArray->GetEntriesFast(); i++){ | |
193 | THnSparse* addHist=(THnSparse*)hisArray->At(i); | |
194 | if (!addHist) continue; | |
195 | if (startTime<endTime) addHist->GetAxis(0)->SetRange(startTime-1,endTime+1); | |
196 | if (startRun<endRun) addHist->GetAxis(3)->SetRange(startRun-1,endRun+1); | |
197 | } | |
198 | // | |
199 | // | |
200 | // 2. extraction of the information | |
201 | // | |
202 | fVdriftArray = new TObjArray(); | |
203 | AddAlignmentGraphs(fVdriftArray,fTimeDrift); | |
40120adc | 204 | AddHistoGraphs(fVdriftArray,fTimeDrift,fMinEntries); |
da268e11 | 205 | AddLaserGraphs(fVdriftArray,fTimeDrift); |
206 | // | |
207 | // 3. Append QA plots | |
208 | // | |
209 | MakeDefaultPlots(fVdriftArray,fVdriftArray); | |
68d461b2 | 210 | |
da268e11 | 211 | // |
68d461b2 | 212 | // 4. validate OCDB entries |
da268e11 | 213 | // |
68d461b2 | 214 | if(fSwitchOnValidation==kTRUE && ValidateTimeDrift()==kFALSE) { |
215 | Printf("TPC time drift OCDB parameters out of range!"); | |
216 | return; | |
217 | } | |
f3023796 | 218 | // |
219 | //4.b make alignment | |
220 | // | |
221 | MakeFitTime(); | |
222 | TFile * ftime= TFile::Open("fitITSVertex.root"); | |
223 | if (ftime){ | |
224 | TObject * alignmentTime=ftime->Get("FitCorrectionTime"); | |
225 | if (alignmentTime) fVdriftArray->AddLast(alignmentTime); | |
226 | } | |
68d461b2 | 227 | // |
228 | // | |
229 | // 5. update of OCDB | |
da268e11 | 230 | // |
231 | // | |
da268e11 | 232 | UpdateOCDBDrift(ustartRun,uendRun,ocdbStorage); |
233 | } | |
234 | ||
235 | void AliTPCPreprocessorOffline::UpdateOCDBDrift( Int_t ustartRun, Int_t uendRun, const char* storagePath ){ | |
236 | // | |
237 | // Update OCDB | |
238 | // | |
239 | AliCDBMetaData *metaData= new AliCDBMetaData(); | |
240 | metaData->SetObjectClassName("TObjArray"); | |
241 | metaData->SetResponsible("Marian Ivanov"); | |
242 | metaData->SetBeamPeriod(1); | |
243 | metaData->SetAliRootVersion("05-25-01"); //root version | |
244 | metaData->SetComment("Calibration of the time dependence of the drift velocity"); | |
245 | AliCDBId* id1=NULL; | |
246 | id1=new AliCDBId("TPC/Calib/TimeDrift", ustartRun, uendRun); | |
247 | AliCDBStorage* gStorage = AliCDBManager::Instance()->GetStorage(storagePath); | |
248 | gStorage->Put(fVdriftArray, (*id1), metaData); | |
249 | } | |
250 | ||
68d461b2 | 251 | Bool_t AliTPCPreprocessorOffline::ValidateTimeGain(Double_t minGain, Double_t maxGain) |
252 | { | |
253 | // | |
254 | // Validate time gain corrections | |
255 | // | |
256 | Printf("ValidateTimeGain..." ); | |
257 | ||
258 | TGraphErrors *gr = (TGraphErrors*)fGainArray->FindObject("TGRAPHERRORS_MEAN_GAIN_BEAM_ALL"); | |
259 | if(!gr) return kFALSE; | |
260 | if(gr->GetN()<1) return kFALSE; | |
261 | ||
262 | // check whether gain in the range | |
263 | for(Int_t iPoint=0; iPoint<gr->GetN(); iPoint++) | |
264 | { | |
265 | if(gr->GetY()[iPoint] < minGain || gr->GetY()[iPoint] > maxGain) | |
266 | return kFALSE; | |
267 | } | |
268 | ||
269 | return kTRUE; | |
270 | } | |
271 | ||
da268e11 | 272 | |
68d461b2 | 273 | Bool_t AliTPCPreprocessorOffline::ValidateTimeDrift(Double_t maxVDriftCorr) |
274 | { | |
275 | // | |
276 | // Validate time drift velocity corrections | |
277 | // | |
278 | Printf("ValidateTimeDrift..." ); | |
279 | ||
280 | TGraphErrors* gr = (TGraphErrors*)fVdriftArray->FindObject("ALIGN_ITSB_TPC_DRIFTVD"); | |
3dcbe287 | 281 | Printf("ALIGN_ITSB_TPC_DRIFTVD graph = %p",gr); |
282 | ||
68d461b2 | 283 | if(!gr) return kFALSE; |
3dcbe287 | 284 | if(gr->GetN()<1) { |
285 | Printf("ALIGN_ITSB_TPC_DRIFTVD number of points = %d",gr->GetN()); | |
286 | return kFALSE; | |
287 | } | |
68d461b2 | 288 | |
289 | // check whether drift velocity corrections in the range | |
290 | for(Int_t iPoint = 0; iPoint<gr->GetN(); iPoint++) | |
291 | { | |
3dcbe287 | 292 | Printf("Y value from the graph: %f",TMath::Abs(gr->GetY()[iPoint])); |
68d461b2 | 293 | if(TMath::Abs(gr->GetY()[iPoint]) > maxVDriftCorr) |
294 | return kFALSE; | |
295 | } | |
296 | ||
297 | return kTRUE; | |
298 | } | |
da268e11 | 299 | |
40120adc | 300 | void AliTPCPreprocessorOffline::UpdateDriftParam(AliTPCParam *param, TObjArray *const arr, Int_t lstartRun){ |
da268e11 | 301 | // |
302 | // update the OCDB entry for the nominal time0 | |
303 | // | |
304 | // | |
305 | // AliTPCParam * param = AliTPCcalibDB::Instance()->GetParameters(); | |
306 | AliTPCParam *paramNew = (AliTPCParam *)param->Clone(); | |
307 | TGraphErrors *grT = (TGraphErrors *)arr->FindObject("ALIGN_ITSM_TPC_T0"); | |
308 | Double_t deltaTcm = TMath::Median(grT->GetN(),grT->GetY()); | |
309 | Double_t deltaT = deltaTcm/param->GetDriftV(); | |
310 | paramNew->SetL1Delay(param->GetL1Delay()-deltaT); | |
311 | paramNew->Update(); | |
312 | ||
313 | AliCDBMetaData *metaData= new AliCDBMetaData(); | |
314 | metaData->SetObjectClassName("TObjArray"); | |
315 | metaData->SetResponsible("Marian Ivanov"); | |
316 | metaData->SetBeamPeriod(1); | |
317 | metaData->SetAliRootVersion("05-25-02"); //root version | |
318 | metaData->SetComment("Updated calibration of nominal time 0"); | |
319 | AliCDBId* id1=NULL; | |
f12abd89 | 320 | id1=new AliCDBId("TPC/Calib/Parameters", lstartRun, AliCDBRunRange::Infinity()); |
da268e11 | 321 | AliCDBStorage* gStorage = AliCDBManager::Instance()->GetStorage(ocdbStorage); |
322 | gStorage->Put(param, (*id1), metaData); | |
323 | ||
324 | } | |
325 | ||
326 | ||
327 | void AliTPCPreprocessorOffline::PrintArray(TObjArray *array){ | |
328 | // | |
40120adc | 329 | // Print the names of the entries in array |
da268e11 | 330 | // |
331 | Int_t entries = array->GetEntries(); | |
332 | for (Int_t i=0; i<entries; i++){ | |
333 | if (!array->At(i)) continue; | |
334 | printf("%d\t %s\n", i, array->At(i)->GetName()); | |
335 | } | |
336 | } | |
337 | ||
338 | ||
339 | ||
340 | TGraphErrors* AliTPCPreprocessorOffline::FilterGraphDrift(TGraphErrors * graph, Float_t errSigmaCut, Float_t medianCutAbs){ | |
341 | // 2 filters: | |
342 | // 1. filter graph - error cut errSigmaCut | |
343 | // 2. filter graph - medianCutAbs around median | |
344 | // | |
345 | // errSigmaCut - cut on error | |
346 | // medianCutAbs - cut on value around median | |
347 | Double_t dummy=0; // | |
348 | // | |
349 | // 1. filter graph - error cut errSigmaCut | |
350 | // | |
351 | TGraphErrors *graphF; | |
352 | graphF = AliTPCcalibDButil::FilterGraphMedianErr(graph,errSigmaCut,dummy); | |
353 | delete graph; | |
354 | if (!graphF) return 0; | |
355 | graph = AliTPCcalibDButil::FilterGraphMedianErr(graphF,errSigmaCut,dummy); | |
356 | delete graphF; | |
357 | if (!graph) return 0; | |
358 | // | |
359 | // filter graph - kMedianCutAbs around median | |
360 | // | |
361 | graphF=FilterGraphMedianAbs(graph, medianCutAbs,dummy); | |
362 | delete graph; | |
363 | if (!graphF) return 0; | |
364 | graph=FilterGraphMedianAbs(graphF, medianCutAbs,dummy); | |
365 | delete graphF; | |
366 | if (!graph) return 0; | |
367 | return graph; | |
368 | } | |
369 | ||
370 | ||
371 | ||
372 | TGraphErrors* AliTPCPreprocessorOffline::FilterGraphMedianAbs(TGraphErrors * graph, Float_t cut,Double_t &medianY){ | |
373 | // | |
374 | // filter outlyer measurement | |
375 | // Only points around median +- cut filtered | |
376 | // | |
377 | if (!graph) return 0; | |
378 | Int_t kMinPoints=2; | |
379 | Int_t npoints0 = graph->GetN(); | |
380 | Int_t npoints=0; | |
381 | Float_t rmsY=0; | |
382 | Double_t *outx=new Double_t[npoints0]; | |
383 | Double_t *outy=new Double_t[npoints0]; | |
384 | Double_t *errx=new Double_t[npoints0]; | |
385 | Double_t *erry=new Double_t[npoints0]; | |
386 | // | |
387 | // | |
0bc13e06 | 388 | if (npoints0<kMinPoints) { |
389 | delete []outx; | |
390 | delete []outy; | |
391 | delete []errx; | |
392 | delete []erry; | |
393 | return 0; | |
394 | } | |
da268e11 | 395 | for (Int_t iter=0; iter<3; iter++){ |
396 | npoints=0; | |
397 | for (Int_t ipoint=0; ipoint<npoints0; ipoint++){ | |
398 | if (graph->GetY()[ipoint]==0) continue; | |
399 | if (iter>0 &&TMath::Abs(graph->GetY()[ipoint]-medianY)>cut) continue; | |
400 | outx[npoints] = graph->GetX()[ipoint]; | |
401 | outy[npoints] = graph->GetY()[ipoint]; | |
402 | errx[npoints] = graph->GetErrorX(ipoint); | |
403 | erry[npoints] = graph->GetErrorY(ipoint); | |
404 | npoints++; | |
405 | } | |
406 | if (npoints<=1) break; | |
407 | medianY =TMath::Median(npoints,outy); | |
408 | rmsY =TMath::RMS(npoints,outy); | |
409 | } | |
410 | TGraphErrors *graphOut=0; | |
411 | if (npoints>1) graphOut= new TGraphErrors(npoints,outx,outy,errx,erry); | |
831e26ce | 412 | delete []outx; |
413 | delete []outy; | |
414 | delete []errx; | |
415 | delete []erry; | |
da268e11 | 416 | return graphOut; |
417 | } | |
418 | ||
419 | ||
40120adc | 420 | void AliTPCPreprocessorOffline::AddHistoGraphs( TObjArray * vdriftArray, AliTPCcalibTime * const timeDrift, Int_t minEntries){ |
da268e11 | 421 | // |
422 | // Add graphs corresponding to the alignment | |
423 | // | |
424 | const Double_t kErrSigmaCut=5; // error sigma cut - for filtering | |
425 | const Double_t kMedianCutAbs=0.03; // error sigma cut - for filtering | |
426 | // | |
427 | TObjArray * array=timeDrift->GetHistoDrift(); | |
428 | if (array){ | |
429 | THnSparse* hist=NULL; | |
430 | // 2.a) cosmics with different triggers | |
431 | for (Int_t i=0; i<array->GetEntriesFast();i++){ | |
432 | hist=(THnSparseF*)array->UncheckedAt(i); | |
433 | if(!hist) continue; | |
434 | if (hist->GetEntries()<minEntries) continue; | |
435 | //hist->Print(); | |
436 | TString name=hist->GetName(); | |
437 | Int_t dim[4]={0,1,2,3}; | |
438 | THnSparse* newHist=hist->Projection(4,dim); | |
439 | newHist->SetName(name); | |
440 | TGraphErrors* graph=AliTPCcalibBase::FitSlices(newHist,2,0,400,100,0.05,0.95, kTRUE); | |
0bc13e06 | 441 | if (!graph) { |
442 | printf("Graph =%s filtered out\n", name.Data()); | |
443 | continue; | |
444 | } | |
da268e11 | 445 | printf("name=%s graph=%i, N=%i\n", name.Data(), graph==0, graph->GetN()); |
446 | Int_t pos=name.Index("_"); | |
447 | name=name(pos,name.Capacity()-pos); | |
448 | TString graphName=graph->ClassName(); | |
449 | graphName+=name; | |
450 | graphName.ToUpper(); | |
451 | // | |
452 | graph = FilterGraphDrift(graph, kErrSigmaCut, kMedianCutAbs); | |
56b51ad9 | 453 | // |
831e26ce | 454 | if (graph){ |
56b51ad9 | 455 | graph->SetMarkerStyle(i%8+20); |
456 | graph->SetMarkerColor(i%7); | |
457 | graph->GetXaxis()->SetTitle("Time"); | |
458 | graph->GetYaxis()->SetTitle("v_{dcor}"); | |
459 | graph->SetName(graphName); | |
460 | graph->SetTitle(graphName); | |
461 | printf("Graph %d\t=\t%s\n", i, graphName.Data()); | |
462 | vdriftArray->Add(graph); | |
da268e11 | 463 | } |
da268e11 | 464 | } |
465 | } | |
466 | } | |
467 | ||
468 | ||
469 | ||
470 | ||
40120adc | 471 | void AliTPCPreprocessorOffline::AddAlignmentGraphs( TObjArray * vdriftArray, AliTPCcalibTime *const timeDrift){ |
da268e11 | 472 | // |
473 | // Add graphs corresponding to alignment to the object array | |
474 | // | |
475 | TObjArray *arrayITS=0; | |
476 | TObjArray *arrayTOF=0; | |
477 | TObjArray *arrayTRD=0; | |
478 | TMatrixD *mstatITS=0; | |
479 | TMatrixD *mstatTOF=0; | |
480 | TMatrixD *mstatTRD=0; | |
481 | // | |
482 | arrayITS=timeDrift->GetAlignITSTPC(); | |
483 | arrayTRD=timeDrift->GetAlignTRDTPC(); | |
484 | arrayTOF=timeDrift->GetAlignTOFTPC(); | |
485 | ||
486 | if (arrayITS->GetEntries()>0) mstatITS= AliTPCcalibDButil::MakeStatRelKalman(arrayITS,0.9,50,0.025); | |
487 | if (arrayTOF->GetEntries()>0) mstatTOF= AliTPCcalibDButil::MakeStatRelKalman(arrayTOF,0.9,1000,0.025); | |
488 | if (arrayTRD->GetEntries()>0) mstatTRD= AliTPCcalibDButil::MakeStatRelKalman(arrayTRD,0.9,50,0.025); | |
489 | // | |
490 | TObjArray * arrayITSP= AliTPCcalibDButil::SmoothRelKalman(arrayITS,*mstatITS, 0, 5.); | |
491 | TObjArray * arrayITSM= AliTPCcalibDButil::SmoothRelKalman(arrayITS,*mstatITS, 1, 5.); | |
492 | TObjArray * arrayITSB= AliTPCcalibDButil::SmoothRelKalman(arrayITSP,arrayITSM); | |
493 | TObjArray * arrayTOFP= AliTPCcalibDButil::SmoothRelKalman(arrayTOF,*mstatTOF, 0, 5.); | |
494 | TObjArray * arrayTOFM= AliTPCcalibDButil::SmoothRelKalman(arrayTOF,*mstatTOF, 1, 5.); | |
495 | TObjArray * arrayTOFB= AliTPCcalibDButil::SmoothRelKalman(arrayTOFP,arrayTOFM); | |
496 | ||
497 | TObjArray * arrayTRDP= 0x0; | |
498 | TObjArray * arrayTRDM= 0x0; | |
499 | TObjArray * arrayTRDB= 0x0; | |
500 | arrayTRDP= AliTPCcalibDButil::SmoothRelKalman(arrayTRD,*mstatTRD, 0, 5.); | |
501 | arrayTRDM= AliTPCcalibDButil::SmoothRelKalman(arrayTRD,*mstatTRD, 1, 5.); | |
502 | arrayTRDB= AliTPCcalibDButil::SmoothRelKalman(arrayTRDP,arrayTRDM); | |
503 | // | |
504 | // | |
505 | Int_t entries=TMath::Max(arrayITS->GetEntriesFast(),arrayTOF->GetEntriesFast()); | |
506 | TObjArray *arrays[12]={arrayITS, arrayITSP, arrayITSM, arrayITSB, | |
507 | arrayTRD, arrayTRDP, arrayTRDM, arrayTRDB, | |
508 | arrayTOF, arrayTOFP, arrayTOFM, arrayTOFB}; | |
509 | TString grnames[12]={"ALIGN_ITS", "ALIGN_ITSP", "ALIGN_ITSM", "ALIGN_ITSB", | |
510 | "ALIGN_TRD", "ALIGN_TRDP", "ALIGN_TRDM","ALIGN_TRDB", | |
511 | "ALIGN_TOF", "ALIGN_TOFP", "ALIGN_TOFM","ALIGN_TOFB"}; | |
512 | TString grpar[9]={"DELTAPSI", "DELTATHETA", "DELTAPHI", | |
513 | "DELTAX", "DELTAY", "DELTAZ", | |
514 | "DRIFTVD", "T0", "VDGY"}; | |
515 | ||
516 | ||
517 | TVectorD vX(entries); | |
518 | TVectorD vY(entries); | |
519 | TVectorD vEx(entries); | |
520 | TVectorD vEy(entries); | |
521 | TObjArray *arr=0; | |
522 | for (Int_t iarray=0; iarray<12; iarray++){ | |
523 | arr = arrays[iarray]; | |
524 | if (arr==0) continue; | |
525 | for (Int_t ipar=0; ipar<9; ipar++){ | |
526 | Int_t counter=0; | |
527 | for (Int_t itime=0; itime<arr->GetEntriesFast(); itime++){ | |
528 | AliRelAlignerKalman * kalman = (AliRelAlignerKalman *) arr->UncheckedAt(itime); | |
529 | if (!kalman) continue; | |
530 | vX[counter]=kalman->GetTimeStamp(); | |
531 | vY[counter]=(*(kalman->GetState()))[ipar]; | |
532 | if (ipar==6) vY[counter]=1./(*(kalman->GetState()))[ipar]-1; | |
533 | vEx[counter]=0; | |
534 | vEy[counter]=TMath::Sqrt((*(kalman->GetStateCov()))(ipar,ipar)); | |
535 | counter++; | |
536 | } | |
537 | ||
538 | TGraphErrors * graph=new TGraphErrors(counter, vX.GetMatrixArray(), | |
539 | vY.GetMatrixArray(), | |
540 | vEx.GetMatrixArray(), | |
541 | vEy.GetMatrixArray()); | |
542 | TString grName=grnames[iarray]; | |
543 | grName+="_TPC_"; | |
544 | grName+=grpar[ipar]; | |
545 | graph->SetName(grName.Data()); | |
546 | vdriftArray->AddLast(graph); | |
547 | } | |
548 | } | |
549 | } | |
550 | ||
551 | ||
552 | ||
553 | ||
554 | void AliTPCPreprocessorOffline::AddLaserGraphs( TObjArray * vdriftArray, AliTPCcalibTime *timeDrift){ | |
555 | // | |
556 | // add graphs for laser | |
557 | // | |
558 | const Double_t delayL0L1 = 0.071; //this is hack for 1/2 weeks | |
0bc13e06 | 559 | //THnSparse *hisN=0; |
da268e11 | 560 | TGraphErrors *grLaser[6]={0,0,0,0,0,0}; |
0bc13e06 | 561 | //hisN = timeDrift->GetHistVdriftLaserA(0); |
da268e11 | 562 | if (timeDrift->GetHistVdriftLaserA(0)){ |
563 | grLaser[0]=MakeGraphFilter0(timeDrift->GetHistVdriftLaserA(0),0,2,5,delayL0L1); | |
564 | grLaser[0]->SetName("GRAPH_MEAN_DELAY_LASER_ALL_A"); | |
565 | vdriftArray->AddLast(grLaser[0]); | |
566 | } | |
567 | if (timeDrift->GetHistVdriftLaserA(1)){ | |
568 | grLaser[1]=MakeGraphFilter0(timeDrift->GetHistVdriftLaserA(1),0,2,5); | |
569 | grLaser[1]->SetName("GRAPH_MEAN_DRIFT_LASER_ALL_A"); | |
570 | vdriftArray->AddLast(grLaser[1]); | |
571 | } | |
572 | if (timeDrift->GetHistVdriftLaserA(2)){ | |
573 | grLaser[2]=MakeGraphFilter0(timeDrift->GetHistVdriftLaserA(2),0,2,5); | |
574 | grLaser[2]->SetName("GRAPH_MEAN_GLOBALYGRADIENT_LASER_ALL_A"); | |
575 | vdriftArray->AddLast(grLaser[2]); | |
576 | } | |
577 | if (timeDrift->GetHistVdriftLaserC(0)){ | |
578 | grLaser[3]=MakeGraphFilter0(timeDrift->GetHistVdriftLaserC(0),0,2,5,delayL0L1); | |
579 | grLaser[3]->SetName("GRAPH_MEAN_DELAY_LASER_ALL_C"); | |
580 | vdriftArray->AddLast(grLaser[3]); | |
581 | } | |
582 | if (timeDrift->GetHistVdriftLaserC(1)){ | |
583 | grLaser[4]=MakeGraphFilter0(timeDrift->GetHistVdriftLaserC(1),0,2,5); | |
584 | grLaser[4]->SetName("GRAPH_MEAN_DRIFT_LASER_ALL_C"); | |
585 | vdriftArray->AddLast(grLaser[4]); | |
586 | } | |
587 | if (timeDrift->GetHistVdriftLaserC(2)){ | |
588 | grLaser[5]=MakeGraphFilter0(timeDrift->GetHistVdriftLaserC(2),0,2,5); | |
589 | grLaser[5]->SetName("GRAPH_MEAN_GLOBALYGRADIENT_LASER_ALL_C"); | |
590 | vdriftArray->AddLast(grLaser[5]); | |
591 | } | |
592 | for (Int_t i=0; i<6;i++){ | |
593 | if (grLaser[i]) { | |
594 | SetDefaultGraphDrift(grLaser[i], 1,(i+20)); | |
595 | grLaser[i]->GetYaxis()->SetTitle("Laser Correction"); | |
596 | } | |
597 | } | |
598 | } | |
599 | ||
600 | ||
601 | TGraphErrors * AliTPCPreprocessorOffline::MakeGraphFilter0(THnSparse *hisN, Int_t itime, Int_t ival, Int_t minEntries, Double_t offset){ | |
602 | // | |
603 | // Make graph with mean values and rms | |
604 | // | |
605 | hisN->GetAxis(itime)->SetRange(0,100000000); | |
606 | hisN->GetAxis(ival)->SetRange(0,100000000); | |
607 | TH1 * hisT = hisN->Projection(itime); | |
608 | TH1 * hisV = hisN->Projection(ival); | |
609 | // | |
610 | Int_t firstBinA = hisT->FindFirstBinAbove(2); | |
611 | Int_t lastBinA = hisT->FindLastBinAbove(2); | |
612 | Int_t firstBinV = hisV->FindFirstBinAbove(0); | |
613 | Int_t lastBinV = hisV->FindLastBinAbove(0); | |
614 | hisN->GetAxis(itime)->SetRange(firstBinA,lastBinA); | |
615 | hisN->GetAxis(ival)->SetRange(firstBinV,lastBinV); | |
616 | Int_t entries=0; | |
68d461b2 | 617 | for (Int_t ibin=firstBinA; ibin<=lastBinA; ibin++){ |
da268e11 | 618 | Double_t cont = hisT->GetBinContent(ibin); |
619 | if (cont<minEntries) continue; | |
620 | entries++; | |
621 | } | |
622 | TVectorD vecTime(entries); | |
623 | TVectorD vecMean0(entries); | |
624 | TVectorD vecRMS0(entries); | |
625 | TVectorD vecMean1(entries); | |
626 | TVectorD vecRMS1(entries); | |
627 | entries=0; | |
68d461b2 | 628 | for (Int_t ibin=firstBinA; ibin<=lastBinA; ibin++){ |
da268e11 | 629 | Double_t cont = hisT->GetBinContent(ibin); |
630 | if (cont<minEntries) continue; | |
68d461b2 | 631 | //hisN->GetAxis(itime)->SetRange(ibin-1,ibin+1); |
632 | Int_t minBin = ibin-1; | |
633 | Int_t maxBin = ibin+1; | |
634 | if(minBin <= 0) minBin = 1; | |
635 | if(maxBin >= hisN->GetAxis(itime)->GetNbins()) maxBin = hisN->GetAxis(itime)->GetNbins()-1; | |
636 | hisN->GetAxis(itime)->SetRange(minBin,maxBin); | |
637 | ||
da268e11 | 638 | Double_t time = hisT->GetBinCenter(ibin); |
639 | TH1 * his = hisN->Projection(ival); | |
640 | Double_t nentries0= his->GetBinContent(his->FindBin(0)); | |
641 | if (cont-nentries0<minEntries) continue; | |
642 | // | |
643 | his->SetBinContent(his->FindBin(0),0); | |
644 | vecTime[entries]=time; | |
645 | vecMean0[entries]=his->GetMean()+offset; | |
646 | vecMean1[entries]=his->GetMeanError(); | |
647 | vecRMS0[entries] =his->GetRMS(); | |
648 | vecRMS1[entries] =his->GetRMSError(); | |
649 | delete his; | |
650 | entries++; | |
68d461b2 | 651 | } |
da268e11 | 652 | delete hisT; |
653 | delete hisV; | |
654 | TGraphErrors * graph = new TGraphErrors(entries,vecTime.GetMatrixArray(), vecMean0.GetMatrixArray(), 0, vecMean1.GetMatrixArray()); | |
655 | return graph; | |
656 | } | |
657 | ||
658 | ||
659 | ||
660 | ||
661 | ||
662 | ||
663 | ||
664 | ||
665 | void AliTPCPreprocessorOffline::SetDefaultGraphDrift(TGraph *graph, Int_t color, Int_t style){ | |
666 | // | |
40120adc | 667 | // Set default style for QA views |
da268e11 | 668 | // |
669 | graph->GetXaxis()->SetTimeDisplay(kTRUE); | |
670 | graph->GetXaxis()->SetTimeFormat("#splitline{%d/%m}{%H:%M}"); | |
671 | graph->SetMaximum( 0.025); | |
672 | graph->SetMinimum(-0.025); | |
673 | graph->GetXaxis()->SetTitle("Time"); | |
674 | graph->GetYaxis()->SetTitle("v_{dcorr}"); | |
675 | // | |
676 | graph->GetYaxis()->SetLabelSize(0.03); | |
677 | graph->GetXaxis()->SetLabelSize(0.03); | |
678 | // | |
679 | graph->GetXaxis()->SetNdivisions(10,5,0); | |
680 | graph->GetYaxis()->SetNdivisions(10,5,0); | |
681 | // | |
682 | graph->GetXaxis()->SetLabelOffset(0.02); | |
683 | graph->GetYaxis()->SetLabelOffset(0.005); | |
684 | // | |
685 | graph->GetXaxis()->SetTitleOffset(1.3); | |
686 | graph->GetYaxis()->SetTitleOffset(1.2); | |
687 | // | |
688 | graph->SetMarkerColor(color); | |
689 | graph->SetLineColor(color); | |
690 | graph->SetMarkerStyle(style); | |
691 | } | |
692 | ||
693 | void AliTPCPreprocessorOffline::SetPadStyle(TPad *pad, Float_t mx0, Float_t mx1, Float_t my0, Float_t my1){ | |
40120adc | 694 | // |
695 | // Set default pad style for QA | |
696 | // | |
da268e11 | 697 | pad->SetTicks(1,1); |
698 | pad->SetMargin(mx0,mx1,my0,my1); | |
699 | } | |
700 | ||
701 | ||
68d461b2 | 702 | void AliTPCPreprocessorOffline::MakeDefaultPlots(TObjArray * const arr, TObjArray * /*picArray*/){ |
da268e11 | 703 | // |
40120adc | 704 | // 0. make a default QA plots |
705 | // 1. Store them in the array | |
da268e11 | 706 | // |
707 | // | |
da268e11 | 708 | Float_t mx0=0.12, mx1=0.1, my0=0.15, my1=0.1; |
709 | // | |
710 | TGraphErrors* laserA =(TGraphErrors*)arr->FindObject("GRAPH_MEAN_DRIFT_LASER_ALL_A"); | |
711 | TGraphErrors* laserC =(TGraphErrors*)arr->FindObject("GRAPH_MEAN_DRIFT_LASER_ALL_C"); | |
712 | TGraphErrors* cosmic =(TGraphErrors*)arr->FindObject("TGRAPHERRORS_MEAN_VDRIFT_COSMICS_ALL"); | |
713 | TGraphErrors* cross =(TGraphErrors*)arr->FindObject("TGRAPHERRORS_VDRIFT_CROSS_ALL"); | |
714 | TGraphErrors* itstpcP =(TGraphErrors*)arr->FindObject("ALIGN_ITSP_TPC_DRIFTVD"); | |
715 | TGraphErrors* itstpcM =(TGraphErrors*)arr->FindObject("ALIGN_ITSM_TPC_DRIFTVD"); | |
716 | TGraphErrors* itstpcB =(TGraphErrors*)arr->FindObject("ALIGN_ITSB_TPC_DRIFTVD"); | |
717 | // | |
718 | if (laserA) SetDefaultGraphDrift(laserA,2,25); | |
719 | if (laserC) SetDefaultGraphDrift(laserC,4,26); | |
720 | if (cosmic) SetDefaultGraphDrift(cosmic,3,27); | |
721 | if (cross) SetDefaultGraphDrift(cross,4,28); | |
722 | if (itstpcP) SetDefaultGraphDrift(itstpcP,2,29); | |
723 | if (itstpcM) SetDefaultGraphDrift(itstpcM,4,30); | |
724 | if (itstpcB) SetDefaultGraphDrift(itstpcB,1,31); | |
725 | // | |
726 | // | |
727 | TPad *pad=0; | |
728 | // | |
729 | // Laser-Laser | |
730 | // | |
731 | if (laserA&&laserC){ | |
732 | pad = new TCanvas("TPCLaserVDrift","TPCLaserVDrift"); | |
733 | laserA->Draw("alp"); | |
734 | SetPadStyle(pad,mx0,mx1,my0,my1); | |
735 | laserA->Draw("apl"); | |
736 | laserC->Draw("p"); | |
737 | TLegend *legend = new TLegend(mx0+0.01,1-my1-0.2, 0.5, 1-my1-0.01, "Drift velocity correction"); | |
738 | legend->AddEntry(laserA,"Laser A side"); | |
739 | legend->AddEntry(laserC,"Laser C side"); | |
740 | legend->Draw(); | |
68d461b2 | 741 | //picArray->AddLast(pad); |
da268e11 | 742 | } |
743 | ||
831e26ce | 744 | if (itstpcP&&itstpcM&&itstpcB){ |
da268e11 | 745 | pad = new TCanvas("ITSTPC","ITSTPC"); |
746 | itstpcP->Draw("alp"); | |
747 | SetPadStyle(pad,mx0,mx1,my0,my1); | |
748 | itstpcP->Draw("alp"); | |
749 | gPad->Clear(); | |
750 | itstpcM->Draw("apl"); | |
751 | itstpcP->Draw("p"); | |
752 | itstpcB->Draw("p"); | |
753 | TLegend *legend = new TLegend(mx0+0.01,1-my1-0.2, 0.5, 1-my1-0.01, "Drift velocity correction"); | |
754 | legend->AddEntry(itstpcP,"ITS-TPC smooth plus"); | |
755 | legend->AddEntry(itstpcM,"ITS-TPC smooth minus"); | |
756 | legend->AddEntry(itstpcB,"ITS-TPC smooth "); | |
757 | legend->Draw(); | |
68d461b2 | 758 | //picArray->AddLast(pad); |
da268e11 | 759 | } |
760 | ||
831e26ce | 761 | if (itstpcB&&laserA&&itstpcP&&itstpcM){ |
da268e11 | 762 | pad = new TCanvas("ITSTPC_LASER","ITSTPC_LASER"); |
763 | SetPadStyle(pad,mx0,mx1,my0,my1); | |
764 | laserA->Draw("alp"); | |
765 | itstpcP->Draw("p"); | |
766 | itstpcM->Draw("p"); | |
767 | itstpcB->Draw("p"); | |
768 | TLegend *legend = new TLegend(mx0+0.01,1-my1-0.2, 0.5, 1-my1-0.01, "Drift velocity correction"); | |
769 | legend->AddEntry(laserA,"TPC laser"); | |
770 | legend->AddEntry(itstpcP,"ITS-TPC smooth plus"); | |
771 | legend->AddEntry(itstpcM,"ITS-TPC smooth minus"); | |
772 | legend->AddEntry(itstpcB,"ITS-TPC smooth "); | |
773 | legend->Draw(); | |
68d461b2 | 774 | //picArray->AddLast(pad); |
da268e11 | 775 | } |
776 | ||
777 | if (itstpcP&&cross){ | |
778 | pad = new TCanvas("ITSTPC_CROSS","ITSTPC_CROSS"); | |
779 | SetPadStyle(pad,mx0,mx1,my0,my1); | |
780 | itstpcP->Draw("alp"); | |
781 | pad->Clear(); | |
782 | cross->Draw("ap"); | |
783 | itstpcP->Draw("p"); | |
784 | // | |
785 | TLegend *legend = new TLegend(mx0+0.01,1-my1-0.2, 0.5, 1-my1-0.01, "Drift velocity correction"); | |
786 | ||
787 | legend->AddEntry(cross,"TPC cross tracks"); | |
788 | legend->AddEntry(itstpcB,"ITS-TPC smooth"); | |
789 | legend->Draw(); | |
68d461b2 | 790 | //picArray->AddLast(pad); |
da268e11 | 791 | } |
792 | if (itstpcP&&cosmic){ | |
793 | pad = new TCanvas("ITSTPC_COSMIC","ITSTPC_COSMIC"); | |
794 | SetPadStyle(pad,mx0,mx1,my0,my1); | |
795 | itstpcP->Draw("alp"); | |
796 | pad->Clear(); | |
797 | cosmic->Draw("ap"); | |
798 | itstpcP->Draw("p"); | |
799 | // | |
800 | TLegend *legend = new TLegend(mx0+0.01,1-my1-0.2, 0.5, 1-my1-0.01, "Drift velocity correction"); | |
801 | ||
802 | legend->AddEntry(cosmic,"TPC cross tracks0 up-down"); | |
803 | legend->AddEntry(itstpcB,"ITS-TPC smooth"); | |
804 | legend->Draw(); | |
68d461b2 | 805 | //picArray->AddLast(pad); |
da268e11 | 806 | } |
807 | } | |
808 | ||
809 | ||
810 | ||
811 | ||
40120adc | 812 | void AliTPCPreprocessorOffline::CalibTimeGain(const Char_t* fileName, Int_t startRunNumber, Int_t endRunNumber, TString pocdbStorage){ |
da268e11 | 813 | // |
814 | // Update OCDB gain | |
815 | // | |
68d461b2 | 816 | if (pocdbStorage.Length()==0) pocdbStorage+="local://"+gSystem->GetFromPipe("pwd")+"/OCDB"; |
817 | ||
818 | // | |
819 | // 1. Read gain values | |
820 | // | |
da268e11 | 821 | ReadGainGlobal(fileName); |
68d461b2 | 822 | |
823 | // | |
824 | // 2. Extract calibration values | |
825 | // | |
da268e11 | 826 | AnalyzeGain(startRunNumber,endRunNumber, 1000,1.43); |
391ffdb2 | 827 | AnalyzeAttachment(startRunNumber,endRunNumber); |
56b51ad9 | 828 | AnalyzePadRegionGain(); |
6d64657a | 829 | AnalyzeGainMultiplicity(); |
68d461b2 | 830 | // |
831 | // 3. Make control plots | |
832 | // | |
833 | MakeQAPlot(1.43); | |
da268e11 | 834 | |
68d461b2 | 835 | // |
836 | // 4. validate OCDB entries | |
837 | // | |
838 | if(fSwitchOnValidation==kTRUE && ValidateTimeGain()==kFALSE) { | |
839 | Printf("TPC time gain OCDB parameters out of range!"); | |
840 | return; | |
841 | } | |
da268e11 | 842 | |
68d461b2 | 843 | // |
844 | // 5. Update OCDB | |
845 | // | |
846 | UpdateOCDBGain( startRunNumber, endRunNumber, pocdbStorage.Data()); | |
847 | } | |
da268e11 | 848 | |
40120adc | 849 | void AliTPCPreprocessorOffline::ReadGainGlobal(const Char_t* fileName){ |
da268e11 | 850 | // |
851 | // read calibration entries from file | |
852 | // | |
853 | TFile fcalib(fileName); | |
854 | TObjArray * array = (TObjArray*)fcalib.Get("TPCCalib"); | |
855 | if (array){ | |
856 | fGainMIP = ( AliTPCcalibTimeGain *)array->FindObject("calibTimeGain"); | |
857 | fGainCosmic = ( AliTPCcalibTimeGain *)array->FindObject("calibTimeGainCosmic"); | |
56b51ad9 | 858 | fGainMult = ( AliTPCcalibGainMult *)array->FindObject("calibGainMult"); |
da268e11 | 859 | }else{ |
860 | fGainMIP = ( AliTPCcalibTimeGain *)fcalib.Get("calibTimeGain"); | |
861 | fGainCosmic = ( AliTPCcalibTimeGain *)fcalib.Get("calibTimeGainCosmic"); | |
56b51ad9 | 862 | fGainMult = ( AliTPCcalibGainMult *)fcalib.Get("calibGainMult"); |
da268e11 | 863 | } |
f8d8b429 | 864 | if (!fGainMult){ |
865 | TFile fcalibMult("TPCMultObjects.root"); | |
866 | fGainMult = ( AliTPCcalibGainMult *)fcalibMult.Get("calibGainMult"); | |
867 | } | |
da268e11 | 868 | TH1 * hisT=0; |
869 | Int_t firstBinA =0, lastBinA=0; | |
870 | ||
871 | if (fGainCosmic){ | |
872 | hisT= fGainCosmic->GetHistGainTime()->Projection(1); | |
873 | firstBinA = hisT->FindFirstBinAbove(2); | |
874 | lastBinA = hisT->FindLastBinAbove(2); | |
875 | fGainCosmic->GetHistGainTime()->GetAxis(1)->SetRange(firstBinA,lastBinA); | |
876 | delete hisT; | |
877 | } | |
878 | ||
879 | if (fGainMIP){ | |
880 | hisT= fGainMIP->GetHistGainTime()->Projection(1); | |
881 | firstBinA = hisT->FindFirstBinAbove(2); | |
882 | lastBinA = hisT->FindLastBinAbove(2); | |
883 | fGainMIP->GetHistGainTime()->GetAxis(1)->SetRange(firstBinA,lastBinA); | |
884 | delete hisT; | |
885 | } | |
886 | ||
887 | } | |
888 | ||
889 | ||
890 | ||
891 | Bool_t AliTPCPreprocessorOffline::AnalyzeGain(Int_t startRunNumber, Int_t endRunNumber, Int_t minEntriesGaussFit, Float_t FPtoMIPratio){ | |
892 | // | |
40120adc | 893 | // Analyze gain - produce the calibration graphs |
da268e11 | 894 | // |
68d461b2 | 895 | |
da268e11 | 896 | // 1.) try to create MIP spline |
68d461b2 | 897 | if (fGainMIP) |
898 | { | |
899 | fGainMIP->GetHistGainTime()->GetAxis(5)->SetRangeUser(startRunNumber, endRunNumber); | |
900 | fGainMIP->GetHistGainTime()->GetAxis(2)->SetRangeUser(1.51,2.49); // only beam data | |
901 | fGainMIP->GetHistGainTime()->GetAxis(4)->SetRangeUser(0.39,0.51); // only MIP pions | |
902 | // | |
903 | fGraphMIP = AliTPCcalibBase::FitSlices(fGainMIP->GetHistGainTime(),0,1,minEntriesGaussFit,10,0.1,0.7); | |
904 | if (fGraphMIP->GetN()==0) fGraphMIP = 0x0; | |
905 | if (fGraphMIP) fFitMIP = AliTPCcalibTimeGain::MakeSplineFit(fGraphMIP); | |
906 | if (fGraphMIP) fGraphMIP->SetName("TGRAPHERRORS_MEAN_GAIN_BEAM_ALL");// set proper names according to naming convention | |
907 | fGainArray->AddAt(fFitMIP,0); | |
908 | } | |
da268e11 | 909 | |
910 | // 2.) try to create Cosmic spline | |
68d461b2 | 911 | if (fGainCosmic) |
912 | { | |
6c8b3862 | 913 | fGainCosmic->GetHistGainTime()->GetAxis(2)->SetRangeUser(0.51,1.49); // only cosmics |
914 | fGainCosmic->GetHistGainTime()->GetAxis(4)->SetRangeUser(20,100); // only Fermi-Plateau muons | |
915 | // | |
916 | fGraphCosmic = AliTPCcalibBase::FitSlices(fGainCosmic->GetHistGainTime(),0,1,minEntriesGaussFit,10); | |
917 | if (fGraphCosmic->GetN()==0) fGraphCosmic = 0x0; | |
918 | // | |
919 | if (fGraphCosmic) { | |
920 | for(Int_t i=0; i < fGraphCosmic->GetN(); i++) { | |
921 | fGraphCosmic->GetY()[i] /= FPtoMIPratio; | |
922 | fGraphCosmic->GetEY()[i] /= FPtoMIPratio; | |
923 | } | |
da268e11 | 924 | } |
6c8b3862 | 925 | // |
926 | if (fGraphCosmic) fFitCosmic = AliTPCcalibTimeGain::MakeSplineFit(fGraphCosmic); | |
927 | if (fGraphCosmic) fGraphCosmic->SetName("TGRAPHERRORS_MEAN_GAIN_COSMIC_ALL"); // set proper names according to naming convention | |
928 | fGainArray->AddAt(fFitCosmic,1); | |
da268e11 | 929 | } |
da268e11 | 930 | // with naming convention and backward compatibility |
931 | fGainArray->AddAt(fGraphMIP,2); | |
932 | fGainArray->AddAt(fGraphCosmic,3); | |
933 | cout << "fGraphCosmic: " << fGraphCosmic << " fGraphMIP " << fGraphMIP << endl; | |
934 | return kTRUE; | |
935 | ||
936 | } | |
937 | ||
391ffdb2 | 938 | Bool_t AliTPCPreprocessorOffline::AnalyzeAttachment(Int_t startRunNumber, Int_t endRunNumber, Int_t minEntriesFit) { |
939 | // | |
940 | // determine slope as a function of mean driftlength | |
941 | // | |
68d461b2 | 942 | if(!fGainMIP) return kFALSE; |
943 | ||
391ffdb2 | 944 | fGainMIP->GetHistGainTime()->GetAxis(5)->SetRangeUser(startRunNumber, endRunNumber); |
945 | // | |
946 | fGainMIP->GetHistGainTime()->GetAxis(2)->SetRangeUser(1.51,2.49); // only beam data | |
947 | fGainMIP->GetHistGainTime()->GetAxis(4)->SetRangeUser(0.39,0.51); // only MIP pions | |
948 | // | |
68d461b2 | 949 | fGainMIP->GetHistGainTime()->GetAxis(3)->SetRangeUser(125,250);// only full tracking region (driftlength) |
950 | fGainMIP->GetHistGainTime()->GetAxis(0)->SetRangeUser(1.5,3.5);// only full tracking region (driftlength) | |
951 | // | |
391ffdb2 | 952 | TH3D * hist = fGainMIP->GetHistGainTime()->Projection(1, 0, 3); |
953 | // | |
954 | Double_t *xvec = new Double_t[hist->GetNbinsX()]; | |
955 | Double_t *yvec = new Double_t[hist->GetNbinsX()]; | |
956 | Double_t *xerr = new Double_t[hist->GetNbinsX()]; | |
957 | Double_t *yerr = new Double_t[hist->GetNbinsX()]; | |
958 | Int_t counter = 0; | |
959 | // | |
960 | for(Int_t i=1; i < hist->GetNbinsX(); i++) { | |
961 | Int_t nsum=0; | |
962 | Int_t imin = i; | |
963 | Int_t imax = i; | |
68d461b2 | 964 | for (Int_t idelta=0; idelta<5; idelta++){ |
391ffdb2 | 965 | // |
966 | imin = TMath::Max(i-idelta,1); | |
967 | imax = TMath::Min(i+idelta,hist->GetNbinsX()); | |
968 | nsum = TMath::Nint(hist->Integral(imin,imax,1,hist->GetNbinsY()-1,1,hist->GetNbinsZ()-1)); | |
969 | //if (nsum==0) break; | |
970 | if (nsum>minEntriesFit) break; | |
971 | } | |
972 | if (nsum<minEntriesFit) continue; | |
973 | // | |
68d461b2 | 974 | fGainMIP->GetHistGainTime()->GetAxis(1)->SetRangeUser(hist->GetXaxis()->GetBinCenter(imin-1),hist->GetXaxis()->GetBinCenter(imax+1)); // define time range |
975 | TH2D * histZdep = fGainMIP->GetHistGainTime()->Projection(0,3); | |
976 | TObjArray arr; | |
977 | histZdep->FitSlicesY(0,0,-1,0,"QNR",&arr); | |
978 | TH1D * driftDep = (TH1D*)arr.At(1); | |
979 | delete histZdep; | |
980 | //TGraphErrors * driftDep = AliTPCcalibBase::FitSlices(fGainMIP->GetHistGainTime(),0,3,100,1,0.,1); | |
981 | /*if (driftDep->GetN() < 4) { | |
391ffdb2 | 982 | delete driftDep; |
68d461b2 | 983 | continue; |
984 | }*/ | |
391ffdb2 | 985 | // |
68d461b2 | 986 | //TObjArray arr; |
391ffdb2 | 987 | // |
68d461b2 | 988 | TF1 pol1("polynom1","pol1",125,240); |
391ffdb2 | 989 | //driftDep->Fit(&pol1,"QNRROB=0.8"); |
990 | driftDep->Fit(&pol1,"QNR"); | |
68d461b2 | 991 | xvec[counter] = 0.5*(hist->GetXaxis()->GetBinCenter(imin-1)+hist->GetXaxis()->GetBinCenter(imax+1)); |
391ffdb2 | 992 | yvec[counter] = pol1.GetParameter(1)/pol1.GetParameter(0); |
68d461b2 | 993 | xerr[counter] = hist->GetXaxis()->GetBinCenter(imax+1)-hist->GetXaxis()->GetBinCenter(imin-1); |
391ffdb2 | 994 | yerr[counter] = pol1.GetParError(1)/pol1.GetParameter(0); |
995 | counter++; | |
996 | // | |
68d461b2 | 997 | //delete driftDep; |
391ffdb2 | 998 | } |
999 | // | |
1000 | fGraphAttachmentMIP = new TGraphErrors(counter, xvec, yvec, xerr, yerr); | |
1001 | if (fGraphAttachmentMIP) fGraphAttachmentMIP->SetName("TGRAPHERRORS_MEAN_ATTACHMENT_BEAM_ALL");// set proper names according to naming convention | |
1002 | fGainArray->AddLast(fGraphAttachmentMIP); | |
1003 | // | |
1004 | delete [] xvec; | |
1005 | delete [] yvec; | |
1006 | delete [] xerr; | |
1007 | delete [] yerr; | |
1008 | delete hist; | |
1009 | // | |
1010 | if (counter < 1) return kFALSE; | |
1011 | return kTRUE; | |
391ffdb2 | 1012 | |
68d461b2 | 1013 | } |
391ffdb2 | 1014 | |
da268e11 | 1015 | |
56b51ad9 | 1016 | Bool_t AliTPCPreprocessorOffline::AnalyzePadRegionGain(){ |
1017 | // | |
1018 | // Analyze gain for different pad regions - produce the calibration graphs 0,1,2 | |
1019 | // | |
1020 | if (fGainMult) | |
1021 | { | |
1022 | TH2D * histQmax = (TH2D*) fGainMult->GetHistPadEqual()->Projection(0,2); | |
1023 | TH2D * histQtot = (TH2D*) fGainMult->GetHistPadEqual()->Projection(1,2); | |
1024 | // | |
1025 | TObjArray arr; | |
1026 | histQmax->FitSlicesY(0,0,-1,0,"QNR",&arr); | |
1027 | Double_t xMax[3] = {0,1,2}; | |
1028 | Double_t yMax[3] = {((TH1D*)arr.At(1))->GetBinContent(1), | |
1029 | ((TH1D*)arr.At(1))->GetBinContent(2), | |
1030 | ((TH1D*)arr.At(1))->GetBinContent(3)}; | |
1031 | Double_t yMaxErr[3] = {((TH1D*)arr.At(1))->GetBinError(1), | |
1032 | ((TH1D*)arr.At(1))->GetBinError(2), | |
1033 | ((TH1D*)arr.At(1))->GetBinError(3)}; | |
1034 | TGraphErrors * fitPadRegionQmax = new TGraphErrors(3, xMax, yMax, 0, yMaxErr); | |
1035 | // | |
1036 | histQtot->FitSlicesY(0,0,-1,0,"QNR",&arr); | |
1037 | Double_t xTot[3] = {0,1,2}; | |
1038 | Double_t yTot[3] = {((TH1D*)arr.At(1))->GetBinContent(1), | |
1039 | ((TH1D*)arr.At(1))->GetBinContent(2), | |
1040 | ((TH1D*)arr.At(1))->GetBinContent(3)}; | |
1041 | Double_t yTotErr[3] = {((TH1D*)arr.At(1))->GetBinError(1), | |
1042 | ((TH1D*)arr.At(1))->GetBinError(2), | |
1043 | ((TH1D*)arr.At(1))->GetBinError(3)}; | |
1044 | TGraphErrors * fitPadRegionQtot = new TGraphErrors(3, xTot, yTot, 0, yTotErr); | |
1045 | // | |
1046 | fitPadRegionQtot->SetName("TGRAPHERRORS_MEANQTOT_PADREGIONGAIN_BEAM_ALL");// set proper names according to naming convention | |
1047 | fitPadRegionQmax->SetName("TGRAPHERRORS_MEANQMAX_PADREGIONGAIN_BEAM_ALL");// set proper names according to naming convention | |
1048 | // | |
1049 | fGainArray->AddLast(fitPadRegionQtot); | |
1050 | fGainArray->AddLast(fitPadRegionQmax); | |
1051 | return kTRUE; | |
1052 | } | |
1053 | return kFALSE; | |
1054 | ||
1055 | } | |
1056 | ||
1057 | ||
6d64657a | 1058 | Bool_t AliTPCPreprocessorOffline::AnalyzeGainMultiplicity() { |
1059 | // | |
1060 | // Analyze gain as a function of multiplicity and produce calibration graphs | |
1061 | // | |
1062 | if (!fGainMult) return kFALSE; | |
1063 | fGainMult->GetHistGainMult()->GetAxis(3)->SetRangeUser(3,3); | |
1064 | TH2D * histMultMax = fGainMult->GetHistGainMult()->Projection(0,4); | |
1065 | TH2D * histMultTot = fGainMult->GetHistGainMult()->Projection(1,4); | |
1066 | histMultMax->RebinX(4); | |
1067 | histMultTot->RebinX(4); | |
1068 | // | |
1069 | TObjArray arrMax; | |
1070 | TObjArray arrTot; | |
1071 | histMultMax->FitSlicesY(0,0,-1,0,"QNR",&arrMax); | |
1072 | histMultTot->FitSlicesY(0,0,-1,0,"QNR",&arrTot); | |
1073 | // | |
1074 | TH1D * meanMax = (TH1D*)arrMax.At(1); | |
1075 | TH1D * meanTot = (TH1D*)arrTot.At(1); | |
1076 | Float_t meanMult = histMultMax->GetMean(); | |
f8d8b429 | 1077 | if(meanMax->GetBinContent(meanMax->FindBin(meanMult))) { |
1078 | meanMax->Scale(1./meanMax->GetBinContent(meanMax->FindBin(meanMult))); | |
1079 | } | |
1080 | else { | |
1081 | return kFALSE; | |
1082 | } | |
1083 | if(meanTot->GetBinContent(meanTot->FindBin(meanMult))) { | |
1084 | meanTot->Scale(1./meanTot->GetBinContent(meanTot->FindBin(meanMult))); | |
1085 | } | |
1086 | else { | |
1087 | return kFALSE; | |
1088 | } | |
6d64657a | 1089 | Float_t xMultMax[50]; |
1090 | Float_t yMultMax[50]; | |
1091 | Float_t yMultErrMax[50]; | |
1092 | Float_t xMultTot[50]; | |
1093 | Float_t yMultTot[50]; | |
1094 | Float_t yMultErrTot[50]; | |
1095 | // | |
1096 | Int_t nCountMax = 0; | |
1097 | for(Int_t iBin = 1; iBin < meanMax->GetXaxis()->GetNbins(); iBin++) { | |
1098 | Float_t yValMax = meanMax->GetBinContent(iBin); | |
b5547fe4 | 1099 | if (yValMax < 0.7) continue; |
1100 | if (yValMax > 1.3) continue; | |
6d64657a | 1101 | if (meanMax->GetBinError(iBin)/yValMax > 0.01) continue; |
1102 | xMultMax[nCountMax] = meanMax->GetXaxis()->GetBinCenter(iBin); | |
1103 | yMultMax[nCountMax] = yValMax; | |
1104 | yMultErrMax[nCountMax] = meanMax->GetBinError(iBin); | |
1105 | nCountMax++; | |
1106 | } | |
1107 | // | |
1108 | if (nCountMax < 10) return kFALSE; | |
1109 | TGraphErrors * fitMultMax = new TGraphErrors(nCountMax, xMultMax, yMultMax, 0, yMultErrMax); | |
1110 | fitMultMax->SetName("TGRAPHERRORS_MEANQMAX_MULTIPLICITYDEPENDENCE_BEAM_ALL"); | |
1111 | // | |
1112 | Int_t nCountTot = 0; | |
1113 | for(Int_t iBin = 1; iBin < meanTot->GetXaxis()->GetNbins(); iBin++) { | |
1114 | Float_t yValTot = meanTot->GetBinContent(iBin); | |
3dcbe287 | 1115 | if (yValTot < 0.7) continue; |
1116 | if (yValTot > 1.3) continue; | |
6d64657a | 1117 | if (meanTot->GetBinError(iBin)/yValTot > 0.1) continue; |
1118 | xMultTot[nCountTot] = meanTot->GetXaxis()->GetBinCenter(iBin); | |
1119 | yMultTot[nCountTot] = yValTot; | |
1120 | yMultErrTot[nCountTot] = meanTot->GetBinError(iBin); | |
1121 | nCountTot++; | |
1122 | } | |
1123 | // | |
1124 | if (nCountTot < 10) return kFALSE; | |
1125 | TGraphErrors * fitMultTot = new TGraphErrors(nCountTot, xMultTot, yMultTot, 0, yMultErrTot); | |
1126 | fitMultTot->SetName("TGRAPHERRORS_MEANQTOT_MULTIPLICITYDEPENDENCE_BEAM_ALL"); | |
1127 | // | |
1128 | fGainArray->AddLast(fitMultMax); | |
1129 | fGainArray->AddLast(fitMultTot); | |
1130 | // | |
1131 | return kTRUE; | |
1132 | ||
1133 | } | |
1134 | ||
1135 | ||
da268e11 | 1136 | void AliTPCPreprocessorOffline::UpdateOCDBGain(Int_t startRunNumber, Int_t endRunNumber, const Char_t *storagePath){ |
1137 | // | |
1138 | // Update OCDB entry | |
1139 | // | |
1140 | AliCDBMetaData *metaData= new AliCDBMetaData(); | |
1141 | metaData->SetObjectClassName("TObjArray"); | |
1142 | metaData->SetResponsible("Alexander Kalweit"); | |
1143 | metaData->SetBeamPeriod(1); | |
1144 | metaData->SetAliRootVersion("05-24-00"); //root version | |
1145 | metaData->SetComment("Calibration of the time dependence of the gain due to pressure and temperature changes."); | |
1146 | AliCDBId id1("TPC/Calib/TimeGain", startRunNumber, endRunNumber); | |
1147 | AliCDBStorage * gStorage = AliCDBManager::Instance()->GetStorage(storagePath); | |
1148 | gStorage->Put(fGainArray, id1, metaData); | |
1149 | } | |
1150 | ||
1151 | void AliTPCPreprocessorOffline::MakeQAPlot(Float_t FPtoMIPratio) { | |
1152 | // | |
1153 | // Make QA plot to visualize results | |
1154 | // | |
1155 | // | |
1156 | // | |
1157 | if (fGraphCosmic) { | |
1158 | TCanvas * canvasCosmic = new TCanvas("gain Cosmic", "time dependent gain QA histogram cosmic"); | |
1159 | canvasCosmic->cd(); | |
1160 | TH2D * gainHistoCosmic = fGainCosmic->GetHistGainTime()->Projection(0,1); | |
1161 | gainHistoCosmic->SetDirectory(0); | |
1162 | gainHistoCosmic->SetName("GainHistoCosmic"); | |
1163 | gainHistoCosmic->GetXaxis()->SetTimeDisplay(kTRUE); | |
1164 | gainHistoCosmic->GetXaxis()->SetTimeFormat("#splitline{%d/%m}{%H:%M}"); | |
1165 | gainHistoCosmic->Draw("colz"); | |
1166 | fGraphCosmic->SetMarkerStyle(25); | |
1167 | fGraphCosmic->Draw("lp"); | |
1168 | fGraphCosmic->SetMarkerStyle(25); | |
1169 | TGraph * grfFitCosmic = fFitCosmic->MakeGraph(fGraphCosmic->GetX()[0],fGraphCosmic->GetX()[fGraphCosmic->GetN()-1],50000,0); | |
1170 | if (grfFitCosmic) { | |
1171 | for(Int_t i=0; i < grfFitCosmic->GetN(); i++) { | |
1172 | grfFitCosmic->GetY()[i] *= FPtoMIPratio; | |
1173 | } | |
1174 | for(Int_t i=0; i < fGraphCosmic->GetN(); i++) { | |
1175 | fGraphCosmic->GetY()[i] *= FPtoMIPratio; | |
1176 | } | |
1177 | } | |
0bc13e06 | 1178 | fGraphCosmic->Draw("lp"); |
1179 | if (grfFitCosmic) { | |
1180 | grfFitCosmic->SetLineColor(2); | |
1181 | grfFitCosmic->Draw("lu"); | |
1182 | } | |
56b51ad9 | 1183 | fGainArray->AddLast(gainHistoCosmic); |
1184 | //fGainArray->AddLast(canvasCosmic->Clone()); | |
1185 | delete canvasCosmic; | |
da268e11 | 1186 | } |
1187 | if (fFitMIP) { | |
1188 | TCanvas * canvasMIP = new TCanvas("gain MIP", "time dependent gain QA histogram MIP"); | |
1189 | canvasMIP->cd(); | |
1190 | TH2D * gainHistoMIP = fGainMIP->GetHistGainTime()->Projection(0,1); | |
1191 | gainHistoMIP->SetName("GainHistoCosmic"); | |
1192 | gainHistoMIP->SetDirectory(0); | |
1193 | gainHistoMIP->GetXaxis()->SetTimeDisplay(kTRUE); | |
1194 | gainHistoMIP->GetXaxis()->SetTimeFormat("#splitline{%d/%m}{%H:%M}"); | |
1195 | gainHistoMIP->Draw("colz"); | |
1196 | fGraphMIP->SetMarkerStyle(25); | |
1197 | fGraphMIP->Draw("lp"); | |
1198 | TGraph * grfFitMIP = fFitMIP->MakeGraph(fGraphMIP->GetX()[0],fGraphMIP->GetX()[fGraphMIP->GetN()-1],50000,0); | |
1199 | grfFitMIP->SetLineColor(2); | |
1200 | grfFitMIP->Draw("lu"); | |
1201 | fGainArray->AddLast(gainHistoMIP); | |
68d461b2 | 1202 | //fGainArray->AddLast(canvasMIP->Clone()); |
da268e11 | 1203 | delete canvasMIP; |
1204 | } | |
1205 | } | |
1206 | ||
f3023796 | 1207 | void AliTPCPreprocessorOffline::MakeFitTime(){ |
1208 | // | |
1209 | // mak aligment fit - store results in the file | |
1210 | // | |
1211 | const Int_t kMinEntries=1000; | |
1212 | MakeChainTime(); | |
1213 | MakePrimitivesTime(); | |
1214 | if (!fAlignTree) return; | |
1215 | if (fAlignTree->GetEntries()<kMinEntries) return; | |
1216 | fAlignTree->SetAlias("ptype","type"); | |
1217 | fAlignTree->SetAlias("hasITS","(1+0)"); | |
1218 | fAlignTree->SetAlias("dITS","1-2*(refX<40)"); | |
1219 | fAlignTree->SetAlias("isITS","refX>10"); | |
1220 | fAlignTree->SetAlias("isVertex","refX<10"); | |
1221 | // | |
1222 | Int_t npointsMax=30000000; | |
1223 | TStatToolkit toolkit; | |
1224 | Double_t chi2=0; | |
1225 | Int_t npoints=0; | |
1226 | TVectorD param; | |
1227 | TMatrixD covar; | |
1228 | ||
1229 | TString fstringFast=""; | |
1230 | fstringFast+="FExBTwistX++"; | |
1231 | fstringFast+="FExBTwistY++"; | |
1232 | fstringFast+="FAlignRot0D++"; | |
1233 | fstringFast+="FAlignTrans0D++"; | |
1234 | fstringFast+="FAlignTrans1D++"; | |
1235 | // | |
1236 | fstringFast+="hasITS*FAlignTrans0++"; | |
1237 | fstringFast+="hasITS*FAlignTrans1++"; | |
1238 | fstringFast+="hasITS*FAlignRot0++"; | |
1239 | fstringFast+="hasITS*FAlignRot1++"; | |
1240 | fstringFast+="hasITS*FAlignRot2++"; | |
1241 | // | |
1242 | fstringFast+="dITS*FAlignTrans0++"; | |
1243 | fstringFast+="dITS*FAlignTrans1++"; | |
1244 | fstringFast+="dITS*FAlignRot0++"; | |
1245 | fstringFast+="dITS*FAlignRot1++"; | |
1246 | fstringFast+="dITS*FAlignRot2++"; | |
1247 | ||
1248 | TCut cutFit="entries>10&&abs(mean)>0.00001"; | |
1249 | fAlignTree->SetAlias("err","rms"); | |
1250 | ||
1251 | TString *strDeltaITS = TStatToolkit::FitPlaneConstrain(fAlignTree,"mean:err", fstringFast.Data(),cutFit, chi2,npoints,param,covar,-1,0, npointsMax, 1); | |
1252 | strDeltaITS->Tokenize("++")->Print(); | |
1253 | fAlignTree->SetAlias("fitYFast",strDeltaITS->Data()); | |
1254 | // | |
1255 | TVectorD paramC= param; | |
1256 | TMatrixD covarC= covar; | |
1257 | TStatToolkit::Constrain1D(fstringFast,"Trans0D",paramC,covarC,0, 0.1); | |
1258 | TStatToolkit::Constrain1D(fstringFast,"Trans1D",paramC,covarC,0, 0.1); | |
1259 | TStatToolkit::Constrain1D(fstringFast,"TwistX",paramC,covarC,0, 0.1); | |
1260 | TStatToolkit::Constrain1D(fstringFast,"TwistY",paramC,covarC,0, 0.1); | |
1261 | TString strFitConst=TStatToolkit::MakeFitString(fstringFast, paramC,covar); | |
1262 | fAlignTree->SetAlias("fitYFastC",strFitConst.Data()); | |
1263 | CreateAlignTime(fstringFast,paramC); | |
1264 | ||
1265 | ||
1266 | } | |
1267 | ||
1268 | ||
1269 | void AliTPCPreprocessorOffline::MakeChainTime(){ | |
1270 | // | |
3dcbe287 | 1271 | TFile f("CalibObjects.root"); |
f3023796 | 1272 | // const char *cdtype[7]={"ITS","TRD","Vertex","TOF","TPC","TPC0","TPC1"}; |
1273 | //const char *cptype[5]={"dy","dz","dsnp","dtheta","d1pt"}; | |
1274 | const char * hname[5]={"dy","dz","dsnp","dtheta","d1pt"}; | |
1275 | Int_t run=0; | |
1276 | AliTPCcalibTime *calibTime= (AliTPCcalibTime*) f.Get("calibTime"); | |
1277 | if (!calibTime) return; | |
1278 | TTreeSRedirector *pcstream = new TTreeSRedirector("meanITSVertex.root"); | |
0bc13e06 | 1279 | // |
f3023796 | 1280 | Int_t ihis=0; |
1281 | THnSparse *his = calibTime->GetResHistoTPCITS(ihis); | |
1282 | if (his){ | |
1283 | his->GetAxis(1)->SetRangeUser(-1.1,1.1); | |
1284 | his->GetAxis(2)->SetRange(0,1000000); | |
1285 | his->GetAxis(3)->SetRangeUser(-0.35,0.35); | |
1286 | AliTPCCorrection::MakeDistortionMap(his,pcstream, Form("ITS%s",hname[ihis]),run,85.,ihis,5); | |
1287 | } | |
0bc13e06 | 1288 | ihis=1; |
1289 | his = calibTime->GetResHistoTPCITS(ihis); | |
1290 | if (his){ | |
1291 | his->GetAxis(1)->SetRangeUser(-1.1,1.1); | |
1292 | his->GetAxis(2)->SetRange(0,1000000); | |
1293 | his->GetAxis(3)->SetRangeUser(-0.35,0.35); | |
1294 | AliTPCCorrection::MakeDistortionMap(his,pcstream, Form("ITS%s",hname[ihis]),run,85.,ihis,5); | |
1295 | } | |
f3023796 | 1296 | ihis=2; |
1297 | his = calibTime->GetResHistoTPCITS(ihis); | |
1298 | if (his){ | |
1299 | his->GetAxis(1)->SetRangeUser(-1.1,1.1); | |
1300 | his->GetAxis(2)->SetRange(0,1000000); | |
1301 | his->GetAxis(3)->SetRangeUser(-0.35,0.35); | |
1302 | AliTPCCorrection::MakeDistortionMap(his,pcstream, Form("ITS%s",hname[ihis]),run,85.,ihis,5); | |
1303 | } | |
1304 | ihis=0; | |
1305 | his = calibTime->GetResHistoTPCvertex(ihis); | |
1306 | if (his){ | |
1307 | his->GetAxis(1)->SetRangeUser(-1.1,1.1); | |
1308 | his->GetAxis(2)->SetRange(0,1000000); | |
1309 | his->GetAxis(3)->SetRangeUser(-0.35,0.35); | |
1310 | AliTPCCorrection::MakeDistortionMap(his,pcstream, Form("Vertex%s",hname[ihis]),run,0.,ihis,5); | |
1311 | } | |
1312 | ihis=2; | |
1313 | his = calibTime->GetResHistoTPCvertex(ihis); | |
1314 | if (his){ | |
1315 | his->GetAxis(1)->SetRangeUser(-1.1,1.1); | |
1316 | his->GetAxis(2)->SetRange(0,1000000); | |
1317 | his->GetAxis(3)->SetRangeUser(-0.35,0.35); | |
1318 | AliTPCCorrection::MakeDistortionMap(his,pcstream, Form("Vertex%s",hname[ihis]),run,0.,ihis,5); | |
1319 | ||
0bc13e06 | 1320 | } |
1321 | ihis=1; | |
1322 | his = calibTime->GetResHistoTPCvertex(ihis); | |
1323 | if (his){ | |
1324 | his->GetAxis(1)->SetRangeUser(-1.1,1.1); | |
1325 | his->GetAxis(2)->SetRange(0,1000000); | |
1326 | his->GetAxis(3)->SetRangeUser(-0.35,0.35); | |
1327 | AliTPCCorrection::MakeDistortionMap(his,pcstream, Form("Vertex%s",hname[ihis]),run,0.,ihis,5); | |
1328 | ||
1329 | } | |
1330 | ihis=0; | |
1331 | his = calibTime->GetResHistoTPCTOF(ihis); | |
1332 | if (his){ | |
1333 | his->GetAxis(1)->SetRangeUser(-1.1,1.1); | |
1334 | his->GetAxis(2)->SetRange(0,1000000); | |
1335 | his->GetAxis(3)->SetRangeUser(-0.35,0.35); | |
1336 | AliTPCCorrection::MakeDistortionMap(his,pcstream, Form("TOF%s",hname[ihis]),run,0.,ihis,10); | |
1337 | ||
1338 | } | |
1339 | ihis=0; | |
1340 | his = calibTime->GetResHistoTPCTRD(ihis); | |
1341 | if (his){ | |
1342 | his->GetAxis(1)->SetRangeUser(-1.1,1.1); | |
1343 | his->GetAxis(2)->SetRange(0,1000000); | |
1344 | his->GetAxis(3)->SetRangeUser(-0.35,0.35); | |
1345 | AliTPCCorrection::MakeDistortionMap(his,pcstream, Form("TRD%s",hname[ihis]),run,0.,ihis,10); | |
1346 | ||
f3023796 | 1347 | } |
1348 | delete pcstream; | |
1349 | } | |
1350 | ||
1351 | ||
1352 | Double_t AliTPCPreprocessorOffline::EvalAt(Double_t phi, Double_t refX, Double_t theta, Int_t corr, Int_t ptype){ | |
1353 | // | |
1354 | // | |
1355 | // | |
1356 | Double_t sector = 9*phi/TMath::Pi(); | |
1357 | if (sector<0) sector+=18; | |
1358 | Double_t y85=AliTPCCorrection::GetCorrSector(sector,85,theta,1,corr); | |
1359 | Double_t y245=AliTPCCorrection::GetCorrSector(sector,245,theta,1,corr); | |
1360 | if (ptype==0) return y85+(y245-y85)*(refX-85.)/(245.-85.); | |
1361 | if (ptype==2) return (y245-y85)/(245.-85.); | |
1362 | return 0; | |
1363 | } | |
1364 | ||
1365 | ||
1366 | ||
1367 | void AliTPCPreprocessorOffline::MakePrimitivesTime(){ | |
1368 | // | |
1369 | // Create primitive transformation to fit | |
1370 | // | |
1371 | fAlignTree=new TChain("fit","fit"); | |
1372 | fAlignTree->AddFile("meanITSVertex.root",10000000,"ITSdy"); | |
1373 | fAlignTree->AddFile("meanITSVertex.root",10000000,"ITSdsnp"); | |
1374 | fAlignTree->AddFile("meanITSVertex.root",10000000,"Vertexdy"); | |
1375 | fAlignTree->AddFile("meanITSVertex.root",10000000,"Vertexdsnp"); | |
1376 | // | |
1377 | AliTPCParam *param= AliTPCcalibDB::Instance()->GetParameters(); | |
1378 | Double_t bzField=AliTrackerBase::GetBz(); | |
1379 | Double_t vdrift = param->GetDriftV()/1000000.; // [cm/us] // From dataBase: to be updated: per second (ideally) | |
1380 | Double_t ezField = 400; // [V/cm] // to be updated: never (hopefully) | |
1381 | Double_t wtP = -10.0 * (bzField) * vdrift / ezField ; | |
1382 | AliTPCExBTwist *fitExBTwistX= new AliTPCExBTwist; | |
1383 | AliTPCExBTwist *fitExBTwistY= new AliTPCExBTwist; | |
1384 | AliTPCCalibGlobalMisalignment *trans0 =new AliTPCCalibGlobalMisalignment; | |
1385 | AliTPCCalibGlobalMisalignment *trans1 =new AliTPCCalibGlobalMisalignment; | |
1386 | AliTPCCalibGlobalMisalignment *trans0D =new AliTPCCalibGlobalMisalignment; | |
1387 | AliTPCCalibGlobalMisalignment *trans1D =new AliTPCCalibGlobalMisalignment; | |
1388 | AliTPCCalibGlobalMisalignment *rot0 =new AliTPCCalibGlobalMisalignment; | |
1389 | AliTPCCalibGlobalMisalignment *rot1 =new AliTPCCalibGlobalMisalignment; | |
1390 | AliTPCCalibGlobalMisalignment *rot2 =new AliTPCCalibGlobalMisalignment; | |
1391 | AliTPCCalibGlobalMisalignment *rot3 =new AliTPCCalibGlobalMisalignment; | |
1392 | // | |
1393 | // | |
1394 | fitExBTwistX->SetXTwist(0.001); | |
1395 | fitExBTwistX->SetOmegaTauT1T2(wtP,1,1); | |
1396 | // | |
1397 | fitExBTwistY->SetYTwist(0.001); | |
1398 | fitExBTwistY->SetOmegaTauT1T2(wtP,1,1); | |
1399 | // | |
1400 | TGeoHMatrix *matrixRot = new TGeoHMatrix; | |
1401 | TGeoHMatrix *matrixX = new TGeoHMatrix; | |
1402 | TGeoHMatrix *matrixY = new TGeoHMatrix; | |
1403 | matrixX->SetDx(0.1); | |
1404 | matrixY->SetDy(0.1); | |
1405 | Double_t rotAngles0[9]={0}; | |
1406 | Double_t rotAngles1[9]={0}; | |
1407 | Double_t rotAngles2[9]={0}; | |
1408 | // | |
1409 | Double_t rotAngles3[9]={0}; | |
1410 | ||
1411 | rotAngles0[0]=1; rotAngles0[4]=1; rotAngles0[8]=1; | |
1412 | rotAngles1[0]=1; rotAngles1[4]=1; rotAngles1[8]=1; | |
1413 | rotAngles2[0]=1; rotAngles2[4]=1; rotAngles2[8]=1; | |
1414 | rotAngles3[0]=1; rotAngles3[4]=1; rotAngles3[8]=1; | |
1415 | ||
1416 | rotAngles0[1]=-0.001;rotAngles0[3]=0.001; | |
1417 | rotAngles1[5]=-0.001;rotAngles1[7]=0.001; | |
1418 | rotAngles2[2]=0.001;rotAngles2[6]=-0.001; | |
1419 | rotAngles3[1]=0.001;rotAngles3[3]=-0.001; | |
1420 | matrixRot->SetRotation(rotAngles0); | |
1421 | rot0->SetAlignGlobal(matrixRot); | |
1422 | matrixRot->SetRotation(rotAngles1); | |
1423 | rot1->SetAlignGlobal(matrixRot); | |
1424 | matrixRot->SetRotation(rotAngles2); | |
1425 | rot2->SetAlignGlobal(matrixRot); | |
1426 | matrixRot->SetRotation(rotAngles3); | |
1427 | rot3->SetAlignGlobalDelta(matrixRot); | |
1428 | // | |
1429 | trans0->SetAlignGlobal(matrixX); | |
1430 | trans1->SetAlignGlobal(matrixY); | |
1431 | trans0D->SetAlignGlobalDelta(matrixX); | |
1432 | trans1D->SetAlignGlobalDelta(matrixY); | |
1433 | fitExBTwistX->Init(); | |
1434 | fitExBTwistY->Init(); | |
1435 | // | |
1436 | fitExBTwistX->AddVisualCorrection((AliTPCExBTwist*)(fitExBTwistX->Clone()),100); | |
1437 | fitExBTwistY->AddVisualCorrection((AliTPCExBTwist*)(fitExBTwistY->Clone()),101); | |
1438 | // | |
1439 | fitExBTwistX->AddVisualCorrection((AliTPCExBTwist*)(rot0->Clone()),102); | |
1440 | fitExBTwistY->AddVisualCorrection((AliTPCExBTwist*)(rot1->Clone()),103); | |
1441 | fitExBTwistX->AddVisualCorrection((AliTPCExBTwist*)(rot2->Clone()),104); | |
1442 | fitExBTwistX->AddVisualCorrection((AliTPCExBTwist*)(rot3->Clone()),105); | |
1443 | ||
1444 | fitExBTwistX->AddVisualCorrection((AliTPCExBTwist*)(trans0->Clone()),106); | |
1445 | fitExBTwistX->AddVisualCorrection((AliTPCExBTwist*)(trans1->Clone()),107); | |
1446 | fitExBTwistX->AddVisualCorrection((AliTPCExBTwist*)(trans0D->Clone()),108); | |
1447 | fitExBTwistX->AddVisualCorrection((AliTPCExBTwist*)(trans1D->Clone()),109); | |
1448 | // | |
1449 | fAlignTree->SetAlias("FExBTwistX", "AliTPCPreprocessorOffline::EvalAt(phi,refX,theta,100,ptype)+0"); | |
1450 | fAlignTree->SetAlias("FExBTwistY","AliTPCPreprocessorOffline::EvalAt(phi,refX,theta,101,ptype)+0"); | |
1451 | fAlignTree->SetAlias("FAlignRot0","AliTPCPreprocessorOffline::EvalAt(phi,refX,theta,102,ptype)+0"); | |
1452 | fAlignTree->SetAlias("FAlignRot0D","AliTPCPreprocessorOffline::EvalAt(phi,refX,theta,105,ptype)+0"); | |
1453 | fAlignTree->SetAlias("FAlignRot1","AliTPCPreprocessorOffline::EvalAt(phi,refX,theta,103,ptype)+0"); | |
1454 | fAlignTree->SetAlias("FAlignRot2","AliTPCPreprocessorOffline::EvalAt(phi,refX,theta,104,ptype)+0"); | |
1455 | fAlignTree->SetAlias("FAlignTrans0","AliTPCPreprocessorOffline::EvalAt(phi,refX,theta,106,ptype)+0"); | |
1456 | fAlignTree->SetAlias("FAlignTrans1","AliTPCPreprocessorOffline::EvalAt(phi,refX,theta,107,ptype)+0"); | |
1457 | fAlignTree->SetAlias("FAlignTrans0D","AliTPCPreprocessorOffline::EvalAt(phi,refX,theta,108,ptype)+0"); | |
1458 | fAlignTree->SetAlias("FAlignTrans1D","AliTPCPreprocessorOffline::EvalAt(phi,refX,theta,109,ptype)+0"); | |
1459 | // | |
1460 | // test fast function | |
1461 | // | |
1462 | // fAlignTree->Draw("FExBTwistX:ExBTwistX","isITS&&ptype==0&&abs(snp)<0.05",""); | |
1463 | // fAlignTree->Draw("FExBTwistY:ExBTwistY","isITS&&ptype==0&&abs(snp)<0.05",""); | |
1464 | // fAlignTree->Draw("FAlignRot0:alignRot0","isITS&&ptype==0&&abs(snp)<0.05",""); | |
1465 | // fAlignTree->Draw("FAlignRot1:alignRot1","isITS&&ptype==0&&abs(snp)<0.05",""); | |
1466 | // fAlignTree->Draw("FAlignRot2:alignRot2","isITS&&ptype==0&&abs(snp)<0.05",""); | |
1467 | // // | |
1468 | // fAlignTree->Draw("FAlignTrans0:alignTrans0","isITS&&ptype==0&&abs(snp)<0.05",""); | |
1469 | // fAlignTree->Draw("FAlignTrans1:alignTrans1","isITS&&ptype==0&&abs(snp)<0.05",""); | |
1470 | ||
1471 | } | |
1472 | ||
1473 | ||
1474 | void AliTPCPreprocessorOffline::CreateAlignTime(TString fstring, TVectorD paramC){ | |
1475 | // | |
1476 | // | |
1477 | // | |
1478 | // | |
1479 | TGeoHMatrix *matrixDelta = new TGeoHMatrix; | |
1480 | TGeoHMatrix *matrixGlobal = new TGeoHMatrix; | |
1481 | Double_t rAngles[9]; | |
1482 | Int_t index=0; | |
1483 | // | |
1484 | index=TStatToolkit::GetFitIndex(fstring,"FAlignTrans0D"); | |
1485 | if (index>=0) matrixDelta->SetDx(paramC[index+1]*0.1); | |
1486 | index=TStatToolkit::GetFitIndex(fstring,"FAlignTrans1D"); | |
1487 | if (index>=0) matrixDelta->SetDy(paramC[index+1]*0.1); | |
1488 | rAngles[0]=1; rAngles[4]=1; rAngles[8]=1; | |
1489 | index=TStatToolkit::GetFitIndex(fstring,"FAlignRot0D"); | |
1490 | rAngles[1]=-paramC[index+1]*0.001; rAngles[3]=paramC[index+1]*0.001; | |
1491 | rAngles[5]=0; rAngles[7] =0; | |
1492 | rAngles[2]=0; rAngles[6] =0; | |
1493 | matrixDelta->SetRotation(rAngles); | |
1494 | // | |
1495 | // | |
1496 | // | |
1497 | index=TStatToolkit::GetFitIndex(fstring,"hasITS*FAlignTrans0"); | |
1498 | if (index>=0) matrixGlobal->SetDx(paramC[index+1]*0.1); | |
1499 | index=TStatToolkit::GetFitIndex(fstring,"hasITS*FAlignTrans1"); | |
1500 | if (index>=0) matrixGlobal->SetDy(paramC[index+1]*0.1); | |
1501 | rAngles[0]=1; rAngles[4]=1; rAngles[8]=1; | |
1502 | index=TStatToolkit::GetFitIndex(fstring,"hasITS*FAlignRot0"); | |
1503 | rAngles[1]=-paramC[index+1]*0.001; rAngles[3]=paramC[index+1]*0.001; | |
1504 | index=TStatToolkit::GetFitIndex(fstring,"hasITS*FAlignRot1"); | |
1505 | rAngles[5]=-paramC[index+1]*0.001; rAngles[7]=paramC[index+1]*0.001; | |
1506 | index=TStatToolkit::GetFitIndex(fstring,"hasITS*FAlignRot2"); | |
1507 | rAngles[2]=paramC[index+1]*0.001; rAngles[6] =-paramC[index+1]*0.001; | |
1508 | matrixGlobal->SetRotation(rAngles); | |
1509 | // | |
0bc13e06 | 1510 | AliTPCCalibGlobalMisalignment *fitAlignTime =0; |
f3023796 | 1511 | fitAlignTime =new AliTPCCalibGlobalMisalignment; |
1512 | fitAlignTime->SetName("FitAlignTime"); | |
1513 | fitAlignTime->SetTitle("FitAlignTime"); | |
1514 | fitAlignTime->SetAlignGlobalDelta(matrixDelta); | |
1515 | fitAlignTime->SetAlignGlobal(matrixGlobal); | |
1516 | // | |
1517 | AliTPCExBTwist * fitExBTwist= new AliTPCExBTwist; | |
1518 | Int_t indexX=TStatToolkit::GetFitIndex(fstring,"ExBTwistX"); | |
1519 | Int_t indexY=TStatToolkit::GetFitIndex(fstring,"ExBTwistY"); | |
1520 | fitExBTwist->SetXTwist(0.001*paramC[indexX+1]); // 1 mrad twist in x | |
1521 | fitExBTwist->SetYTwist(0.001*paramC[indexY+1]); // 1 mrad twist in x | |
1522 | fitExBTwist->SetName("FitExBTwistTime"); | |
1523 | fitExBTwist->SetTitle("FitExBTwistTime"); | |
1524 | AliTPCParam *param= AliTPCcalibDB::Instance()->GetParameters(); | |
1525 | Double_t bzField=AliTrackerBase::GetBz(); | |
1526 | Double_t vdrift = param->GetDriftV()/1000000.; // [cm/us] // From dataBase: to be updated: per second (ideally) | |
1527 | ||
1528 | Double_t ezField = 400; // [V/cm] // to be updated: never (hopefully) | |
1529 | Double_t wt = -10.0 * (bzField) * vdrift / ezField ; | |
1530 | // | |
1531 | fitExBTwist->SetOmegaTauT1T2(wt,1,1); | |
1532 | fitExBTwist->Init(); | |
1533 | ||
1534 | AliTPCComposedCorrection *corrTime = new AliTPCComposedCorrection; | |
1535 | TObjArray *arr = new TObjArray; | |
1536 | corrTime->SetCorrections(arr); | |
1537 | ||
1538 | corrTime->GetCorrections()->Add(fitExBTwist); | |
1539 | corrTime->GetCorrections()->Add(fitAlignTime); | |
1540 | corrTime->SetName("FitCorrectionTime"); | |
1541 | corrTime->SetTitle("FitCorrectionTime"); | |
1542 | ||
1543 | fitExBTwist->AddVisualCorrection((AliTPCExBTwist*)(fitExBTwist->Clone()),1001); | |
1544 | fitAlignTime->AddVisualCorrection((AliTPCExBTwist*)(fitAlignTime->Clone()),1002); | |
1545 | fitAlignTime->AddVisualCorrection((AliTPCExBTwist*)(corrTime->Clone()),1003); | |
1546 | ||
1547 | ||
1548 | fAlignTree->SetAlias("ExBTwistTime","AliTPCPreprocessorOffline::EvalAt(phi,refX,theta,1001,ptype)+0"); | |
1549 | fAlignTree->SetAlias("AlignTime","AliTPCPreprocessorOffline::EvalAt(phi,refX,theta,1002,ptype)+0"); | |
1550 | fAlignTree->SetAlias("FitCorrectionTime","AliTPCPreprocessorOffline::EvalAt(phi,refX,theta,1003,ptype)+0"); | |
1551 | ||
1552 | ||
1553 | TFile *f = new TFile("fitITSVertex.root","update"); | |
1554 | corrTime->Write("FitCorrectionTime"); | |
1555 | f->Close(); | |
1556 | } | |
1557 | ||
1558 | ||
da268e11 | 1559 | |
1560 |