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1 | #ifndef ALITRDCALIBRAFILLHISTO_H | |
2 | #define ALITRDCALIBRAFILLHISTO_H | |
3 | /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
4 | * See cxx source for full Copyright notice */ | |
5 | ||
6 | /* $Id$ */ | |
7 | ||
8 | /////////////////////////////////////////////////////////////////////////////// | |
9 | // // | |
10 | // TRD calibration class for the HLT parameters // | |
11 | // // | |
12 | /////////////////////////////////////////////////////////////////////////////// | |
13 | ||
14 | #ifndef ROOT_TObject | |
15 | # include <TObject.h> | |
16 | #endif | |
17 | #ifndef ROOT_TProfile2D | |
18 | # include <TProfile2D.h> | |
19 | #endif | |
20 | ||
21 | ||
22 | class TProfile2D; | |
23 | class TObjArray; | |
24 | class TH1F; | |
25 | class TH2I; | |
26 | class TH2F; | |
27 | class TH2; | |
28 | class TLinearFitter; | |
29 | class TTreeSRedirector; | |
30 | ||
31 | class AliLog; | |
32 | class AliRawReader; | |
33 | ||
34 | class AliESDtrack; | |
35 | ||
36 | class AliTRDCalibraMode; | |
37 | class AliTRDCalibraVector; | |
38 | class AliTRDCalibraVdriftLinearFit; | |
39 | class AliTRDCalibraExbAltFit; | |
40 | class AliTRDcluster; | |
41 | class AliTRDtrackV1; | |
42 | class AliTRDseedV1; | |
43 | class AliTRDgeometry; | |
44 | class AliTRDCalDet; | |
45 | class AliTRDCalROC; | |
46 | class AliTRDcalibDB; | |
47 | ||
48 | class AliTRDdigitsManager; | |
49 | class AliTRDSignalIndex; | |
50 | ||
51 | struct eventHeaderStruct; | |
52 | ||
53 | class AliTRDCalibraFillHisto : public TObject { | |
54 | ||
55 | public: | |
56 | ||
57 | // Instance | |
58 | static AliTRDCalibraFillHisto *Instance(); | |
59 | static void Terminate(); | |
60 | static void Destroy(); | |
61 | void DestroyDebugStreamer(); | |
62 | ||
63 | ||
64 | AliTRDCalibraFillHisto(const AliTRDCalibraFillHisto &c); | |
65 | AliTRDCalibraFillHisto &operator=(const AliTRDCalibraFillHisto &) { return *this; } | |
66 | ||
67 | // Functions for initialising and filling with AliTRDtrackV1 | |
68 | Bool_t Init2Dhistos(Int_t nboftimebin = -1); | |
69 | Bool_t InitCalDet(); | |
70 | Bool_t UpdateHistogramsV1(const AliTRDtrackV1 *t,const AliESDtrack *esdtrack = NULL); | |
71 | ||
72 | // Process events DAQ | |
73 | Int_t ProcessEventDAQ(AliRawReader *rawReader); | |
74 | ||
75 | // Is Pad on | |
76 | Bool_t IsPadOn(Int_t detector, Int_t row, Int_t col) const; | |
77 | ||
78 | // Functions for write | |
79 | void Write2d(const Char_t *filename = "TRD.calibration.root", Bool_t append = kFALSE); | |
80 | ||
81 | //For the statistics | |
82 | Double_t *StatH(TH2 *ch, Int_t i); | |
83 | Double_t *GetMeanMedianRMSNumberCH(); | |
84 | Double_t *GetMeanMedianRMSNumberLinearFitter() const; | |
85 | // LinearFitter | |
86 | void AnalyseLinearFitter(); | |
87 | ||
88 | ||
89 | // | |
90 | // Set of Get the variables | |
91 | // | |
92 | ||
93 | void SetIsHLT(Bool_t isHLT = kTRUE) { fIsHLT = isHLT; } | |
94 | Bool_t IsHLT() const { return fIsHLT; } | |
95 | ||
96 | // Choice to fill or not the 2D | |
97 | void SetPH2dOn(Bool_t ph2don = kTRUE) { fPH2dOn = ph2don; } | |
98 | void SetCH2dOn(Bool_t ch2don = kTRUE) { fCH2dOn = ch2don; } | |
99 | void SetPRF2dOn(Bool_t prf2don = kTRUE) { fPRF2dOn = prf2don; } | |
100 | void SetHisto2d(Bool_t histo2d = kTRUE) { fHisto2d = histo2d; } | |
101 | void SetVector2d(Bool_t vector2d = kTRUE) { fVector2d = vector2d; } | |
102 | void SetLinearFitterOn(Bool_t linearfitteron = kTRUE) { fLinearFitterOn = linearfitteron;} | |
103 | void SetLinearFitterDebugOn(Bool_t debug = kTRUE) { fLinearFitterDebugOn = debug; } | |
104 | void SetExbAltFitOn(Bool_t fiton = kTRUE) { fExbAltFitOn = fiton;} | |
105 | void SetScaleWithTPCSignal(Bool_t scaleWithTPCSignal = kTRUE) { fScaleWithTPCSignal = scaleWithTPCSignal;} | |
106 | void SetFirstRunGain(Int_t firstRunGain) { fFirstRunGain = firstRunGain; } | |
107 | void SetVersionGainUsed(Int_t versionGainUsed) { fVersionGainUsed = versionGainUsed; } | |
108 | void SetSubVersionGainUsed(Int_t subVersionGainUsed) { fSubVersionGainUsed = subVersionGainUsed; } | |
109 | void SetFirstRunGainLocal(Int_t firstRunGainLocal) { fFirstRunGainLocal = firstRunGainLocal; } | |
110 | void SetVersionGainLocalUsed(Int_t versionGainLocalUsed) { fVersionGainLocalUsed = versionGainLocalUsed; } | |
111 | void SetSubVersionGainLocalUsed(Int_t subVersionGainLocalUsed) { fSubVersionGainLocalUsed = subVersionGainLocalUsed; } | |
112 | void SetFirstRunVdrift(Int_t firstRunVdrift) { fFirstRunVdrift = firstRunVdrift; } | |
113 | void SetVersionVdriftUsed(Int_t versionVdriftUsed) { fVersionVdriftUsed = versionVdriftUsed; } | |
114 | void SetSubVersionVdriftUsed(Int_t subVersionVdriftUsed) { fSubVersionVdriftUsed = subVersionVdriftUsed; } | |
115 | void SetFirstRunExB(Int_t firstRunExB) { fFirstRunExB = firstRunExB; } | |
116 | void SetVersionExBUsed(Int_t versionExBUsed) { fVersionExBUsed = versionExBUsed; } | |
117 | void SetSubVersionExBUsed(Int_t subVersionExBUsed) { fSubVersionExBUsed = subVersionExBUsed; } | |
118 | ||
119 | ||
120 | Bool_t GetPH2dOn() const { return fPH2dOn; } | |
121 | Bool_t GetCH2dOn() const { return fCH2dOn; } | |
122 | Bool_t GetPRF2dOn() const { return fPRF2dOn; } | |
123 | Bool_t GetHisto2d() const { return fHisto2d; } | |
124 | Bool_t GetVector2d() const { return fVector2d; } | |
125 | Bool_t GetLinearFitterOn() const { return fLinearFitterOn; } | |
126 | Bool_t GetLinearFitterDebugOn() const { return fLinearFitterDebugOn; } | |
127 | Int_t GetVersionGainUsed() const { return fVersionGainUsed; } | |
128 | Int_t GetSubVersionGainUsed() const { return fSubVersionGainUsed; } | |
129 | Int_t GetVersionVdriftUsed() const { return fVersionVdriftUsed; } | |
130 | Int_t GetSubVersionVdriftUsed() const { return fSubVersionVdriftUsed; } | |
131 | ||
132 | ||
133 | // Get stuff that are filled | |
134 | TH2I *GetCH2d(); | |
135 | TProfile2D *GetPH2d(Int_t nbtimebin=24, Float_t samplefrequency= 10.0); | |
136 | TProfile2D *GetPRF2d() const { return fPRF2d; } | |
137 | TObjArray GetLinearFitterArray() const { return fLinearFitterArray; } | |
138 | TLinearFitter *GetLinearFitter(Int_t detector, Bool_t force=kFALSE); | |
139 | AliTRDCalibraVdriftLinearFit *GetVdriftLinearFit() const { return fLinearVdriftFit; } | |
140 | AliTRDCalibraExbAltFit *GetExbAltFit() const { return fExbAltFit; } | |
141 | ||
142 | ||
143 | // How to fill the 2D | |
144 | void SetRelativeScale(Float_t relativeScale); | |
145 | void SetThresholdClusterPRF2(Float_t thresholdClusterPRF2) { fThresholdClusterPRF2 = thresholdClusterPRF2; } | |
146 | void SetLimitChargeIntegration(Bool_t limitChargeIntegration) { fLimitChargeIntegration = limitChargeIntegration; } | |
147 | void SetFillWithZero(Bool_t fillWithZero) { fFillWithZero = fillWithZero; } | |
148 | void SetNormalizeNbOfCluster(Bool_t normalizeNbOfCluster) { fNormalizeNbOfCluster = normalizeNbOfCluster; } | |
149 | void SetMaxCluster(Float_t maxCluster) { fMaxCluster = maxCluster; } | |
150 | void SetNbMaxCluster(Short_t nbMaxCluster) { fNbMaxCluster = nbMaxCluster; } | |
151 | void SetCutWithVdriftCalib(Bool_t cutWithVdriftCalib) { fCutWithVdriftCalib = cutWithVdriftCalib; } | |
152 | void SetMinNbTRDtracklets(Int_t minNbTRDtracklets) { fMinNbTRDtracklets = minNbTRDtracklets; } | |
153 | void SetMinTRDMomentum(Float_t minTRDMomentum) { fMinTRDMomentum = minTRDMomentum; } | |
154 | void SetNz(Int_t i, Short_t nz); | |
155 | void SetNrphi(Int_t i, Short_t nrphi); | |
156 | void SetAllTogether(Int_t i); | |
157 | void SetPerSuperModule(Int_t i); | |
158 | void SetProcent(Float_t procent) { fProcent = procent; } | |
159 | void SetDifference(Short_t difference) { fDifference = difference; } | |
160 | void SetNumberClusters(Short_t numberClusters) { if(numberClusters >= 0) fNumberClusters = numberClusters; } | |
161 | void SetNumberClustersf(Short_t numberClustersf) { fNumberClustersf = numberClustersf; } | |
162 | void SetNumberClustersProcent(Float_t numberClustersProcent) { fNumberClustersProcent = numberClustersProcent; } | |
163 | void SetThresholdClustersDAQ(Float_t thresholdClustersDAQ) { fThresholdClustersDAQ = thresholdClustersDAQ; } | |
164 | void SetNumberRowDAQ(Short_t numberRowDAQ) { fNumberRowDAQ = numberRowDAQ; } | |
165 | void SetNumberColDAQ(Short_t numberColDAQ) { fNumberColDAQ = numberColDAQ; } | |
166 | void SetRangeHistoCharge(Float_t rangeHistoCharge) { fRangeHistoCharge = rangeHistoCharge; } | |
167 | void SetNumberBinCharge(Short_t numberBinCharge) { fNumberBinCharge = numberBinCharge; } | |
168 | void SetNumberBinPRF(Short_t numberBinPRF) { fNumberBinPRF = numberBinPRF; } | |
169 | void SetNumberGroupsPRF(Short_t numberGroupsPRF); | |
170 | ||
171 | Float_t GetRelativeScale() const { return fRelativeScale; } | |
172 | Float_t GetThresholdClusterPRF2() const { return fThresholdClusterPRF2; } | |
173 | Bool_t GetLimitChargeIntegration() const { return fLimitChargeIntegration; } | |
174 | Bool_t GetFillWithZero() const { return fFillWithZero; } | |
175 | Bool_t GetNormalizeNbOfCluster() const { return fNormalizeNbOfCluster; } | |
176 | Float_t GetMaxCluster() const { return fMaxCluster; } | |
177 | Short_t GetNbMaxCluster() const { return fNbMaxCluster; } | |
178 | Bool_t GetCutWithVdriftCalib() const { return fCutWithVdriftCalib; } | |
179 | Float_t GetProcent() const { return fProcent; } | |
180 | Short_t GetDifference() const { return fDifference; } | |
181 | Short_t GetNumberClusters() const { return fNumberClusters; } | |
182 | Short_t GetNumberClustersf() const { return fNumberClustersf; } | |
183 | Short_t GetNumberBinCharge() const { return fNumberBinCharge; } | |
184 | Short_t GetNumberBinPRF() const { return fNumberBinPRF; } | |
185 | Short_t GetNumberGroupsPRF() const { return fNgroupprf; } | |
186 | Int_t *GetEntriesLinearFitter() const { return fEntriesLinearFitter; } | |
187 | ||
188 | // Debug | |
189 | void SetDebugLevel(Short_t level) { fDebugLevel = level; } | |
190 | ||
191 | // Vector method | |
192 | AliTRDCalibraVector *GetCalibraVector() const { return fCalibraVector; } | |
193 | ||
194 | protected: | |
195 | ||
196 | // Geometry | |
197 | AliTRDgeometry *fGeo; //! The TRD geometry | |
198 | // calibration DB | |
199 | AliTRDcalibDB *fCalibDB; //! The pointer to the TRDcalibDB instance | |
200 | ||
201 | // Is HLT | |
202 | Bool_t fIsHLT; // Now if HLT, the per detector | |
203 | ||
204 | // Choice to fill or not the 2D | |
205 | Bool_t fCH2dOn; // Chose to fill the 2D histos or vectors for the relative gain calibration | |
206 | Bool_t fPH2dOn; // Chose to fill the 2D histos or vectors for the drift velocity and T0 | |
207 | Bool_t fPRF2dOn; // Chose to fill the 2D histos or vectors for the pad response function calibration | |
208 | Bool_t fHisto2d; // Chose to fill the 2D histos | |
209 | Bool_t fVector2d; // Chose to fill vectors | |
210 | Bool_t fLinearFitterOn; // Method with linear fit for drift velocity | |
211 | Bool_t fLinearFitterDebugOn; // Method with linear fit for drift velocity | |
212 | Bool_t fExbAltFitOn; // Enable parabolic fit for exb | |
213 | Bool_t fScaleWithTPCSignal; // Scale the gain with TPC signal (If use then ask at least 70 TPC clusters) | |
214 | ||
215 | // How to fill the 2D | |
216 | Float_t fRelativeScale; // Scale of the deposited charge | |
217 | Float_t fThresholdClusterPRF2; // Threshold on cluster pad signals | |
218 | Bool_t fLimitChargeIntegration; // Integration range for the gain calibration | |
219 | Bool_t fFillWithZero; // Fill with zero or not the average pulse height | |
220 | Bool_t fNormalizeNbOfCluster; // Normalize with the number of cluster for the gain | |
221 | Float_t fMaxCluster; // Max amplitude of one cluster | |
222 | Short_t fNbMaxCluster; // Number of tb at the end | |
223 | Bool_t fCutWithVdriftCalib; // CutWithVdriftCalib for the gain and PH | |
224 | Int_t fMinNbTRDtracklets; // Min number of TRD tracklets | |
225 | Float_t fMinTRDMomentum; // Min TRD momentum | |
226 | // Back correction | |
227 | Int_t fFirstRunGain; // FirstRunGain | |
228 | Int_t fVersionGainUsed; // VersionGainUsed | |
229 | Int_t fSubVersionGainUsed; // SubVersionGainUsed | |
230 | Int_t fFirstRunGainLocal; // FirstRunGainLocal | |
231 | Int_t fVersionGainLocalUsed; // VersionGainUsed | |
232 | Int_t fSubVersionGainLocalUsed;// SubVersionGainUsed | |
233 | Int_t fFirstRunVdrift; // FirstRunVdrift | |
234 | Int_t fVersionVdriftUsed; // VersionVdriftUsed | |
235 | Int_t fSubVersionVdriftUsed; // SubVersionVdriftUsed | |
236 | Int_t fFirstRunExB; // FirstRunExB | |
237 | Int_t fVersionExBUsed; // VersionExBUsed | |
238 | Int_t fSubVersionExBUsed; // SubVersionExBUsed | |
239 | // Calibration mode | |
240 | AliTRDCalibraMode *fCalibraMode; // Calibration mode | |
241 | ||
242 | //For debugging | |
243 | TTreeSRedirector *fDebugStreamer; //!Debug streamer | |
244 | Short_t fDebugLevel; // Flag for debugging | |
245 | // | |
246 | // Internal variables | |
247 | // | |
248 | ||
249 | // Fill the 2D histos in the offline tracking | |
250 | Int_t fDetectorPreviousTrack; // Change of detector | |
251 | Int_t fMCMPrevious; // Change of MCM | |
252 | Int_t fROBPrevious; // Change of ROB | |
253 | Short_t fNumberClusters; // Minimum number of clusters in the tracklets | |
254 | Short_t fNumberClustersf; // Maximum number of clusters in the tracklets | |
255 | Float_t fNumberClustersProcent; // Procent of number of time bins for fNumberClusters | |
256 | Float_t fThresholdClustersDAQ; // Threshold clusters for DAQ algorithm | |
257 | Short_t fNumberRowDAQ; // Size of the spot for DAQ algorithm | |
258 | Short_t fNumberColDAQ; // Size of the spot for DAQ algorithm | |
259 | Float_t fProcent; // Limit to take the info of the most important calibration group if the track goes through 2 groups (CH) | |
260 | Short_t fDifference; // Limit to take the info of the most important calibration group if the track goes through 2 groups (CH) | |
261 | Int_t fNumberTrack; // How many tracks could be used (Debug for the moment) | |
262 | Int_t fNumberUsedCh[2]; // How many tracks have been really used for the gain (0, strict; 1 with fProcent) | |
263 | Int_t fNumberUsedPh[2]; // How many tracks have been really used for the drift velocity (0, strict; 1 with fDifference) | |
264 | Int_t fTimeMax; // Number of time bins | |
265 | Float_t fSf; // Sampling frequence | |
266 | Float_t fRangeHistoCharge; // Range of the histo for the charge | |
267 | Short_t fNumberBinCharge; // Number of bins for the gain factor | |
268 | Short_t fNumberBinPRF; // Number of bin for the PRF | |
269 | Short_t fNgroupprf; // Number of groups in tnp bins for PRF /2.0 | |
270 | ||
271 | // Variables per tracklet | |
272 | Float_t *fAmpTotal; // Energy deposited in the calibration group by the track | |
273 | Short_t *fPHPlace; // Calibration group of PH | |
274 | Float_t *fPHValue; // PH | |
275 | Bool_t fGoodTracklet; // Good tracklet | |
276 | TLinearFitter *fLinearFitterTracklet; // linear fitter tracklet | |
277 | //Statistics | |
278 | Int_t *fEntriesCH; // Number of entries CH | |
279 | Int_t *fEntriesLinearFitter; // Number of entries LinearFitter | |
280 | ||
281 | ||
282 | // | |
283 | // Vector method | |
284 | // | |
285 | ||
286 | AliTRDCalibraVector *fCalibraVector; // The vector object | |
287 | ||
288 | ||
289 | // Histograms to store the info from the digits, from the tracklets or from the tracks | |
290 | TProfile2D *fPH2d; // 2D average pulse height | |
291 | TProfile2D *fPRF2d; // 2D PRF | |
292 | TH2I *fCH2d; // 2D deposited charge | |
293 | TObjArray fLinearFitterArray; // TObjArray of Linear Fitters for the detectors | |
294 | AliTRDCalibraVdriftLinearFit *fLinearVdriftFit; // Info Linear Fit | |
295 | AliTRDCalibraExbAltFit *fExbAltFit; // ExB parabolic fit (alternative to vdrift linear fit) | |
296 | ||
297 | // Current calib object: to correct for the database used | |
298 | AliTRDCalDet *fCalDetGain; // Current calib object gain | |
299 | AliTRDCalROC *fCalROCGain; // Current calib object gain | |
300 | ||
301 | // | |
302 | // A lot of internal functions...... | |
303 | // Init | |
304 | Bool_t InitCalPad(Int_t detector); | |
305 | // | |
306 | // Create the 2D histo to be filled Online | |
307 | void CreateCH2d(Int_t nn); | |
308 | void CreatePH2d(Int_t nn); | |
309 | void CreatePRF2d(Int_t nn); | |
310 | ||
311 | // Calibration with AliTRDtrackV1 | |
312 | void FillTheInfoOfTheTrackPH(); | |
313 | void FillTheInfoOfTheTrackCH(Int_t nbclusters); | |
314 | Bool_t FindP1TrackPHtrackletV1(const AliTRDseedV1 *tracklet, Int_t nbclusters); | |
315 | Bool_t HandlePRFtrackletV1(const AliTRDseedV1 *tracklet, Int_t nbclusters); | |
316 | void ResetfVariablestracklet(); | |
317 | Float_t StoreInfoCHPHtrack(const AliTRDcluster *cl,const Double_t dqdl,const Int_t *group,const Int_t row,const Int_t col,const AliTRDcluster *cls=0x0); | |
318 | void FillCH2d(Int_t x, Float_t y); | |
319 | ||
320 | // Calibration on DAQ | |
321 | ||
322 | Int_t FillDAQ(Double_t phvalue[16][144][36]); | |
323 | Bool_t UpdateDAQ(Int_t det, Int_t /*row*/, Int_t /*col*/, Int_t timebin, Float_t signal, Int_t nbtimebins); | |
324 | ||
325 | // row col calibration groups stuff | |
326 | Bool_t LocalisationDetectorXbins(Int_t detector); | |
327 | Int_t CalculateTotalNumberOfBins(Int_t i); | |
328 | void CheckGoodTrackletV0(const Int_t detector,const Int_t row,const Int_t col); | |
329 | void CheckGoodTrackletV1(const AliTRDcluster *cl); | |
330 | Int_t CalculateCalibrationGroup(Int_t i, Int_t row, Int_t col) const; | |
331 | ||
332 | // Clear | |
333 | void ClearHistos(); | |
334 | ||
335 | // Some basic geometry function | |
336 | virtual Int_t GetLayer(Int_t d) const; | |
337 | virtual Int_t GetStack(Int_t d) const; | |
338 | virtual Int_t GetSector(Int_t d) const; | |
339 | ||
340 | ||
341 | // Instance of this class and so on | |
342 | static AliTRDCalibraFillHisto *fgInstance; // Instance | |
343 | static Bool_t fgTerminated; // If terminated | |
344 | ||
345 | private: | |
346 | ||
347 | // This is a singleton, contructor is private! | |
348 | AliTRDCalibraFillHisto(); | |
349 | virtual ~AliTRDCalibraFillHisto(); | |
350 | ||
351 | ClassDef(AliTRDCalibraFillHisto,7) // TRD Calibration class | |
352 | ||
353 | }; | |
354 | ||
355 | #endif | |
356 | ||
357 |