1 #ifndef ALITRDPREPROCESSOROFFLINE_H
2 #define ALITRDPREPROCESSOROFFLINE_H
4 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
5 * See cxx source for full Copyright notice */
9 // Class to create OCDB entries - processing the results of the OFFLINE calibration
14 #include "AliTRDCalChamberStatus.h"
15 #include <THnSparse.h>
20 class AliTRDCalibraVdriftLinearFit;
21 class AliTRDCalibraExbAltFit;
27 class AliTRDPreprocessorOffline:public TNamed {
42 enum { kGainNotEnoughStatsButFill = 2,
43 kVdriftNotEnoughStatsButFill = 4,
44 kGainNotEnoughStatsNotFill = 8,
45 kVdriftNotEnoughStatsNotFill = 16,
46 kTimeOffsetNotEnoughStatsNotFill = 32,
48 enum { kGainErrorOld = 2,
52 kVdriftErrorRange = 32,
53 kTimeOffsetErrorRange = 64,
54 kChamberStatusErrorRange = 128};
57 AliTRDPreprocessorOffline();
58 virtual ~AliTRDPreprocessorOffline();
60 Bool_t Init(const Char_t* fileName);
61 void Process(const Char_t* file, Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* ocdbStorage);
64 void SetLinearFitForVdrift(Bool_t methodsecond) { fMethodSecond = methodsecond;};
65 void SetNameList(TString nameList) { fNameList = nameList;};
66 void SetMinStatsVdriftT0PH(Int_t minStatsVdriftT0PH) { fMinStatsVdriftT0PH = minStatsVdriftT0PH; }
67 void SetMinStatsVdriftLinear(Int_t minStatsVdriftLinear) { fMinStatsVdriftLinear = minStatsVdriftLinear; }
68 void SetMinStatsGain(Int_t minStatsGain) { fMinStatsGain = minStatsGain; }
69 void SetMinStatsPRF(Int_t minStatsPRF) { fMinStatsPRF = minStatsPRF; }
70 void SetMinStatsChamberStatus(Int_t minStatsChamberStatus) { fMinStatsChamberStatus = minStatsChamberStatus; }
71 void SetSingleMinStatsChamberStatus(Int_t minSingleStatsChamberStatus) { fMinSingleStatsChamberStatus = minSingleStatsChamberStatus; }
72 void SetLimitValidateNoData(Int_t nodatavalidate) { fNoDataValidate = nodatavalidate; };
73 void SetLimitValidateBadCalib(Int_t badcalibvalidate) { fBadCalibValidate = badcalibvalidate; };
74 void SetBackCorrectGain(Bool_t backCorrectGain) { fBackCorrectGain = backCorrectGain; }
75 void SetBackCorrectVdrift(Bool_t backCorrectVdrift) { fBackCorrectVdrift = backCorrectVdrift; }
76 void SetNoExBUsedInReco(Bool_t noExBUsedInReco) { fNoExBUsedInReco = noExBUsedInReco; };
77 void SetSwitchOnValidation(Bool_t switchOnValidation) { fSwitchOnValidation = switchOnValidation;};
78 void SetSwitchOnChamberStatus(Bool_t switchOnChamberStatus) { fSwitchOnChamberStatus = switchOnChamberStatus;};
79 void SetRMSBadCalibratedGain(Double_t rms) { fRMSBadCalibratedGain = rms;};
80 void SetRMSBadCalibratedVdrift(Double_t rms) { fRMSBadCalibratedVdrift = rms;};
81 void SetRMSBadCalibratedExB(Double_t rms) { fRMSBadCalibratedExB = rms;};
82 void SetMinTimeOffsetValidate(Double_t min) { fMinTimeOffsetValidate = min;};
83 void SetRobustFitDriftVelocity(Bool_t robustFitDriftVelocity) { fRobustFitDriftVelocity = robustFitDriftVelocity;};
84 void SetRobustFitExbAlt(Bool_t robustFitExbAlt) { fRobustFitExbAlt = robustFitExbAlt;};
85 void SetAlternativeDriftVelocityFit(Bool_t alt) { fAlternativeVdrfitFit = alt;};
86 void SetMinNbOfPointVdriftFit(Int_t minNbOfPointVdriftFit) { fMinNbOfPointVdriftFit = minNbOfPointVdriftFit;};
87 void SetAlternativeExbAltFit(Bool_t alt) { fAlternativeExbAltFit = alt;};
88 void SetMethodeFitGain(Int_t methodeFitGain) { fMethodeGain = methodeFitGain;};
89 void SetOutliersFitChargeLow(Float_t outliersFitChargeLow) { fOutliersFitChargeLow = outliersFitChargeLow; }
90 void SetOutliersFitChargeHigh(Float_t outliersFitChargeHigh) { fOutliersFitChargeHigh = outliersFitChargeHigh; }
91 void SetBeginFitCharge(Float_t beginFitCharge) { fBeginFitCharge = beginFitCharge;};
92 void SetT0Shift0(Float_t t0Shift0) { fT0Shift0 = t0Shift0;};
93 void SetT0Shift1(Float_t t0Shift1) { fT0Shift1 = t0Shift1;};
97 Bool_t GetLinearFitForVdrift() const { return fMethodSecond;};
98 TString GetNameList() const { return fNameList;};
101 Bool_t CheckStatus(Int_t status, Int_t bitMask) const;
102 void PrintStatus() const;
104 Bool_t IsGainNotEnoughStatsButFill() const
105 { return CheckStatus(fStatusNeg, kGainNotEnoughStatsButFill); };
106 Bool_t IsGainNotEnoughStatsNotFill() const
107 { return CheckStatus(fStatusNeg, kGainNotEnoughStatsNotFill); };
108 Bool_t IsVdriftNotEnoughStatsButFill() const
109 { return CheckStatus(fStatusNeg, kVdriftNotEnoughStatsButFill); };
110 Bool_t IsVdriftNotEnoughStatsNotFill() const
111 { return CheckStatus(fStatusNeg, kVdriftNotEnoughStatsNotFill); };
112 Bool_t IsTimeOffsetNotEnoughStatsNotFill() const
113 { return CheckStatus(fStatusNeg, kTimeOffsetNotEnoughStatsNotFill); };
114 Bool_t IsExBErrorRange() const
115 { return CheckStatus(fStatusNeg, kExBErrorRange); };
117 Bool_t IsGainErrorOld() const
118 { return CheckStatus(fStatusPos, kGainErrorOld); };
119 Bool_t IsVdriftErrorOld() const
120 { return CheckStatus(fStatusPos, kVdriftErrorOld); };
121 Bool_t IsExBErrorOld() const
122 { return CheckStatus(fStatusPos, kExBErrorOld); };
123 Bool_t IsGainErrorRange() const
124 { return CheckStatus(fStatusPos, kGainErrorRange); };
125 Bool_t IsVdriftErrorRange() const
126 { return CheckStatus(fStatusPos, kVdriftErrorRange); };
127 Bool_t IsTimeOffsetErrorRange() const
128 { return CheckStatus(fStatusPos, kTimeOffsetErrorRange); };
129 Bool_t IsChamberStatusErrorRange() const
130 { return CheckStatus(fStatusPos, kChamberStatusErrorRange); };
134 void SetCalDetGain(AliTRDCalDet *calDetGainUsed) {fCalDetGainUsed = calDetGainUsed;};
135 void SetCalDetVdrift(AliTRDCalDet *calDetVdriftUsed);
136 void SetCalDetVdriftExB(AliTRDCalDet *calDetVdriftUsed,AliTRDCalDet *calDetExBUsed) {fCalDetVdriftUsed = calDetVdriftUsed; fCalDetExBUsed = calDetExBUsed;};
137 Bool_t SetCalDetGain(Int_t runNumber, Int_t version, Int_t subversion);
138 Bool_t SetCalDetVdriftExB(Int_t runNumber, Int_t versionv, Int_t subversionv, Int_t versionexb, Int_t subversionexb);
140 AliTRDCalDet *GetCalDetGain() const { return fCalDetGainUsed;};
141 AliTRDCalDet *GetCalDetVdrift() const { return fCalDetVdriftUsed;};
142 Int_t GetFirstRunGainUsed() const { return fFirstRunGainUsed; }
143 Int_t GetVersionGainUsed() const { return fVersionGainUsed; }
144 Int_t GetSubVersionGainUsed() const { return fSubVersionGainUsed; }
145 Int_t GetFirstRunVdriftUsed() const { return fFirstRunVdriftUsed; }
146 Int_t GetVersionVdriftUsed() const { return fVersionVdriftUsed; }
147 Int_t GetSubVersionVdriftUsed() const { return fSubVersionVdriftUsed; }
148 Int_t GetFirstRunExBUsed() const { return fFirstRunExBUsed; }
149 Int_t GetVersionExBUsed() const { return fVersionExBUsed; }
150 Int_t GetSubVersionExBUsed() const { return fSubVersionExBUsed; }
153 // Internal functions
155 void CalibVdriftT0(const Char_t* file, Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* ocdbStorage=0x0);
156 void CalibExbAlt(const Char_t* file, Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* ocdbStorage=0x0);
157 void CalibGain(const Char_t* file, Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* ocdbStorage=0x0);
158 void CalibPRF(const Char_t* file, Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* ocdbStorage=0x0);
159 void CalibChamberStatus(const Char_t* file, Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* ocdbStorage=0x0);
160 void CalibPHQ(const Char_t* file, Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* ocdbStorage);
162 Bool_t ReadStatusGlobal(const Char_t* fileName="CalibObjects.root");
163 Bool_t ReadGainGlobal(const Char_t* fileName="CalibObjects.root");
164 Bool_t ReadVdriftT0Global(const Char_t* fileName="CalibObjects.root");
165 Bool_t ReadVdriftLinearFitGlobal(const Char_t* fileName="CalibObjects.root");
166 Bool_t ReadExbAltFitGlobal(const Char_t* fileName="CalibObjects.root");
167 Bool_t ReadPRFGlobal(const Char_t* fileName="CalibObjects.root");
168 Bool_t ReadPHQGlobal(const Char_t* fileName);
170 Bool_t AnalyzeGain();
171 Bool_t AnalyzeVdriftT0();
172 Bool_t AnalyzeVdriftLinearFit();
173 Bool_t AnalyzeExbAltFit();
175 Bool_t AnalyzeChamberStatus();
176 Bool_t AnalyzePHQ(Int_t startRunNumber);
178 void CorrectFromDetGainUsed();
179 void CorrectFromDetVdriftUsed();
181 void UpdateOCDBT0(Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* storage);
182 void UpdateOCDBVdrift(Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* storage);
183 void UpdateOCDBExB(Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* storage);
184 void UpdateOCDBExBAlt(Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* storage);
185 void UpdateOCDBGain(Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* storage);
186 void UpdateOCDBPRF(Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* storage);
187 void UpdateOCDBChamberStatus(Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* storage);
188 void UpdateOCDBPHQ(Int_t startRunNumber, Int_t endRunNumber, AliCDBStorage* storage);
190 Bool_t ValidateGain();
191 Bool_t ValidateVdrift();
192 Bool_t ValidateExB();
194 Bool_t ValidatePRF() const;
195 Bool_t ValidateChamberStatus();
197 Int_t GetStatus() const;
198 Int_t GetStatusPos() const { return fStatusPos; }
199 Int_t GetStatusNeg() const { return fStatusNeg; }
201 Bool_t IsPHQon() const { return fPHQon ;};
202 void SetPHQon(const Bool_t kphq){ fPHQon = kphq; }
204 Bool_t IsDebugPHQon() const { return fDebugPHQon ;};
205 void SetDebugPHQon(const Bool_t kphq){ fDebugPHQon = kphq; }
208 Bool_t fMethodSecond; // Second Method for drift velocity
209 TString fNameList; // Name of the list
210 AliTRDCalDet *fCalDetGainUsed; // CalDet used and to be corrected for
211 AliTRDCalDet *fCalDetVdriftUsed; // CalDet used and to be corrected for
212 AliTRDCalDet *fCalDetExBUsed; // CalDet used and to be corrected for
214 TProfile2D *fPH2d; // Drift velocity first method
215 TProfile2D *fPRF2d; // PRF
216 THnSparseI *fSparse; // chamberstatus
217 AliTRDCalibraVdriftLinearFit *fAliTRDCalibraVdriftLinearFit; // Drift velocity second method
218 AliTRDCalibraExbAltFit* fAliTRDCalibraExbAltFit; //ExB alternative method
219 TH1I *fNEvents; // Number of events
220 TH2F *fAbsoluteGain; // Absolute Gain calibration
221 TObjArray * fPlots; // array with some plots to check
222 TObjArray * fCalibObjects; // array with calibration objects
223 Int_t fFirstRunGainUsed; // first run gain used
224 Int_t fVersionGainUsed; // VersionGainUsed
225 Int_t fSubVersionGainUsed; // SubVersionGainUsed
226 Int_t fFirstRunVdriftUsed; // FirstRunVdrift
227 Int_t fVersionVdriftUsed; // VersionVdriftUsed
228 Int_t fSubVersionVdriftUsed; // SubVersionVdriftUsed
229 Int_t fFirstRunExBUsed; // FirstRunExB
230 Int_t fVersionExBUsed; // VersionExBUsed
231 Int_t fSubVersionExBUsed; // SubVersionExBUsed
232 Bool_t fNoExBUsedInReco; // ExB not used yet in the reco
233 Bool_t fSwitchOnValidation; // Validation
234 Bool_t fSwitchOnChamberStatus; // ChamberStatus
235 Bool_t fVdriftValidated; // Vdrift validation
236 Bool_t fExBValidated; // ExB validation
237 Bool_t fT0Validated; // T0 validation
238 Int_t fMinStatsVdriftT0PH; // MinStats VdriftT0
239 Int_t fMinStatsVdriftLinear; // MinStats Vdrift Linear
240 Int_t fMinStatsGain; // MinStats Gain
241 Int_t fMinStatsPRF; // MinStats PRF
242 Int_t fMinStatsChamberStatus; // MinStats ChamberStatus
243 Double_t fMinSingleStatsChamberStatus; // MinStats per chamber in % of mean (ChamberStatus)
244 Bool_t fBackCorrectGain; // Back correction afterwards gain
245 Bool_t fBackCorrectVdrift; // Back correction afterwards vdrift
246 Bool_t fNotEnoughStatisticsForTheGain;// Take the chamber per chamber distribution from the default distribution
247 Bool_t fNotEnoughStatisticsForTheVdriftLinear;// Take the chamber per chamber distribution from the default distribution
248 Int_t fStatusNeg; // Info but ok
249 Int_t fStatusPos; // Problems
250 Int_t fBadCalib[18]; // number of bad calibrated chambers per sm
251 Int_t fNoData[18]; // number of chambers w/o data per sm
252 Int_t fBadCalibValidate; // validation limit for bad calibrated chambers
253 Int_t fNoDataValidate; // validation limit for chamber w/o data (sm w/o data excluded)
254 Double_t fRMSBadCalibratedGain; // value to decide when it is bad calibrated
255 Double_t fRMSBadCalibratedVdrift; // value to decide when it is bad calibrated
256 Double_t fRMSBadCalibratedExB; // value to decide when it is bad calibrated
257 Double_t fMinTimeOffsetValidate; // For validation of timeoffset min value
258 Bool_t fRobustFitDriftVelocity; // Robust fit for the drift velocity
259 Bool_t fRobustFitExbAlt; // Robust fit for the exb alt
260 Bool_t fAlternativeVdrfitFit; // Alternative fitting method for vdrift calibration
261 Bool_t fAlternativeExbAltFit; // Alternative fitting method for the alternative exb calibarion method
262 Int_t fMinNbOfPointVdriftFit; // Min number of points for the drift velocity calibration
263 Int_t fMethodeGain; // Methode Gain Fit
264 Float_t fOutliersFitChargeLow; // The fit starts at fOutliersFitChargeLow procent number of entries
265 Float_t fOutliersFitChargeHigh; // The fit starts at fOutliersFitChargeHigh procent number of entries
266 Float_t fBeginFitCharge; // Fit Begin Charge starts at mean/fBeginFitCharge
267 Float_t fT0Shift0; // T0 Shift with the maximum positive slope
268 Float_t fT0Shift1; // T0 Shift with the maximum of the amplification region
270 Int_t GetSubVersion(TString name) const;
271 Int_t GetVersion(TString name) const;
272 Int_t GetFirstRun(TString name) const;
277 AliTRDPreprocessorOffline& operator=(const AliTRDPreprocessorOffline&); // not implemented
278 AliTRDPreprocessorOffline(const AliTRDPreprocessorOffline&); // not implemented
280 Bool_t fPHQon; //switch of PHQ
281 Bool_t fDebugPHQon; //switch of DebugPHQ
283 ClassDef(AliTRDPreprocessorOffline,5)