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0ffacf98 | 1 | #ifndef ALITPCDATAQA_H |
2 | #define ALITPCDATAQA_H | |
3 | /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
4 | * See cxx source for full Copyright notice */ | |
5 | ||
6 | ||
7 | ||
336156cc | 8 | #include <TH1F.h> |
92ae9768 | 9 | #include <TProfile.h> |
10 | #include <TProfile2D.h> | |
57acd2d2 | 11 | #include "AliRecoParam.h" |
0ffacf98 | 12 | |
0ab2a4cc | 13 | #include <TArray.h> |
14 | ||
0ffacf98 | 15 | class TH2F; |
16 | class TTreeSRedirector; | |
17 | class AliTPCROC; | |
18 | class AliTPCCalROC; | |
0c25417d | 19 | class AliTPCRawStreamV3; |
0ffacf98 | 20 | class AliRawReader; |
21 | class AliTPCAltroMapping; | |
ac940b58 | 22 | class AliTPCCalPad; |
23 | class TMap; | |
0ffacf98 | 24 | struct eventHeaderStruct; |
25 | ||
336156cc | 26 | class AliTPCdataQA : public TH1F { |
0ffacf98 | 27 | |
28 | public: | |
29 | AliTPCdataQA(); | |
30 | AliTPCdataQA(const AliTPCdataQA &ped); | |
8ba97cc8 | 31 | AliTPCdataQA(const TMap *config); |
0ffacf98 | 32 | virtual ~AliTPCdataQA(); |
33 | ||
34 | AliTPCdataQA& operator = (const AliTPCdataQA &source); | |
8368e0ee | 35 | void DumpToFile(const Char_t *filename, const Char_t *dir="", Bool_t append=kFALSE); |
6a50ff96 | 36 | void MakeTree(const char *fname="QApad.root") const; |
258cd111 | 37 | |
0ffacf98 | 38 | // |
6a50ff96 | 39 | Bool_t ProcessEvent(AliTPCRawStreamV3 *const rawStreamV3); |
40 | Bool_t ProcessEvent(AliRawReader *const rawReader); | |
6a50ff96 | 41 | Bool_t ProcessEvent(eventHeaderStruct *const event); |
0ffacf98 | 42 | |
0ffacf98 | 43 | void Analyse(); |
44 | // | |
45 | // | |
6a50ff96 | 46 | void SetPedestal(AliTPCCalPad *const pedestalCal){ fPedestal = pedestalCal;} |
47 | void SetNoise(AliTPCCalPad *const noiseCal){ fNoise = noiseCal;} | |
f11b3071 | 48 | |
0ab2a4cc | 49 | // DQM methods |
50 | void FillOccupancyProfile(); | |
51 | void ResetProfiles(); | |
52 | ||
53 | ||
266f8637 | 54 | AliTPCCalPad *GetNoThreshold() const { return fNoThreshold;} |
55 | AliTPCCalPad *GetMaxCharge() const { return fMaxCharge;} | |
56 | AliTPCCalPad *GetMeanCharge() const { return fMeanCharge;} | |
57 | AliTPCCalPad *GetNLocalMaxima() const { return fNLocalMaxima;} | |
58 | AliTPCCalPad *GetOverThreshold10() const { return fOverThreshold10;} | |
59 | AliTPCCalPad *GetOverThreshold20() const { return fOverThreshold20;} | |
60 | AliTPCCalPad *GetOverThreshold30() const { return fOverThreshold30;} | |
61 | AliTPCCalPad *GetNTimeBins() const { return fNTimeBins;} | |
62 | AliTPCCalPad *GetNPads() const { return fNPads;} | |
63 | AliTPCCalPad *GetTimePosition() const { return fTimePosition;} | |
23c9ab21 | 64 | TProfile* GetHistQVsTimeSideA() const {return fHistQVsTimeSideA;} |
65 | TProfile* GetHistQVsTimeSideC() const {return fHistQVsTimeSideC;} | |
66 | TProfile* GetHistQMaxVsTimeSideA() const {return fHistQMaxVsTimeSideA;} | |
67 | TProfile* GetHistQMaxVsTimeSideC() const {return fHistQMaxVsTimeSideC;} | |
ce0175fa | 68 | TH1F* GetHistOccupancyVsEventConst() const {return fHistOccupancyVsEvent;} |
69 | TH1F* GetHistNclustersVsEventConst() const {return fHistNclustersVsEvent;} | |
70 | TH1F* GetHistOccupancyVsEvent(); | |
71 | TH1F* GetHistNclustersVsEvent(); | |
0ffacf98 | 72 | |
0ab2a4cc | 73 | // DQM output |
74 | TProfile* GetHistOccVsSector() const { return fHistOccVsSector; } | |
92ae9768 | 75 | TProfile2D* GetHistOcc2dVsSector() const { return fHistOcc2dVsSector; } |
0ab2a4cc | 76 | TProfile* GetHistQVsSector() const { return fHistQVsSector; } |
77 | TProfile* GetHistQmaxVsSector() const { return fHistQmaxVsSector; } | |
78 | ||
0ffacf98 | 79 | // |
6a50ff96 | 80 | AliTPCAltroMapping **GetAltroMapping() const { return fMapping; }; |
0ffacf98 | 81 | void SetAltroMapping(AliTPCAltroMapping **mapp) { fMapping = mapp; }; |
82 | // | |
83 | // | |
266f8637 | 84 | Int_t GetFirstTimeBin() const { return fFirstTimeBin; } |
85 | Int_t GetLastTimeBin() const { return fLastTimeBin; } | |
86 | Int_t GetAdcMin() const { return fAdcMin; } | |
87 | Int_t GetAdcMax() const { return fAdcMax; } | |
88 | Int_t GetEventCounter() const { return fEventCounter; } | |
266f8637 | 89 | Bool_t GetIsAnalysed() const { return fIsAnalysed; } |
ce0175fa | 90 | Int_t GetMaxEvents() const { return fMaxEvents; } |
91 | Int_t GetEventsPerBin() const { return fEventsPerBin; } | |
92 | Int_t GetSignalCounter() const { return fSignalCounter; } | |
93 | Int_t GetClusterCounter() const { return fClusterCounter;} | |
94 | ||
0ab2a4cc | 95 | // DQM getter |
96 | Bool_t GetIsDQM() const { return fIsDQM; } | |
97 | ||
c322f08a | 98 | void SetRangeTime(Int_t tMin, Int_t tMax){ fFirstTimeBin=tMin; fLastTimeBin=tMax;} // Set time bin range that is used for the pedestal calibration |
0ffacf98 | 99 | void SetRangeAdc (Int_t aMin, Int_t aMax){ fAdcMin=aMin; fAdcMax=aMax; } // Set adc range for the pedestal calibration |
ce0175fa | 100 | void SetMaxEvents (Int_t value) { fMaxEvents = value; } |
101 | void SetEventsPerBin(Int_t value) { fEventsPerBin = value; } | |
0ab2a4cc | 102 | |
103 | // DQM setter | |
104 | void SetIsDQM(Bool_t value) { fIsDQM = value; } | |
c322f08a | 105 | |
0ffacf98 | 106 | private: |
266f8637 | 107 | Int_t Update(const Int_t iSector, const Int_t iRow, const Int_t iPad, |
92ae9768 | 108 | const Int_t iTimeBin, Float_t signal, |
109 | const Int_t iPatch=-1, const Int_t iBranch=-1); | |
266f8637 | 110 | void FindLocalMaxima(const Int_t iSector); |
111 | ||
112 | void MakeArrays(); // Create arrays for random data acces | |
113 | void CleanArrays(); // Clean arrays for random data acces | |
114 | void SetExpandDigit(const Int_t iRow, Int_t iPad, Int_t iTimeBin, | |
115 | const Float_t signal); // Fill arrays with signals | |
116 | void GetPadAndTimeBin(Int_t bin, Int_t& iPad, Int_t& iTimeBin); // Get pad and time bin corresponding to the 1d bin | |
117 | Float_t GetQ(const Float_t* adcArray, const Int_t time, | |
118 | const Int_t pad, const Int_t maxTimeBins, | |
6a50ff96 | 119 | Int_t& timeMin,Int_t& timeMax,Int_t& padMin,Int_t& padMax) const; |
ce0175fa | 120 | void UpdateEventHistograms(); |
266f8637 | 121 | |
0ffacf98 | 122 | Int_t fFirstTimeBin; // First Time bin needed for analysis |
123 | Int_t fLastTimeBin; // Last Time bin needed for analysis | |
124 | Int_t fAdcMin; // min adc channel of pedestal value | |
125 | Int_t fAdcMax; // max adc channel of pedestal value | |
0ffacf98 | 126 | |
0ffacf98 | 127 | AliTPCAltroMapping **fMapping; //! Altro Mapping object |
128 | // | |
129 | // | |
336156cc | 130 | AliTPCCalPad * fPedestal; //! option to set pedestal cal object |
131 | AliTPCCalPad * fNoise; //! option to set noise cal object | |
266f8637 | 132 | AliTPCCalPad * fNLocalMaxima; // local maximas found |
f11b3071 | 133 | AliTPCCalPad * fMaxCharge; // max charge |
134 | AliTPCCalPad * fMeanCharge; // mean charge | |
135 | AliTPCCalPad * fNoThreshold; // number of digits | |
266f8637 | 136 | AliTPCCalPad * fNTimeBins; // timebins width of cluster |
137 | AliTPCCalPad * fNPads; // pads with of cluster | |
138 | AliTPCCalPad * fTimePosition; // Time position of local maximum | |
139 | AliTPCCalPad * fOverThreshold10; //! local maxima with qMax over threshold | |
140 | AliTPCCalPad * fOverThreshold20; //! local maxima with qMax over threshold | |
141 | AliTPCCalPad * fOverThreshold30; //! local maxima with qMax over threshold | |
f11b3071 | 142 | |
23c9ab21 | 143 | TProfile* fHistQVsTimeSideA; // Q vs time (side A) |
144 | TProfile* fHistQVsTimeSideC; // Q vs time (side C) | |
145 | TProfile* fHistQMaxVsTimeSideA; // QMax vs time (side A) | |
146 | TProfile* fHistQMaxVsTimeSideC; // QMax vs time (side C) | |
147 | ||
ce0175fa | 148 | TH1F* fHistOccupancyVsEvent; // Occupancy vs event number (~time) |
149 | TH1F* fHistNclustersVsEvent; // Nclusters vs event number (~time) | |
150 | ||
f11b3071 | 151 | Int_t fEventCounter; // event Counter |
266f8637 | 152 | Bool_t fIsAnalysed; // Set to true after Analyse has been called |
ce0175fa | 153 | |
154 | Int_t fMaxEvents; // Max events for event histograms | |
155 | Int_t fEventsPerBin; // Events per bin for event histograms | |
156 | Int_t fSignalCounter; // Signal counter | |
157 | Int_t fClusterCounter; // Cluster counter | |
c322f08a | 158 | // |
159 | // Expand buffer | |
160 | // | |
161 | Float_t** fAllBins; //! array for digit using random access | |
162 | Int_t** fAllSigBins; //! array of pointers to the indexes over threshold | |
163 | Int_t* fAllNSigBins; //! | |
266f8637 | 164 | Int_t fRowsMax; //! Maximum number of time bins |
165 | Int_t fPadsMax; //! Maximum number of time bins | |
166 | Int_t fTimeBinsMax; //! Maximum number of time bins | |
c322f08a | 167 | |
0ab2a4cc | 168 | // DQM variables |
169 | Bool_t fIsDQM; //! Is DQM -> Simple output (no 2D!) | |
170 | TProfile* fHistOccVsSector; //! Occ vs sector (for DQM only) | |
92ae9768 | 171 | TProfile2D* fHistOcc2dVsSector; //! Occ vs sector 2D (for DQM only) |
0ab2a4cc | 172 | TProfile* fHistQVsSector; //! Q vs sector (for DQM only) |
173 | TProfile* fHistQmaxVsSector; //! QMax vs sector (for DQM only) | |
174 | TArrayD* fOccVec; //! Occupancy help counter for DQM | |
175 | TArrayD* fOccMaxVec; //! Occupancy help normlization for DQM | |
92ae9768 | 176 | TArrayD* fOccVecFine; //! "2D" occupancy help counter for DQM |
177 | TArrayD* fOccMaxVecFine; //! "2D" occupancy help normlization for DQM | |
0ab2a4cc | 178 | |
179 | ||
ce0175fa | 180 | ClassDef(AliTPCdataQA, 5) // Implementation of the TPC Raw QA |
0ffacf98 | 181 | }; |
182 | ||
183 | ||
184 | ||
185 | #endif | |
186 |