1 #ifndef ALIMUONPADSTATUSMAKER_H
2 #define ALIMUONPADSTATUSMAKER_H
4 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
5 * See cxx source for full Copyright notice */
10 /// \class AliMUONPadStatusMaker
11 /// \brief Make a 2DStore of pad statuses, using different sources of information
13 // Author Laurent Aphecetche
19 # include "TVector2.h"
23 class AliMUONCalibrationData;
24 class AliMUONRecoParam;
25 class AliMUONVCalibParam;
26 class AliMUONVTrackerData;
29 class AliMUONPadStatusMaker : public TObject
32 AliMUONPadStatusMaker(const AliMUONCalibrationData& calibData);
33 virtual ~AliMUONPadStatusMaker();
35 /// Get the reference to the calibrationdata object we use.
36 const AliMUONCalibrationData& CalibrationData() const { return fkCalibrationData; }
38 /** Get access to internal status store (for debug only, as it may not be complete,
39 depending on whether you've already called PadStatus for all possible de,manu
40 combinations or not...
42 AliMUONVStore* StatusStore() const { return fStatus; }
44 AliMUONVCalibParam* PadStatus(Int_t detElemId, Int_t manuId) const;
46 Int_t PadStatus(Int_t detElemId, Int_t manuId, Int_t manuChannel) const;
48 AliMUONVStore* NeighboursStore() const;
50 AliMUONVCalibParam* Neighbours(Int_t detElemId, Int_t manuId) const;
52 static TString AsString(Int_t status);
54 static TString AsCondition(Int_t status);
56 /// Return Low and High limits for a0 parameter of gain (linear slope)
57 TVector2 GainA1Limits() const { return fGainA1Limits; }
58 /// Return Low and High limits for a1 parameter of gain (parabolic term)
59 TVector2 GainA2Limits() const { return fGainA2Limits; }
60 /// Return Low and High limits for thres parameter of gain
61 TVector2 GainThresLimits() const { return fGainThresLimits; }
63 /// Return HV threshold
64 Double_t HVLimit(Int_t chamberId) const;
66 /// Return Low and High threshold for pedestal mean
67 TVector2 PedMeanLimits() const { return fPedMeanLimits; }
68 /// Return Low and High threshold for pedestal sigma
69 TVector2 PedSigmaLimits() const { return fPedSigmaLimits; }
71 /// Set Low and High limits for a0 parameter of gain (linear slope)
72 void GainA1Limits(float low, float high) { fGainA1Limits.Set(low,high); }
73 /// Set Low and High limits for a1 parameter of gain (parabolic term)
74 void GainA2Limits(float low, float high) { fGainA2Limits.Set(low,high); }
75 /// Set Low and High limits for thres parameter of gain
76 void GainThresLimits(float low, float high) { fGainThresLimits.Set(low,high); }
79 void SetHVLimit(Int_t chamberId, Double_t hv);
81 /// Set Low and High threshold for pedestal mean
82 void SetPedMeanLimits(float low, float high) { fPedMeanLimits.Set(low,high); }
83 /// Set Low and High threshold for pedestal sigma
84 void SetPedSigmaLimits(float low, float high) { fPedSigmaLimits.Set(low,high); }
86 /// Set Low and High threshold for gain a0 term
87 void SetGainA1Limits(float low, float high) { fGainA1Limits.Set(low,high); }
88 /// Set Low and High threshold for gain a1 term
89 void SetGainA2Limits(float low, float high) { fGainA2Limits.Set(low,high); }
90 /// Set Low and High threshold for gain threshold term
91 void SetGainThresLimits(float low, float high) { fGainThresLimits.Set(low,high); }
93 /// Set Low and High manu occupancy limits
94 void SetManuOccupancyLimits(float low, float high) { fManuOccupancyLimits.Set(low,high); }
95 /// Get manu occupancy limits
96 TVector2 ManuOccupancyLimits() const { return fManuOccupancyLimits; }
98 /// Set Low and High bus patch occupancy limits
99 void SetBuspatchOccupancyLimits(float low, float high) { fBuspatchOccupancyLimits.Set(low,high); }
100 /// Get bus patch occupancy limits
101 TVector2 BuspatchOccupancyLimits() const { return fBuspatchOccupancyLimits; }
103 /// Set Low and High DE occupancy limits
104 void SetDEOccupancyLimits(float low, float high) { fDEOccupancyLimits.Set(low,high); }
105 /// Get DE occupancy limits
106 TVector2 DEOccupancyLimits() const { return fDEOccupancyLimits; }
108 void SetLimits(const AliMUONRecoParam& recoParams);
110 void Report(UInt_t mask);
112 static Float_t SwitchValue(const TObjArray& dcsArray);
114 Int_t HVStatus(Int_t detElemId, Int_t manuId) const;
116 Int_t OccupancyStatus(Int_t detElemId, Int_t manuId) const;
118 static void DecodeStatus(Int_t status, Int_t& pedStatus, Int_t& hvStatus,
119 Int_t& gainStatus, Int_t& otherStatus);
120 static Int_t BuildStatus(Int_t pedStatus, Int_t hvStatus,
121 Int_t gainStatus, Int_t otherStatus);
124 AliMUONPadStatusMaker(const AliMUONPadStatusMaker&);
126 AliMUONPadStatusMaker& operator=(const AliMUONPadStatusMaker&);
129 AliMUONVCalibParam* ComputeStatus(Int_t detElemId, Int_t manuId) const;
131 Bool_t HVSt12Status(Int_t detElemId, Int_t sector,
132 Bool_t& hvChannelTooLow,
133 Bool_t& hvChannelTooHigh,
134 Bool_t& hvChannelON) const;
137 Bool_t HVSt345Status(Int_t detElemId, Int_t pcbIndex,
138 Bool_t& hvChannelTooLow,
139 Bool_t& hvChannelTooHigh,
141 Bool_t& hvSwitchON) const;
143 void SetHVStatus(Int_t detElemId, Int_t index, Int_t status) const;
156 kGainA1TooLow = (1<<1),
157 kGainA1TooHigh = (1<<2),
158 kGainA2TooLow = (1<<3),
159 kGainA2TooHigh = (1<<4),
160 kGainThresTooLow = (1<<5),
161 kGainThresTooHigh = (1<<6),
163 kGainMissing = kMissing // please always use last bit for meaning "missing"
170 kPedMeanZero = (1<<1),
171 kPedMeanTooLow = (1<<2),
172 kPedMeanTooHigh = (1<<3),
173 kPedSigmaTooLow = (1<<4),
174 kPedSigmaTooHigh = (1<<5),
176 kPedMissing = kMissing // please always use last bit for meaning "missing"
185 kHVTooHigh = (1<<2), // no longer to be used
186 kHVChannelOFF = (1<<3),
187 kHVSwitchOFF = (1<<4),
189 kHVMissing = kMissing // please always use last bit for meaning "missing"
193 enum EOccupancyStatus
195 kManuOccupancyTooLow = (1<<1),
196 kManuOccupancyTooHigh = (1<<2),
197 kBusPatchOccupancyTooLow = (1<<3),
198 kBusPatchOccupancyTooHigh = (1<<4),
199 kDEOccupancyTooLow = (1<<5),
200 kDEOccupancyTooHigh = (1<<6)
203 const AliMUONCalibrationData& fkCalibrationData; //!< helper class to get data access (not owner)
205 TVector2 fGainA1Limits; //!< Low and High threshold for gain a0 parameter
206 TVector2 fGainA2Limits; //!< Low and High threshold for gain a1 parameter
207 TVector2 fGainThresLimits; //!< Low and High threshold for gain threshold parameter
209 Double_t fHVLimit[10]; //!< Low thresholds for HV
211 TVector2 fPedMeanLimits; //!< Low and High threshold for pedestal mean
212 TVector2 fPedSigmaLimits; //!< Low and High threshold for pedestal sigma
214 TVector2 fManuOccupancyLimits; //!< Low and High manu occupancy limits
215 TVector2 fBuspatchOccupancyLimits; //!< Low and High buspatch occupancy limits
216 TVector2 fDEOccupancyLimits; //!< Low and High DE occupancy limits
218 AliMUONVStore* fStatus; //!< statuses of the pads
220 mutable TExMap* fHV; //!< cache of hv statuses
222 AliMUONVStore* fPedestals; //!< pedestal values
223 AliMUONVStore* fGains; //!< gain values
225 AliMUONVTrackerData* fTrackerData; //!< to get occupancies...
227 ClassDef(AliMUONPadStatusMaker,0) // Creates pad statuses from ped,gain,hv