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f67db810 | 1 | #ifndef ALIITSMODULEDASSD_H |
2 | #define ALIITSMODULEDASSD_H | |
3 | ||
4 | ||
223dda26 | 5 | /* Copyright(c) 2007-2009, ALICE Experiment at CERN, All rights reserved. * |
6 | * See cxx source for full Copyright notice */ | |
7 | /* */ | |
2e2c6def | 8 | /* $Id:$ */ |
223dda26 | 9 | /////////////////////////////////////////////////////////////////////////////// |
10 | /// | |
2e2c6def | 11 | /// This class provides storage container ITS SSD module calibration data |
223dda26 | 12 | /// used by DA. |
13 | /// | |
14 | /////////////////////////////////////////////////////////////////////////////// | |
f67db810 | 15 | |
223dda26 | 16 | #include "TObject.h" |
c4d90345 | 17 | #include "TArrayF.h" |
f67db810 | 18 | #include "AliITSChannelDaSSD.h" |
19 | ||
223dda26 | 20 | class AliITSNoiseSSD; |
2e2c6def | 21 | class AliITSPedestalSSD; |
22 | class AliITSBadChannelsSSD; | |
223dda26 | 23 | |
f67db810 | 24 | class AliITSModuleDaSSD : public TObject { |
25 | public : | |
26 | AliITSModuleDaSSD(); | |
27 | AliITSModuleDaSSD(const Int_t numberofstrips); | |
28 | AliITSModuleDaSSD(const Int_t numberofstrips, const Long_t eventsnumber); | |
29 | AliITSModuleDaSSD(const UChar_t ddlID, const UChar_t ad, const UChar_t adc, const UShort_t moduleID); | |
30 | AliITSModuleDaSSD(const AliITSModuleDaSSD& module); | |
31 | AliITSModuleDaSSD& operator = (const AliITSModuleDaSSD& module); | |
32 | virtual ~AliITSModuleDaSSD(); | |
33 | ||
34 | UChar_t GetDdlId() const { return fDdlId; } | |
35 | UChar_t GetAD() const { return fAd; } | |
36 | UChar_t GetADC() const { return fAdc; } | |
c4d90345 | 37 | Short_t GetModuleId() const { return fModuleId; } |
f67db810 | 38 | Int_t GetModuleRorcEquipId() const { return fEquipId; } |
39 | Int_t GetModuleRorcEquipType() const { return fEquipType; } | |
40 | Int_t GetNumberOfStrips() const { return fNumberOfStrips; } | |
41 | Long_t GetEventsNumber() const { return fEventsNumber; } | |
c4d90345 | 42 | Float_t* GetCM(const Int_t chipn) const { return chipn < fNumberOfChips ? fCm[chipn].GetArray() : NULL; } |
43 | Float_t GetCM(const Int_t chipn, const Long_t evn) const; | |
44 | TArrayF* GetCm() const { return fCm; } | |
45 | Int_t GetNumberOfChips() const { return fNumberOfChips; } | |
f67db810 | 46 | AliITSChannelDaSSD* GetStrip(const Int_t stripnumber) const |
47 | { return (fStrips) ? fStrips[stripnumber] : NULL; } | |
2e2c6def | 48 | AliITSNoiseSSD* GetCalibrationNoise() const; |
49 | AliITSPedestalSSD* GetCalibrationPedestal() const; | |
50 | AliITSBadChannelsSSD* GetCalibrationBadChannels() const; | |
f67db810 | 51 | Bool_t SetEventsNumber(const Long_t eventsnumber); |
c4d90345 | 52 | Bool_t SetNumberOfStrips(const Int_t numberofstrips); |
53 | Bool_t SetNumberOfChips(const Int_t nchips); | |
54 | Bool_t SetModuleIdData (const UChar_t ddlID, const UChar_t ad, const UChar_t adc, const Short_t moduleID); | |
f67db810 | 55 | void SetModuleFEEId (const UChar_t ddlID, const UChar_t ad, const UChar_t adc); |
56 | void SetModuleRorcId (const Int_t equipid, const Int_t equiptype); | |
c4d90345 | 57 | void SetModuleId (const Short_t moduleID) { fModuleId = moduleID; } |
f67db810 | 58 | void SetStrip(AliITSChannelDaSSD* strip, const Int_t strID) { if ((fStrips) && (strID <= fNumberOfStrips)) fStrips[strID] = strip; } |
c4d90345 | 59 | void SetCM (Float_t* cm, const Int_t chipn) { if (chipn < fNumberOfChips) fCm[chipn].Set(fCm[chipn].GetSize(), cm); } |
60 | Bool_t SetCM (const Float_t cm, const Int_t chipn, const Int_t evn); | |
a69c8ba0 | 61 | void DeleteCM () {if (fCm) { delete [] fCm; fNumberOfChips = 0; fCm = NULL; } } |
f67db810 | 62 | void DeleteSignal() {if (fStrips) for (Int_t i = 0; i < fNumberOfStrips; i++) |
63 | if (fStrips[i]) fStrips[i]->DeleteSignal(); fEventsNumber = 0; } | |
64 | static Int_t GetStripsPerModuleConst() { return fgkStripsPerModule; } | |
65 | static Int_t GetPNStripsPerModule() { return fgkPNStripsPerModule;} | |
66 | static Int_t GetStripsPerChip() { return fgkStripsPerChip; } | |
c4d90345 | 67 | static Int_t GetChipsPerModuleConst() { return fgkChipsPerModule; } |
f67db810 | 68 | |
69 | protected : | |
c4d90345 | 70 | static const Int_t fgkStripsPerModule; // Number of strips per SSD module |
71 | static const Int_t fgkPNStripsPerModule; // Number of N/P strips per SSD module | |
72 | static const Int_t fgkStripsPerChip; // Number of strips per chip HAL25 | |
73 | static const UChar_t fgkMaxAdNumber; // MAx SSD FEROM AD number | |
74 | static const UChar_t fgkMaxAdcNumber; // MAx SSD FEROM ADC number | |
75 | static const Int_t fgkChipsPerModule; // Number of HAL25 chips per SSD module | |
f67db810 | 76 | |
77 | Int_t fEquipId; // required to access to rorc | |
223dda26 | 78 | Int_t fEquipType; // fEquipType, required to access to rorc |
f67db810 | 79 | UChar_t fDdlId; // index of DDL, ITS SSD: 33-48 |
80 | UChar_t fAd; // index of AD module 0-9 | |
81 | UChar_t fAdc; // index of ADC module 0-5, 8-13 | |
2e2c6def | 82 | Short_t fModuleId; // Module number 500-2197 |
c4d90345 | 83 | |
84 | Int_t fNumberOfStrips; // Number of AliITSChannelDaSSD* allocated | |
85 | AliITSChannelDaSSD **fStrips; //[fNumberOfStrips] Array of *AliITSChannelDaSSD | |
f67db810 | 86 | |
c4d90345 | 87 | Int_t fNumberOfChips; // Number of TArrayF objects allocated for CM |
88 | TArrayF *fCm; //[fNumberOfChips] CM | |
f67db810 | 89 | |
c4d90345 | 90 | Long_t fEventsNumber; // number of events for fsignal memory allocation |
f67db810 | 91 | |
92 | private: | |
93 | Bool_t ForbiddenAdcNumber (const UChar_t adcn) const { return ((adcn == 6) || (adcn == 7)); } | |
94 | ||
c4d90345 | 95 | ClassDef(AliITSModuleDaSSD, 2) |
f67db810 | 96 | |
97 | }; | |
98 | ||
99 | #endif |