4 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
5 * See cxx source for full Copyright notice */
7 //////////////////////////////////////////////////////////////////////////////
9 // The AliDAQ class is responsible for handling all the information about //
10 // Data Acquisition configuration. It defines the detector indexing, //
11 // the number of DDLs and LDCs per detector. //
12 // The number of LDCs per detector is used only in the simulation in order //
13 // to define the configuration of the dateStream application. Therefore the //
14 // numbers in the corresponding array can be changed without affecting the //
15 // rest of the aliroot code. //
16 // The equipment ID (DDL ID) is an integer (32-bit) number defined as: //
17 // Equipment ID = (detectorID << 8) + DDLIndex //
18 // where the detectorID is given by fgkDetectorName array and DDLIndex is //
19 // the index of the corresponding DDL inside the detector partition. //
20 // Due to DAQ/HLT limitations, the ddl indexes should be consequtive, or //
21 // at least without big gaps in between. //
22 // The sub-detector code use only this class in the simulation and reading //
23 // of the raw data. //
25 // cvetan.cheshkov@cern.ch 2006/06/09 //
27 //////////////////////////////////////////////////////////////////////////////
31 class AliDAQ: public TObject {
35 AliDAQ(const AliDAQ& source);
36 AliDAQ& operator = (const AliDAQ& source);
39 static Int_t DetectorID(const char *detectorName);
40 static const char *DetectorName(Int_t detectorID);
42 static Int_t DdlIDOffset(const char *detectorName);
43 static Int_t DdlIDOffset(Int_t detectorID);
45 static const char *DetectorNameFromDdlID(Int_t ddlID, Int_t &ddlIndex);
46 static Int_t DetectorIDFromDdlID(Int_t ddlID, Int_t &ddlIndex);
48 static Int_t DdlID(const char *detectorName, Int_t ddlIndex);
49 static Int_t DdlID(Int_t detectorID, Int_t ddlIndex);
50 static const char *DdlFileName(const char *detectorName, Int_t ddlIndex);
51 static const char *DdlFileName(Int_t detectorID, Int_t ddlIndex);
53 static Int_t NumberOfDdls(const char *detectorName);
54 static Int_t NumberOfDdls(Int_t detectorID);
56 static Float_t NumberOfLdcs(const char *detectorName);
57 static Float_t NumberOfLdcs(Int_t detectorID);
59 static void PrintConfig();
61 static const char *ListOfTriggeredDetectors(UInt_t detectorPattern);
62 static UInt_t DetectorPattern(const char *detectorList);
63 static UInt_t DetectorPatternOffline(const char *detectorList);
65 static const char *OfflineModuleName(const char *detectorName);
66 static const char *OfflineModuleName(Int_t detectorID);
68 static const char *OnlineName(const char *detectorName);
69 static const char *OnlineName(Int_t detectorID);
72 kNDetectors = 21, // Number of detectors
73 kHLTId = 30 // HLT detector index
76 enum DetectorBits {kSPD = 0x0001, kSDD = 0x0002, kSSD = 0x0004, kITS = 0x0007,
77 kTPC = 0x0008, kTRD = 0x0010, kTOF = 0x0020, kHMPID = 0x0040,
78 kPHOS = 0x0080, kCPV = 0x0100, kPMD = 0x0200, kMUONTRK = 0x0400,
79 kMUONTRG = 0x0800, kMUON = 0x0c00, kFMD = 0x1000, kT0 = 0x2000, kVZERO = 0x4000,
80 kZDC = 0x8000, kACORDE = 0x10000, kTRG = 0x20000, kEMCAL = 0x40000,
81 kDAQTEST = 0x80000, kHLT = 0x40000000 };
85 static const char *fgkDetectorName[kNDetectors]; // Detector names
86 static Int_t fgkNumberOfDdls[kNDetectors]; // Number of DDLs per detector
87 static Float_t fgkNumberOfLdcs[kNDetectors]; // Number of LDCs per detector (not fixed - used only for the raw data simulation)
88 static const char* fgkOfflineModuleName[kNDetectors]; // Names of the offline modules corresponding to the detectors
89 static const char* fgkOnlineName[kNDetectors]; // Online (DAQ/ECS) detector names
91 ClassDef(AliDAQ, 3) // ALICE DAQ Configuration class