//#include "AliTOFHitData.h"
#include "AliTOFHitDataBuffer.h"
#include "AliTOFDecoder.h"
-#include "AliTOFCableLengthMap.h"
+//#include "AliTOFCableLengthMap.h"
class AliTOFHitData;
+class AliTOFDecoderV2;
+
/**********************************
* OLD DEFINITIONS
**********************************/
******************************************/
//filler
-#ifndef FILLER
+//#ifndef FILLER
#define FILLER 0x70000000
-#endif
+//#endif
//word type mask/position
-#ifndef WORD_TYPE_MASK
#define WORD_TYPE_MASK 0xf0000000
-#endif
#define WORD_TYPE_POSITION 28
//global header word required bit pattern
-#ifndef GLOBAL_HEADER
#define GLOBAL_HEADER 0x40000000
-#endif
//global trailer word required bit pattern
-#ifndef GLOBAL_TRAILER
#define GLOBAL_TRAILER 0x50000000
-#endif
//error word required bit pattern
-#ifndef ERROR
-#define ERROR 0x30000000
-#endif
+// already defined in AliTOFDecoder
+//#define ERROR 0x30000000
//header slot ID mask/position
#define HEADER_SLOT_ID_MASK 0x0000000f
#define TRM_FIRST_SLOT_ID 3
//define hptdc time bin width
-#ifndef TIME_BIN_WIDTH
#define TIME_BIN_WIDTH 24.4e-3 //ns
-#endif
//define hptdc tot bin width
-#ifndef TOT_BIN_WIDTH
-#define TOT_BIN_WIDTH 48.4e-3 //ns
-#endif
+// already defined in AliTOFDecoder
+//#define TOT_BIN_WIDTH 48.4e-3 //ns
//TRM errors
AliTOFRawStream(AliRawReader* rawReader); // ctr
virtual ~AliTOFRawStream(); // default dtr
+ AliTOFRawStream(const AliTOFRawStream& stream); // copy ctr
+ AliTOFRawStream& operator = (const AliTOFRawStream& stream); // ass. op.
+
virtual Bool_t Next();
virtual void LoadRawData(Int_t indexDDL);
Int_t GetErrorFlag() const {return fErrorFlag;};
+ Bool_t GetDecoderVersion() const {return fNewDecoderVersion;};
+
void SetDDL(Int_t nDDL) {fDDL = nDDL;};
void SetTRM(Int_t nTRM) {fTRM = nTRM;};
void SetTDC(Int_t nTDC) {fTDC = nTDC;};
void SetTRMchain(Int_t nChain) {fTRMchain = nChain;};
void SetTDCchannel(Int_t nChannel) {fTDCchannel = nChannel;};
+ void SetDecoderVersion(Bool_t version) {fNewDecoderVersion = version;};
+
TClonesArray *GetRawData() const {return fTOFrawData;};
void SetSector();
void SetPadZ();
void SetPadX();
- Bool_t GetBCCorrections() {return fgApplyBCCorrections;}; // getter for the BC application switch
- Int_t GetDDLBCshift(Int_t ddl) {return fgkddlBCshift[ddl];}; // getter for the DDL BC shift
- Int_t GetLocalEventCounterDRM() {return fLocalEventCounterDRM;}; // getter for the DRM event counter
- Int_t GetLocalEventCounterLTM() {return fLocalEventCounterLTM;}; // getter for the LTM event counter
- Int_t GetLocalEventCounterTRM(Int_t trm) {return fLocalEventCounterTRM[trm];}; // getter for the TRM event counter
- Int_t GetLocalEventCounterChain(Int_t trm, Int_t chain) {return fLocalEventCounterChain[trm][chain];}; // getter for the chain event counter
- Int_t GetChainBunchID(Int_t trm, Int_t chain) {return fChainBunchID[trm][chain];}; // getter for the chain BC ID
+ Bool_t GetBCCorrections() const {return fgApplyBCCorrections;}; // getter for the BC application switch
+ Int_t GetDDLBCshift(Int_t ddl) const {return fgkddlBCshift[ddl];}; // getter for the DDL BC shift
+ Int_t GetLocalEventCounterDRM() const {return fLocalEventCounterDRM;}; // getter for the DRM event counter
+ Int_t GetLocalEventCounterLTM() const {return fLocalEventCounterLTM;}; // getter for the LTM event counter
+ Int_t GetLocalEventCounterTRM(Int_t trm) const {return fLocalEventCounterTRM[trm];}; // getter for the TRM event counter
+ Int_t GetLocalEventCounterChain(Int_t trm, Int_t chain) const {return fLocalEventCounterChain[trm][chain];}; // getter for the chain event counter
+ Int_t GetChainBunchID(Int_t trm, Int_t chain) const {return fChainBunchID[trm][chain];}; // getter for the chain BC ID
+
- void EquipmentId2VolumeId(Int_t nDDL, Int_t nTRM, Int_t iChain,
- Int_t iTDC, Int_t iCH, Int_t *volume) const;
+ void Raw2Digits(AliRawReader* rawReader, TClonesArray * const digitsArray);
+ void Raw2SDigits(AliRawReader* rawReader, TClonesArray * const sdigitsArray);
+
+ static void EquipmentId2VolumeId(Int_t nDDL, Int_t nTRM, Int_t iChain,
+ Int_t iTDC, Int_t iCH, Int_t *volume);
void EquipmentId2VolumeId(AliTOFHitData *hitData, Int_t *volume) const;
static Int_t Equip2VolNplate(Int_t iDDL, Int_t nTRM, Int_t nTDC);
static Int_t Equip2VolNstrip(Int_t iDDL, Int_t nTRM, Int_t nTDC);
Bool_t DecodeDDL(Int_t DDLMin, Int_t DDLMax, Int_t verbose);
Bool_t Decode(Int_t verbose);
- AliTOFDecoder *GetDecoder() {return fDecoder;};
+ Bool_t DecodeV2(Int_t verbose);
+ AliTOFDecoder *GetDecoder() const {return fDecoder;};
+ AliTOFDecoderV2 *GetDecoderV2() const {return fDecoderV2;};
void SetV2718Patch(Bool_t V2718Patch = kTRUE) {fDecoder->SetV2718Patch(V2718Patch);};
+ void SetRawReader(AliRawReader * const rawReader) {fRawReader=rawReader;};
- AliTOFHitDataBuffer *GetDataBuffer(Int_t DDL) {return fDataBuffer[DDL];};
- AliTOFHitDataBuffer *GetPackedDataBuffer(Int_t DDL) {return fPackedDataBuffer[DDL];};
+ AliTOFHitDataBuffer * GetDataBuffer(Int_t DDL) {return &fDataBuffer[DDL];};
+ AliTOFHitDataBuffer * GetPackedDataBuffer(Int_t DDL) {return &fPackedDataBuffer[DDL];};
- void ResetDataBuffer(Int_t DDL) {fDataBuffer[DDL]->Reset();};
- void ResetPackedDataBuffer(Int_t DDL) {fPackedDataBuffer[DDL]->Reset();};
+ void ResetDataBuffer(Int_t DDL) {fDataBuffer[DDL].Reset();};
+ void ResetPackedDataBuffer(Int_t DDL) {fPackedDataBuffer[DDL].Reset();};
void ResetBuffers();
Bool_t LoadRawDataBuffers(Int_t indexDDL, Int_t verbose = 0);
+ Bool_t LoadRawDataBuffersV2(Int_t indexDDL, Int_t verbose = 0);
static void ApplyBCCorrections(Bool_t Value = kTRUE) {fgApplyBCCorrections = Value;};
Int_t GetEventID() const {return fEventID;}; // getter for the eventID1 (bunch crossing) in the common data header
+ void LTM2VolumeID(Int_t iDDL,
+ Int_t iTRM,
+ Int_t iChain,
+ Int_t iTDC,
+ Int_t iChannel,
+ Int_t detind0[], Int_t detind1[]) const;
+ void VolumeID2LTM(Int_t detind[],
+ Int_t &iDDL,
+ Int_t &iTRM,
+ Int_t &iChain,
+ Int_t &iTDC,
+ Int_t &iChannel) const;
+
enum ETOFRawStreamError {
kPadXError = 0,
kPadAlongStripError = 1,
Int_t GetField(UInt_t word, Int_t fieldMask, Int_t fieldPosition) const;
- AliTOFRawStream(const AliTOFRawStream& stream); // copy ctr
- AliTOFRawStream& operator = (const AliTOFRawStream& stream); // ass. op.
-
AliRawReader* fRawReader; // object for reading the raw data
TClonesArray *fTOFrawData; // pointer to AliTOFrawData TClonesArray
AliTOFDecoder *fDecoder; //pointer to TOF decoder
+ AliTOFDecoderV2 *fDecoderV2; //pointer to TOF decoder
Int_t fDDL; // DDL file number [0;71]
Int_t fTRM; // TRM number [1;12]
Bool_t fInsideTRMchain0; // inside/outside chain 0
Bool_t fInsideTRMchain1; // inside/outside chain 1
- AliTOFHitDataBuffer *fDataBuffer[72]; // pointer to AliTOFHitDataBuffer
- AliTOFHitDataBuffer *fPackedDataBuffer[72]; // pointer to AliTOFHitDataBuffer
+ AliTOFHitDataBuffer fDataBuffer[72]; // AliTOFHitDataBuffer
+ AliTOFHitDataBuffer fPackedDataBuffer[72]; // AliTOFHitDataBuffer
- Int_t fLocalEventCounterDRM; // event counter recorded in the DRM global trailer
- Int_t fLocalEventCounterLTM; // event counter recorded in the LTM global trailer
- Int_t *fLocalEventCounterTRM; // event counter recorded in the TRMs global trailer
- Int_t **fLocalEventCounterChain; // event counter recorded in the chains trailer
- Int_t **fChainBunchID; // BC ID recorded in the chains header
+ Int_t fLocalEventCounterDRM; // event counter recorded in the DRM global trailer
+ Int_t fLocalEventCounterLTM; // event counter recorded in the LTM global trailer
+ Int_t fLocalEventCounterTRM[13]; // event counter recorded in the TRMs global trailer
+ Int_t fLocalEventCounterChain[13][2]; // event counter recorded in the chains trailer
+ Int_t fChainBunchID[13][2]; // BC ID recorded in the chains header
- AliTOFCableLengthMap * fCableLengthMap;
+ //AliTOFCableLengthMap * fCableLengthMap; // Pointer to the map of Amphenol cable length
Int_t fEventID; // event ID1 in the common data header
+ Bool_t fNewDecoderVersion; // setting whether to use the new decoder version
+ // -true -> new version
+ // -false ->old version (default value!!)
+
static const Int_t fgkddlBCshift[72]; // DDL BC shifts
static Bool_t fgApplyBCCorrections; // switch to choose if apply or not the BC shift corrections
+ static const Int_t fgkStrip0MapCrate0[]; // 1st strip number in crate 0
+ static const Int_t fgkStrip1MapCrate0[]; // 2nd strip number in crate 0
+ static const Int_t fgkStrip0MapCrate1[]; // 1st strip number in crate 1
+ static const Int_t fgkStrip1MapCrate1[]; // 2nd strip number in crate 1
+ static const Int_t fgkStrip0MapCrate2[]; // 1st strip number in crate 2
+ static const Int_t fgkStrip1MapCrate2[]; // 2nd strip number in crate 2
+ static const Int_t fgkStrip0MapCrate3[]; // 1st strip number in crate 3
+ static const Int_t fgkStrip1MapCrate3[]; // 2nd strip number in crate 3
+
+ static const Int_t fgkModule0MapCrate0[]; // 1st module number in crate 0
+ static const Int_t fgkModule1MapCrate0[]; // 2nd module number in crate 0
+ static const Int_t fgkModule0MapCrate1[]; // 1st module number in crate 1
+ static const Int_t fgkModule1MapCrate1[]; // 2nd module number in crate 1
+ static const Int_t fgkModule0MapCrate2[]; // 1st module number in crate 2
+ static const Int_t fgkModule1MapCrate2[]; // 2nd module number in crate 2
+ static const Int_t fgkModule0MapCrate3[]; // 1st module number in crate 3
+ static const Int_t fgkModule1MapCrate3[]; // 2nd module number in crate 3
+
+ static const Int_t fgkChannelMap0[5][19]; // mapping padX<24 <-> TDC channels
+ static const Int_t fgkChannelMap24[5][19]; // mapping padX>=24 <-> TDC channels
+ static const Int_t fgkChainMap0[5][19]; // mapping padX<24 <-> TRM chain
+ static const Int_t fgkChainMap24[5][19]; // mapping padX>=24 <-> TRM chain
+
+
ClassDef(AliTOFRawStream, 3) // class for reading TOF raw digits
};