#ifndef ALITRDRAWSTREAM_H
#define ALITRDRAWSTREAM_H
-#include "TObject.h"
-#include "TClonesArray.h"
#include "TTree.h"
-
#include "AliLog.h"
+#include "TClonesArray.h"
+class TObject;
class TObjArray;
class TString;
class TBranch;
class AliTRDarrayADC;
class AliTRDSignalIndex;
class AliTRDtrackletContainer;
+class AliESDTrdTrack;
class AliTRDrawStream : public TObject
{
TClonesArray* GetMarkerArray() const { return fMarkers; }
AliTRDdigitsManager* GetDigitsManager() const { return fDigitsManager; }
- TTree *GetTrackletTree() const { return fTrackletTree; }
- Bool_t ReadEvent(TTree *trackletTree = 0x0);
+ Bool_t ReadEvent();
Bool_t NextDDL();
Int_t NextChamber(AliTRDdigitsManager *digMgr);
Int_t NextChamber(AliTRDdigitsManager *digMgr,
UInt_t ** /* trackletContainer */, UShort_t ** /* errorContainer */) { AliError("Deprecated, use NextChamber(AliTRDdigitsManger*) instead!"); return NextChamber(digMgr); }
- Bool_t ConnectTracklets(TTree *trklTree);
-
void StoreErrorsInTree() { fStoreError = &AliTRDrawStream::StoreErrorTree; }
void StoreErrorsInArray() { fStoreError = &AliTRDrawStream::StoreErrorArray; }
void EnableErrorStorage() { fStoreError = &AliTRDrawStream::StoreErrorTree; }
enum ErrorCode_t {
kUnknown = 0,
kLinkMonitor,
- kPtrgCntMismatch,
+ kEvCntMismatch,
kNonTrdEq,
kStackHeaderInvalid,
kInvalidDetector,
+ kInvalidPadRow,
kNoDigits,
kHCmismatch,
kHCcheckFailed,
kAdcChannelsMiss,
kMissMcmHeaders,
kMissTpData,
+ kCRCmismatch,
kLastErrorCode
};
enum ErrorBehav_t {
kTolerate = 0,
- kAbort = 1,
- kDiscardMCM = 2,
- kDiscardHC = 4
+ kDiscardMCM = 1,
+ kDiscardHC = 2,
+ kDiscardDDL = 4,
+ kAbort = 8
};
enum MarkerCode_t {
AliTRDrawStats* GetStats() { return &fStats; }
Int_t GetEventSize(Int_t sector) const { return fStats.fStatsSector[sector].fBytes; }
+ Int_t GetEventSize(Int_t sector, Int_t stack) const {
+ Int_t size = 0;
+ for (Int_t iHC = 0; iHC < 12; iHC++) {
+ size += fStats.fStatsSector[sector].fStatsHC[12*stack + iHC].fBytes;
+ }
+ return size;
+ }
+ Int_t GetEventSize(Int_t sector, Int_t stack, Int_t hc) const {
+ return fStats.fStatsSector[sector].fStatsHC[12*stack + hc].fBytes;
+ }
Int_t GetNTracklets(Int_t sector) const { return fStats.fStatsSector[sector].fNTracklets; }
Int_t GetNMCMs(Int_t sector) const { return fStats.fStatsSector[sector].fNMCMs; }
Int_t GetNChannels(Int_t sector) const { return fStats.fStatsSector[sector].fNChannels; }
- ULong64_t GetTrkFlags(Int_t sector, Int_t stack) const { return fCurrTrkFlags[sector*fgkNstacks + stack]; }
+ ULong64_t GetTrkFlags(Int_t sector, Int_t stack) const { return (fCurrTrgFlags[sector] & (1 << (27 + stack))) ? fCurrTrkFlags[sector*fgkNstacks + stack] : 0; }
UInt_t GetTriggerFlags(Int_t sector) const { return fCurrTrgFlags[sector]; }
+ UInt_t GetLinkMonitorFlags(Int_t sector, Int_t stack) const {
+ UInt_t temp = 0;
+ for (Int_t iLink = 0; iLink < 12; iLink++)
+ temp |= (fCurrLinkMonitorFlags[(sector * fgkNstacks + stack) * fgkNlinks + iLink] & 0x3) << (iLink * 2);
+ temp |= ((GetMatchFlagsBP(sector) >> stack) & 0x1) << 24;
+ temp |= ((GetMatchFlagsSRAM(sector) >> stack) & 0x1) << 25;
+ return temp;
+ }
+ UInt_t GetMatchFlagsSRAM(Int_t sector) const { return fCurrMatchFlagsSRAM[sector]; }
+ UInt_t GetMatchFlagsBP(Int_t sector) const { return fCurrMatchFlagsPostBP[sector]; }
+
+#ifdef TRD_RAW_DEBUG
+ UInt_t GetBC(Int_t hc) const { return fCurrBC[hc]; }
+ UInt_t GetEvCount(Int_t det) const { return fCurrEvCount[det]; }
+ UInt_t GetL0Count(Int_t sector) const { return fCurrL0Count[sector]; }
+ UInt_t GetL1aCount(Int_t sector) const { return fCurrL1aCount[sector]; }
+ UInt_t GetL1rCount(Int_t sector) const { return fCurrL1rCount[sector]; }
+ UInt_t GetL2aCount(Int_t sector) const { return fCurrL2aCount[sector]; }
+ UInt_t GetL2rCount(Int_t sector) const { return fCurrL2rCount[sector]; }
+ UInt_t GetChecksumStack(Int_t sector, Int_t stack) const { return fCurrChecksumStack[sector][stack]; }
+#endif
// raw data dumping
void SetDumpMCM(Int_t det, Int_t rob, Int_t mcm, Bool_t dump = kTRUE);
Bool_t IsDumping() const { return (fNDumpMCMs > 0); }
Bool_t DumpingMCM(Int_t det, Int_t rob, Int_t mcm) const;
- TString DumpRaw(TString title, UInt_t *start, Int_t length, UInt_t endmarker = 0xffffffff);
+ TString DumpRaw(TString title, const UInt_t *start, Int_t length, UInt_t endmarker = 0xffffffff);
TString DumpMcmHeader(TString title, UInt_t word);
TString DumpAdcMask(TString title, UInt_t word);
+ static void SortTracklets(TClonesArray *trklArray, TList &sortedTracklets, Int_t *indices);
+ static void AssignTracklets(AliESDTrdTrack *trdTrack, Int_t *trackletIndex, Int_t refIndex[6]);
+
// temporary: allow to change expected readout order
static void SetMCMReadoutPos(Int_t mcm, Int_t pos) { if (mcm > -1 && mcm < 16) fgMcmOrder[mcm] = pos; }
static void SetROBReadoutPos(Int_t robpair, Int_t pos) { if (robpair > -1 && robpair < 4) fgMcmOrder[robpair] = pos; }
Int_t ReadZSData();
Int_t ReadNonZSData();
+ UShort_t CalcLinkChecksum(UInt_t *data, Int_t size);
+
+ Int_t SeekNextStack();
Int_t SeekNextLink();
// MCM header decoding
Int_t CouldBeADCmask(UInt_t adcmask) const { return ((0xf & adcmask) == 0xc && (0x3 & adcmask >> 30) == 0x1); }
// error message generation
- void EquipmentError(ErrorCode_t err = kUnknown, const char *const msg = "", ...);
- void StackError (ErrorCode_t err = kUnknown, const char *const msg = "", ...);
- void LinkError (ErrorCode_t err = kUnknown, const char *const msg = "", ...);
- void ROBError (ErrorCode_t err = kUnknown, const char *const msg = "", ...);
- void MCMError (ErrorCode_t err = kUnknown, const char *const msg = "", ...);
+ void EquipmentError(ErrorCode_t err = kUnknown, const char *const msg = " ", ...);
+ void StackError (ErrorCode_t err = kUnknown, const char *const msg = " ", ...);
+ void LinkError (ErrorCode_t err = kUnknown, const char *const msg = " ", ...);
+ void ROBError (ErrorCode_t err = kUnknown, const char *const msg = " ", ...);
+ void MCMError (ErrorCode_t err = kUnknown, const char *const msg = " ", ...);
void StoreErrorTree() { fErrors->Fill(); }
void StoreErrorArray() { new ((*fMarkers)[fMarkers->GetEntriesFast()]) AliTRDrawStreamError(fLastError); }
void ForgetError() { return; }
static const Int_t fgkNtriggers; // number of triggers in data stream
static const UInt_t fgkDataEndmarker; // data endmarker
static const UInt_t fgkTrackletEndmarker; // tracklet endmarker
+ static const UInt_t fgkStackEndmarker[]; // stack endmarker (used from version 0xd on)
static Int_t fgMcmOrder []; // expected readout order of the MCMs
static Int_t fgRobOrder []; // expected readout order of the ROBs
UInt_t fCurrTrgHeaderAvail; // current trigger information availability
UInt_t fCurrTrgHeaderReadout; // current readout mode for the trigger headers
UInt_t fCurrTrkHeaderAvail; // current tracking information availability
+ UInt_t fCurrStackEndmarkerAvail; // current stack endmarker availability
UInt_t fCurrEvType; // current event type
UInt_t fCurrTriggerEnable; // current trigger enable
UInt_t fCurrTriggerFired; // current trigger fired
UInt_t fCurrTrackEnable; // current value of track enable
UInt_t fCurrTrackletEnable; // current value of tracklet enable
UInt_t fCurrStackMask; // current mask of active stacks
+#ifdef TRD_RAW_DEBUG
+ UInt_t *fCurrL0Count; // number of received L0 triggers
+ UInt_t *fCurrL1aCount; // number of received L1a triggers
+ UInt_t *fCurrL1rCount; // number of received L1r triggers
+ UInt_t *fCurrL2aCount; // number of received L2a triggers
+ UInt_t *fCurrL2rCount; // number of received L2r triggers
+ Int_t fCurrL0offset[540]; // current offset for L0 accepts from GTU and chambers
+ UInt_t fCurrEvCount[540]; // current event count from the MCMs
+#endif
// Tracking header
UInt_t *fCurrTrkHeaderIndexWord; // current tracking header index word
UInt_t *fCurrLinkDataTypeFlags; // current link data flags
UInt_t *fCurrLinkDebugFlags; // current link debug flags
+ // CRC checks from trailer
+ Char_t fCurrMatchFlagsSRAM[18];
+ Char_t fCurrMatchFlagsPostBP[18];
+ UInt_t fCurrChecksumStack[18][5];
+ UInt_t fCurrChecksumSIU;
+
// HC information
Int_t fCurrSpecial; // current value of the special flag
Int_t fCurrMajor; // current major version
Int_t fCurrHC; // current HC
Int_t fCurrCheck; // current check bits
Int_t fCurrNtimebins; // current number of timebins
- Int_t fCurrBC; // current BC
Int_t fCurrPtrgCnt; // current pretrigger count
Int_t fCurrPtrgPhase; // current pretrigger phase
+#ifdef TRD_RAW_DEBUG
+ Int_t fCurrBC[1080]; // current BC
+#endif
// settings for dumping
Int_t fDumpMCM[100]; // MCMs to dump
Int_t fNDumpMCMs; // number of MCMs to dump
- // tracklet information
- TClonesArray *fTrackletArray; // pointer to array for tracklet storage
-
// output data
AliTRDarrayADC *fAdcArray; // pointer to ADC array
AliTRDSignalIndex *fSignalIndex; // pointer to the signal index
- TTree *fTrackletTree; // pointer to the tree for tracklet storage
TClonesArray *fTracklets; // pointer to array of tracklets
TClonesArray *fTracks; // pointer to array of GTU tracks
TClonesArray *fMarkers; // pointer to array of markers (data present, errors, ...)