#include "AliLog.h"
#include "AliRawReader.h"
+#include "AliTRDcalibDB.h"
#include "AliTRDdigitsManager.h"
#include "AliTRDdigitsParam.h"
+#include "AliTRDcalibDB.h"
+#include "AliTRDmcmSim.h"
#include "AliTRDtrapConfig.h"
#include "AliTRDarrayADC.h"
#include "AliTRDarrayDictionary.h"
#include "AliTRDSignalIndex.h"
#include "AliTRDtrackletWord.h"
+#include "AliTRDtrackletMCM.h"
#include "AliESDTrdTrack.h"
#include "AliTreeLoader.h"
#include "AliLoader.h"
const Int_t AliTRDrawStream::fgkNtriggers = 12;
const UInt_t AliTRDrawStream::fgkDataEndmarker = 0x00000000;
const UInt_t AliTRDrawStream::fgkTrackletEndmarker = 0x10001000;
+const UInt_t AliTRDrawStream::fgkStackEndmarker[] = { 0xe0d01000, 0xe0d10000 };
const char* AliTRDrawStream::fgkErrorMessages[] = {
"Unknown error",
"Link monitor active",
- "Pretrigger counter mismatch",
+ "Event counter mismatch",
"not a TRD equipment (1024-1041)",
"Invalid Stack header",
"Invalid detector number",
+ "Invalid pad row",
"No digits could be retrieved from the digitsmanager",
"HC header mismatch",
"HC check bits wrong",
"ADC check bits invalid",
"Missing ADC data",
"Missing expected ADC channels",
- "Missing MCM headers"
+ "Missing MCM headers",
+ "Missing TP data",
+ "CRC mismatch"
};
Int_t AliTRDrawStream::fgErrorDebugLevel[] = {
1,
0,
1,
+ 0,
1,
- 1,
+ 0,
1,
2,
1,
- 1,
+ 0,
1,
1,
2,
1,
1,
- 1
+ 1,
+ 0,
+ 0
};
AliTRDrawStream::ErrorBehav_t AliTRDrawStream::fgErrorBehav[] = {
AliTRDrawStream::kAbort,
AliTRDrawStream::kAbort,
AliTRDrawStream::kAbort,
+ AliTRDrawStream::kDiscardMCM,
AliTRDrawStream::kAbort,
AliTRDrawStream::kDiscardHC,
AliTRDrawStream::kDiscardHC,
AliTRDrawStream::kTolerate,
AliTRDrawStream::kTolerate,
AliTRDrawStream::kTolerate,
+ AliTRDrawStream::kTolerate,
+ AliTRDrawStream::kTolerate,
AliTRDrawStream::kTolerate
};
AliTRDrawStream::AliTRDrawStream(AliRawReader *rawReader) :
- fStats(),
fStoreError(&AliTRDrawStream::ForgetError),
fRawReader(rawReader),
fDigitsManager(0x0),
fErrors(0x0),
fLastError(),
fErrorFlags(0),
+ fStats(),
fPayloadStart(0x0),
fPayloadCurr(0x0),
fPayloadSize(0),
fCurrTrgHeaderAvail(0),
fCurrTrgHeaderReadout(0),
fCurrTrkHeaderAvail(0),
+ fCurrStackEndmarkerAvail(0),
fCurrEvType(0),
fCurrTriggerEnable(0),
fCurrTriggerFired(0),
fCurrStackMask(0),
fCurrTrkHeaderIndexWord(0x0),
fCurrTrkHeaderSize(0x0),
+ fCurrTrkFlags(0x0),
fCurrTrgHeaderIndexWord(0x0),
fCurrTrgHeaderSize(0x0),
+ fCurrTrgFlags(0x0),
fCurrStackIndexWord(0x0),
fCurrStackHeaderSize(0x0),
fCurrStackHeaderVersion(0x0),
fCurrLinkMonitorFlags(0x0),
fCurrLinkDataTypeFlags(0x0),
fCurrLinkDebugFlags(0x0),
+ fCurrMatchFlagsSRAM(0),
+ fCurrMatchFlagsPostBP(0),
+ fCurrChecksumStack(),
+ fCurrChecksumSIU(0),
fCurrSpecial(-1),
fCurrMajor(-1),
fCurrMinor(-1),
fCurrTrkHeaderIndexWord = new UInt_t[fgkNstacks];
fCurrTrkHeaderSize = new UInt_t[fgkNstacks];
+ fCurrTrkFlags = new ULong64_t[fgkNsectors*fgkNstacks];
fCurrTrgHeaderIndexWord = new UInt_t[fgkNtriggers];
fCurrTrgHeaderSize = new UInt_t[fgkNtriggers];
+ fCurrTrgFlags = new UInt_t[fgkNsectors];
fCurrStackIndexWord = new UInt_t[fgkNstacks];
fCurrStackHeaderSize = new UInt_t[fgkNstacks];
fCurrStackHeaderVersion = new UInt_t[fgkNstacks];
fCurrLinkMonitorFlags = new UInt_t[fgkNstacks * fgkNlinks];
fCurrLinkDataTypeFlags = new UInt_t[fgkNstacks * fgkNlinks];
fCurrLinkDebugFlags = new UInt_t[fgkNstacks * fgkNlinks];
+ for (Int_t iSector = 0; iSector < fgkNsectors; iSector++)
+ fCurrTrgFlags[iSector] = 0;
for (Int_t i = 0; i < 100; i++)
fDumpMCM[i] = 0;
delete [] fCurrTrkHeaderIndexWord;
delete [] fCurrTrkHeaderSize;
+ delete [] fCurrTrkFlags;
delete [] fCurrTrgHeaderIndexWord;
delete [] fCurrTrgHeaderSize;
+ delete [] fCurrTrgFlags;
delete [] fCurrStackIndexWord;
delete [] fCurrStackHeaderSize;
delete [] fCurrStackHeaderVersion;
if ((fCurrLinkMask[fCurrSlot] & (1 << fCurrLink)) == 0)
continue;
+ Int_t size = 0;
+
fErrorFlags = 0;
// check for link monitor error flag
- if (fCurrLinkMonitorFlags[fCurrSlot*fgkNlinks + fCurrLink] != 0)
+ if (fCurrLinkMonitorFlags[fCurrSlot*fgkNlinks + fCurrLink] != 0) {
LinkError(kLinkMonitor);
+ if (fgErrorBehav[kLinkMonitor] == kTolerate)
+ size += ReadLinkData();
+ }
else
// read the data from one HC
- ReadLinkData();
+ size += ReadLinkData();
// read all data endmarkers
- SeekNextLink();
+ size += SeekNextLink();
}
+
+ // continue with next stack
+ SeekNextStack();
}
}
while ((fCurrSlot < fgkNstacks) &&
(((fCurrStackMask & (1 << fCurrSlot)) == 0) ||
((fCurrLinkMask[fCurrSlot] & (1 << fCurrLink))) == 0)) {
+ if ((fCurrStackMask & (1 << fCurrSlot)) == 0) {
+ ++fCurrSlot;
+ fCurrSlot = 0;
+ continue;
+ }
fCurrLink++;
if (fCurrLink >= fgkNlinks) {
+ SeekNextStack();
fCurrLink = 0;
fCurrSlot++;
}
fCurrHC = (fCurrEquipmentId - kDDLOffset) * fgkNlinks * fgkNstacks +
fCurrSlot * fgkNlinks + fCurrLink;
- if (fCurrLinkMonitorFlags[fCurrSlot*fgkNlinks + fCurrLink] != 0)
+ if (fCurrLinkMonitorFlags[fCurrSlot*fgkNlinks + fCurrLink] != 0) {
LinkError(kLinkMonitor);
+ if (fgErrorBehav[kLinkMonitor] == kTolerate)
+ ReadLinkData();
+ }
else
// read the data from one HC
ReadLinkData();
fCurrLink++;
fCurrHC++;
if (fCurrLinkMask[fCurrSlot] & (1 << fCurrLink)) {
- ReadLinkData();
+ if (fCurrLinkMonitorFlags[fCurrSlot*fgkNlinks + fCurrLink] != 0) {
+ LinkError(kLinkMonitor);
+ if (fgErrorBehav[kLinkMonitor] == kTolerate)
+ ReadLinkData();
+ }
+ else {
+ ReadLinkData();
+ }
SeekNextLink();
}
}
- //??? to check
do {
- fCurrLink++;
- if (fCurrLink >= fgkNlinks) {
+ if ((fCurrStackMask & (1 << fCurrSlot)) == 0) {
fCurrLink = 0;
fCurrSlot++;
}
+ else {
+ fCurrLink++;
+ if (fCurrLink >= fgkNlinks) {
+ SeekNextStack();
+ fCurrLink = 0;
+ fCurrSlot++;
+ }
+ }
} while ((fCurrSlot < fgkNstacks) &&
(((fCurrStackMask & (1 << fCurrSlot)) == 0) ||
((fCurrLinkMask[fCurrSlot] & (1 << fCurrLink))) == 0));
return -1;
}
+ fCurrTrgFlags[fCurrEquipmentId-kDDLOffset] = 0;
+
fCurrSmHeaderSize = ((*fPayloadCurr) >> 16) & 0xffff;
fCurrSmHeaderVersion = ((*fPayloadCurr) >> 12) & 0xf;
fCurrTrackEnable = ((*fPayloadCurr) >> 6) & 0x1;
fCurrTrackletEnable = ((*fPayloadCurr) >> 5) & 0x1;
fCurrStackMask = ((*fPayloadCurr) ) & 0x1f;
fCurrHwRev = (fPayloadCurr[1] >> 12) & 0xffff;
+ fCurrStackEndmarkerAvail = 0;
switch (fCurrSmHeaderVersion) {
case 0xb:
fCurrTrkHeaderAvail = fCurrTrackEnable;
fCurrTriggerEnable = (fPayloadCurr[2] >> 8) & 0xfff;
fCurrTriggerFired = (fPayloadCurr[2] >> 20) & 0xfff;
+ fCurrTrgFlags[fCurrEquipmentId-kDDLOffset] = fCurrTriggerFired;
+ break;
+
+ case 0xd:
+ fCurrTrailerReadout = ((*fPayloadCurr) >> 10) & 0x1;
+ fCurrTrgHeaderAvail = 1;
+ fCurrTrgHeaderReadout = ((*fPayloadCurr) >> 9) & 0x1;
+ fCurrEvType = ((*fPayloadCurr) >> 7) & 0x3;
+ fCurrTrkHeaderAvail = fCurrTrackEnable;
+ fCurrTriggerEnable = (fPayloadCurr[2] >> 8) & 0xfff;
+ fCurrTriggerFired = (fPayloadCurr[2] >> 20) & 0xfff;
+ fCurrTrgFlags[fCurrEquipmentId-kDDLOffset] = fCurrTriggerFired;
+ fCurrStackEndmarkerAvail = 1;
break;
default:
AliDebug(1, DumpRaw(Form("GTU tracks in sector %2i (hw rev %i)", sector, fCurrHwRev),
fPayloadCurr + 4, 10, 0xffe0ffff));
+ fCurrTrgFlags[sector] = 0;
+
if (fCurrHwRev < 1772) {
UInt_t fastWord; // fast trigger word
ULong64_t trackWord = 0; // extended track word
if ((idx == 0) &&
((fPayloadCurr[iWord] & 0xfffff0f0) == 0x13370000)) {
fastWord = fPayloadCurr[iWord];
+ fCurrTrgFlags[sector] |= 1 << (stack+11); // assume tracking done if fast word sent
AliDebug(1, Form("stack %i: fast trigger word: 0x%08x", stack, fastWord));
continue;
}
trk->SetFlags(0);
trk->SetReserved(0);
+ trk->SetLabel(-3);
Float_t pt = (((Int_t) (trackWord & 0xffff) ^ 0x8000) - 0x8000)/128.;
if (TMath::Abs(pt) > 0.1) {
if ((idx == 0) &&
((fPayloadCurr[iWord] & 0xfffff0f0) == 0x13370000)) {
fastWord = fPayloadCurr[iWord];
+ fCurrTrgFlags[sector] |= 1 << (stack+11); // assume tracking done if fast word sent
AliDebug(1, Form("stack %i: fast trigger word: 0x%08x", stack, fastWord));
continue;
}
trk->SetFlags(0);
trk->SetReserved(0);
+ trk->SetLabel(-3);
Float_t pt = (((Int_t) (trackWord & 0xffff) ^ 0x8000) - 0x8000)/128.;
if (TMath::Abs(pt) > 0.1) {
- trk->SetA((Int_t) (0.15*51625./100./pt / 160e-4 * 2));
+ trk->SetA((Int_t) (-0.15*51625./100./pt / 160e-4 * 2));
}
}
}
if ((idx == 0) &&
((fPayloadCurr[iWord] & 0xfffff0f0) == 0x13370000)) {
fastWord = fPayloadCurr[iWord];
+ if (fastWord & (1 << 13))
+ fCurrTrgFlags[sector] |= 1 << (stack+11);
AliDebug(1, Form("stack %i: fast trigger word: 0x%08x", stack, fastWord));
continue;
}
trk->SetFlags(0);
trk->SetReserved(0);
+ trk->SetLabel(-3);
Float_t pt = (((Int_t) (trackWord & 0xffff) ^ 0x8000) - 0x8000)/128.;
if (TMath::Abs(pt) > 0.1) {
if ((word & 0xffff0008) == 0x13370008) {
fastWord = word;
AliDebug(1, Form("stack %i: fast track word: 0x%08x", stack, fastWord));
+ if (fastWord & (1 << 13))
+ fCurrTrgFlags[sector] |= 1 << (stack+11);
continue;
}
else if ((idx & 0x1) == 0x1) {
trk->SetFlags(0);
trk->SetReserved(0);
+ trk->SetLabel(-3);
Float_t pt = (((Int_t) (trackWord & 0xffff) ^ 0x8000) - 0x8000)/128.;
if (TMath::Abs(pt) > 0.1) {
}
else if ((word & 0xffff0010) == 0x13370010) {
AliDebug(1, Form("stack %i: tracking done word: 0x%08x", stack, word));
+ fCurrTrgFlags[sector] |= 1 << (stack+11);
continue;
}
else if ((idx & 0x1) == 0x1) {
trk->SetFlags(0);
trk->SetReserved(0);
+ trk->SetLabel(-3);
Float_t pt = (((Int_t) (trackWord & 0xffff) ^ 0x8000) - 0x8000)/128.;
if (TMath::Abs(pt) > 0.1) {
fCurrTrkHeaderIndexWord[stack], fCurrTrkHeaderSize[stack], fCurrHwRev));
Int_t trackingTime = *fPayloadCurr & 0x3ff;
+ fCurrTrgFlags[fCurrEquipmentId-kDDLOffset] |= ((fCurrTrkHeaderIndexWord[stack] >> 10) & 0x1) << (22 + stack);
fPayloadCurr++;
// data words
trk->SetC( (((trackWord >> 8) & 0xffff) ^ 0x8000) - 0x8000);
trk->SetPID((trackWord >> 0) & 0xff);
trk->SetStack(stack);
+ trk->SetLabel(-3);
// now compare the track word with the one generated from the ESD information
if (trackWord != trk->GetTrackWord(0)) {
}
else {
// done marker (so far only used to set trigger flag)
+ fCurrTrgFlags[fCurrEquipmentId-kDDLOffset] |= 1 << (27 + stack);
+ fCurrTrkFlags[(fCurrEquipmentId-kDDLOffset)*fgkNstacks + stack] = trackWord;
+ AliDebug(2, Form("tracking done marker: 0x%016llx, trigger flags: 0x%08x",
+ trackWord, fCurrTrgFlags[fCurrEquipmentId-kDDLOffset]));
AliDebug(2, Form("seg / stack / first / last / done / index : %i %i %lli %lli %lli %i",
fCurrEquipmentId - kDDLOffset, stack,
(trackWord >> 20) & 0x3ff,
AliESDTrdTrack *trk = (AliESDTrdTrack*) (*fTracks)[trackIndex];
trk->SetFlags((trackWord >> 52) & 0x7ff);
- trk->SetReserved((trackWord >> 49) & 0x7);
+ trk->SetFlagsTiming((trackWord >> 51) & 0x1);
+ trk->SetReserved((trackWord >> 49) & 0x3);
trk->SetY((trackWord >> 36) & 0x1fff);
trk->SetTrackletIndex((trackWord >> 0) & 0x3f, 0);
trk->SetTrackletIndex((trackWord >> 6) & 0x3f, 1);
AliDebug(1, Form("trigger index word %i: 0x%08x\n", iTrigger, *fPayloadCurr));
fCurrTrgHeaderIndexWord[iTrigger] = *fPayloadCurr;
fCurrTrgHeaderSize[iTrigger] = ((*fPayloadCurr) >> 16) & 0x3ff;
+ if (iTrigger == 7) {
+ // timeout trigger, use to extract tracking time
+ fCurrTrgFlags[fCurrEquipmentId-kDDLOffset] |= (*fPayloadCurr & 0x3ff) << 12;
+ }
+
fPayloadCurr++;
// data words
fPayloadCurr += fCurrTrgHeaderSize[iTrigger];
AliDebug(1, DumpRaw(Form("stack %i header", stack), fPayloadCurr, fCurrStackHeaderSize[stack]));
if (fPayloadCurr - fPayloadStart >= fPayloadSize - (Int_t) fCurrStackHeaderSize[stack]) {
- LinkError(kStackHeaderInvalid, "Stack index header aborted");
+ EquipmentError(kStackHeaderInvalid, "Stack index header %i incomplete", stack);
+ // dumping stack header
+ AliError(DumpRaw(Form("stack %i header", stack), fPayloadCurr, fCurrStackHeaderSize[stack]));
+
return -1;
}
switch (fCurrStackHeaderVersion[stack]) {
case 0xa:
+ case 0xb:
if (fCurrStackHeaderSize[stack] < 8) {
LinkError(kStackHeaderInvalid, "Stack header smaller than expected!");
return -1;
UInt_t* trailer = fPayloadStart + fPayloadSize -1;
// look for the trailer index word from the end
- for (Int_t iWord = 0; iWord < fPayloadSize; iWord++) {
- if ((fPayloadStart[fPayloadSize-1-iWord] & 0xffff) == 0x1f51) {
+ for (Int_t iWord = 0; iWord < fPayloadSize-2; iWord++) {
+ if ((fPayloadStart[fPayloadSize-3-iWord] == fgkStackEndmarker[0]) &&
+ (fPayloadStart[fPayloadSize-2-iWord] == fgkStackEndmarker[1]) &&
+ ((fPayloadStart[fPayloadSize-1-iWord] & 0xfff) == 0xf51)) {
trailer = fPayloadStart + fPayloadSize - 1 - iWord;
break;
}
Int_t trailerSize = (trailerIndexWord >> 16) & 0xffff;
AliDebug(2, DumpRaw("GTU trailer", trailer, trailerSize+1));
// parse the trailer
+ if (trailerSize >= 4) {
+ // match flags from GTU
+ fCurrMatchFlagsSRAM = (trailer[1] >> 0) & 0x1f;
+ fCurrMatchFlagsPostBP = (trailer[1] >> 5) & 0x1f;
+ // individual checksums
+ fCurrChecksumStack[0] = (trailer[1] >> 16) & 0xffff;
+ fCurrChecksumStack[1] = (trailer[2] >> 0) & 0xffff;
+ fCurrChecksumStack[2] = (trailer[2] >> 16) & 0xffff;
+ fCurrChecksumStack[3] = (trailer[3] >> 0) & 0xffff;
+ fCurrChecksumStack[4] = (trailer[3] >> 16) & 0xffff;
+ fCurrChecksumSIU = trailer[4];
+
+ if ((fCurrMatchFlagsSRAM & fCurrStackMask) != fCurrStackMask)
+ EquipmentError(kCRCmismatch, "CRC mismatch SRAM: 0x%02x", fCurrMatchFlagsSRAM);
+ if ((fCurrMatchFlagsPostBP & fCurrStackMask) != fCurrStackMask)
+ EquipmentError(kCRCmismatch, "CRC mismatch BP: 0x%02x", fCurrMatchFlagsPostBP);
+
+ }
+ else {
+ LinkError(kUnknown, "Invalid GTU trailer");
+ }
}
else
EquipmentError(kUnknown, "trailer index marker mismatch");
if (fMarkers)
new ((*fMarkers)[fMarkers->GetEntriesFast()])
- AliTRDrawStreamError(-kHCactive, fCurrEquipmentId-kDDLOffset, fCurrStack, fCurrLink);
+ AliTRDrawStreamError(-kHCactive, fCurrEquipmentId-kDDLOffset, fCurrSlot, fCurrLink);
if (fErrorFlags & kDiscardHC)
return count;
- //??? add check whether tracklets are enabled
- count += ReadTracklets();
- if (fErrorFlags & kDiscardHC)
- return count;
+ if (fCurrTrackletEnable) {
+ count += ReadTracklets();
+ if (fErrorFlags & kDiscardHC)
+ return count;
+ }
AliDebug(1, DumpRaw("HC header", fPayloadCurr, 4, 0x00000000));
count += ReadHcHeader();
if (det > -1 && det < 540) {
- if ((fAdcArray = fDigitsManager->GetDigits(det))) {
- //fAdcArray->Expand();
- if (fAdcArray->GetNtime() != fCurrNtimebins)
- fAdcArray->Allocate(16, 144, fCurrNtimebins);
- }
- else {
- LinkError(kNoDigits);
- }
-
- if (!fDigitsParam) {
- fDigitsParam = fDigitsManager->GetDigitsParam();
- }
- if (fDigitsParam) {
- fDigitsParam->SetPretriggerPhase(det, fCurrPtrgPhase);
- fDigitsParam->SetNTimeBins(det, fCurrNtimebins);
- fDigitsParam->SetADCbaseline(det, 10);
- }
-
- if (fDigitsManager->UsesDictionaries()) {
- fDigitsManager->GetDictionary(det, 0)->Reset();
- fDigitsManager->GetDictionary(det, 1)->Reset();
- fDigitsManager->GetDictionary(det, 2)->Reset();
- }
-
- if ((fSignalIndex = fDigitsManager->GetIndexes(det))) {
- fSignalIndex->SetSM(fCurrSm);
- fSignalIndex->SetStack(fCurrStack);
- fSignalIndex->SetLayer(fCurrLayer);
- fSignalIndex->SetDetNumber(det);
- if (!fSignalIndex->IsAllocated())
- fSignalIndex->Allocate(16, 144, fCurrNtimebins);
- }
-
// ----- check which kind of data -----
if (fCurrMajor & 0x40) {
if ((fCurrMajor & 0x7) == 0x7) {
count += fPayloadCurr - startPos;
// feeding TRAP config
- AliTRDtrapConfig *trapcfg = AliTRDtrapConfig::Instance();
- trapcfg->ReadPackedConfig(fCurrHC, startPos, fPayloadCurr - startPos);
+ AliTRDtrapConfig *trapcfg = AliTRDcalibDB::Instance()->GetTrapConfig();
+ AliTRDmcmSim::ReadPackedConfig(trapcfg, fCurrHC, startPos, fPayloadCurr - startPos);
}
else {
Int_t tpmode = fCurrMajor & 0x7;
AliDebug(1, Form("Checking testpattern (mode %i) data", tpmode));
- ReadTPData(tpmode);
+ count += ReadTPData(tpmode);
}
}
- else if (fCurrMajor & 0x20) {
- AliDebug(1, "This is a zs event");
- count += ReadZSData();
- }
else {
- AliDebug(1, "This is a nozs event");
- count += ReadNonZSData();
+ // reading real data
+ if (fDigitsManager) {
+ if ((fAdcArray = fDigitsManager->GetDigits(det))) {
+ //fAdcArray->Expand();
+ if (fAdcArray->GetNtime() != fCurrNtimebins)
+ fAdcArray->Allocate(16, 144, fCurrNtimebins);
+ }
+ else {
+ LinkError(kNoDigits);
+ }
+
+ if (!fDigitsParam) {
+ fDigitsParam = fDigitsManager->GetDigitsParam();
+ }
+ if (fDigitsParam) {
+ fDigitsParam->SetPretriggerPhase(det, fCurrPtrgPhase);
+ fDigitsParam->SetNTimeBins(det, fCurrNtimebins);
+ fDigitsParam->SetADCbaseline(det, 10);
+ }
+
+ if (fDigitsManager->UsesDictionaries()) {
+ fDigitsManager->GetDictionary(det, 0)->Reset();
+ fDigitsManager->GetDictionary(det, 1)->Reset();
+ fDigitsManager->GetDictionary(det, 2)->Reset();
+ }
+
+ if ((fSignalIndex = fDigitsManager->GetIndexes(det))) {
+ fSignalIndex->SetSM(fCurrSm);
+ fSignalIndex->SetStack(fCurrStack);
+ fSignalIndex->SetLayer(fCurrLayer);
+ fSignalIndex->SetDetNumber(det);
+ if (!fSignalIndex->IsAllocated())
+ fSignalIndex->Allocate(16, 144, fCurrNtimebins);
+ }
+
+ if (fCurrMajor & 0x20) {
+ AliDebug(1, "This is a zs event");
+ count += ReadZSData();
+ }
+ else {
+ AliDebug(1, "This is a nozs event");
+ count += ReadNonZSData();
+ }
+ }
+ else {
+ // just read until data endmarkers
+ while (fPayloadCurr - fPayloadStart < fPayloadSize &&
+ *fPayloadCurr != fgkDataEndmarker)
+ fPayloadCurr++;
+ }
}
}
else {
UInt_t *start = fPayloadCurr;
while (*(fPayloadCurr) != fgkTrackletEndmarker &&
- fPayloadCurr - fPayloadStart < fPayloadSize) {
+ *(fPayloadCurr) != fgkStackEndmarker[0] &&
+ *(fPayloadCurr) != fgkStackEndmarker[1] &&
+ fPayloadCurr - fPayloadStart < (fPayloadSize - 1)) {
new ((*fTrackletArray)[fTrackletArray->GetEntriesFast()]) AliTRDtrackletWord(*(fPayloadCurr), fCurrHC);
fPayloadCurr++;
AliDebug(1, Form("HC header: 0x%08x", *fPayloadCurr));
UInt_t *start = fPayloadCurr;
// check not to be at the data endmarker
- if (*fPayloadCurr == fgkDataEndmarker)
+ if (*fPayloadCurr == fgkDataEndmarker ||
+ *(fPayloadCurr) == fgkStackEndmarker[0] ||
+ *(fPayloadCurr) == fgkStackEndmarker[1]) {
+ LinkError(kHCmismatch, "found endmarker where HC header should be");
return 0;
+ }
fCurrSpecial = (*fPayloadCurr >> 31) & 0x1;
fCurrMajor = (*fPayloadCurr >> 24) & 0x7f;
// evcnt checking missing
Int_t cpu = 0;
Int_t cpufromchannel[] = {0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 2, 2, 2, 2, 2, 3, 3, 3, 3, 3, 3};
+ Int_t evno = -1;
Int_t evcnt = 0;
Int_t count = 0;
Int_t mcmcount = -1;
fPayloadCurr - fPayloadStart < fPayloadSize - 1) {
// ----- Checking MCM Header -----
- AliDebug(2, Form("MCM header: 0x%08x", *fPayloadCurr));
+ AliDebug(2, DumpMcmHeader("MCM header: ", *fPayloadCurr));
+ UInt_t *startPosMCM = fPayloadCurr;
mcmcount++;
// ----- checking for proper readout order - ROB -----
+ fCurrRobPos = ROB(*fPayloadCurr);
if (GetROBReadoutPos(ROB(*fPayloadCurr) / 2) >= lastrobpos) {
+ if (GetROBReadoutPos(ROB(*fPayloadCurr) / 2) > lastrobpos)
+ lastmcmpos = -1;
lastrobpos = GetROBReadoutPos(ROB(*fPayloadCurr) / 2);
}
else {
ROBError(kPosUnexp, Form("#%i after #%i in readout order", GetROBReadoutPos(ROB(*fPayloadCurr) / 2), lastrobpos));
}
- fCurrRobPos = ROB(*fPayloadCurr);
// ----- checking for proper readout order - MCM -----
- if (GetMCMReadoutPos(MCM(*fPayloadCurr)) >= (lastmcmpos + 1) % 16) {
+ fCurrMcmPos = MCM(*fPayloadCurr);
+ if (GetMCMReadoutPos(MCM(*fPayloadCurr)) > lastmcmpos) {
lastmcmpos = GetMCMReadoutPos(MCM(*fPayloadCurr));
}
else {
MCMError(kPosUnexp, Form("#%i after #%i in readout order", GetMCMReadoutPos(MCM(*fPayloadCurr)), lastmcmpos));
}
- fCurrMcmPos = MCM(*fPayloadCurr);
+ if (EvNo(*fPayloadCurr) != (evno & 0xfffff)) {
+ if (evno == -1) {
+ evno = EvNo(*fPayloadCurr);
+ }
+ else {
+ MCMError(kEvCntMismatch, "%i <-> %i", evno, EvNo(*fPayloadCurr));
+ }
+ }
fPayloadCurr++;
}
while (count < 10) {
+ if (*fPayloadCurr == fgkDataEndmarker) {
+ MCMError(kMissTpData);
+ return (fPayloadCurr - start);
+ }
+
if (channelcount % 2 == 0)
expword = 0x3;
else
}
diff = *fPayloadCurr ^ expword;
+ AliDebug(11, Form("Comparing ch %2i, word %2i (cpu %i): 0x%08x <-> 0x%08x",
+ channelcount, wordcount, cpu, *fPayloadCurr, expword));
+
if (diff != 0) {
MCMError(kTPmismatch,
- "Seen 0x%08x, expected 0x%08x, diff: 0x%08x (0x%02x)",
- *fPayloadCurr, expword, diff, 0xff & (diff | diff >> 8 | diff >> 16 | diff >> 24));;
+ "Seen 0x%08x, expected 0x%08x, diff: 0x%08x, 0x%04x, 0x%02x - word %2i (cpu %i, ch %i)",
+ *fPayloadCurr, expword, diff,
+ 0xffff & (diff | diff >> 16),
+ 0xff & (diff | diff >> 8 | diff >> 16 | diff >> 24),
+ wordcount, cpu, channelcount);;
}
fPayloadCurr++;
count++;
wordcount++;
+ if (*fPayloadCurr == fgkDataEndmarker)
+ return (fPayloadCurr - start);
}
channelcount++;
}
// continue with next MCM
+
+ if (IsDumping() && DumpingMCM(fCurrHC/2, fCurrRobPos, fCurrMcmPos)) {
+ AliInfo(DumpRaw(Form("Event %i: Det %3i ROB %i MCM %2i", fRawReader->GetEventIndex(), fCurrHC/2, fCurrRobPos, fCurrMcmPos),
+ startPosMCM, fPayloadCurr - startPosMCM));
+ }
+
}
return fPayloadCurr - start;
}
timebins = fNtimebins;
while (*(fPayloadCurr) != fgkDataEndmarker &&
+ *(fPayloadCurr) != fgkStackEndmarker[0] &&
+ *(fPayloadCurr) != fgkStackEndmarker[1] &&
fPayloadCurr - fPayloadStart < fPayloadSize) {
// ----- Checking MCM Header -----
UInt_t *startPosMCM = fPayloadCurr;
// ----- checking for proper readout order - ROB -----
+ fCurrRobPos = ROB(*fPayloadCurr);
if (GetROBReadoutPos(ROB(*fPayloadCurr) / 2) >= lastrobpos) {
if (GetROBReadoutPos(ROB(*fPayloadCurr) / 2) > lastrobpos)
lastmcmpos = -1;
ROBError(kPosUnexp, Form("#%i after #%i and #%i in readout order",
GetROBReadoutPos(ROB(*fPayloadCurr) / 2), lastrobpos, GetROBReadoutPos(fCurrRobPos)));
}
- fCurrRobPos = ROB(*fPayloadCurr);
// ----- checking for proper readout order - MCM -----
+ fCurrMcmPos = MCM(*fPayloadCurr);
if (GetMCMReadoutPos(MCM(*fPayloadCurr)) > lastmcmpos) {
lastmcmpos = GetMCMReadoutPos(MCM(*fPayloadCurr));
}
MCMError(kPosUnexp, Form("#%i after #%i and #%i in readout order",
GetMCMReadoutPos(MCM(*fPayloadCurr)), lastmcmpos, GetMCMReadoutPos(fCurrMcmPos)));
}
- fCurrMcmPos = MCM(*fPayloadCurr);
- if (EvNo(*fPayloadCurr) != evno) {
- if (evno == -1)
+ if (EvNo(*fPayloadCurr) != (evno & 0xfffff)) {
+ if (evno == -1) {
evno = EvNo(*fPayloadCurr);
+ }
else {
- MCMError(kPtrgCntMismatch, "%i <-> %i", evno, EvNo(*fPayloadCurr));
+ MCMError(kEvCntMismatch, "%i <-> %i", evno, EvNo(*fPayloadCurr));
}
}
Int_t adccoloff = AdcColOffset(*fPayloadCurr);
Int_t row = Row(*fPayloadCurr);
fPayloadCurr++;
+ if ((row > 11) && (fCurrStack == 2)) {
+ MCMError(kInvalidPadRow, "Data in padrow > 11 for stack 2");
+ }
+
+ if (fErrorFlags & (kDiscardHC | kDiscardDDL))
+ break;
+
// ----- Reading ADC channels -----
AliDebug(2, DumpAdcMask("ADC mask: ", *fPayloadCurr));
}
}
- // filling the actual timebin data
- int tb2 = 0x3ff & *fPayloadCurr >> 22;
- int tb1 = 0x3ff & *fPayloadCurr >> 12;
- int tb0 = 0x3ff & *fPayloadCurr >> 2;
- if (adcwc != 0 || fCurrNtimebins <= 30)
- fAdcArray->SetDataByAdcCol(row, adccol, currentTimebin++, tb0);
- else
- tb0 = -1;
- fAdcArray->SetDataByAdcCol(row, adccol, currentTimebin++, tb1);
- fAdcArray->SetDataByAdcCol(row, adccol, currentTimebin++, tb2);
+ if ((fErrorFlags & kDiscardMCM) == 0) {
+ // filling the actual timebin data
+ int tb2 = 0x3ff & (*fPayloadCurr >> 22);
+ int tb1 = 0x3ff & (*fPayloadCurr >> 12);
+ int tb0 = 0x3ff & (*fPayloadCurr >> 2);
+ if (adcwc != 0 || fCurrNtimebins <= 30)
+ fAdcArray->SetDataByAdcCol(row, adccol, currentTimebin++, tb0);
+ else
+ tb0 = -1;
+ if (currentTimebin < fCurrNtimebins)
+ fAdcArray->SetDataByAdcCol(row, adccol, currentTimebin++, tb1);
+ if (currentTimebin < fCurrNtimebins)
+ fAdcArray->SetDataByAdcCol(row, adccol, currentTimebin++, tb2);
+ }
adcwc++;
fPayloadCurr++;
AliDebug(2, Form("MCM header: 0x%08x", *fPayloadCurr));
// ----- checking for proper readout order - ROB -----
+ fCurrRobPos = ROB(*fPayloadCurr);
if (GetROBReadoutPos(ROB(*fPayloadCurr) / 2) >= lastrobpos) {
+ if (GetROBReadoutPos(ROB(*fPayloadCurr) / 2) > lastrobpos)
+ lastmcmpos = -1;
lastrobpos = GetROBReadoutPos(ROB(*fPayloadCurr) / 2);
}
else {
ROBError(kPosUnexp, Form("#%i after #%i in readout order", GetROBReadoutPos(ROB(*fPayloadCurr) / 2), lastrobpos));
}
- fCurrRobPos = ROB(*fPayloadCurr);
// ----- checking for proper readout order - MCM -----
- if (GetMCMReadoutPos(MCM(*fPayloadCurr)) >= (lastmcmpos + 1) % 16) {
+ fCurrMcmPos = MCM(*fPayloadCurr);
+ if (GetMCMReadoutPos(MCM(*fPayloadCurr)) > lastmcmpos) {
lastmcmpos = GetMCMReadoutPos(MCM(*fPayloadCurr));
}
else {
MCMError(kPosUnexp, Form("#%i after #%i in readout order", GetMCMReadoutPos(MCM(*fPayloadCurr)), lastmcmpos));
}
- fCurrMcmPos = MCM(*fPayloadCurr);
- if (EvNo(*fPayloadCurr) != evno) {
- if (evno == -1)
+ if (EvNo(*fPayloadCurr) != (evno & 0xfffff)) {
+ if (evno == -1) {
evno = EvNo(*fPayloadCurr);
+ }
else {
- MCMError(kPtrgCntMismatch, "%i <-> %i", evno, EvNo(*fPayloadCurr));
+ MCMError(kEvCntMismatch, "%i <-> %i", evno, EvNo(*fPayloadCurr));
}
}
Int_t adccoloff = AdcColOffset(*fPayloadCurr);
Int_t padcoloff = PadColOffset(*fPayloadCurr);
Int_t row = Row(*fPayloadCurr);
-
fPayloadCurr++;
+ if ((row > 11) && (fCurrStack == 2)) {
+ MCMError(kInvalidPadRow, "Data in padrow > 11 for stack 2");
+ }
+
+ if (fErrorFlags & (kDiscardHC | kDiscardDDL))
+ break;
+
// ----- reading marked ADC channels -----
while (channelcount < channelcountExp &&
*(fPayloadCurr) != fgkDataEndmarker) {
}
}
- // filling the actual timebin data
- int tb2 = 0x3ff & *fPayloadCurr >> 22;
- int tb1 = 0x3ff & *fPayloadCurr >> 12;
- int tb0 = 0x3ff & *fPayloadCurr >> 2;
- if (adcwc != 0 || fCurrNtimebins <= 30)
- fAdcArray->SetDataByAdcCol(row, adccol, currentTimebin++, tb0);
- else
- tb0 = -1;
- fAdcArray->SetDataByAdcCol(row, adccol, currentTimebin++, tb1);
- fAdcArray->SetDataByAdcCol(row, adccol, currentTimebin++, tb2);
+ if ((fErrorFlags & kDiscardMCM) == 0) {
+ // filling the actual timebin data
+ int tb2 = 0x3ff & (*fPayloadCurr >> 22);
+ int tb1 = 0x3ff & (*fPayloadCurr >> 12);
+ int tb0 = 0x3ff & (*fPayloadCurr >> 2);
+ if (adcwc != 0 || fCurrNtimebins <= 30)
+ fAdcArray->SetDataByAdcCol(row, adccol, currentTimebin++, tb0);
+ else
+ tb0 = -1;
+ if (currentTimebin < fCurrNtimebins)
+ fAdcArray->SetDataByAdcCol(row, adccol, currentTimebin++, tb1);
+ if (currentTimebin < fCurrNtimebins)
+ fAdcArray->SetDataByAdcCol(row, adccol, currentTimebin++, tb2);
+ }
adcwc++;
fPayloadCurr++;
return (fPayloadCurr - start);
}
+Int_t AliTRDrawStream::SeekNextStack()
+{
+ // proceed in raw data stream till the next stack
+
+ if (!fCurrStackEndmarkerAvail)
+ return 0;
+
+ UInt_t *start = fPayloadCurr;
+
+ // read until data endmarkers
+ while ((fPayloadCurr - fPayloadStart < fPayloadSize-1) &&
+ ((fPayloadCurr[0] != fgkStackEndmarker[0]) ||
+ (fPayloadCurr[1] != fgkStackEndmarker[1])))
+ fPayloadCurr++;
+
+ if ((fPayloadCurr - start) != 0)
+ StackError(kUnknown, "skipped %i words to reach stack endmarker", fPayloadCurr - start);
+
+ AliDebug(2, Form("stack endmarker: 0x%08x 0x%08x", fPayloadCurr[0], fPayloadCurr[1]));
+
+ // goto next stack
+ fPayloadCurr++;
+ fPayloadCurr++;
+
+ return (fPayloadCurr-start);
+}
+
Int_t AliTRDrawStream::SeekNextLink()
{
// proceed in raw data stream till the next link
// read until data endmarkers
while (fPayloadCurr - fPayloadStart < fPayloadSize &&
+ ((fPayloadCurr[0] != fgkStackEndmarker[0]) ||
+ (fPayloadCurr[1] != fgkStackEndmarker[1])) &&
*fPayloadCurr != fgkDataEndmarker)
fPayloadCurr++;
return kFALSE;
}
-TString AliTRDrawStream::DumpRaw(TString title, UInt_t *start, Int_t length, UInt_t endmarker)
+TString AliTRDrawStream::DumpRaw(TString title, const UInt_t *start, Int_t length, UInt_t endmarker)
{
// dump raw data
// ctor
}
+
+void AliTRDrawStream::SortTracklets(TClonesArray *trklArray, TList &sortedTracklets, Int_t *indices)
+{
+ // sort tracklets for referencing from GTU tracks
+
+ if (!trklArray)
+ return;
+
+ Int_t nTracklets = trklArray->GetEntriesFast();
+
+ Int_t lastHC = -1;
+ for (Int_t iTracklet = 0; iTracklet < nTracklets; iTracklet++) {
+ AliTRDtrackletBase *trkl = (AliTRDtrackletBase*) ((*trklArray)[iTracklet]);
+ Int_t hc = trkl->GetHCId();
+ if ((hc < 0) || (hc >= 1080)) {
+ AliErrorClass(Form("HC for tracklet: 0x%08x out of range: %i", trkl->GetTrackletWord(), trkl->GetHCId()));
+ continue;
+ }
+ AliDebugClass(5, Form("hc: %4i : 0x%08x z: %2i", hc, trkl->GetTrackletWord(), trkl->GetZbin()));
+ if (hc != lastHC) {
+ AliDebugClass(2, Form("set tracklet index for HC %i to %i", hc, iTracklet));
+ indices[hc] = iTracklet + 1;
+ lastHC = hc;
+ }
+ }
+
+ for (Int_t iDet = 0; iDet < 540; iDet++) {
+ Int_t trklIndexA = indices[2*iDet + 0] - 1;
+ Int_t trklIndexB = indices[2*iDet + 1] - 1;
+ Int_t trklIndex = sortedTracklets.GetEntries();
+ AliTRDtrackletBase *trklA = trklIndexA > -1 ? (AliTRDtrackletBase*) ((*trklArray)[trklIndexA]) : 0x0;
+ AliTRDtrackletBase *trklB = trklIndexB > -1 ? (AliTRDtrackletBase*) ((*trklArray)[trklIndexB]) : 0x0;
+ AliTRDtrackletBase *trklNext = 0x0;
+ while (trklA != 0x0 || trklB != 0x0) {
+ AliDebugClass(5, Form("det %i - A: %i/%i -> %p, B: %i/%i -> %p",
+ iDet, trklIndexA, nTracklets, trklA, trklIndexB, nTracklets, trklB));
+ if (trklA == 0x0) {
+ trklNext = trklB;
+ trklIndexB++;
+ trklB = trklIndexB < nTracklets ? (AliTRDtrackletBase*) ((*trklArray)[trklIndexB]) : 0x0;
+ if (trklB && trklB->GetHCId() != 2*iDet + 1)
+ trklB = 0x0;
+ }
+ else if (trklB == 0x0) {
+ trklNext = trklA;
+ trklIndexA++;
+ trklA = trklIndexA < nTracklets ? (AliTRDtrackletBase*) ((*trklArray)[trklIndexA]) : 0x0;
+ if (trklA && trklA->GetHCId() != 2*iDet)
+ trklA = 0x0;
+ }
+ else {
+ if (trklA->GetZbin() <= trklB->GetZbin()) {
+ trklNext = trklA;
+ trklIndexA++;
+ trklA = trklIndexA < nTracklets ? (AliTRDtrackletBase*) ((*trklArray)[trklIndexA]) : 0x0;
+ if (trklA && trklA->GetHCId() != 2*iDet)
+ trklA = 0x0;
+ }
+ else {
+ trklNext = trklB;
+ trklIndexB++;
+ trklB = trklIndexB < nTracklets ? (AliTRDtrackletBase*) ((*trklArray)[trklIndexB]) : 0x0;
+ if (trklB && trklB->GetHCId() != 2*iDet + 1)
+ trklB = 0x0;
+ }
+ }
+ if (trklNext) {
+ sortedTracklets.Add(trklNext);
+
+ }
+ }
+
+ // updating tracklet indices as in output
+ if (sortedTracklets.GetEntries() != trklIndex) {
+ indices[2*iDet + 0] = trklIndex;
+ indices[2*iDet + 1] = sortedTracklets.GetEntries();
+ } else {
+ indices[2*iDet + 0] = indices[2*iDet + 1] = -1;
+ }
+ }
+}
+
+void AliTRDrawStream::AssignTracklets(AliESDTrdTrack *trdTrack, Int_t *trackletIndex, Int_t refIndex[6])
+{
+ UInt_t mask = trdTrack->GetLayerMask();
+ UInt_t stack = trdTrack->GetStack();
+
+ for (Int_t iLayer = 0; iLayer < 6; iLayer++) {
+ refIndex[iLayer] = -1;
+
+ if (mask & (1 << iLayer)) {
+
+ Int_t det = trdTrack->GetSector()*30 + stack*6 + iLayer;
+ Int_t idx = trdTrack->GetTrackletIndex(iLayer);
+
+ if ((det < 0) || (det > 539)) {
+ AliErrorClass(Form("Invalid detector no. from track: %i", 2*det));
+ continue;
+ }
+ if (trackletIndex[2*det] >= 0) {
+ if ((trackletIndex[2*det] + idx > -1) &&
+ (trackletIndex[2*det] + idx < trackletIndex[2*det+1])) {
+ refIndex[iLayer] = trackletIndex[2*det] + idx;
+ } else {
+ AliErrorClass(Form("Requested tracklet index %i out of range", idx));
+ }
+ } else {
+ AliErrorClass(Form("Non-existing tracklets requested in det %i", det));
+ }
+ }
+ }
+}