// //
///////////////////////////////////////////////////////////////////////////////
+#include <TSystem.h>
#include "AliZDCRawStream.h"
#include "AliRawReader.h"
+#include "AliRawDataHeader.h"
+#include "AliRawEventHeaderBase.h"
#include "AliLog.h"
ClassImp(AliZDCRawStream)
//_____________________________________________________________________________
AliZDCRawStream::AliZDCRawStream(AliRawReader* rawReader) :
fRawReader(rawReader),
- fRawADC(0),
- fADCModule(0),
+ fBuffer(0),
+ fReadOutCard(-1),
+ fEvType(0),
+ fPosition(0),
+ fIsCalib(kFALSE),
+ fIsDARCHeader(kFALSE),
+ fIsHeaderMapping(kFALSE),
+ fIsChMapping(kFALSE),
+ fIsADCDataWord(kFALSE),
+ fIsADCHeader(kFALSE),
+ fIsADCEOB(kFALSE),
+ fSODReading(kFALSE),
+ fIsMapRead(kFALSE),
+ fDeadfaceOffset(-1),
+ fDeadbeefOffset(-1),
+ fDataOffset(0),
+ fModType(-1),
+ fADCModule(-1),
+ fADCNChannels(-1),
fADCChannel(-1),
fADCValue(-1),
- fADCGain(0),
- fIsADCDataWord(kFALSE)
+ fADCGain(-1),
+ fIsUnderflow(kFALSE),
+ fIsOverflow(kFALSE),
+ fScGeo(0),
+ fScNWords(0),
+ fScTriggerSource(0),
+ fScTriggerNumber(0),
+ fIsScEventGood(kTRUE),
+ fIsScHeaderRead(kFALSE),
+ fScStartCounter(0),
+ fScEvCounter(0),
+ fIsScalerWord(kFALSE),
+ fDetPattern(0),
+ fTrigCountNWords(0),
+ fIsTriggerScaler(kFALSE),
+ fTrigCountStart(0),
+ fMBTrigInput(0),
+ fCentralTrigInput(0),
+ fSCentralTrigInput(0),
+ fEMDTrigInput(0),
+ fL0Received(0),
+ fMBtrig2CTP(0),
+ fCentralTrig2CTP(0),
+ fSCentralTrig2CTP(0),
+ fEMDTrig2CTP(0),
+ fTrigHistNWords(0),
+ fIsTriggerHistory(kFALSE),
+ fTrigHistStart(0),
+ fPileUpBit1stWord(0),
+ fL0Bit1stWord(0),
+ fCentralTrigHist(0),
+ fMBTrigHist(0),
+ fPileUpBit2ndWord(0),
+ fL0Bit2ndWord(0),
+ fSCentralTrigHist(0),
+ fEMDTrigHist(0),
+ fNChannelsOn(0),
+ fCurrentCh(-1),
+ fCabledSignal(-1),
+ fCurrScCh(-1),
+ fIsADCEventGood(kTRUE),
+ fIsL0BitSet(kTRUE),
+ fIsPileUpEvent(kFALSE),
+ fIsZDCTDCHeader(kFALSE),
+ fIsTDCHeaderRead(kFALSE),
+ fTDCStartCounter(0),
+ fIsADDChannel(kFALSE),
+ fIsADDTDCHeader(kFALSE),
+ fIsADDTDCdatum(kFALSE)
{
// Create an object to read ZDC raw digits
-
+ fRawReader->Reset();
fRawReader->Select("ZDC");
+ //
+ const int kNch = 48;
+ for(Int_t i=0; i<kNch; i++){
+ for(Int_t j=0; j<5; j++){
+ fMapADC[i][j]=-1;
+ if(i<32) fScalerMap[i][j]=-1;
+ }
+ }
+
+ for(Int_t k=0; k<4; k++) fCPTInput[k] = 0;
+
}
//_____________________________________________________________________________
AliZDCRawStream::AliZDCRawStream(const AliZDCRawStream& stream) :
TObject(stream),
fRawReader(stream.fRawReader),
- fRawADC(stream.GetADCRaw()),
+ fBuffer(stream.GetRawBuffer()),
+ fReadOutCard(stream.GetReadOutCard()),
+ fEvType(stream.fEvType),
+ fPosition(stream.fPosition),
+ fIsCalib(stream.fIsCalib),
+ fIsDARCHeader(stream.fIsDARCHeader),
+ fIsHeaderMapping(stream.fIsHeaderMapping),
+ fIsChMapping(stream.fIsChMapping),
+ fIsADCDataWord(stream.fIsADCDataWord),
+ fIsADCHeader(stream.fIsADCHeader),
+ fIsADCEOB(stream.fIsADCEOB),
+ fSODReading(stream.fSODReading),
+ fIsMapRead(stream.fIsMapRead),
+ fDeadfaceOffset(stream.GetDeadfaceOffset()),
+ fDeadbeefOffset(stream.GetDeadbeefOffset()),
+ fDataOffset(stream.GetDataOffset()),
+ fModType(stream.GetModType()),
fADCModule(stream.GetADCModule()),
+ fADCNChannels(stream.GetADCNChannels()),
fADCChannel(stream.GetADCChannel()),
fADCValue(stream.GetADCValue()),
fADCGain(stream.GetADCGain()),
- fIsADCDataWord(stream.IsADCDataWord())
+ fIsUnderflow(stream.fIsUnderflow),
+ fIsOverflow(stream.fIsOverflow),
+ fScGeo(stream.GetScGeo()),
+ fScNWords(stream.GetScNWords()),
+ fScTriggerSource(stream.GetScTriggerSource()),
+ fScTriggerNumber(stream.fScTriggerNumber),
+ fIsScEventGood(stream.fIsScEventGood),
+ fIsScHeaderRead(stream.fIsScHeaderRead),
+ fScStartCounter(stream.fScStartCounter),
+ fScEvCounter(stream.fScEvCounter),
+ fIsScalerWord(stream.fIsScalerWord),
+ fDetPattern(stream.fDetPattern),
+ fTrigCountNWords(stream.fTrigCountNWords),
+ fIsTriggerScaler(stream.fIsTriggerScaler),
+ fTrigCountStart(stream.fTrigCountStart),
+ fMBTrigInput(stream.fMBTrigInput),
+ fCentralTrigInput(stream.fCentralTrigInput),
+ fSCentralTrigInput(stream.fSCentralTrigInput),
+ fEMDTrigInput(stream.fEMDTrigInput),
+ fL0Received(stream.fL0Received),
+ fMBtrig2CTP(stream.fMBtrig2CTP),
+ fCentralTrig2CTP(stream.fCentralTrig2CTP),
+ fSCentralTrig2CTP(stream.fSCentralTrig2CTP),
+ fEMDTrig2CTP(stream.fEMDTrig2CTP),
+ fTrigHistNWords(stream.fTrigHistNWords),
+ fIsTriggerHistory(stream.fIsTriggerHistory),
+ fTrigHistStart(stream.fTrigHistStart),
+ fPileUpBit1stWord(stream.fPileUpBit1stWord),
+ fL0Bit1stWord(stream.fL0Bit1stWord),
+ fCentralTrigHist(stream.fCentralTrigHist),
+ fMBTrigHist(stream.fMBTrigHist),
+ fPileUpBit2ndWord(stream.fPileUpBit2ndWord),
+ fL0Bit2ndWord(stream.fL0Bit2ndWord),
+ fSCentralTrigHist(stream.fSCentralTrigHist),
+ fEMDTrigHist(stream.fEMDTrigHist),
+ fNChannelsOn(stream.fNChannelsOn),
+ fCurrentCh(stream.fCurrentCh),
+ fCabledSignal(stream.GetCabledSignal()),
+ fCurrScCh(stream.fCurrScCh),
+ fIsADCEventGood(stream.fIsADCEventGood),
+ fIsL0BitSet(stream.fIsL0BitSet),
+ fIsPileUpEvent(stream.fIsPileUpEvent),
+ fIsZDCTDCHeader(stream.fIsZDCTDCHeader),
+ fIsTDCHeaderRead(stream.fIsTDCHeaderRead),
+ fTDCStartCounter(stream.fTDCStartCounter),
+ fIsADDChannel(stream.fIsADDChannel),
+ fIsADDTDCHeader(stream.fIsADDTDCHeader),
+ fIsADDTDCdatum(stream.fIsADDTDCdatum)
+
{
// Copy constructor
+ const int kNch = 48;
for(Int_t j=0; j<2; j++) fSector[j] = stream.GetSector(j);
-
+ for(Int_t i=0; i<kNch; i++){
+ for(Int_t j=0; j<5; j++){
+ fMapADC[i][j] = stream.fMapADC[i][j];
+ if(i<32) fScalerMap[i][j] = stream.fMapADC[i][j];
+ }
+ }
+
+ for(Int_t k=0; k<4; k++) fCPTInput[k] = stream.fCPTInput[k];
}
//_____________________________________________________________________________
}
+//_____________________________________________________________________________
+void AliZDCRawStream::ReadChMap()
+{
+ // Reading channel map
+ const int kNch = 48;
+ AliDebug(2,"\t Reading ZDC ADC mapping from OCDB\n");
+ AliZDCChMap * chMap = GetChMap();
+ //chMap->Print("");
+ for(Int_t i=0; i<kNch; i++){
+ fMapADC[i][0] = chMap->GetADCModule(i);
+ fMapADC[i][1] = chMap->GetADCChannel(i);
+ fMapADC[i][2] = -1;
+ fMapADC[i][3] = chMap->GetDetector(i);
+ fMapADC[i][4] = chMap->GetSector(i);
+ }
+ fIsMapRead = kTRUE;
+}
+
+//_____________________________________________________________________________
+void AliZDCRawStream::ReadCDHHeader()
+{
+ // Reading CDH
+ const AliRawDataHeader* header = fRawReader->GetDataHeader();
+ if(!header) {
+ AliError(" No CDH in raw data streaming");
+ fRawReader->AddMajorErrorLog(kCDHError);
+ return;
+ }
+ else{
+ //printf("\t AliZDCRawStream::ReadCDHHeader -> Data Size = %x\n",fRawReader->GetDataSize());
+
+ UChar_t message = header->GetAttributes();
+ //printf("\t AliZDCRawStream::ReadCDHHeader -> Attributes %x\n",message);
+
+ if((message & 0xf0) == 0x0){ // PHYSICS RUN
+ //printf("\t PHYSICS RUN raw data found\n");
+ }
+ else if((message & 0xf0) == 0x10){ // COSMIC RUN
+ //printf("\t STANDALONE_COSMIC RUN raw data found\n");
+ }
+ else if((message & 0xf0) == 0x20){ // PEDESTAL RUN
+ //printf("\t STANDALONE_PEDESTAL RUN raw data found\n");
+ }
+ else if((message & 0xf0) == 0x30){ // LASER RUN
+ //printf("\t STANDALONE_LASER RUN raw data found\n");
+ }
+ else if((message & 0xf0) == 0x40){ // CALIBRATION_CENTRAL RUN
+ //printf("\t CALIBRATION_CENTRAL RUN raw data found\n");
+ }
+ else if((message & 0xf0) == 0x50){ // CALIBRATION_SEMICENTRAL
+ //printf("\t CALIBRATION_SEMICENTRAL RUN raw data found\n");
+ }
+ else if((message & 0xf0) == 0x60){ // CALIBRATION_MB
+ //printf("\t CALIBRATION_MB RUN raw data found\n");
+ }
+ else if((message & 0xf0) == 0x70){ // CALIBRATION_EMD
+ //printf("\t CALIBRATION_EMD RUN raw data found\n");
+ }
+ // *** Checking the bit indicating the used readout card
+ // (the payload is different in the 2 cases!)
+ if((message & 0x08) == 0){ // ** DARC card
+ fReadOutCard = 0;
+ fIsDARCHeader = kTRUE;
+ //AliInfo("\t ZDC readout card used: DARC");
+ }
+ else if((message & 0x08) == 0x08){ // ** ZRC card
+ fReadOutCard = 1;
+ //AliInfo("\t ZDC readout card used: ZRC");
+ }
+
+ if(header->GetL1TriggerMessage() & 0x1){ // Calibration bit set in CDH
+ fIsCalib = kTRUE;
+ }
+ //printf("\t AliZDCRawStream::ReadCDHHeader -> L1TriggerMessage %x\n",header->GetL1TriggerMessage());
+ //printf("\t AliZDCRawStream::ReadCDHHeader -> Calibration bit = %d\n",fIsCalib);
+
+/* UInt_t status = header->GetStatus();
+ //printf("\t AliZDCRawStream::ReadCDHHeader -> status = %d\n",status);
+ if((status & 0x000f) == 0x0001){
+ AliDebug(2,"CDH -> DARC trg0 overlap error");
+ fRawReader->AddMajorErrorLog(kDARCError);
+ }
+ if((status & 0x000f) == 0x0002){
+ AliDebug(2,"CDH -> DARC trg0 missing error");
+ fRawReader->AddMajorErrorLog(kDARCError);
+ }
+ if((status & 0x000f) == 0x0004){
+ AliDebug(2,"CDH -> DARC data parity error");
+ fRawReader->AddMajorErrorLog(kDARCError);
+ }
+ if((status & 0x000f) == 0x0008){
+ AliDebug(2,"CDH -> DARC ctrl parity error");
+ fRawReader->AddMajorErrorLog(kDARCError);
+ }
+ //
+ if((status & 0x00f0) == 0x0010){
+ AliDebug(2,"CDH -> DARC trg unavailable");
+ fRawReader->AddMajorErrorLog(kDARCError);
+ }
+ if((status & 0x00f0) == 0x0020){
+ AliDebug(2,"CDH -> DARC FEE error");
+ fRawReader->AddMajorErrorLog(kDARCError);
+ }
+ //
+ if((status & 0x0f00) == 0x0200){
+ AliDebug(2,"CDH -> DARC L1 time violation");
+ fRawReader->AddMajorErrorLog(kDARCError);
+ }
+ if((status & 0x0f00) == 0x0400){
+ AliDebug(2,"CDH -> DARC L2 time-out");
+ fRawReader->AddMajorErrorLog(kDARCError);
+ }
+ if((status & 0x0f00) == 0x0800){
+ AliDebug(2,"CDH -> DARC prepulse time violation");
+ fRawReader->AddMajorErrorLog(kDARCError);
+ }
+ //
+ if((status & 0xf000) == 0x1000){
+ AliDebug(2,"CDH -> DARC other error");
+ fRawReader->AddMajorErrorLog(kDARCError);
+ }
+ */
+ }
+
+}
//_____________________________________________________________________________
Bool_t AliZDCRawStream::Next()
// Read the next raw digit
// Returns kFALSE if there is no digit left
- if(!fRawReader->ReadNextInt((UInt_t&) fRawADC)) return kFALSE;
- fIsADCDataWord = kFALSE;
+ if(!fRawReader->ReadNextInt((UInt_t&) fBuffer)) return kFALSE;
+ const int kNch = 48;
+ Int_t kFirstADCGeo=0, kLastADCGeo=3;
+ Int_t kADDADCGeo=5, kADDTDCGeo=6;
+ Int_t kZDCTDCGeo=8, kScalerGeo=16;
+ Int_t kPUGeo=29, kTrigScales=30, kTrigHistory=31;
//
+ fIsHeaderMapping = kFALSE; fIsChMapping = kFALSE;
+ fIsADCHeader = kFALSE; fIsADCDataWord = kFALSE; fIsADCEOB = kFALSE;
+ fIsADDChannel = kFALSE; fIsADDTDCHeader= kFALSE; fIsADDTDCdatum=kFALSE;
+ fIsUnderflow = kFALSE; fIsOverflow = kFALSE; fIsScalerWord = kFALSE;
+ fSector[0] = fSector[1] = -1;
+ for(Int_t kl=0; kl<4; kl++) fCPTInput[kl] = 0;
+
+ fEvType = fRawReader->GetType();
+ if(fPosition==0){
+ //if(fEvType==7 || fEvType ==8){ //Physics or calibration event
+ ReadCDHHeader();
+ //}
+ fCurrentCh=0; fCurrScCh=0; fNChannelsOn=0;
+ // Ch. debug
+ //printf("\n AliZDCRawStream::Next() - ev. type %d",fEvType);
+ }
+
+ // Ch. debug
+ //printf("\n AliZDCRawStream::Next() - fBuffer[%d] = %x\n",fPosition, fBuffer);
+
+ // *** End of ZDC event
+ if(fBuffer == 0xcafefade){
+ //printf("\n AliZDCRawStream::Next() ***** End of ZDC event *****\n\n");
+ return kFALSE;
+ }
+
+ // -------------------------------------------
// --- DARC header
- if((fRawADC == 0xe52b6300) || (fRawADC == 0xe52c0300) || (fRawADC == 0xffffffff) ||
- (fRawADC == 0xdeadface) || (fRawADC == 0xdeadbeef)){
- //printf(" This is a DARC header!!!\n");
+ // -------------------------------------------
+ // If the CDH has been read then
+ // the DARC header must follow
+ if(fReadOutCard==0 && fIsDARCHeader){
+ //printf("\t ---- DARC header ----\n");
+ if(fIsCalib){
+ fDeadfaceOffset = 9;
+ fDeadbeefOffset = 25;
+ }
+ else{
+ fDeadfaceOffset = 1;
+ fDeadbeefOffset = 7;
+ }
+ fDataOffset = 1+fDeadbeefOffset;
+ fIsDARCHeader = kFALSE;
}
- // --- End of data
- else if(fRawADC == 0xcafefade){
- //printf(" End of data!\n");
- }
- // --- ADC buffer
- else{
- Bool_t firstADCHeader = kTRUE;
- //
- if((fRawADC & 0x6000000) == 0x6000000){ // Not valid datum BEFORE valid data!
- firstADCHeader = kFALSE;
- //printf(" AliZDCRawStream -> Not valid datum in ADC module!!! %d\n",fADCModule);
+
+ // ---------------------------------------------
+ // --- Start of data event (SOD) ---
+ // --- decoding mapping of connected ADC ch. ---
+ // ---------------------------------------------
+ // In the SOD event ADC ch. mapping is written
+ if(fEvType==10){
+ if(fSODReading){
+
+ if(fPosition>=fDataOffset){
+ if((fBuffer&0xff000001) == 0xff000001){ // ************** Mapping
+ // DARC 1st datum @ fDataOffset+1 \ ZRC 1st valid datum @ fDataOffset=0
+ if((fPosition==fDataOffset+1) || (fPosition==fDataOffset)){
+ printf("\n\n ------ AliZDCRawStream -> Reading mapping from StartOfData event ------\n");
+ fCurrentCh=0; fCurrScCh=0;
+ }
+ else{
+ printf(" ------ AliZDCRawStream -> End of ZDC StartOfData event ------\n\n");
+ fSODReading = kFALSE;
+ return kFALSE;
+ }
+ }
+ else if((fBuffer&0xff000002) == 0xff000002){ // ************** Threshold settings
+ fPosition++;
+ return kFALSE; // !!!!!!!!!!!!!!!!!!!!! For the moment thresholds are not read
+ }
+ else if((fBuffer&0x80000000)>>31 == 1){ // --- Mapping header
+ fIsHeaderMapping = kTRUE;
+ fADCModule = ((fBuffer & 0x7f000000)>>24); // GEO address!!!
+ fModType = ((fBuffer & 0x7ff00)>>8);
+ fADCNChannels = (fBuffer & 0xff); // # of channels following the header
+ //
+ printf(" ******** GEO %d, mod. type %d, #ch. %d\n",fADCModule,fModType,fADCNChannels);
+ }
+ else if((fBuffer&0x80000000)>>31 == 0){ // --- Mapping channel
+ fADCChannel = ((fBuffer & 0x3fff0000)>>16);
+ fCabledSignal = (fBuffer&0xffff);
+ //
+ if(fModType == kV965){ // ******** ADCs ********************************
+ // Channel signal
+ if((fBuffer&0x40000000)>>30==0 && fADCModule<=kLastADCGeo){ // *ZDC* high range chain ADC
+ fIsChMapping = kTRUE;
+ fMapADC[fCurrentCh][0] = fADCModule;
+ fMapADC[fCurrentCh][1] = fADCChannel;
+ fMapADC[fCurrentCh][2] = fCabledSignal;
+ // - No. of channels on
+ fNChannelsOn++;
+ //
+ // Determining detector and sector
+ // -----------------------------------------
+ // For the decoding of the following lines
+ // look the enum in AliZDCRawStream.h file
+ // -----------------------------------------
+ if((fCabledSignal>=2 && fCabledSignal<=6) || (fCabledSignal>=26 && fCabledSignal<=30)
+ || fCabledSignal==24 || fCabledSignal==48){
+ fMapADC[fCurrentCh][3] = 4; //ZNA
+ //
+ if(fCabledSignal==kZNAC || fCabledSignal==kZNACoot) fMapADC[fCurrentCh][4]=0;
+ else if(fCabledSignal==3 || fCabledSignal==27) fMapADC[fCurrentCh][4]=1;
+ else if(fCabledSignal==4 || fCabledSignal==28) fMapADC[fCurrentCh][4]=2;
+ else if(fCabledSignal==5 || fCabledSignal==29) fMapADC[fCurrentCh][4]=3;
+ else if(fCabledSignal==6 || fCabledSignal==30) fMapADC[fCurrentCh][4]=4;
+ else if(fCabledSignal==24 || fCabledSignal==48) fMapADC[fCurrentCh][4]=5; //Reference PTM
+ }
+ else if((fCabledSignal>=7 && fCabledSignal<=11) || (fCabledSignal>=31 && fCabledSignal<=35)){
+ fMapADC[fCurrentCh][3] = 5; //ZPA
+ //
+ if(fCabledSignal==7 || fCabledSignal==31) fMapADC[fCurrentCh][4]=0;
+ else if(fCabledSignal==8 || fCabledSignal==32) fMapADC[fCurrentCh][4]=1;
+ else if(fCabledSignal==9 || fCabledSignal==33) fMapADC[fCurrentCh][4]=2;
+ else if(fCabledSignal==10 || fCabledSignal==34) fMapADC[fCurrentCh][4]=3;
+ else if(fCabledSignal==11 || fCabledSignal==35) fMapADC[fCurrentCh][4]=4;
+ }
+ else if((fCabledSignal>=12 && fCabledSignal<=16) || (fCabledSignal>=36 && fCabledSignal<=40)
+ || fCabledSignal==25 || fCabledSignal==49){
+ fMapADC[fCurrentCh][3] = 1; //ZNC
+ //
+ if(fCabledSignal==12 || fCabledSignal==36) fMapADC[fCurrentCh][4]=0;
+ else if(fCabledSignal==13 || fCabledSignal==37) fMapADC[fCurrentCh][4]=1;
+ else if(fCabledSignal==14 || fCabledSignal==38) fMapADC[fCurrentCh][4]=2;
+ else if(fCabledSignal==15 || fCabledSignal==39) fMapADC[fCurrentCh][4]=3;
+ else if(fCabledSignal==16 || fCabledSignal==40) fMapADC[fCurrentCh][4]=4;
+ else if(fCabledSignal==25 || fCabledSignal==49) fMapADC[fCurrentCh][4]=5; //Reference PTM
+ }
+ else if((fCabledSignal>=17 && fCabledSignal<=21) || (fCabledSignal>=41 && fCabledSignal<=45)){
+ fMapADC[fCurrentCh][3] = 2; //ZPC
+ //
+ if(fCabledSignal==17 || fCabledSignal==41) fMapADC[fCurrentCh][4]=0;
+ else if(fCabledSignal==18 || fCabledSignal==42) fMapADC[fCurrentCh][4]=1;
+ else if(fCabledSignal==19 || fCabledSignal==43) fMapADC[fCurrentCh][4]=2;
+ else if(fCabledSignal==20 || fCabledSignal==44) fMapADC[fCurrentCh][4]=3;
+ else if(fCabledSignal==21 || fCabledSignal==45) fMapADC[fCurrentCh][4]=4;
+ }
+ else if(fCabledSignal==22 || fCabledSignal==23 || fCabledSignal==46 || fCabledSignal==47){
+ fMapADC[fCurrentCh][3] = 3; // ZEM
+ //
+ if(fCabledSignal==22 || fCabledSignal==46) fMapADC[fCurrentCh][4]=1;
+ else if(fCabledSignal==23 || fCabledSignal==47) fMapADC[fCurrentCh][4]=2;
+ }
+ //Ch. debug
+ //printf("\tADC mod. %d ch. %d signal %d ",fADCModule,fADCChannel,fCabledSignal);
+ //printf(" det. %d sec. %d\n",fMapADC[fCurrentCh][3],fMapADC[fCurrentCh][4]);
+ //
+ fCurrentCh++;
+ //
+ } // high range channels
+ }// ModType=1 (ADC mapping)
+ else if(fModType == kV830){ // ******** VME scaler **************************
+ fIsChMapping = kTRUE;
+ fScalerMap[fCurrScCh][0] = fADCModule;
+ fScalerMap[fCurrScCh][1] = fADCChannel;
+ fScalerMap[fCurrScCh][2] = fCabledSignal;
+ //
+ // Determining detector and sector
+ // -----------------------------------------
+ // For the decoding of the following lines
+ // look the enum in AliZDCRawStream.h file
+ // -----------------------------------------
+ // NOT CONSIDERING OUT OF TIME OR REFERENCE SIGNALS FOR SCALER!!!!!
+ if((fCabledSignal>=2 && fCabledSignal<=6) ||
+ (fCabledSignal>=61 && fCabledSignal<=65)){
+ fScalerMap[fCurrScCh][3] = 4; //ZNA
+ //
+ if(fCabledSignal==2 || fCabledSignal==61) fScalerMap[fCurrScCh][4]=0;
+ else if(fCabledSignal==3 || fCabledSignal==62) fScalerMap[fCurrScCh][4]=1;
+ else if(fCabledSignal==4 || fCabledSignal==63) fScalerMap[fCurrScCh][4]=2;
+ else if(fCabledSignal==5 || fCabledSignal==64) fScalerMap[fCurrScCh][4]=3;
+ else if(fCabledSignal==6 || fCabledSignal==65) fScalerMap[fCurrScCh][4]=4;
+ }
+ else if((fCabledSignal>=7 && fCabledSignal<=11) ||
+ (fCabledSignal>=66 && fCabledSignal<=70)){
+ fScalerMap[fCurrScCh][3] = 5; //ZPA
+ //
+ if(fCabledSignal==7 || fCabledSignal==66) fScalerMap[fCurrScCh][4]=0;
+ else if(fCabledSignal==8 || fCabledSignal==67) fScalerMap[fCurrScCh][4]=1;
+ else if(fCabledSignal==9 || fCabledSignal==68) fScalerMap[fCurrScCh][4]=2;
+ else if(fCabledSignal==10 || fCabledSignal==69) fScalerMap[fCurrScCh][4]=3;
+ else if(fCabledSignal==11 || fCabledSignal==70) fScalerMap[fCurrScCh][4]=4;
+ }
+ else if((fCabledSignal>=12 && fCabledSignal<=16) ||
+ (fCabledSignal>=71 && fCabledSignal<=75)){
+ fScalerMap[fCurrScCh][3] = 1; //ZNC
+ //
+ if(fCabledSignal==12 || fCabledSignal==71) fScalerMap[fCurrScCh][4]=0;
+ else if(fCabledSignal==13 || fCabledSignal==72) fScalerMap[fCurrScCh][4]=1;
+ else if(fCabledSignal==14 || fCabledSignal==73) fScalerMap[fCurrScCh][4]=2;
+ else if(fCabledSignal==15 || fCabledSignal==74) fScalerMap[fCurrScCh][4]=3;
+ else if(fCabledSignal==16 || fCabledSignal==75) fScalerMap[fCurrScCh][4]=4;
+ }
+ else if((fCabledSignal>=17 && fCabledSignal<=21) ||
+ (fCabledSignal>=76 && fCabledSignal<=80)){
+ fScalerMap[fCurrScCh][3] = 2; //ZPC
+ //
+ if(fCabledSignal==17 || fCabledSignal==76) fScalerMap[fCurrScCh][4]=0;
+ else if(fCabledSignal==18 || fCabledSignal==77) fScalerMap[fCurrScCh][4]=1;
+ else if(fCabledSignal==19 || fCabledSignal==78) fScalerMap[fCurrScCh][4]=2;
+ else if(fCabledSignal==20 || fCabledSignal==79) fScalerMap[fCurrScCh][4]=3;
+ else if(fCabledSignal==21 || fCabledSignal==80) fScalerMap[fCurrScCh][4]=4;
+ }
+ else if(fCabledSignal==22 || fCabledSignal==23 ||
+ fCabledSignal==81 || fCabledSignal==82){
+ fScalerMap[fCurrScCh][3] = 3; // ZEM
+ //
+ if(fCabledSignal==22 || fCabledSignal==81) fScalerMap[fCurrScCh][4]=1;
+ else if(fCabledSignal==23 || fCabledSignal==82) fScalerMap[fCurrScCh][4]=2;
+ }
+ // Ch debug.
+ //printf("\t VME scaler mod. %d ch. %d, signal %d",fScalerMap[fCurrScCh][0],fADCChannel,fCabledSignal);
+ //if(fCabledSignal!=0 && fCabledSignal!=1) printf(" det. %d sec. %d\n",fScalerMap[fCurrScCh][3],fScalerMap[fCurrScCh][4]);
+ //else printf(" Signal void/not connected\n");
+
+ fCurrScCh++;
+ }
+ /*else if(fModType == kTRG){ // **** scalers from trigger card
+ //printf("\t Trigger scaler mod. %d ch. %d, signal %d\n",fADCModule,fADCChannel,fCabledSignal);
+ }
+ else if(fModType == kTRGI){ // **** trigger history from trigger card
+ //printf("\t Trigger card ch. %d, signal %d\n",fADCChannel,fCabledSignal);
+ }
+ else if(fModType == kPU){ // **** pattern unit
+ //printf("\t P.U. mod. %d ch. %d, signal %d\n",fADCModule,fADCChannel,fCabledSignal);
+ }*/
+ }//reading channel mapping
}
- else if((fRawADC & 0x4000000) == 0x4000000){ // ADC EOB
- //printf(" AliZDCRawStream -> ADC %d End Of Block - Event no. %d\n\n",fADCModule, (fRawADC & 0xffffff));
- fSector[0] = fSector[1] = 99;
- }
- else if((fRawADC & 0x2000000) == 0x2000000){ // ADC Header
- //printf(" fRawADC %x\n",fRawADC);
- // Reading the GEO address to determine ADC module
- fADCModule = (fRawADC & 0xf8000000) >> 27;
- fADCModule ++;
+ } // if fSODREading
+ fPosition++;
+ return kTRUE;
+ } // ------------------------------- SOD event
+
+ // -------------------------------------------
+ // --- DARC data
+ // -------------------------------------------
+ if(fPosition<fDeadfaceOffset && fReadOutCard==0){
+ fPosition++;
+ return kTRUE;
+ }
+ else if(fPosition==fDeadfaceOffset && fReadOutCard==0){
+ if(fBuffer != 0xdeadface){
+ //AliWarning(" NO deadface after DARC data");
+ fRawReader->AddMajorErrorLog(kDARCError);
+ }
+ else{
+ fPosition++;
+ return kTRUE;
+ }
+ }
+ else if(fPosition>fDeadfaceOffset && fPosition<fDeadbeefOffset && fReadOutCard==0){
+ fPosition++;
+ return kTRUE;
+ }
+ else if(fPosition==fDeadbeefOffset && fReadOutCard==0){
+ if(fBuffer != 0xdeadbeef){
+ //AliWarning(" NO deadbeef after DARC global data");
+ fRawReader->AddMajorErrorLog(kDARCError);
+ fPosition++;
+ return kFALSE;
+ }
+ else{
+ fPosition++;
+ return kTRUE;
+ }
+ } // ------------------------------- End of DARC data
+
+ // ---------------------------------------------
+ // --- ZDC data
+ // --- ADCs + VME scaler + trigger card + P.U.
+ // ---------------------------------------------
+ else if(fPosition>=fDataOffset){
+
+ //printf("AliZDCRawStream: fSODReading = %d\n", fSODReading);
+ if(!fSODReading && !fIsMapRead) ReadChMap();
+
+ // !!!!!!!!!!!!!!! DARC readout card only !!!!!!!!!!!
+ // Not valid datum before the event
+ // there MUST be a NOT valid datum before the event!!!
+ if(fReadOutCard==0){
+ if(fPosition==fDataOffset){
+ //printf("\t **** ZDC data begin ****\n");
+ if((fBuffer & 0x07000000) != 0x06000000){
+ fRawReader->AddMajorErrorLog(kZDCDataError);
+ }
+ else if((fBuffer & 0x07000000) == 0x06000001){ // Corrupted event!!!
+ fIsADCEventGood = kFALSE;
+ }
+ }
+
// If the not valid datum isn't followed by the 1st ADC header
// the event is corrupted (i.e., 2 gates arrived before trigger)
- if(fADCModule == 1) firstADCHeader = kTRUE;
- //if(fADCModule == 1) printf(" fADCModule %d, firstADCHeader %d\n",fADCModule,firstADCHeader);
- //printf(" AliZDCRawStream -> HEADER: ADC mod. %d contains %d data words \n",fADCModule,((fRawADC & 0x3f00) >> 8));
- }
- else{ // ADC data word
- fIsADCDataWord = kTRUE;
- //printf(" fRawADC = %x firstADCHeader %d\n",fRawADC,firstADCHeader);
- //
- if(!(fRawADC & 0x1000) && !(fRawADC & 0x2000) && firstADCHeader){ // Valid ADC data
- fADCGain = (fRawADC & 0x10000) >> 16;
- fADCValue = (fRawADC & 0xfff);
- //
- fADCChannel = (fRawADC & 0x1e0000) >> 17;
+ else if(fPosition==fDataOffset+1){
+ if((fBuffer & 0x07000000) != 0x02000000){
+ AliWarning("ZDC ADC -> The not valid datum is NOT followed by an ADC header!");
+ fRawReader->AddMajorErrorLog(kZDCDataError);
+ fIsADCEventGood = kFALSE;
+ fPosition++;
+ return kFALSE;
+ }
+ }
+ }
+
+ // Get geo address of current word
+ fADCModule = (Int_t) ((fBuffer & 0xf8000000)>>27);
+ if(fIsTDCHeaderRead)fADCModule = kZDCTDCGeo;
+
+ // ************************************ ADC MODULES ************************************
+ if(fADCModule>=kFirstADCGeo && fADCModule<=kLastADCGeo){
+ // *** ADC header
+ if((fBuffer & 0x07000000) == 0x02000000){
+ fIsADCHeader = kTRUE;
+ fADCNChannels = ((fBuffer & 0x00003f00)>>8);
+ //printf(" AliZDCRawStream -> ADC HEADER: mod.%d has %d ch. \n",fADCModule,fADCNChannels);
+ }
+ // *** ADC data word
+ else if((fBuffer & 0x07000000) == 0x00000000){
+ fIsADCDataWord = kTRUE;
+ fADCChannel = ((fBuffer & 0x1e0000) >> 17);
+ fADCGain = ((fBuffer & 0x10000) >> 16);
+ fADCValue = (fBuffer & 0xfff);
+ //
+ //printf(" AliZDCRawStream -> ADC DATUM: mod. %d ch. %d gain %d value %d\n",
+ // fADCModule,fADCChannel,fADCGain,fADCValue);
+
+ // Checking if the channel map for the ADCs has been provided/read
+ if(fMapADC[0][0]==-1){
+ printf("\t ATTENTION!!! No ADC mapping has been found/provided!!!\n");
+ return kFALSE;
+ }
//
- // If raw data corresponds to an ADC ch. without physical signal
- // fsector[0] = fSector[1] = -1
- for(Int_t i=0; i<2; i++)fSector[i] = -1;
- //if(fSector[0]!=-1) printf(" \t \t ADC Data Word: ADC ch. %d",fADCChannel);
+ /*for(Int_t ci=0; ci<kNch; ci++){
+ printf(" %d mod %d ch %d det %d sec %d\n",ci,fMapADC[ci][0],
+ fMapADC[ci][1], fMapADC[ci][3], fMapADC[ci][4]);
+ }*/
+
+ // Scan of the map to assign the correct volumes
+ Int_t foundMapEntry = kFALSE;
+ for(Int_t k=0; k<kNch; k++){
+ if(fADCModule==fMapADC[k][0] && fADCChannel==fMapADC[k][1]){
+ fSector[0] = fMapADC[k][3];
+ fSector[1] = fMapADC[k][4];
+ foundMapEntry = kTRUE;
+ break;
+ }
+ }
+ if(foundMapEntry==kFALSE){
+ AliWarning(Form(" No valid entry in ADC mapping for raw data %d ADCmod. %d ch. %d\n",
+ fPosition,fADCModule,fADCChannel));
+ }
//
- if(fADCModule==1 || fADCModule==3){ //1st & 3rd ADC modules
- if(fADCChannel >= 0 && fADCChannel <= 4){
- fSector[0] = 1; // ZN1
- fSector[1] = fADCChannel;
- }
- else if(fADCChannel >= 8 && fADCChannel <= 12){
- fSector[0] = 2; // ZP1
- fSector[1] = fADCChannel-8;
- }
- else if(fADCChannel == 5 || fADCChannel == 13){
- fSector[0] = 3; // ZEM 1,2
- fSector[1] = ((fADCChannel-5)/8)+1;
- }
- }
- else if(fADCModule==2 || fADCModule==4){ //2nd & 4rth ADC modules
- if(fADCChannel >= 0 && fADCChannel <= 4){
- fSector[0] = 4; // ZN2
- fSector[1] = fADCChannel;
- }
- else if(fADCChannel >= 8 && fADCChannel <= 12){
- fSector[0] = 5; // ZP2
- fSector[1] = fADCChannel-8;
- }
- else if(fADCChannel == 5 || fADCChannel == 13){
- fSector[0] = (fADCChannel-5)*3/8+1; // PM Ref 1,2
- fSector[1] = 5;
+ //printf("AliZDCRawStream -> ADCmod. %d ch. %d -> det %d sec %d\n",
+ // fADCModule,fADCChannel,fSector[0],fSector[1]);
+
+ // Final checks
+ if(foundMapEntry==kTRUE){
+ if(fSector[0]<1 || fSector[0]>5){
+ AliWarning(Form(" No valid detector assignment: %d",fSector[0]));
+ fRawReader->AddMajorErrorLog(kInvalidSector);
+ }
+ //
+ if(fSector[1]<0 || fSector[1]>5){
+ AliWarning(Form(" No valid sector assignment: %d",fSector[1]));
+ fRawReader->AddMajorErrorLog(kInvalidSector);
+ }
+ //
+ if(fADCModule<0 || fADCModule>3){
+ AliError(Form(" No valid ADC module: %d",fADCModule));
+ fRawReader->AddMajorErrorLog(kInvalidADCModule);
}
- }
- else{
- AliWarning(" AliZDCRawStream -> No valid ADC module\n");
- fRawReader->AddMajorErrorLog(kInvalidADCModule);
- }
- //printf(" ADC %d ch %d range %d -> det %d quad %d value %x\n",
- // fADCModule, fADCChannel, fADCGain, fSector[0], fSector[1], fADCValue);//Chiara debugging
+ }
+
+ // Checking the underflow and overflow bits
+ if(fBuffer & 0x1000) fIsUnderflow = kTRUE;
+ else if (fBuffer & 0x2000) fIsOverflow = kTRUE;
+
+ }//ADC data word
+ // *** ADC EOB
+ else if((fBuffer & 0x07000000) == 0x04000000){
+ fIsADCEOB = kTRUE;
+ //printf(" AliZDCRawStream -> EOB --------------------------\n");
+ }
+ }//ADC module
+ // ********************************* ADD ADC *********************************
+ else if(fADCModule == kADDADCGeo){
+ // *** ADC header
+ if((fBuffer & 0x07000000) == 0x02000000){
+ fIsADCHeader = kTRUE;
+ fADCNChannels = ((fBuffer & 0x00003f00)>>8);
+ //printf(" AliZDCRawStream -> ADD ADC HEADER: mod.%d has %d ch. \n",fADCModule,fADCNChannels);
+ }
+ // *** ADC data word
+ else if((fBuffer & 0x07000000) == 0x00000000){
+ fIsADDChannel = kTRUE;
+ fADCChannel = ((fBuffer & 0x1e0000) >> 17);
+ fADCGain = ((fBuffer & 0x10000) >> 16);
+ fADCValue = (fBuffer & 0xfff);
+ //
+ //printf(" ADD ADC DATUM -> mod. %d ch. %d gain %d value %d\n",
+ // fADCModule,fADCChannel,fADCGain,fADCValue);
+ }
+ // *** ADC EOB
+ else if((fBuffer & 0x07000000) == 0x04000000){
+ fIsADCEOB = kTRUE;
+ //printf(" AliZDCRawStream -> EOB --------------------------\n");
+ }
+ }
+ // ********************************* ZDC TDC *********************************
+ else if(fADCModule==kZDCTDCGeo && fIsTDCHeaderRead==kFALSE){
+ fIsZDCTDCHeader = kTRUE;
+ fIsTDCHeaderRead = kTRUE;
+ fTDCStartCounter = fPosition;
+ //Ch. debug
+ //printf(" AliZDCRawStream -> ZDC TDC: mod.%d\n",fADCModule);
+ }
+ // ********************************* ADD TDC *********************************
+ else if(fADCModule == kADDTDCGeo){
+ // *** TDC header
+ if((fBuffer & 0x07000000) == 0x02000000){
+ fIsADDTDCHeader = kTRUE;
+ fADCNChannels = ((fBuffer & 0x00003f00)>>8);
+ //printf(" AliZDCRawStream -> ADD TDC: mod.%d has %d ch. \n",fADCModule,fADCNChannels);
+ }
+ // *** TDC word
+ else if((fBuffer & 0x07000000) == 0x00000000){
+ fIsADDTDCdatum = kTRUE;
+ }
+ // *** TDC EOB
+ if((fBuffer & 0x07000000) == 0x04000000){
+ fIsADCEOB = kTRUE;
+ //printf(" AliZDCRawStream -> ADD TDC EOB\n");
+ }
+ }
+ // ********************************* VME SCALER HEADER *********************************
+ else if(fADCModule == kScalerGeo){
+ if(fBuffer & 0x04000000 && fIsScHeaderRead==kFALSE){ // *** Scaler header
+ fScGeo = (fBuffer & 0xf8000000)>>27;
+ fScNWords = (fBuffer & 0x00fc0000)>>18;
+ fScTriggerSource = (fBuffer & 0x00030000)>>16;
+ fScTriggerNumber = (fBuffer & 0x0000ffff);
+ fIsScHeaderRead = kTRUE;
+ fScStartCounter = fPosition;
+ //Ch. debug
+ //printf(" AliZDCRawStream -> VME SCALER HEADER: geo %d Nwords %d TrigSource %d TrigNo. %d\n",
+ // fScGeo,fScNWords,fScTriggerSource,fScTriggerNumber);
+ }
+ else if(!(fBuffer & 0x04000000)){
+ fIsScEventGood = kFALSE;
+ }
+ }
+ // *********************************** PATTERN UNIT ***********************************
+ else if(fADCModule == kPUGeo){
+ // still to be implemented!!! Not yet in data!!!
+ fDetPattern = (fBuffer & 0x0000003f);
+ // Ch. debug
+ //printf(" AliZDCRawStream -> Pattern Unit\n");
- }// Valid ADC data
- else if(fRawADC & 0x1000){
- //printf(" ADC %d ch %d range %d overflow\n",fADCModule, (fRawADC & 0x1e0000) >> 17, fADCGain); // Overflow
+ }
+ // ******************************** TRIGGER CARD COUNTS ********************************
+ else if(fADCModule == kTrigScales){
+ if(fIsTriggerScaler == kFALSE){
+ fTrigCountNWords = (Int_t) ((fBuffer & 0xfc0000)>>17);
+ fTrigCountStart = fPosition;
+ fIsTriggerScaler = kTRUE;
}
- else if(fRawADC & 0x2000){
- //printf(" ADC %d ch %d range %d underflow\n",fADCModule, (fRawADC & 0x1e0000) >> 17, fADCGain); // Underflow
+ // Ch. debug
+ //printf(" AliZDCRawStream -> Trigger Scaler header\n");
+ }
+ // ********************************** TRIGGER HISTORY **********************************
+ else if(fADCModule == kTrigHistory){
+ if(fIsTriggerHistory == kFALSE){
+ fTrigHistNWords = (Int_t) ((fBuffer & 0xfc0000)>>17);
+ fTrigHistStart = fPosition;
+ fIsTriggerHistory = kTRUE;
+ }
+ // Ch. debug
+ //printf(" AliZDCRawStream -> Trigger History header\n");
+
+ }
+ // ********************************** VME SCALER DATA **********************************
+ // Reading VME scaler data
+ if(fIsScHeaderRead && fPosition>=fScStartCounter+1){ // *** Scaler word
+ fADCModule=kScalerGeo; fIsADCDataWord=kFALSE; fIsScalerWord=kTRUE;
+ fScEvCounter = fBuffer;
+ Int_t nWords = (Int_t) (fScNWords);
+ if(fPosition == fScStartCounter+nWords) fIsScHeaderRead = kFALSE;
+ //Ch. debug
+ //printf(" AliZDCRawStream -> scaler datum %d", fScEvCounter);
+ }
+ // ********************************** ZDC TDC DATA **********************************
+ // ZDC TDC data
+ if(fIsTDCHeaderRead && fPosition>=fTDCStartCounter+1){
+ fIsADCDataWord=kFALSE; fIsScalerWord=kFALSE;
+ //printf(" AliZDCRawStream -> ...skipping ZDC TDC datum\n");
+ // For the moment we skip the TDC data
+ if(((fBuffer & 0xf0000000) == 0x80000000) && ((fBuffer & 0x08000000) >> 27) == 0){
+ fIsTDCHeaderRead = kFALSE;
+ // Ch. debug
+ //printf(" AliZDCRawStream -> ZDC TDC trailer\n");
}
- }// ADC word
- }//Not DARC Header
+ }
+ // ******************************** TRIGGER SCALER DATA ********************************
+ // Reading trigger scaler data
+ if(fIsTriggerScaler && fPosition>=fTrigCountStart+1){
+ fADCModule = kTrigScales; fIsADCDataWord = kFALSE;
+ if(fPosition == fTrigCountStart+1) fMBTrigInput = fBuffer;
+ else if(fPosition == fTrigCountStart+2) fCentralTrigInput = fBuffer;
+ else if(fPosition == fTrigCountStart+3) fSCentralTrigInput = fBuffer;
+ else if(fPosition == fTrigCountStart+4) fEMDTrigInput = fBuffer;
+ else if(fPosition == fTrigCountStart+5) fL0Received = fBuffer;
+ else if(fPosition == fTrigCountStart+6) fMBtrig2CTP = fBuffer;
+ else if(fPosition == fTrigCountStart+7) fCentralTrig2CTP = fBuffer;
+ else if(fPosition == fTrigCountStart+8) fSCentralTrig2CTP = fBuffer;
+ else if(fPosition == fTrigCountStart+9){
+ fEMDTrig2CTP = fBuffer;
+ fIsTriggerScaler = kFALSE;
+ }
+ // Ch. debug
+ //printf(" AliZDCRawStream -> Trigger Scaler datum %d\n", fPosition-fTrigCountStart);
+ }
+ // ******************************* TRIGGER HISTORY WORDS ******************************
+ // Reading trigger history
+ if(fIsTriggerHistory && fPosition>=fTrigHistStart+1){
+ fADCModule = kTrigHistory; fIsADCDataWord = kFALSE;
+ if(fPosition == fTrigHistStart+1){
+ fPileUpBit1stWord = (fBuffer & 0x80000000) >> 31;
+ fL0Bit1stWord = (fBuffer & 0x40000000) >> 30;
+ fCentralTrigHist = (fBuffer & 0x3fff8000) >> 14;
+ fMBTrigHist = (fBuffer & 0x00007fff);
+ //
+ fCPTInput[0] = (fBuffer & 0x00000080) >> 6; // MB bit
+ fCPTInput[1] = (fBuffer & 0x00400000) >> 21; // CENTRAL bit
+ }
+
+ else if(fPosition == fTrigHistStart+fTrigHistNWords){
+ fPileUpBit2ndWord = (fBuffer & 0x80000000) >> 31;
+ fL0Bit2ndWord = (fBuffer & 0x40000000) >> 30;
+ fSCentralTrigHist = (fBuffer & 0x3fff8000) >> 14;
+ fEMDTrigHist = (fBuffer & 0x00007fff);
+ //
+ fCPTInput[2] = (fBuffer & 0x00000080) >> 6; // SEMICENTRAL bit
+ fCPTInput[3] = (fBuffer & 0x00400000) >> 21; // EMD bit
+ //
+ fIsTriggerHistory = kFALSE;
+
+ // Checking if the event is good
+ // (1) both history word pile up bits must be = 0
+ if(fPileUpBit1stWord==0 && fPileUpBit2ndWord==0) fIsPileUpEvent = kFALSE;
+ else{
+ fIsPileUpEvent = kTRUE;
+ printf(" AliZDCRawStream -> PILE UP EVENT: bitPileUp0 %d bitPileUp1 %d\n",
+ fPileUpBit1stWord, fPileUpBit2ndWord);
+ }
+ // (2) both history word L0 bits must be = 1
+ if(fL0Bit1stWord==1 && fL0Bit2ndWord==1) fIsL0BitSet = kTRUE;
+ else{
+ fIsL0BitSet = kFALSE;
+ printf(" AliZDCRawStream -> L0 wrongly set: bitL0word0 %d bitL0word1 %d\n",
+ fL0Bit1stWord, fL0Bit2ndWord);
+ }
+ }
+ // Ch. debug
+ //printf(" AliZDCRawStream -> Trigger history word %d\n", fPosition-fTrigHistStart);
+ }
+
+ }
+
+ fPosition++;
return kTRUE;
}
+
+//_____________________________________________________________________________
+AliCDBStorage* AliZDCRawStream::SetStorage(const char *uri)
+{
+ // Setting the storage
+
+ AliCDBStorage *storage = AliCDBManager::Instance()->GetStorage(uri);
+
+ return storage;
+}
+
+
+//_____________________________________________________________________________
+AliZDCChMap* AliZDCRawStream::GetChMap() const
+{
+
+ // Getting calibration object for ZDC
+
+ AliCDBEntry *entry = AliCDBManager::Instance()->Get("ZDC/Calib/ChMap");
+ if(!entry) AliFatal("No calibration data loaded!");
+
+ AliZDCChMap *calibdata = dynamic_cast<AliZDCChMap*> (entry->GetObject());
+ if(!calibdata) AliFatal("Wrong calibration object in calibration file!");
+
+ return calibdata;
+}