Functions
template<class DigiClass >
const HcalQIESample *	unpack (const HcalQIESample startPoint, const HcalQIESample limit, DigiClass &digi, int presamples, const HcalElectronicsId &eid, int startSample, int endSample, int expectedTime, const HcalHTRData &hhd)

template<class DigiClass >
const unsigned short *	unpack_compact (const unsigned short startPoint, const unsigned short limit, DigiClass &digi, int presamples, const HcalElectronicsId &eid, int startSample, int endSample, int expectedTime, const HcalHTRData &hhd)

template<class DigiClass >
void	unpack_compact (HcalUHTRData::const_iterator &i, const HcalUHTRData::const_iterator &iend, DigiClass &digi, int presamples, const HcalElectronicsId &eid, int startSample, int endSample)

Function Documentation

template<class DigiClass >

const HcalQIESample* HcalUnpacker_impl::unpack	(	const HcalQIESample *	startPoint,
		const HcalQIESample *	limit,
		DigiClass &	digi,
		int	presamples,
		const HcalElectronicsId &	eid,
		int	startSample,
		int	endSample,
		int	expectedTime,
		const HcalHTRData &	hhd
	)

Definition at line 14 of file HcalUnpacker.cc.

References HcalQIESample::fiber(), HcalQIESample::fiberAndChan(), HcalQIESample::fiberChan(), HcalHTRData::getFibOrbMsgBCN(), HcalHTRData::isUnsuppressed(), HcalHTRData::wasMarkAndPassZS(), and HcalHTRData::zsBunchMask().

                                                                                                                                                                                                                                     {
     // set parameters
     digi.setPresamples(presamples);
     digi.setReadoutIds(eid);
 
     int fiber=startPoint->fiber();
     int fiberchan=startPoint->fiberChan();
     uint32_t zsmask=hhd.zsBunchMask()>>startSample;
     digi.setZSInfo(hhd.isUnsuppressed(),hhd.wasMarkAndPassZS(fiber,fiberchan),zsmask);
 
     if (expectedTime>=0 && !hhd.isUnsuppressed()) {
       //      std::cout << hhd.getFibOrbMsgBCN(fiber) << " " << expectedTime << std::endl;
       digi.setFiberIdleOffset(hhd.getFibOrbMsgBCN(fiber)-expectedTime);
     }
 
     // what is my sample number?
     int myFiberChan=startPoint->fiberAndChan();
     int ncurr=0,ntaken=0;
     const HcalQIESample* qie_work=startPoint;
     while (qie_work!=limit && qie_work->fiberAndChan()==myFiberChan) {
       if (ncurr>=startSample && ncurr<=endSample) {
     digi.setSample(ntaken,*qie_work);
     ++ntaken;
       }
       ncurr++;
       qie_work++;
     }
     digi.setSize(ntaken);
     return qie_work;
   }

template<class DigiClass >

const unsigned short* HcalUnpacker_impl::unpack_compact	(	const unsigned short *	startPoint,
		const unsigned short *	limit,
		DigiClass &	digi,
		int	presamples,
		const HcalElectronicsId &	eid,
		int	startSample,
		int	endSample,
		int	expectedTime,
		const HcalHTRData &	hhd
	)

Definition at line 47 of file HcalUnpacker.cc.

References HcalHTRData::getFibOrbMsgBCN(), HcalHTRData::is_channel_header(), HcalHTRData::isUnsuppressed(), MessageLogger_cff::limit, compare_using_db::sample, HcalHTRData::unpack_per_channel_header(), HcalHTRData::wasMarkAndPassZS(), and HcalHTRData::zsBunchMask().

                                                                  {
     // set parameters
     digi.setPresamples(presamples);
     digi.setReadoutIds(eid);
     int flavor, error_flags, capid0, channelid;
 
     HcalHTRData::unpack_per_channel_header(*startPoint,flavor,error_flags,capid0,channelid);
     bool isCapRotating=!(error_flags&0x1);
     bool fiberErr=(error_flags&0x2);
     bool dataValid=!(error_flags&0x2);
     int fiberchan=channelid&0x3;
     int fiber=((channelid>>2)&0x7)+1;
 
     uint32_t zsmask=hhd.zsBunchMask()>>startSample;
     digi.setZSInfo(hhd.isUnsuppressed(),hhd.wasMarkAndPassZS(fiber,fiberchan),zsmask);
 
     if (expectedTime>=0 && !hhd.isUnsuppressed()) {
       //      std::cout << hhd.getFibOrbMsgBCN(fiber) << " " << expectedTime << std::endl;
       digi.setFiberIdleOffset(hhd.getFibOrbMsgBCN(fiber)-expectedTime);
     }
 
     // what is my sample number?
     int ncurr=0,ntaken=0;
     const unsigned short* qie_work=startPoint;
     // we branch here between normal (flavor=5) and error mode (flavor=6)
     if (flavor==5) {
       for (qie_work++; qie_work!=limit && !HcalHTRData::is_channel_header(*qie_work); qie_work++) {
     int capidn=(isCapRotating)?((capid0+ncurr)%4):(capid0);
     int capidn1=(isCapRotating)?((capid0+ncurr+1)%4):(capid0);
     // two samples in one...
     HcalQIESample s0((*qie_work)&0x7F,capidn,fiber,fiberchan,dataValid,fiberErr);
     HcalQIESample s1(((*qie_work)>>8)&0x7F,capidn1,fiber,fiberchan,dataValid,fiberErr);
     
     if (ncurr>=startSample && ncurr<=endSample) {
       digi.setSample(ntaken,s0);
       ++ntaken;
     }
     ncurr++;
     if (ncurr>=startSample && ncurr<=endSample) {
       digi.setSample(ntaken,s1);
       ++ntaken;
     }
     ncurr++;
       }
       digi.setSize(ntaken);
     } else if (flavor==6) {
       for (qie_work++; qie_work!=limit && !HcalHTRData::is_channel_header(*qie_work); qie_work++) {
     if (ncurr>=startSample && ncurr<=endSample) {
       HcalQIESample sample((*qie_work)&0x7F,((*qie_work)>>8)&0x3,fiber,fiberchan,((*qie_work)>>10)&0x1,((*qie_work)>>11)&0x1);
       digi.setSample(ntaken,sample);
       ++ntaken;
     }
     ncurr++;
       }
       digi.setSize(ntaken);
     } else {
       edm::LogWarning("Bad Data") << "Invalid flavor " << flavor;
       qie_work=limit;
     }
     return qie_work;
   }

template<class DigiClass >

void HcalUnpacker_impl::unpack_compact	(	HcalUHTRData::const_iterator &	i,
		const HcalUHTRData::const_iterator &	iend,
		DigiClass &	digi,
		int	presamples,
		const HcalElectronicsId &	eid,
		int	startSample,
		int	endSample
	)

Definition at line 112 of file HcalUnpacker.cc.

References HcalUHTRData::const_iterator::adc(), HcalUHTRData::const_iterator::capid0(), HcalUHTRData::const_iterator::channelid(), HcalUHTRData::const_iterator::errFlags(), i, HcalUHTRData::const_iterator::isHeader(), and alignCSCRings::s.

                                                                                             {
     // set parameters
     digi.setPresamples(presamples-startSample);
     digi.setReadoutIds(eid);
     int error_flags=i.errFlags();
     int capid0=i.capid0();
 
     bool isCapRotating=!(error_flags&0x1);
     bool fiberErr=(error_flags&0x2);
     bool dataValid=!(error_flags&0x2);
     int fiberchan=i.channelid()&0x3;
     int fiber=((i.channelid()>>2)&0x7)+1;
 
     //    digi.setZSInfo(hhd.isUnsuppressed(),hhd.wasMarkAndPassZS(fiber,fiberchan),zsmask);
 
     // what is my sample number?
     int ncurr=0,ntaken=0;
     for (++i; i!=iend && !i.isHeader(); ++i) {
       int capidn=(isCapRotating)?((capid0+ncurr)%4):(capid0);
       
       HcalQIESample s(i.adc(),capidn,fiber,fiberchan,dataValid,fiberErr);
       
       if (ncurr>=startSample && ncurr<=endSample) {
     digi.setSample(ntaken,s);
     ++ntaken;
       }
       ncurr++;
     }
     digi.setSize(ntaken);
   }

Functions

Function Documentation