#include <LArRodBlockPhysicsV1.h>

Inheritance diagram for LArRodBlockPhysicsV1:

Collaboration diagram for LArRodBlockPhysicsV1:

Public Member Functions
	LArRodBlockPhysicsV1 (IMessageSvc *msgSvc)
virtual void	initializeFragment (std::vector< uint32_t > &fragment)
virtual void	initializeFEB (const uint32_t id)
virtual void	setNumberOfSamples (const uint8_t n)
virtual void	setNumberOfGains (const uint8_t n)
virtual void	setNextEnergy (const int channel, const int32_t energy, const int32_t time, const int32_t quality, const uint32_t gain)
virtual void	setRawData (const int channel, const std::vector< short > &samples, const uint32_t gain)
virtual void	finalizeFEB ()
virtual void	concatinateFEBs ()
virtual void	sortDataVector (std::vector< const LArRawChannel * > &)
virtual void	sortDataVector (std::vector< const LArDigit * > &)
virtual bool	canSetEnergy ()
virtual bool	canSetRawData ()
template<class RAWDATA>
bool	operator() (const RAWDATA ch1, const RAWDATA ch2) const
virtual bool	setPointers ()
virtual int	getNextEnergy (int &channelNumber, int32_t &energy, int32_t &time, int32_t &quality, uint32_t &gain)
virtual int	getNextRawData (int &channelNumber, std::vector< short > &samples, uint32_t &gain)
virtual uint32_t	hasPhysicsBlock () const
virtual uint32_t	hasRawDataBlock () const
virtual void	sortDataVector (std::vector< const LArCalibDigit * > &)
virtual void	sortDataVector (std::vector< const LArAccumulatedCalibDigit * > &)
virtual void	sortDataVector (std::vector< const LArAccumulatedDigit * > &)
virtual void	setTDCPhase (const uint8_t n)
virtual void	setRawDataFixed (const int channel, const std::vector< short > &samples, const uint32_t gain)
virtual void	setEtQ (const int channel, const int32_t energy, const int32_t time, const int32_t quality, const uint32_t gain)
virtual void	setDAC (const uint16_t DACValue)
virtual void	setDelay (const uint16_t DelayValue)
virtual void	setPulsed (const unsigned channelNumber)
virtual void	setNTrigger (const uint16_t NTrigger)
virtual void	setEx (double)
virtual void	setEy (double)
virtual void	setEz (double)
virtual void	setSumE (double)
virtual bool	canSetRawDataFixed ()
virtual bool	canSetCalibration ()
virtual bool	canSetNTrigger ()
virtual bool	canIncludeRawData ()
bool	setFragment (const uint32_t *p, uint32_t n)
bool	nextFEB ()
uint32_t	getNumberOfWords () const
uint32_t	getFEBID () const
uint32_t	getFEBSN () const
virtual int32_t	getEx () const
virtual int32_t	getEy () const
virtual int32_t	getEz () const
virtual int32_t	getSumE () const
virtual uint32_t	getVROBFebId ()
virtual int32_t	getVROBEx () const
virtual int32_t	getVROBEy () const
virtual int32_t	getVROBEz () const
virtual int32_t	getVROBSumE () const
virtual uint32_t	hasCalibBlock () const
virtual uint32_t	hasAccumBlock () const
virtual uint32_t	hasControlWords () const
virtual int	getNextAccumulatedCalibDigit (int &channelNumber, std::vector< uint64_t > &SamplesSum, std::vector< uint64_t > &Samples2Sum, uint32_t &nStepTriggers, uint32_t &gain)
virtual int	getNextAccumulatedDigit (int &channelNumber, std::vector< uint64_t > &SamplesSum, std::vector< uint64_t > &corr2Sum, uint32_t &gain)
virtual bool	getPulsed (unsigned channelNumber) const
virtual uint16_t	getDAC () const
virtual uint16_t	getDelay () const
virtual uint16_t	getNTrigger () const
virtual uint16_t	getStepIndex () const
virtual uint16_t	getNStep () const
virtual uint8_t	getTDCPhase () const
virtual int	setGain (const int GainValue)
virtual uint32_t	getNumberOfSamples () const
virtual uint32_t	getNumberOfGains () const
virtual uint16_t	getResults1Size () const
virtual uint16_t	getResults2Size () const
virtual uint16_t	getRawDataSize () const
virtual uint16_t	getNbSweetCells1 () const
virtual uint16_t	getNbSweetCells2 () const
virtual uint32_t	getRadd (uint32_t adc, uint32_t sample) const
virtual uint16_t	getCtrl1 (uint32_t adc) const
virtual uint16_t	getCtrl2 (uint32_t adc) const
virtual uint16_t	getCtrl3 (uint32_t adc) const
virtual uint32_t	getStatus () const
virtual uint32_t	getDspCodeVersion () const
virtual int32_t	getDspEventCounter () const
virtual uint32_t	onlineCheckSum () const
virtual uint32_t	offlineCheckSum () const
virtual int	setFragmentVirtualROB (const uint32_t *p, uint32_t n)
virtual void	dumpFragment ()
void	setFirstSample (const int rearrangeFirstSample)
uint32_t	RawToOfflineGain (const uint32_t gain) const
uint32_t	OfflineToRawGain (const uint32_t gain) const
bool	report_error (void) const

Static Public Member Functions
static std::string	BlockType ()

Protected Types
enum	{ NWTot , NWTot_h , FEBID , FEBID_h , FEB_SN , FEB_SN_h , LowEBlkOffset , HighEBlkOffset , RawDataBlkOffset , NGainNSamples , Status1 , Status2 , BCID , EventID , RADD1 , RADD2 , endtag }
enum	{ NWTot , NWTot_h , FEBID , FEBID_h , FEBSN , FEBSN_h , endtag }
typedef std::map< uint32_t, std::vector< uint32_t > >	FEBMAPTYPE

Protected Member Functions
void	setHeader16 (const unsigned n, const uint16_t w)
void	setHeader32 (const unsigned n, const uint32_t w)
uint16_t	getVectorHeader16 (const unsigned n) const
uint32_t	getVectorHeader32 (const unsigned n) const
uint16_t	getHeader16 (const unsigned n) const
uint32_t	getHeader32 (const unsigned n) const
uint16_t	LE_getHeader16 (const unsigned n) const
void	LE_setHeader16 (const unsigned n, const uint16_t w)
uint16_t	LE_getVectorHeader16 (const unsigned n) const
void	setBit (uint32_t *const p, const unsigned chan)
int	getBit (const uint32_t *const p, const unsigned chan) const

Protected Attributes
int32_t	m_Ex
int32_t	m_Ey
int32_t	m_Ez
int32_t	m_SumE
uint32_t	m_numberOfEx
uint32_t	m_numberOfEy
uint32_t	m_numberOfEz
uint32_t	m_numberOfSumE
unsigned short	m_iHeadBlockSize
int	m_channelsPerFEB
const uint32_t *	m_FebBlock
const uint32_t *	m_RodBlock
int32_t	m_FebBlockSize
int32_t	m_RodBlockSize
std::vector< uint32_t > *	m_vFragment
std::vector< uint32_t > *	m_pRODblock
FEBMAPTYPE	m_mFebBlocks
int32_t	m_MiddleHeaderSize
unsigned int	m_rearrangeFirstSample
bool	m_error_next_feb
uint32_t	m_virtualROBJump
int32_t	m_ROB_to_decode
const uint32_t *	m_virtualROBPointer
const uint32_t *	m_virtualROBPointerLocal
MsgStream	m_logstr

Static Protected Attributes
static const uint32_t	m_RawToOfflineGainMap [4] ={0, 2, 1,0}
static const uint32_t	m_OfflineToRawGainMap [3] ={3,2,1}

Private Member Functions
void	clearBlocks ()
virtual void	resetPointers ()
int	FebToRodChannel (int ch) const
void	setNextEnergy (const int32_t energy, const int32_t time, const int32_t quality, const uint32_t gain)

Private Attributes
std::vector< uint32_t >	m_LowEnergyBlock
std::vector< uint32_t >	m_HighEnergyBlock
std::vector< uint32_t >	m_RawDataBlock
int	m_ECounter = 0
int	m_RawDataCounter = 0
int	m_LowEIndex = 0
int	m_RawDataIndex = 0
int	m_HighEIndex = 0
int	m_EIndex = 0
const int32_t *	m_HighEPtr
const uint32_t *	m_FlagPtr
const int16_t *	m_LowEPtr
unsigned short	m_NFlaggingWords
const LArOnlineID *	m_onlineHelper

Static Private Attributes
static const uint32_t	m_DummyBitMap [4] ={0,0,0,0}

Detailed Description

Definition at line 46 of file LArRodBlockPhysicsV1.h.

Member Typedef Documentation

◆ FEBMAPTYPE

typedef std::map<uint32_t, std::vector<uint32_t> > LArRodBlockStructure::FEBMAPTYPE

protectedinherited

Definition at line 227 of file LArRodBlockStructure.h.

Member Enumeration Documentation

◆ anonymous enum

anonymous enum

protected

Enumerator
NWTot
NWTot_h
FEBID
FEBID_h
FEB_SN
FEB_SN_h
LowEBlkOffset
HighEBlkOffset
RawDataBlkOffset
NGainNSamples
Status1
Status2
BCID
EventID
RADD1
RADD2
endtag

Definition at line 54 of file LArRodBlockPhysicsV1.h.

       {
    NWTot,
    NWTot_h,
    FEBID,
    FEBID_h,
    FEB_SN,
    FEB_SN_h,
    LowEBlkOffset,
    HighEBlkOffset,
    RawDataBlkOffset,
    NGainNSamples,          //Elements below this are not used by the converter
    Status1,
    Status2,
    BCID,
    EventID,
    RADD1,
    RADD2,                 //Could have more RADD's in real data
    endtag
  };

◆ anonymous enum

anonymous enum

protectedinherited

Enumerator
NWTot
NWTot_h
FEBID
FEBID_h
FEBSN
FEBSN_h
endtag

Definition at line 50 of file LArRodBlockStructure.h.

       {
    NWTot,          // Number of words in DSP block
    NWTot_h,
    FEBID,          // FEB ID
    FEBID_h,
    FEBSN,          // FEB Serial Number
    FEBSN_h,
    endtag          // This tag needs to be an odd number, see *) for constructor
  };

Constructor & Destructor Documentation

◆ LArRodBlockPhysicsV1()

LArRodBlockPhysicsV1::LArRodBlockPhysicsV1 ( IMessageSvc * msgSvc )

Definition at line 36 of file LArRodBlockPhysicsV1.cxx.

  : LArRodBlockStructure(msgSvc, BlockType())
{
  // retrieve onlineHelper
  const LArOnlineID* online_id;
  SmartIF<StoreGateSvc> detStore{Gaudi::svcLocator()->service("DetectorStore")};
  if (!detStore) {
    m_logstr << MSG::ERROR << "Unable to locate DetectorStore" << endmsg;
    std::abort();
  }
  StatusCode sc = detStore->retrieve(online_id, "LArOnlineID");
  if (sc.isFailure()) {
    m_logstr << MSG::FATAL << "Could not get LArOnlineID helper !" << endmsg;
    std::abort();
  }
  else {
    m_onlineHelper=online_id;
    m_logstr << MSG::DEBUG << " Found the LArOnlineID helper. " << endmsg;
  }
 
  m_iHeadBlockSize=endtag/2; // The implicit cast rounds down to the right size
  m_NFlaggingWords=4;
  LArRodBlockPhysicsV1::resetPointers();
  m_vFragment=NULL;
  m_FebBlock=NULL;
  m_pRODblock=NULL;
  m_FlagPtr=NULL;
  m_HighEPtr=NULL;
  m_LowEPtr=NULL;
}

Member Function Documentation

◆ BlockType()

std::string LArRodBlockPhysicsV1::BlockType ( )

inlinestatic

Definition at line 75 of file LArRodBlockPhysicsV1.h.

75{ return std::string("RodBlockPhysicsV1");}

◆ canIncludeRawData()

virtual bool LArRodBlockStructure::canIncludeRawData ( )

inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 100 of file LArRodBlockStructure.h.

100{return false;}

◆ canSetCalibration()

virtual bool LArRodBlockStructure::canSetCalibration ( )

inlinevirtualinherited

Reimplemented in LArRodBlockCalibrationV0< DSPHEADER >, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, LArRodBlockCalibrationV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 98 of file LArRodBlockStructure.h.

98{return false;}

◆ canSetEnergy()

virtual bool LArRodBlockPhysicsV1::canSetEnergy ( )

inlinevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 93 of file LArRodBlockPhysicsV1.h.

93{ return true;}

◆ canSetNTrigger()

virtual bool LArRodBlockStructure::canSetNTrigger ( )

inlinevirtualinherited

Definition at line 99 of file LArRodBlockStructure.h.

99{return false;}

◆ canSetRawData()

virtual bool LArRodBlockPhysicsV1::canSetRawData ( )

inlinevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 94 of file LArRodBlockPhysicsV1.h.

94{return true;}

◆ canSetRawDataFixed()

virtual bool LArRodBlockStructure::canSetRawDataFixed ( )

inlinevirtualinherited

Reimplemented in LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 97 of file LArRodBlockStructure.h.

97{return false;}

◆ clearBlocks()

void LArRodBlockPhysicsV1::clearBlocks ( )

private

Definition at line 68 of file LArRodBlockPhysicsV1.cxx.

{
  m_HighEnergyBlock.clear();
  m_LowEnergyBlock.clear();
  m_RawDataBlock.clear();
}

◆ concatinateFEBs()

void LArRodBlockPhysicsV1::concatinateFEBs ( )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 322 of file LArRodBlockPhysicsV1.cxx.

{
  FEBMAPTYPE::const_iterator feb_it_b=m_mFebBlocks.begin();
  FEBMAPTYPE::const_iterator feb_it_e=m_mFebBlocks.end();
  FEBMAPTYPE::const_iterator feb_it;
  for (feb_it=feb_it_b;feb_it!=feb_it_e;++feb_it) {
    if (feb_it!=feb_it_b) //Not first Feb
      m_pRODblock->resize( m_pRODblock->size()+m_MiddleHeaderSize);
   
    //Add feb data to rod data block
    m_pRODblock->insert (m_pRODblock->end(),
                         feb_it->second.begin(), feb_it->second.end());
  } //end for feb_it
 
  m_mFebBlocks.clear();
}

◆ dumpFragment()

void LArRodBlockStructure::dumpFragment ( )

virtualinherited

Definition at line 159 of file LArRodBlockStructure.cxx.

{
  m_logstr << MSG::ERROR << "Error: Function dumpFragment() not implemented in this instance of LArRodBlockStructure!" << endmsg;
}

◆ FebToRodChannel()

int LArRodBlockPhysicsV1::FebToRodChannel ( int ch ) const

inlineprivatevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 137 of file LArRodBlockPhysicsV1.h.

139{return (ch>>3) + ((ch&0x7)<<4);}

sendEI_SPB.ch

ch

Definition sendEI_SPB.py:35

◆ finalizeFEB()

void LArRodBlockPhysicsV1::finalizeFEB ( )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 269 of file LArRodBlockPhysicsV1.cxx.

{
  //Complete non-complete Energy block
  while (m_EIndex<m_channelsPerFEB)
    setNextEnergy(0,0,-1,0);//E=0,t=0,q=-1,G=0
  // Energies
  unsigned int n;
  uint16_t BlockOffset;
  //Low energy block....
  n = m_LowEnergyBlock.size();
  BlockOffset=getVectorHeader16(LowEBlkOffset);
  //Check if Low Energy Block exists and is not yet part of the fragment
  LARBSDBG("Checking Low Energy Block n=" << n << "BlockOffset=" << BlockOffset);
  if (n>m_NFlaggingWords && !BlockOffset)
  {
    setHeader16(LowEBlkOffset,m_vFragment->size());
    for (unsigned i=0;i<n;i++)
      m_vFragment->push_back(m_LowEnergyBlock[i]);
  }
  //High energy block...
  n = m_HighEnergyBlock.size();
  BlockOffset=getVectorHeader16(HighEBlkOffset);
  LARBSDBG("Checking High Energy Block n=" << n << "BlockOffset=" << BlockOffset);
  //Check if High Energy-Block exists and is not yet part of the fragment
  if (n && !BlockOffset)
  {
    setHeader16(HighEBlkOffset,m_vFragment->size());
    for(unsigned int i=0;i<n;i++)
      m_vFragment->push_back(m_HighEnergyBlock[i]);
  }
 
  // Raw data
  LARBSDBG("Checking Raw Data Block");
  n = m_RawDataBlock.size();
  BlockOffset=getVectorHeader16(RawDataBlkOffset);
  LARBSDBG("Checking Raw Data Block. n=" << n << "BlockOffset=" << BlockOffset);
  //Check if Raw Data block exists and is not yet part of the fragment
  if (n>m_NFlaggingWords && !BlockOffset)
  {setHeader16(RawDataBlkOffset,m_vFragment->size());
    for(unsigned int i=0;i<n;i++)
      m_vFragment->push_back(m_RawDataBlock[i]);
  }
  setHeader32(NWTot,m_vFragment->size());
  LARBSDBG("Offsets:" << std::endl
           << "Raw Data: " << getVectorHeader16(RawDataBlkOffset) << std::endl
           <<"Low Energy: " << getVectorHeader16(LowEBlkOffset)<< std::endl
           << "High Energy: " << getVectorHeader16(HighEBlkOffset)<< std::endl
           << "Energy-index:" << m_EIndex << std::endl
           << "Filled channels: " << m_ECounter << std::endl);
  clearBlocks();
}

◆ getBit()

int LArRodBlockStructure::getBit	(	const uint32_t *const	p,
		const unsigned	chan ) const

inlineprotectedinherited

Definition at line 422 of file LArRodBlockStructure.h.

{// chan = (0,127)   
  // int a = chan/32; 
  // int r = chan%32; 
  int a = chan>>5; 
  int r = chan&0x1f; 
  // a = (0,3), r = ( 0, 31 )
  return (*(p+a)>>r) & 0x1; 
}

◆ getCtrl1()

uint16_t LArRodBlockStructure::getCtrl1 ( uint32_t adc ) const

virtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, LArRodBlockCalibrationV3, LArRodBlockPhysicsV2, LArRodBlockPhysicsV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, LArRodBlockPhysicsV6, and LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 224 of file LArRodBlockStructure.cxx.

224{ return 0; }

◆ getCtrl2()

uint16_t LArRodBlockStructure::getCtrl2 ( uint32_t adc ) const

virtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, LArRodBlockCalibrationV3, LArRodBlockPhysicsV2, LArRodBlockPhysicsV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, LArRodBlockPhysicsV6, and LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 225 of file LArRodBlockStructure.cxx.

225{ return 0; }

◆ getCtrl3()

uint16_t LArRodBlockStructure::getCtrl3 ( uint32_t adc ) const

virtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, LArRodBlockCalibrationV3, LArRodBlockPhysicsV2, LArRodBlockPhysicsV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, LArRodBlockPhysicsV6, and LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 226 of file LArRodBlockStructure.cxx.

226{ return 0; }

◆ getDAC()

uint16_t LArRodBlockStructure::getDAC ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockCalibrationV0< DSPHEADER >, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, and LArRodBlockCalibrationV3.

Definition at line 456 of file LArRodBlockStructure.h.

{
  return 0;
}

◆ getDelay()

uint16_t LArRodBlockStructure::getDelay ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockCalibrationV0< DSPHEADER >, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, and LArRodBlockCalibrationV3.

Definition at line 461 of file LArRodBlockStructure.h.

{
  return 0;
}

◆ getDspCodeVersion()

uint32_t LArRodBlockStructure::getDspCodeVersion ( ) const

virtualinherited

Definition at line 234 of file LArRodBlockStructure.cxx.

{
  int i=getNumberOfWords()-2;
  return m_FebBlock[i]; 
}

◆ getDspEventCounter()

int32_t LArRodBlockStructure::getDspEventCounter ( ) const

virtualinherited

Definition at line 240 of file LArRodBlockStructure.cxx.

{ 
  int i=getNumberOfWords()-1;
  return m_FebBlock[i]; 
}

◆ getEx()

int32_t LArRodBlockStructure::getEx ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 303 of file LArRodBlockStructure.h.

                                                 {
  return 0;
}

◆ getEy()

int32_t LArRodBlockStructure::getEy ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 307 of file LArRodBlockStructure.h.

                                                 {
  return 0;
}

◆ getEz()

int32_t LArRodBlockStructure::getEz ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 311 of file LArRodBlockStructure.h.

                                                 {
  return 0;
}

◆ getFEBID()

uint32_t LArRodBlockStructure::getFEBID ( ) const

inlineinherited

Definition at line 293 of file LArRodBlockStructure.h.

{
  return getHeader32(FEBID);
}

◆ getFEBSN()

uint32_t LArRodBlockStructure::getFEBSN ( ) const

inlineinherited

Definition at line 298 of file LArRodBlockStructure.h.

{
  return getHeader32(FEBSN);
}

◆ getHeader16()

uint16_t LArRodBlockStructure::getHeader16 ( const unsigned n ) const

inlineprotectedinherited

Definition at line 345 of file LArRodBlockStructure.h.

{
 if (n&0x1) //n is an odd number
   return m_FebBlock[n>>1] & 0xffff;  //1,3,5... are fetched from lower bits
 else //n is a even number
   return m_FebBlock[n>>1] >> 16;     //0,2,4... are fetched from higher bits
}

◆ getHeader32()

uint32_t LArRodBlockStructure::getHeader32 ( const unsigned n ) const

inlineprotectedinherited

Definition at line 353 of file LArRodBlockStructure.h.

354{return m_FebBlock[n>>1];}

◆ getNbSweetCells1()

uint16_t LArRodBlockStructure::getNbSweetCells1 ( ) const

virtualinherited

Reimplemented in LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 231 of file LArRodBlockStructure.cxx.

231{ return 0; }

◆ getNbSweetCells2()

uint16_t LArRodBlockStructure::getNbSweetCells2 ( ) const

virtualinherited

Reimplemented in LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 232 of file LArRodBlockStructure.cxx.

232{ return 0; }

◆ getNextAccumulatedCalibDigit()

int LArRodBlockStructure::getNextAccumulatedCalibDigit	(	int &	channelNumber,
		std::vector< uint64_t > &	SamplesSum,
		std::vector< uint64_t > &	Samples2Sum,
		uint32_t &	nStepTriggers,
		uint32_t &	gain )

virtualinherited

Reimplemented in LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, and LArRodBlockCalibrationV3.

Definition at line 86 of file LArRodBlockStructure.cxx.

{
  m_logstr << MSG::ERROR << "Error: Function getNextAccumulatedCalibDigit not implemented in this instance of LArRodBlockStructure!" << endmsg;
  return 0;
}

◆ getNextAccumulatedDigit()

int LArRodBlockStructure::getNextAccumulatedDigit	(	int &	channelNumber,
		std::vector< uint64_t > &	SamplesSum,
		std::vector< uint64_t > &	corr2Sum,
		uint32_t &	gain )

virtualinherited

Reimplemented in LArRodBlockAccumulatedV3.

Definition at line 92 of file LArRodBlockStructure.cxx.

{
  m_logstr << MSG::ERROR << "Error: Function getNextAccumulatedDigit not implemented in this instance of LArRodBlockStructure!" << endmsg;
  return 0;
}

◆ getNextEnergy()

int LArRodBlockPhysicsV1::getNextEnergy	(	int &	channelNumber,
		int32_t &	energy,
		int32_t &	time,
		int32_t &	quality,
		uint32_t &	gain )

inlinevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 141 of file LArRodBlockPhysicsV1.h.

{
  LARBSDBG("in LArRodBlockPhysicsV1::getEnergy.");
  LARBSDBG("m_LowEIndex=" <<m_LowEIndex << "  m_HighEIndex" << m_HighEIndex); 
  LARBSDBG("m_channelsPerFEB=" << m_channelsPerFEB);
  if (m_LowEIndex+m_HighEIndex>=m_channelsPerFEB)                       //Already beyond maximal number of channels
    return 0;
  if (!m_FlagPtr || !m_LowEPtr)                                         //No data block present
    return 0;
  uint32_t gtQ;
  channelNumber=m_LowEIndex+m_HighEIndex;                               //Index of Channel in ROD-Block
  if (getBit(m_FlagPtr,channelNumber))                                  //Data in high energy block
    {energy = m_HighEPtr[m_HighEIndex*2];
     gtQ=m_HighEPtr[m_HighEIndex*2+1];
     // Q in bits 0-15
     // t in bits 16-29
     // gain in bits 30-31
     quality  = gtQ & 0xffff;
     gtQ = gtQ >> 16;
     //time     = gtQ & 0x3fff;
     time = gtQ & 0x1fff;
     if (gtQ & 0x2000)
       time*=-1;
     gain=(gtQ >> 14);
     m_HighEIndex++;
     LARBSDBG("Channel " << channelNumber << " Reading Raw data form High E block. E=" << energy << " Q=" << quality);
    }
  else //Data in low energy block
    {if (!m_LowEPtr)
      return 0; //Block does not exist;
     energy=m_LowEPtr[m_LowEIndex];
     gain=0; //=CaloGain::LARHIGHGAIN
     time=0;
     quality=-1;
     m_LowEIndex++;
     LARBSDBG("Channel " << channelNumber << " Reading Raw data form Low E block. E=" << energy);
    }
  return 1;
}

◆ getNextRawData()

int LArRodBlockPhysicsV1::getNextRawData	(	int &	channelNumber,
		std::vector< short > &	samples,
		uint32_t &	gain )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 339 of file LArRodBlockPhysicsV1.cxx.

{
  LARBSDBG("in LArRodBlockPhysicsV1::getNextRawData.");
  LARBSDBG("m_RawDataCounter=" << m_RawDataCounter << "  m_RawDataIndex="<<  m_RawDataIndex); 
  LARBSDBG("m_channelsPerFEB=" << m_channelsPerFEB);
  const int flags=(int) getHeader16(RawDataBlkOffset);
  if (!flags)
    return 0;                                             //Block not existing
  if (m_RawDataCounter>=m_channelsPerFEB)                  //Already beyond maximal number of channels
    return 0; 
  
  LARBSDBG("Flags="<<flags);
  while (!getBit(m_FebBlock+flags,m_RawDataCounter))      //Look for next filled channel
  {
    ++m_RawDataCounter;
    LARBSDBG("RawDataCounter ist now " << m_RawDataCounter);
    if (m_RawDataCounter>=m_channelsPerFEB)              //No more channel availible
      return 0;
  }
  LARBSDBG("Found filled channel at positon " << m_RawDataCounter);
  //Found next filled channel
  channelNumber=(m_RawDataCounter>>4) + ((m_RawDataCounter&0xf)<<3); //Convert ROD to FEB channel ordering
  unsigned int nsamples = getHeader16(NGainNSamples) & 0x00FF;
  LARBSDBG("This run has " << nsamples <<  " samples");
  int index = flags+m_NFlaggingWords+m_RawDataIndex*((int) (nsamples+1)/2);
  LARBSDBG( "index="<<index);
  ++m_RawDataIndex;
  LARBSDBG("In getnextRawData(). index= " << index);
  if((nsamples/2)*2!=nsamples) { //odd number of samples
    const uint32_t& x = m_FebBlock[index];
    gain = x >> 30;
    samples.push_back((short) (x>>2 & 0xfff));
    for(unsigned int i=1;i<=(nsamples-1)/2;i++) {
      const uint32_t& x = m_FebBlock[index+i];
      samples.push_back((short) (x>>2 & 0xfff));
      samples.push_back((short) (x>>18));
    }
  }
  else { //even number of samples
    const uint32_t& x = m_FebBlock[index];
    gain = x >> 30;
    samples.push_back((short) (x>>2 & 0xfff));
 
    samples.push_back((short) ((x>>18) & 0xfff));
   
    for (unsigned int i=1;i<nsamples/2;i++) {
      const uint32_t& x = m_FebBlock[index+i];
      samples.push_back((short) (x>>2 & 0xfff));
      samples.push_back((short) (x >> 18));
    }
  } //end even numer of sample
  ++m_RawDataCounter;
  return 1;
}

◆ getNStep()

uint16_t LArRodBlockStructure::getNStep ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockAccumulatedV3, and LArRodBlockCalibrationV3.

Definition at line 475 of file LArRodBlockStructure.h.

{
  return 0;
}

◆ getNTrigger()

uint16_t LArRodBlockStructure::getNTrigger ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, and LArRodBlockCalibrationV3.

Definition at line 466 of file LArRodBlockStructure.h.

{
  return 0;
}

◆ getNumberOfGains()

uint32_t LArRodBlockStructure::getNumberOfGains ( ) const

virtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, LArRodBlockCalibrationV3, LArRodBlockPhysicsV2, LArRodBlockPhysicsV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, LArRodBlockPhysicsV6, and LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 222 of file LArRodBlockStructure.cxx.

222{ return 0; }

◆ getNumberOfSamples()

uint32_t LArRodBlockStructure::getNumberOfSamples ( ) const

virtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, LArRodBlockCalibrationV3, LArRodBlockPhysicsV2, LArRodBlockPhysicsV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, LArRodBlockPhysicsV6, and LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 221 of file LArRodBlockStructure.cxx.

221{ return 0; }

◆ getNumberOfWords()

uint32_t LArRodBlockStructure::getNumberOfWords ( ) const

inlineinherited

Definition at line 417 of file LArRodBlockStructure.h.

{ 
  return getHeader32(NWTot); 
}

◆ getPulsed()

bool LArRodBlockStructure::getPulsed ( unsigned channelNumber ) const

inlinevirtualinherited

Reimplemented in LArRodBlockCalibrationV0< DSPHEADER >, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, and LArRodBlockCalibrationV3.

Definition at line 451 of file LArRodBlockStructure.h.

{
  return 0;
}

◆ getRadd()

uint32_t LArRodBlockStructure::getRadd	(	uint32_t	adc,
		uint32_t	sample ) const

virtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, LArRodBlockCalibrationV3, LArRodBlockPhysicsV2, LArRodBlockPhysicsV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, LArRodBlockPhysicsV6, and LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 223 of file LArRodBlockStructure.cxx.

223{ return 0; }

◆ getRawDataSize()

uint16_t LArRodBlockStructure::getRawDataSize ( ) const

virtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 230 of file LArRodBlockStructure.cxx.

230{ return 0; }

◆ getResults1Size()

uint16_t LArRodBlockStructure::getResults1Size ( ) const

virtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 228 of file LArRodBlockStructure.cxx.

228{ return 0; }

◆ getResults2Size()

uint16_t LArRodBlockStructure::getResults2Size ( ) const

virtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 229 of file LArRodBlockStructure.cxx.

229{ return 0; }

◆ getStatus()

uint32_t LArRodBlockStructure::getStatus ( ) const

virtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, LArRodBlockCalibrationV3, LArRodBlockPhysicsV2, LArRodBlockPhysicsV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, LArRodBlockPhysicsV6, and LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 227 of file LArRodBlockStructure.cxx.

227{ return 0; }

◆ getStepIndex()

uint16_t LArRodBlockStructure::getStepIndex ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockAccumulatedV3, and LArRodBlockCalibrationV3.

Definition at line 471 of file LArRodBlockStructure.h.

{
  return 0;
}

◆ getSumE()

int32_t LArRodBlockStructure::getSumE ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV6.

Definition at line 315 of file LArRodBlockStructure.h.

                                                   {
  return 0;
}

◆ getTDCPhase()

uint8_t LArRodBlockStructure::getTDCPhase ( ) const

virtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, LArRodBlockCalibrationV3, and LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 134 of file LArRodBlockStructure.cxx.

{
  return 0;
}

◆ getVectorHeader16()

uint16_t LArRodBlockStructure::getVectorHeader16 ( const unsigned n ) const

inlineprotectedinherited

Definition at line 356 of file LArRodBlockStructure.h.

{
  if (n&0x1) //n is an odd number
    return (std::as_const(*m_vFragment).at(n>>1) & 0xffff);
  else //n is a even number
    return (std::as_const(*m_vFragment).at(n>>1) >> 16);
}

◆ getVectorHeader32()

uint32_t LArRodBlockStructure::getVectorHeader32 ( const unsigned n ) const

inlineprotectedinherited

Definition at line 364 of file LArRodBlockStructure.h.

{
  return (*m_vFragment)[n>>1];
}

◆ getVROBEx()

int32_t LArRodBlockStructure::getVROBEx ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 323 of file LArRodBlockStructure.h.

                                                     {
  return 0;
}

◆ getVROBEy()

int32_t LArRodBlockStructure::getVROBEy ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 327 of file LArRodBlockStructure.h.

                                                     {
  return 0;
}

◆ getVROBEz()

int32_t LArRodBlockStructure::getVROBEz ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 331 of file LArRodBlockStructure.h.

                                                     {
  return 0;
}

◆ getVROBFebId()

uint32_t LArRodBlockStructure::getVROBFebId ( )

inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 319 of file LArRodBlockStructure.h.

                                                   {
  return 0;
}

◆ getVROBSumE()

int32_t LArRodBlockStructure::getVROBSumE ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV6.

Definition at line 335 of file LArRodBlockStructure.h.

                                                       {
  return 0;
}

◆ hasAccumBlock()

virtual uint32_t LArRodBlockStructure::hasAccumBlock ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockAccumulatedV3.

Definition at line 121 of file LArRodBlockStructure.h.

121{return 0;} ;

◆ hasCalibBlock()

virtual uint32_t LArRodBlockStructure::hasCalibBlock ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, LArRodBlockCalibrationV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 120 of file LArRodBlockStructure.h.

120{return 0;} ;

◆ hasControlWords()

virtual uint32_t LArRodBlockStructure::hasControlWords ( ) const

inlinevirtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV1, LArRodBlockCalibrationV2, LArRodBlockCalibrationV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, LArRodBlockPhysicsV6, and LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 124 of file LArRodBlockStructure.h.

124{return 0;} ;

◆ hasPhysicsBlock()

virtual uint32_t LArRodBlockPhysicsV1::hasPhysicsBlock ( ) const

inlinevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 107 of file LArRodBlockPhysicsV1.h.

107{return getHeader16(LowEBlkOffset);} ;

◆ hasRawDataBlock()

virtual uint32_t LArRodBlockPhysicsV1::hasRawDataBlock ( ) const

inlinevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 108 of file LArRodBlockPhysicsV1.h.

108{return getHeader16(RawDataBlkOffset);} ;

◆ initializeFEB()

void LArRodBlockPhysicsV1::initializeFEB ( const uint32_t id )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 255 of file LArRodBlockPhysicsV1.cxx.

{
  m_vFragment=&(m_mFebBlocks[id]);
  if (m_vFragment->size()<m_iHeadBlockSize) //Got empty or spoiled fragment
  {
    m_vFragment->resize(m_iHeadBlockSize,0); //Initialize FEB-Header
    setHeader32(FEBID,id);                //Set Feb ID
  }
 
  m_LowEnergyBlock.assign(m_NFlaggingWords,0);
  m_RawDataBlock.assign(m_NFlaggingWords,0);
  resetPointers();
}

◆ initializeFragment()

void LArRodBlockPhysicsV1::initializeFragment ( std::vector< uint32_t > & fragment )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 228 of file LArRodBlockPhysicsV1.cxx.

{
  m_pRODblock=&fragment; //remember pointer to fragment
  if (fragment.size()>m_iHeadBlockSize) {  //Got filled fragment
    unsigned int sizeRead=0;
    //Store existing data in the FEB-Map
    while (sizeRead<fragment.size()) {
      std::vector<uint32_t>::iterator FebIter;
      FebIter=fragment.begin()+sizeRead;     //Store pointer to current Feb-Header
      m_FebBlock=&(*FebIter); //Set m_FebBlock in order to use getHeader-functions.
      uint32_t currFEBid=getHeader32(FEBID); //Get this FEB-ID
      uint16_t currFebSize=getNumberOfWords(); //Size of this FEB-Block
      if (FebIter+currFebSize>fragment.end()) {
    fragment.clear(); //Clear existing vector
    m_logstr << MSG::ERROR  << "Got inconsistent ROD-Fragment!" << endmsg; 
    return;
      }
      m_mFebBlocks[currFEBid].assign(FebIter,FebIter+currFebSize); //Copy data from ROD-fragment into FEB-Block
      sizeRead+=currFebSize+m_MiddleHeaderSize;//6 is the middle header size
      LARBSDBG("Found FEB-id " << currFEBid << " in existing ROD-Fragment");
    } // end while
  }
  fragment.clear(); //Clear existing vector
  return;
}

◆ LE_getHeader16()

uint16_t LArRodBlockStructure::LE_getHeader16 ( const unsigned n ) const

inlineprotectedinherited

Definition at line 394 of file LArRodBlockStructure.h.

{
  return (reinterpret_cast<const uint16_t*>(m_FebBlock))[n];
}

◆ LE_getVectorHeader16()

uint16_t LArRodBlockStructure::LE_getVectorHeader16 ( const unsigned n ) const

inlineprotectedinherited

Definition at line 399 of file LArRodBlockStructure.h.

{
  const uint32_t* data32 = std::as_const(*m_vFragment).data();
  const uint16_t* data16 = reinterpret_cast<const uint16_t*> (data32);
  return data16[n];
}

◆ LE_setHeader16()

void LArRodBlockStructure::LE_setHeader16	(	const unsigned	n,
		const uint16_t	w )

inlineprotectedinherited

Definition at line 406 of file LArRodBlockStructure.h.

{
#ifdef LARBYTESTREAMRODBLOCK_CHCKBOUNDARIES
  if ((unsigned)n>=m_vFragment->size()*2) {
    m_logstr << MSG::ERROR << "LArRodBlockStructure::LE_setHeader16 Error: WRITE BEYOND ARRAY BOUNDARY!" << endmsg;
    std::abort();
  }
#endif
  reinterpret_cast<uint16_t*>(m_vFragment->data())[n] = w;
}

◆ nextFEB()

bool LArRodBlockStructure::nextFEB ( )

inlineinherited

Definition at line 480 of file LArRodBlockStructure.h.

{
  resetPointers();
 
  const int32_t FebOffset = m_FebBlockSize+m_MiddleHeaderSize;
  const int32_t LeftSize  = m_RodBlockSize-FebOffset+m_RodBlock-m_FebBlock;
  if ( LeftSize<=0 ) return false; //No next feb
 
  m_FebBlock += FebOffset; //Jump to the next FEB fragment
  const int32_t BlockSize = getNumberOfWords();
  if (BlockSize>LeftSize) {
      m_logstr << MSG::ERROR << "Error while decoding LArByteStream: Found FEB block of size " << BlockSize << " in a ROD block of size " << LeftSize << endmsg;
      m_error_next_feb = true;
      return false;
    }
  
  m_FebBlockSize=BlockSize;
 
  setPointers();
  return true;
}

◆ offlineCheckSum()

uint32_t LArRodBlockStructure::offlineCheckSum ( ) const

virtualinherited

Reimplemented in LArRodBlockPhysicsV4.

Definition at line 147 of file LArRodBlockStructure.cxx.

{
  int end      = getNumberOfWords()-3;
  int start    = 1;
  uint32_t sum = 0;
  if(end>m_FebBlockSize) end = m_FebBlockSize;
  for(int i=start;i<end;i++) {
    sum += m_FebBlock[i];
  }
  return sum & 0x7fffffff;
}

◆ OfflineToRawGain()

uint32_t LArRodBlockStructure::OfflineToRawGain ( const uint32_t gain ) const

inlineinherited

Definition at line 342 of file LArRodBlockStructure.h.

343{return m_OfflineToRawGainMap[gain];} //For efficency, don't check range

LArRodBlockStructure::m_OfflineToRawGainMap

static const uint32_t m_OfflineToRawGainMap[3]

Definition LArRodBlockStructure.h:17

◆ onlineCheckSum()

uint32_t LArRodBlockStructure::onlineCheckSum ( ) const

virtualinherited

Reimplemented in LArRodBlockPhysicsV4.

Definition at line 139 of file LArRodBlockStructure.cxx.

{
  int offset   = getNumberOfWords()-1;
  if(offset>=m_FebBlockSize) return 0;
  if(offset<0)               return 0;
  return m_FebBlock[offset];
}

◆ operator()()

template<class RAWDATA>

bool LArRodBlockPhysicsV1::operator()	(	const RAWDATA *	ch1,
		const RAWDATA *	ch2 ) const

Definition at line 397 of file LArRodBlockPhysicsV1.cxx.

{
  HWIdentifier id1 = ch1->channelID(); 
  HWIdentifier id2 = ch2->channelID(); 
  
  HWIdentifier febId1= m_onlineHelper->feb_Id(id1); 
  HWIdentifier febId2= m_onlineHelper->feb_Id(id2); 
 
  if(febId1 == febId2 ){
    int cId1 =  m_onlineHelper->channel(id1); 
    int cId2 =  m_onlineHelper->channel(id2);
    return FebToRodChannel(cId1) < FebToRodChannel(cId2);
  } 
 
  return febId1 < febId2 ; 
}

◆ RawToOfflineGain()

uint32_t LArRodBlockStructure::RawToOfflineGain ( const uint32_t gain ) const

inlineinherited

Definition at line 339 of file LArRodBlockStructure.h.

340{return m_RawToOfflineGainMap[gain];} //For efficency, don't check range

LArRodBlockStructure::m_RawToOfflineGainMap

static const uint32_t m_RawToOfflineGainMap[4]

Definition LArRodBlockStructure.h:16

◆ report_error()

bool LArRodBlockStructure::report_error ( void ) const

inlineinherited

Definition at line 173 of file LArRodBlockStructure.h.

173{ return m_error_next_feb;}

◆ resetPointers()

void LArRodBlockPhysicsV1::resetPointers ( )

inlineprivatevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 75 of file LArRodBlockPhysicsV1.cxx.

{
  m_ECounter=0;
  m_RawDataCounter=0;
  m_LowEIndex=0;
  m_RawDataIndex=0;
  m_HighEIndex=0;
  m_EIndex=0;
}

◆ setBit()

void LArRodBlockStructure::setBit	(	uint32_t *const	p,
		const unsigned	chan )

inlineprotectedinherited

Definition at line 433 of file LArRodBlockStructure.h.

{
  // chan = (0,127)   
  // int a = chan/32; 
  // int r = chan%32; 
  int a = chan>>5; 
  int r = chan&0x1f; 
  // a = (0,3), r = ( 0, 31 )
  *(p+a) |= (1<<r) ; 
  return; 
}

◆ setDAC()

void LArRodBlockStructure::setDAC ( const uint16_t DACValue )

virtualinherited

Reimplemented in LArRodBlockCalibrationV0< DSPHEADER >.

Definition at line 54 of file LArRodBlockStructure.cxx.

{
  m_logstr << MSG::ERROR << "Error: Function setDAC not implemented in this instance of LArRodBlockStructure!" << endmsg;
}

◆ setDelay()

void LArRodBlockStructure::setDelay ( const uint16_t DelayValue )

virtualinherited

Reimplemented in LArRodBlockCalibrationV0< DSPHEADER >.

Definition at line 59 of file LArRodBlockStructure.cxx.

{
  m_logstr << MSG::ERROR << "Error: Function setDelay not implemented in this instance of LArRodBlockStructure!" << endmsg;
}

◆ setEtQ()

void LArRodBlockStructure::setEtQ	(	const int	channel,
		const int32_t	energy,
		const int32_t	time,
		const int32_t	quality,
		const uint32_t	gain )

virtualinherited

Definition at line 110 of file LArRodBlockStructure.cxx.

{
  m_logstr << MSG::ERROR << "Error: Function setEtQ not implemented in this instance of LArRodBlockStructure!" << endmsg;
}

◆ setEx()

void LArRodBlockStructure::setEx ( double )

virtualinherited

Reimplemented in LArRodBlockPhysicsV3, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 180 of file LArRodBlockStructure.cxx.

{
  // Do not set anything
}

◆ setEy()

void LArRodBlockStructure::setEy ( double )

virtualinherited

Reimplemented in LArRodBlockPhysicsV3, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 185 of file LArRodBlockStructure.cxx.

{
  // Do not set anything
}

◆ setEz()

void LArRodBlockStructure::setEz ( double )

virtualinherited

Reimplemented in LArRodBlockPhysicsV3, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 190 of file LArRodBlockStructure.cxx.

{
  // Do not set anything
}

◆ setFirstSample()

void LArRodBlockStructure::setFirstSample ( const int rearrangeFirstSample )

inlineinherited

Definition at line 166 of file LArRodBlockStructure.h.

167 {m_rearrangeFirstSample=rearrangeFirstSample;}

LArRodBlockStructure::m_rearrangeFirstSample

unsigned int m_rearrangeFirstSample

Definition LArRodBlockStructure.h:235

◆ setFragment()

bool LArRodBlockStructure::setFragment	(	const uint32_t *	p,
		uint32_t	n )

inlineinherited

Definition at line 248 of file LArRodBlockStructure.h.

{
  resetPointers();
  m_FebBlock         = p;
  m_RodBlock         = m_FebBlock;
  m_RodBlockSize     = n;
  uint32_t BlockSize = 0;
 
  if (n==0) {
    m_logstr << MSG::ERROR << "Error while decoding LArByteStream: Got Rod block size 0" << endmsg;
    return false;
  }
 
  BlockSize = getNumberOfWords();
  if (BlockSize>n) {
    m_logstr << MSG::ERROR << "Error while decoding LArByteStream: Found FEB block of size " << BlockSize << " in a ROD block of size " << n << endmsg;
    return false;
  }
  m_FebBlockSize = BlockSize;
  
  m_error_next_feb = false;
 
  return setPointers();
}

◆ setFragmentVirtualROB()

int LArRodBlockStructure::setFragmentVirtualROB	(	const uint32_t *	p,
		uint32_t	n )

inlinevirtualinherited

Definition at line 275 of file LArRodBlockStructure.h.

{
  m_ROB_to_decode=0;
  m_virtualROBPointer=0;
  m_virtualROBPointerLocal=0;
  m_virtualROBJump=0;
  if ( n<2 ) { m_logstr << MSG::ERROR << "Error" << endmsg; return 0;}
  m_virtualROBJump = ((*p)>>16)>>1; // Divide by two (two FEBs-1ROB)
  m_ROB_to_decode = ( (*p) & 0xFFFF )<<1; // Multiply by two
  if ( (n - m_virtualROBJump*m_ROB_to_decode-1) ){
    m_logstr << MSG::ERROR << "Error AGAIN" << endmsg;
    return 0;
  }
  m_virtualROBPointer = (uint32_t*)(p+1);
  return m_ROB_to_decode;
}

◆ setGain()

int LArRodBlockStructure::setGain ( const int GainValue )

virtualinherited

Reimplemented in LArRodBlockAccumulatedV3, LArRodBlockCalibrationV3, LArRodBlockPhysicsV2, LArRodBlockPhysicsV3, LArRodBlockPhysicsV4, LArRodBlockPhysicsV5, LArRodBlockPhysicsV6, and LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 200 of file LArRodBlockStructure.cxx.

{
  return 1;
}

◆ setHeader16()

void LArRodBlockStructure::setHeader16	(	const unsigned	n,
		const uint16_t	w )

inlineprotectedinherited

Definition at line 369 of file LArRodBlockStructure.h.

{
#ifdef LARBYTESTREAMRODBLOCK_CHCKBOUNDARIES
  if ((unsigned)n>=m_vFragment->size()*2) {
    m_logstr << MSG::ERROR << "Error WRITE BEYOND ARRAY BOUNDARY!" << endmsg;
    std::abort();
  }
#endif
  if (n&0x1) // n is an odd number
    m_vFragment->at(n>>1)=((m_vFragment->at(n>>1) & 0xffff0000) | w);   
  else
    m_vFragment->at(n>>1)=((m_vFragment->at(n>>1) & 0xffff) | (w << 16)); 
}

◆ setHeader32()

void LArRodBlockStructure::setHeader32	(	const unsigned	n,
		const uint32_t	w )

inlineprotectedinherited

Definition at line 383 of file LArRodBlockStructure.h.

{ 
#ifdef LARBYTESTREAMRODBLOCK_CHCKBOUNDARIES
  if ((unsigned)n>=m_vFragment->size()*2) {
    m_logstr << MSG::ERROR << "Error WRITE BEYOND ARRAY BOUNDARY!" << endmsg
    std::abort();
  }
#endif
  m_vFragment->at(n>>1) = w;
}

◆ setNextEnergy() [1/2]

void LArRodBlockPhysicsV1::setNextEnergy	(	const int	channel,
		const int32_t	energy,
		const int32_t	time,
		const int32_t	quality,
		const uint32_t	gain )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 129 of file LArRodBlockPhysicsV1.cxx.

                                                                                     {
  int rcNb=FebToRodChannel(channel);
  //rcNb ist supposed to equal or bigger than m_EIndex.
  //In the latter case, we fill up the missing  channels with zero
  if (rcNb<m_EIndex) {
    m_logstr << MSG::ERROR  << "LArRODBlockStructure Error: Internal error. Channels not ordered correctly. rcNb=" << rcNb
         << " m_EIndex=" << m_EIndex << endmsg;
    return;
  }
  //Fill up missing channels with zeros:
  while (m_EIndex<rcNb)
    setNextEnergy(0,0,-1,0);
  //Add data...
  setNextEnergy(energy,time,quality,gain);
}

◆ setNextEnergy() [2/2]

void LArRodBlockPhysicsV1::setNextEnergy	(	const int32_t	energy,
		const int32_t	time,
		const int32_t	quality,
		const uint32_t	gain )

private

Definition at line 146 of file LArRodBlockPhysicsV1.cxx.

{
  if (m_EIndex>=m_channelsPerFEB)        //Use m_EIndex to count total number of channels
  {
    m_logstr << MSG::ERROR  << "LArRodBlockStructure Error: Attempt to write Energy for channel "
             << m_EIndex << " channels into a FEB!" <<endmsg;
    return;
  }
  LARBSDBG("LArRodBlockStructure: Setting Energy for channel " << m_EIndex << ". E=" << energy);
  if (quality<0 && energy<0x7FFE && gain==0) {     //Write into Low Energy block
    m_LowEIndex++;                       //Use m_LowEIndex to count the channels in the Low Energy block
    ShortLong twoValues{};
    twoValues.s[0]=0;
    twoValues.s[1]=0;
    if (m_LowEIndex%2==1) {            //This is an odd number, simply add data at the bottom of the block
      twoValues.s[0]=(int16_t)energy;
    }
    else {                                //Even number: Merging with previous block
      uint32_t oneValue=m_LowEnergyBlock[m_LowEnergyBlock.size()-1]; //Take last element of vector
      m_LowEnergyBlock.pop_back();
      int16_t* valptr=reinterpret_cast<int16_t*>(&oneValue);
      twoValues.s[0]=valptr[0];
      twoValues.s[1]=(int16_t)energy;
    }
    LARBSDBG("Writing words: val0= " << twoValues.s[0] << " val1= " << twoValues.s[1]);
    m_LowEnergyBlock.push_back(twoValues.l);
    LARBSDBG("Writing Raw data to Low E block. E=" << energy);
  }
  else                                          //Write into High Energy block
  {
    setBit(&m_LowEnergyBlock[0],m_EIndex);
    m_HighEnergyBlock.push_back(energy);
    uint32_t t_sign;
    uint32_t abs_time;
    if (time<0)
      t_sign=1;
    else
      t_sign=0;
    abs_time=abs(time);
    if (abs_time>0x1fff)
      abs_time=0x1fff;
    uint32_t gtQ = (gain << 30) | (t_sign<<29) | ((abs_time & 0x1fff)<<16) | (0xffff & quality);
    m_HighEnergyBlock.push_back(gtQ); 
    LARBSDBG("Writing Raw data to High E block. E=" << energy << " Q=" << quality);
  }
  m_EIndex++;
}

◆ setNTrigger()

void LArRodBlockStructure::setNTrigger ( const uint16_t NTrigger )

virtualinherited

Definition at line 69 of file LArRodBlockStructure.cxx.

{
  m_logstr << MSG::ERROR << "Error: Function setNTrigger not implemented in this instance of LArRodBlockStructure!" << endmsg;
}

◆ setNumberOfGains()

void LArRodBlockPhysicsV1::setNumberOfGains ( const uint8_t n )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 122 of file LArRodBlockPhysicsV1.cxx.

{
  uint16_t oldword=getVectorHeader16(NGainNSamples);
  setHeader16(NGainNSamples,(oldword & 0x00FF) | (n<<8)); 
}

◆ setNumberOfSamples()

void LArRodBlockPhysicsV1::setNumberOfSamples ( const uint8_t n )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 116 of file LArRodBlockPhysicsV1.cxx.

{
  uint16_t oldword=getVectorHeader16(NGainNSamples);
  setHeader16(NGainNSamples,(oldword & 0xFF00) | n); 
}

◆ setPointers()

bool LArRodBlockPhysicsV1::setPointers ( )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 86 of file LArRodBlockPhysicsV1.cxx.

{
  //Set pointers to data blocks (pesuming, they exist)
  if (m_FebBlockSize>m_iHeadBlockSize)
  {
    if (getHeader16(LowEBlkOffset))
    {
      m_FlagPtr=m_FebBlock+getHeader16(LowEBlkOffset);
      m_LowEPtr=reinterpret_cast<const int16_t*>(m_FlagPtr+m_NFlaggingWords);
    }
    else 
    {
      //Bugfix, 9.8.2004, WL: Set pointer to dummy map to read FEB with only high energy block
      m_FlagPtr=m_DummyBitMap;
      m_LowEPtr=reinterpret_cast<const int16_t*>(m_FlagPtr);
    }
    if (getHeader16(HighEBlkOffset))
      m_HighEPtr=(const int32_t*)m_FebBlock+getHeader16(HighEBlkOffset);
    else
      m_HighEPtr=NULL;
  }
  else
   {
     m_FlagPtr=NULL;
     m_LowEPtr=NULL;
     m_HighEPtr=NULL;
   }
  return true;
}

◆ setPulsed()

void LArRodBlockStructure::setPulsed ( const unsigned channelNumber )

virtualinherited

Reimplemented in LArRodBlockCalibrationV0< DSPHEADER >.

Definition at line 64 of file LArRodBlockStructure.cxx.

{
  m_logstr << MSG::ERROR << "Error: Function setPulsed not implemented in this instance of LArRodBlockStructure!" << endmsg;
}

◆ setRawData()

void LArRodBlockPhysicsV1::setRawData	(	const int	channel,
		const std::vector< short > &	samples,
		const uint32_t	gain )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 195 of file LArRodBlockPhysicsV1.cxx.

                                                                                                             {
  //Convert Feb to Rod Channel Number:
  int rcNb=FebToRodChannel(channel);
  if (rcNb>=m_channelsPerFEB)
  {
    m_logstr << MSG::ERROR << "Attempt to write Energy for channel " << rcNb << " channels into a FEB!" << endmsg;
    return;
  }
  unsigned int nsamples = getVectorHeader16(NGainNSamples) & 0x00FF;
  if(samples.size() != nsamples) {
    m_logstr << MSG::ERROR << "Number of samples mismatch!\n";
    m_logstr << "  nsamples       =" << nsamples;
    m_logstr << "  samples.size() =" << samples.size() << endmsg;
    std::abort();
  }
 
  setBit(&m_RawDataBlock[0],rcNb);
  //Samples have 12 bit and are shifted to the left by 2 bits.
  // odd samples in high bits, even samples in low bits
  if((nsamples/2)*2!=nsamples) { //odd number of samples - gain is alone
    m_RawDataBlock.push_back((gain<<30) | samples[0]<<2);
    for (unsigned int i=1;i<nsamples;i+=2)
      m_RawDataBlock.push_back((samples[i+1]<<18) | samples[i]<<2);
  }
  else { //even number of samples - gain is packed with sample 0
    m_RawDataBlock.push_back((gain<<30) | (samples[1]<<18) | samples[0]<<2);
    for (unsigned int i=2;i<nsamples;i+=2)
      m_RawDataBlock.push_back((samples[i+1]<<18) | samples[i]<<2);
  }
}

◆ setRawDataFixed()

void LArRodBlockStructure::setRawDataFixed	(	const int	channel,
		const std::vector< short > &	samples,
		const uint32_t	gain )

virtualinherited

Reimplemented in LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 115 of file LArRodBlockStructure.cxx.

{
  m_logstr << MSG::ERROR << "Error: Function setRawDataFixed not implemented in this instance of LArRodBlockStructure!" << endmsg;
}

◆ setSumE()

void LArRodBlockStructure::setSumE ( double )

virtualinherited

Reimplemented in LArRodBlockPhysicsV6.

Definition at line 195 of file LArRodBlockStructure.cxx.

{
  // Do not set anything
}

◆ setTDCPhase()

void LArRodBlockStructure::setTDCPhase ( const uint8_t n )

virtualinherited

Reimplemented in LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 130 of file LArRodBlockStructure.cxx.

{
  m_logstr << MSG::ERROR << "Error: Function setTDCPhase not implemented in this instance of LArRodBlockStructure!" << endmsg;
}

◆ sortDataVector() [1/5]

void LArRodBlockStructure::sortDataVector ( std::vector< const LArAccumulatedCalibDigit * > & )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 90 of file LArRodBlockStructure.cxx.

216{}

◆ sortDataVector() [2/5]

void LArRodBlockStructure::sortDataVector ( std::vector< const LArAccumulatedDigit * > & )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 91 of file LArRodBlockStructure.cxx.

219{}

◆ sortDataVector() [3/5]

void LArRodBlockStructure::sortDataVector ( std::vector< const LArCalibDigit * > & )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 89 of file LArRodBlockStructure.cxx.

213{}

◆ sortDataVector() [4/5]

void LArRodBlockPhysicsV1::sortDataVector ( std::vector< const LArDigit * > & vDigit )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 421 of file LArRodBlockPhysicsV1.cxx.

{
  std::sort(vDigit.begin(),vDigit.end(),*this);
}

◆ sortDataVector() [5/5]

void LArRodBlockPhysicsV1::sortDataVector ( std::vector< const LArRawChannel * > & vRC )

virtual

Reimplemented from LArRodBlockStructure.

Definition at line 416 of file LArRodBlockPhysicsV1.cxx.

{
  std::sort(vRC.begin(),vRC.end(),*this);
}

Member Data Documentation

◆ m_channelsPerFEB

int LArRodBlockStructure::m_channelsPerFEB

protectedinherited

Definition at line 219 of file LArRodBlockStructure.h.

◆ m_DummyBitMap

const uint32_t LArRodBlockPhysicsV1::m_DummyBitMap ={0,0,0,0}

staticprivate

Definition at line 34 of file LArRodBlockPhysicsV1.h.

◆ m_ECounter

int LArRodBlockPhysicsV1::m_ECounter = 0

private

Definition at line 118 of file LArRodBlockPhysicsV1.h.

◆ m_EIndex

int LArRodBlockPhysicsV1::m_EIndex = 0

private

Definition at line 123 of file LArRodBlockPhysicsV1.h.

◆ m_error_next_feb

bool LArRodBlockStructure::m_error_next_feb

protectedinherited

Definition at line 237 of file LArRodBlockStructure.h.

◆ m_Ex

int32_t LArRodBlockStructure::m_Ex

protectedinherited

Definition at line 203 of file LArRodBlockStructure.h.

◆ m_Ey

int32_t LArRodBlockStructure::m_Ey

protectedinherited

Definition at line 204 of file LArRodBlockStructure.h.

◆ m_Ez

int32_t LArRodBlockStructure::m_Ez

protectedinherited

Definition at line 205 of file LArRodBlockStructure.h.

◆ m_FebBlock

const uint32_t* LArRodBlockStructure::m_FebBlock

protectedinherited

Definition at line 221 of file LArRodBlockStructure.h.

◆ m_FebBlockSize

int32_t LArRodBlockStructure::m_FebBlockSize

protectedinherited

Definition at line 223 of file LArRodBlockStructure.h.

◆ m_FlagPtr

const uint32_t* LArRodBlockPhysicsV1::m_FlagPtr

private

Definition at line 125 of file LArRodBlockPhysicsV1.h.

◆ m_HighEIndex

int LArRodBlockPhysicsV1::m_HighEIndex = 0

private

Definition at line 122 of file LArRodBlockPhysicsV1.h.

◆ m_HighEnergyBlock

std::vector<uint32_t> LArRodBlockPhysicsV1::m_HighEnergyBlock

private

Definition at line 115 of file LArRodBlockPhysicsV1.h.

◆ m_HighEPtr

const int32_t* LArRodBlockPhysicsV1::m_HighEPtr

private

Definition at line 124 of file LArRodBlockPhysicsV1.h.

◆ m_iHeadBlockSize

unsigned short LArRodBlockStructure::m_iHeadBlockSize

protectedinherited

Definition at line 217 of file LArRodBlockStructure.h.

◆ m_logstr

MsgStream LArRodBlockStructure::m_logstr

protectedinherited

Definition at line 244 of file LArRodBlockStructure.h.

◆ m_LowEIndex

int LArRodBlockPhysicsV1::m_LowEIndex = 0

private

Definition at line 120 of file LArRodBlockPhysicsV1.h.

◆ m_LowEnergyBlock

std::vector<uint32_t> LArRodBlockPhysicsV1::m_LowEnergyBlock

private

Definition at line 114 of file LArRodBlockPhysicsV1.h.

◆ m_LowEPtr

const int16_t* LArRodBlockPhysicsV1::m_LowEPtr

private

Definition at line 126 of file LArRodBlockPhysicsV1.h.

◆ m_mFebBlocks

FEBMAPTYPE LArRodBlockStructure::m_mFebBlocks

protectedinherited

Definition at line 228 of file LArRodBlockStructure.h.

◆ m_MiddleHeaderSize

int32_t LArRodBlockStructure::m_MiddleHeaderSize

protectedinherited

Definition at line 233 of file LArRodBlockStructure.h.

◆ m_NFlaggingWords

unsigned short LArRodBlockPhysicsV1::m_NFlaggingWords

private

Definition at line 128 of file LArRodBlockPhysicsV1.h.

◆ m_numberOfEx

uint32_t LArRodBlockStructure::m_numberOfEx

protectedinherited

Definition at line 210 of file LArRodBlockStructure.h.

◆ m_numberOfEy

uint32_t LArRodBlockStructure::m_numberOfEy

protectedinherited

Definition at line 211 of file LArRodBlockStructure.h.

◆ m_numberOfEz

uint32_t LArRodBlockStructure::m_numberOfEz

protectedinherited

Definition at line 212 of file LArRodBlockStructure.h.

◆ m_numberOfSumE

uint32_t LArRodBlockStructure::m_numberOfSumE

protectedinherited

Definition at line 213 of file LArRodBlockStructure.h.

◆ m_OfflineToRawGainMap

const uint32_t LArRodBlockStructure::m_OfflineToRawGainMap ={3,2,1}

staticprotectedinherited

Definition at line 17 of file LArRodBlockStructure.h.

◆ m_onlineHelper

const LArOnlineID* LArRodBlockPhysicsV1::m_onlineHelper

private

Definition at line 130 of file LArRodBlockPhysicsV1.h.

◆ m_pRODblock

std::vector<uint32_t>* LArRodBlockStructure::m_pRODblock

protectedinherited

Definition at line 226 of file LArRodBlockStructure.h.

◆ m_RawDataBlock

std::vector<uint32_t> LArRodBlockPhysicsV1::m_RawDataBlock

private

Definition at line 116 of file LArRodBlockPhysicsV1.h.

◆ m_RawDataCounter

int LArRodBlockPhysicsV1::m_RawDataCounter = 0

private

Definition at line 119 of file LArRodBlockPhysicsV1.h.

◆ m_RawDataIndex

int LArRodBlockPhysicsV1::m_RawDataIndex = 0

private

Definition at line 121 of file LArRodBlockPhysicsV1.h.

◆ m_RawToOfflineGainMap

const uint32_t LArRodBlockStructure::m_RawToOfflineGainMap ={0, 2, 1,0}

staticprotectedinherited

Definition at line 16 of file LArRodBlockStructure.h.

◆ m_rearrangeFirstSample

unsigned int LArRodBlockStructure::m_rearrangeFirstSample

protectedinherited

Definition at line 235 of file LArRodBlockStructure.h.

◆ m_ROB_to_decode

int32_t LArRodBlockStructure::m_ROB_to_decode

protectedinherited

Definition at line 240 of file LArRodBlockStructure.h.

◆ m_RodBlock

const uint32_t* LArRodBlockStructure::m_RodBlock

protectedinherited

Definition at line 222 of file LArRodBlockStructure.h.

◆ m_RodBlockSize

int32_t LArRodBlockStructure::m_RodBlockSize

protectedinherited

Definition at line 224 of file LArRodBlockStructure.h.

◆ m_SumE

int32_t LArRodBlockStructure::m_SumE

protectedinherited

Definition at line 206 of file LArRodBlockStructure.h.

◆ m_vFragment

std::vector<uint32_t>* LArRodBlockStructure::m_vFragment

protectedinherited

Definition at line 225 of file LArRodBlockStructure.h.

◆ m_virtualROBJump

uint32_t LArRodBlockStructure::m_virtualROBJump

protectedinherited

Definition at line 239 of file LArRodBlockStructure.h.

◆ m_virtualROBPointer

const uint32_t* LArRodBlockStructure::m_virtualROBPointer

protectedinherited

Definition at line 241 of file LArRodBlockStructure.h.

◆ m_virtualROBPointerLocal

const uint32_t* LArRodBlockStructure::m_virtualROBPointerLocal

protectedinherited

Definition at line 242 of file LArRodBlockStructure.h.

The documentation for this class was generated from the following files:

Public Member Functions

Static Public Member Functions

Protected Types

Protected Member Functions

Protected Attributes

Static Protected Attributes

Private Member Functions

Private Attributes

Static Private Attributes

Detailed Description

Member Typedef Documentation

◆ FEBMAPTYPE

Member Enumeration Documentation

◆ anonymous enum

◆ anonymous enum

Constructor & Destructor Documentation

◆ LArRodBlockPhysicsV1()

Member Function Documentation

◆ BlockType()

◆ canIncludeRawData()

◆ canSetCalibration()

◆ canSetEnergy()

◆ canSetNTrigger()

◆ canSetRawData()

◆ canSetRawDataFixed()

◆ clearBlocks()

◆ concatinateFEBs()

◆ dumpFragment()

◆ FebToRodChannel()

◆ finalizeFEB()

◆ getBit()

◆ getCtrl1()

◆ getCtrl2()

◆ getCtrl3()

◆ getDAC()

◆ getDelay()

◆ getDspCodeVersion()

◆ getDspEventCounter()

◆ getEx()

◆ getEy()

◆ getEz()

◆ getFEBID()

◆ getFEBSN()

◆ getHeader16()

◆ getHeader32()

◆ getNbSweetCells1()

◆ getNbSweetCells2()

◆ getNextAccumulatedCalibDigit()

◆ getNextAccumulatedDigit()

◆ getNextEnergy()

◆ getNextRawData()

◆ getNStep()

◆ getNTrigger()

◆ getNumberOfGains()

◆ getNumberOfSamples()

◆ getNumberOfWords()

◆ getPulsed()

◆ getRadd()

◆ getRawDataSize()

◆ getResults1Size()

◆ getResults2Size()

◆ getStatus()

◆ getStepIndex()

◆ getSumE()

◆ getTDCPhase()

◆ getVectorHeader16()

◆ getVectorHeader32()

◆ getVROBEx()

◆ getVROBEy()

◆ getVROBEz()

◆ getVROBFebId()

◆ getVROBSumE()

◆ hasAccumBlock()

◆ hasCalibBlock()

◆ hasControlWords()

◆ hasPhysicsBlock()

◆ hasRawDataBlock()

◆ initializeFEB()

◆ initializeFragment()

◆ LE_getHeader16()