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LArRodBlockPhysicsV0 Class Reference

#include <LArRodBlockPhysicsV0.h>

Inheritance diagram for LArRodBlockPhysicsV0:
Collaboration diagram for LArRodBlockPhysicsV0:

Public Member Functions

 LArRodBlockPhysicsV0 ()
 
std::string BlockType ()
 
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 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
 
template<class RAWDATA >
bool operator() ()(const RAWDATA *ch1
 
virtual void sortDataVector (std::vector< const LArRawChannel * > &)
 
virtual void sortDataVector (std::vector< const LArDigit * > &)
 
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 void sortDataVector (std::vector< const LArCalibDigit * > &)
 
virtual void sortDataVector (std::vector< const LArAccumulatedCalibDigit * > &)
 
virtual void sortDataVector (std::vector< const LArAccumulatedDigit * > &)
 
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
 

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
 

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

virtual bool setPointers ()
 
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 LArOnlineIDm_onlineHelper
 
MsgStream m_logstr
 

Static Private Attributes

static const uint32_t m_DummyBitMap [4] ={0xffffffff,0xffffffff,0xffffffff,0xffffffff}
 

Detailed Description

Definition at line 47 of file LArRodBlockPhysicsV0.h.

Member Typedef Documentation

◆ FEBMAPTYPE

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

Definition at line 233 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 55 of file LArRodBlockPhysicsV0.h.

55  {
56  NWTot,
57  NWTot_h,
58  FEBID,
59  FEBID_h,
60  FEB_SN,
61  FEB_SN_h,
62  LowEBlkOffset,
63  HighEBlkOffset,
64  RawDataBlkOffset,
65  NGainNSamples, //Elements below this are not used by the converter
66  Status1,
67  Status2,
68  BCID,
69  EventID,
70  RADD1,
71  RADD2, //Could have more RADD's in real data
72  endtag
73  };

◆ anonymous enum

anonymous enum
protectedinherited
Enumerator
NWTot 
NWTot_h 
FEBID 
FEBID_h 
FEBSN 
FEBSN_h 
endtag 

Definition at line 51 of file LArRodBlockStructure.h.

51  {
52  NWTot, // Number of words in DSP block
53  NWTot_h,
54  FEBID, // FEB ID
55  FEBID_h,
56  FEBSN, // FEB Serial Number
57  FEBSN_h,
58  endtag // This tag needs to be an odd number, see *) for constructor
59  };

Constructor & Destructor Documentation

◆ LArRodBlockPhysicsV0()

LArRodBlockPhysicsV0::LArRodBlockPhysicsV0 ( )

Definition at line 37 of file LArRodBlockPhysicsV0.cxx.

37  : LArRodBlockStructure(),
38 m_logstr(Athena::getMessageSvc(), BlockType())
39 {
40  // retrieve onlineHelper
41  const LArOnlineID* online_id;
42  StoreGateSvc* detStore = 0;
43  ISvcLocator* svcLoc = Gaudi::svcLocator( );
44  StatusCode sc =svcLoc->service( "DetectorStore", detStore );
45  if (sc.isFailure()) {
46  m_logstr << MSG::ERROR << "Unable to locate DetectorStore" << endmsg;
47  std::abort();
48  }
49  sc = detStore->retrieve(online_id, "LArOnlineID");
50  if (sc.isFailure()) {
51  m_logstr << MSG::FATAL << "Could not get LArOnlineID helper !" << endmsg;
52  std::abort();
53  }
54  else {
55  m_onlineHelper=online_id;
56  m_logstr << MSG::DEBUG << " Found the LArOnlineID helper. " << endmsg;
57  }
58 
59  m_iHeadBlockSize=endtag/2; // The implicit cast rounds down to the right size
60  m_NFlaggingWords=4;
61  LArRodBlockPhysicsV0::resetPointers();
62  m_vFragment=NULL;
63  m_FebBlock=NULL;
64  m_pRODblock=NULL;
65  m_FlagPtr=NULL;
66  m_HighEPtr=NULL;
67  m_LowEPtr=NULL;
68 }

Member Function Documentation

◆ BlockType()

std::string LArRodBlockPhysicsV0::BlockType ( )
inline

Definition at line 76 of file LArRodBlockPhysicsV0.h.

76 { return std::string("RodBlockPhysicsV0");}

◆ canIncludeRawData()

virtual bool LArRodBlockStructure::canIncludeRawData ( )
inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV6, and LArRodBlockPhysicsV5.

Definition at line 101 of file LArRodBlockStructure.h.

101 {return false;}

◆ canSetCalibration()

virtual bool LArRodBlockStructure::canSetCalibration ( )
inlinevirtualinherited

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

Definition at line 99 of file LArRodBlockStructure.h.

99 {return false;}

◆ canSetEnergy()

virtual bool LArRodBlockPhysicsV0::canSetEnergy ( )
inlinevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 94 of file LArRodBlockPhysicsV0.h.

94 { return true;}

◆ canSetNTrigger()

virtual bool LArRodBlockStructure::canSetNTrigger ( )
inlinevirtualinherited

Definition at line 100 of file LArRodBlockStructure.h.

100 {return false;}

◆ canSetRawData()

virtual bool LArRodBlockPhysicsV0::canSetRawData ( )
inlinevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 95 of file LArRodBlockPhysicsV0.h.

95 {return true;}

◆ canSetRawDataFixed()

virtual bool LArRodBlockStructure::canSetRawDataFixed ( )
inlinevirtualinherited

Reimplemented in LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 98 of file LArRodBlockStructure.h.

98 {return false;}

◆ clearBlocks()

void LArRodBlockPhysicsV0::clearBlocks ( )
private

Definition at line 71 of file LArRodBlockPhysicsV0.cxx.

72 { m_HighEnergyBlock.clear();
73  m_LowEnergyBlock.clear();
74  m_RawDataBlock.clear();
75 }

◆ concatinateFEBs()

void LArRodBlockPhysicsV0::concatinateFEBs ( )
virtual

Reimplemented from LArRodBlockStructure.

Definition at line 338 of file LArRodBlockPhysicsV0.cxx.

339 {
340  //std::cout << "Concatinating FEBs. Have "<< m_mFebBlocks.size() <<" febs." << std::endl;
341  FEBMAPTYPE::const_iterator feb_it_b=m_mFebBlocks.begin();
342  FEBMAPTYPE::const_iterator feb_it_e=m_mFebBlocks.end();
343  FEBMAPTYPE::const_iterator feb_it;
344  for (feb_it=feb_it_b;feb_it!=feb_it_e;++feb_it) {
345  if (feb_it!=feb_it_b) //Not first Feb
346 
347 /*
348  if (fullHeader) {//Add middle header
349  m_pRODblock->push_back(fullHeader->version().full());//Format Version number
350  m_pRODblock->push_back(fullHeader->source_id()); //Source identifer
351  m_pRODblock->push_back(fullHeader->run_no());
352  m_pRODblock->push_back(fullHeader->lvl1_id()); //Level 1 identifer
353  m_pRODblock->push_back(fullHeader->bc_id()); //Bunch Crossing identifer
354  m_pRODblock->push_back(fullHeader->lvl1_type()); //Level 1 trigger type
355  m_pRODblock->push_back(fullHeader->detev_type()); //Detector event type
356  }
357  else //No ROD-Header
358 */
359  m_pRODblock->resize( m_pRODblock->size()+m_MiddleHeaderSize);
360 
361  //Add feb data to rod data block
362  m_pRODblock->insert (m_pRODblock->end(),
363  feb_it->second.begin(), feb_it->second.end());
364  } //end for feb_it
365 
366  m_mFebBlocks.clear();
367  return;
368 }

◆ dumpFragment()

void LArRodBlockStructure::dumpFragment ( )
virtualinherited

Definition at line 175 of file LArRodBlockStructure.cxx.

176 {
177  std::cout << "ERROR: Function dumpFragment() not implemented in this instance of LArRodBlockStructure!\n";
178  return;
179 }

◆ FebToRodChannel()

int LArRodBlockPhysicsV0::FebToRodChannel ( int  ch) const
inlineprivatevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 145 of file LArRodBlockPhysicsV0.h.

147 {return (ch>>3) + ((ch&0x7)<<4);}

◆ finalizeFEB()

void LArRodBlockPhysicsV0::finalizeFEB ( )
virtual

Reimplemented from LArRodBlockStructure.

Definition at line 286 of file LArRodBlockPhysicsV0.cxx.

287 {
288 //Complete non-complete Energy block
289  while (m_EIndex<m_channelsPerFEB)
290  setNextEnergy(0,0,-1,0);//E=0,t=0,q=-1,G=0
291  // Energies
292  unsigned int n;
293  uint16_t BlockOffset;
294  //Low energy block....
295  n = m_LowEnergyBlock.size();
296  BlockOffset=LE_getVectorHeader16(LowEBlkOffset);
297  //Check if Low Energy Block exists and is not yet part of the fragment
298  LARBSDBG("Checking Low Energy Block n=" << n << "BlockOffset=" << BlockOffset);
299  if (n>m_NFlaggingWords && !BlockOffset)
300  {LE_setHeader16(LowEBlkOffset,m_vFragment->size());
301  for (unsigned i=0;i<n;i++)
302  m_vFragment->push_back(m_LowEnergyBlock[i]);
303  }
304  //High energy block...
305  n = m_HighEnergyBlock.size();
306  BlockOffset=LE_getVectorHeader16(HighEBlkOffset);
307  LARBSDBG("Checking High Energy Block n=" << n << "BlockOffset=" << BlockOffset);
308  //Check if High Energy-Block exists and is not yet part of the fragment
309  if (n && !BlockOffset)
310  {LE_setHeader16(HighEBlkOffset,m_vFragment->size());
311  for(unsigned int i=0;i<n;i++)
312  m_vFragment->push_back(m_HighEnergyBlock[i]);
313  }
314 
315  // Raw data
316  LARBSDBG("Checking Raw Data Block");
317  n = m_RawDataBlock.size();
318  BlockOffset=LE_getVectorHeader16(RawDataBlkOffset);
319  LARBSDBG("Checking Raw Data Block. n=" << n << "BlockOffset=" << BlockOffset);
320  //Check if Raw Data block exists and is not yet part of the fragment
321  if (n>m_NFlaggingWords && !BlockOffset)
322  {LE_setHeader16(RawDataBlkOffset,m_vFragment->size());
323  for(unsigned int i=0;i<n;i++)
324  m_vFragment->push_back(m_RawDataBlock[i]);
325  }
326  setHeader32(NWTot,m_vFragment->size());
327  LARBSDBG("Offsets:" << std::endl
328  << "Raw Data: " << LE_getVectorHeader16(RawDataBlkOffset) << std::endl
329  <<"Low Energy: " << LE_getVectorHeader16(LowEBlkOffset)<< std::endl
330  << "High Energy: " << LE_getVectorHeader16(HighEBlkOffset)<< std::endl
331  << "Energy-index:" << m_EIndex << std::endl
332  << "Filled channels: " << m_ECounter << std::endl);
333  clearBlocks();
334  return;
335 }

◆ getBit()

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

Definition at line 433 of file LArRodBlockStructure.h.

434 {// chan = (0,127)
435  // int a = chan/32;
436  // int r = chan%32;
437  int a = chan>>5;
438  int r = chan&0x1f;
439  // a = (0,3), r = ( 0, 31 )
440  return (*(p+a)>>r) & 0x1;
441 }

◆ getCtrl1()

uint16_t LArRodBlockStructure::getCtrl1 ( uint32_t  adc) const
virtualinherited

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

Definition at line 248 of file LArRodBlockStructure.cxx.

248 { return 0; }

◆ getCtrl2()

uint16_t LArRodBlockStructure::getCtrl2 ( uint32_t  adc) const
virtualinherited

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

Definition at line 249 of file LArRodBlockStructure.cxx.

249 { return 0; }

◆ getCtrl3()

uint16_t LArRodBlockStructure::getCtrl3 ( uint32_t  adc) const
virtualinherited

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

Definition at line 250 of file LArRodBlockStructure.cxx.

250 { return 0; }

◆ getDAC()

uint16_t LArRodBlockStructure::getDAC ( ) const
inlinevirtualinherited

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

Definition at line 468 of file LArRodBlockStructure.h.

469 {
470  std::cout << "ERROR: Function getDAC not implemented in this instance of LArRodBlockStructure!\n";
471  return 0;
472 }

◆ getDelay()

uint16_t LArRodBlockStructure::getDelay ( ) const
inlinevirtualinherited

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

Definition at line 474 of file LArRodBlockStructure.h.

475 {
476  std::cout << "ERROR: Function getDelay not implemented in this instance of LArRodBlockStructure!\n";
477  return 0;
478 }

◆ getDspCodeVersion()

uint32_t LArRodBlockStructure::getDspCodeVersion ( ) const
virtualinherited

Definition at line 258 of file LArRodBlockStructure.cxx.

259 {
260  int i=getNumberOfWords()-2;
261  return m_FebBlock[i];
262 }

◆ getDspEventCounter()

int32_t LArRodBlockStructure::getDspEventCounter ( ) const
virtualinherited

Definition at line 264 of file LArRodBlockStructure.cxx.

265 {
266  int i=getNumberOfWords()-1;
267  return m_FebBlock[i];
268 }

◆ getEx()

int32_t LArRodBlockStructure::getEx ( ) const
inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV3, LArRodBlockPhysicsV5, LArRodBlockPhysicsV6, and LArRodBlockPhysicsV4.

Definition at line 303 of file LArRodBlockStructure.h.

303  {
304  return 0;
305 }

◆ getEy()

int32_t LArRodBlockStructure::getEy ( ) const
inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV3, LArRodBlockPhysicsV5, LArRodBlockPhysicsV6, and LArRodBlockPhysicsV4.

Definition at line 307 of file LArRodBlockStructure.h.

307  {
308  return 0;
309 }

◆ getEz()

int32_t LArRodBlockStructure::getEz ( ) const
inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV3, LArRodBlockPhysicsV5, LArRodBlockPhysicsV6, and LArRodBlockPhysicsV4.

Definition at line 311 of file LArRodBlockStructure.h.

311  {
312  return 0;
313 }

◆ getFEBID()

uint32_t LArRodBlockStructure::getFEBID ( ) const
inlineinherited

Definition at line 297 of file LArRodBlockStructure.h.

298 {return getHeader32(FEBID);}

◆ getFEBSN()

uint32_t LArRodBlockStructure::getFEBSN ( ) const
inlineinherited

Definition at line 300 of file LArRodBlockStructure.h.

301 {return getHeader32(FEBSN);}

◆ getHeader16()

uint16_t LArRodBlockStructure::getHeader16 ( const unsigned  n) const
inlineprotectedinherited

Definition at line 355 of file LArRodBlockStructure.h.

356 {
357  // std::cout << "getHeader16: " << m_FebBlock << " " << m_FebBlock[5] << " "
358  // << n << " " << (n>>1) << " " << (m_FebBlock[5]&0xffff) << std::endl;
359  if (n&0x1) //n is a odd number
360  return m_FebBlock[n>>1] & 0xffff; //1,3,5... are fetched from lower bits
361  else //n is a even number
362  return m_FebBlock[n>>1] >> 16; //0,2,4... are fetched from higher bits
363 }

◆ getHeader32()

uint32_t LArRodBlockStructure::getHeader32 ( const unsigned  n) const
inlineprotectedinherited

Definition at line 365 of file LArRodBlockStructure.h.

366 {return m_FebBlock[n>>1];}

◆ getNbSweetCells1()

uint16_t LArRodBlockStructure::getNbSweetCells1 ( ) const
virtualinherited

Reimplemented in LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 255 of file LArRodBlockStructure.cxx.

255 { return 0; }

◆ getNbSweetCells2()

uint16_t LArRodBlockStructure::getNbSweetCells2 ( ) const
virtualinherited

Reimplemented in LArRodBlockPhysicsV5, and LArRodBlockPhysicsV6.

Definition at line 256 of file LArRodBlockStructure.cxx.

256 { 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 LArRodBlockCalibrationV3.

Definition at line 94 of file LArRodBlockStructure.cxx.

95 {
96  std::cout << "ERROR: Function getNextAccumulatedCalibDigit not implemented in this instance of LArRodBlockStructure!\n";
97  return 0;
98 }

◆ 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 100 of file LArRodBlockStructure.cxx.

101 {
102  std::cout << "ERROR: Function getNextAccumulatedDigit not implemented in this instance of LArRodBlockStructure!\n";
103  return 0;
104 }

◆ getNextEnergy()

int LArRodBlockPhysicsV0::getNextEnergy ( int &  channelNumber,
int32_t &  energy,
int32_t &  time,
int32_t &  quality,
uint32_t &  gain 
)
inlinevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 149 of file LArRodBlockPhysicsV0.h.

150 {
151  LARBSDBG("in LArRodBlockPhysicsV0::getEnergy.");
152  LARBSDBG("m_ECounter=" << m_ECounter << " m_RawDataIndex="<< m_EIndex);
153  LARBSDBG("m_channelsPerFEB=" << m_channelsPerFEB);
154  if (m_LowEIndex+m_HighEIndex>=m_channelsPerFEB) //Already beyond maximal number of channels
155  return 0;
156  if (!m_FlagPtr || !m_LowEPtr) //No data block present
157  return 0;
158  uint32_t gtQ;
159  int rodChannelNumber=m_LowEIndex+m_HighEIndex; //Index of Channel in ROD-Block
160  channelNumber=(rodChannelNumber>>4) + ((rodChannelNumber&0xf)<<3); //channel number of the FEB
161  if (getBit(m_FlagPtr,rodChannelNumber)) //Data in high energy block
162  {energy = m_HighEPtr[m_HighEIndex*2];
163  gtQ=m_HighEPtr[m_HighEIndex*2+1];
164  // Q in bits 0-15
165  // t in bits 16-29
166  // gain in bits 30-31
167  quality = gtQ & 0xffff;
168  gtQ = gtQ >> 16;
169  //time = gtQ & 0x3fff;
170  time = gtQ & 0x1fff;
171  if (gtQ & 0x2000)
172  time*=-1;
173  gain=(gtQ >> 14);
174  m_HighEIndex++;
175  //std::cout << "Reading Raw data form High E block. E=" << energy << " Q=" << quality << std::endl;
176  }
177  else //Data in low energy block
178  {if (!m_LowEPtr)
179  return 0; //Block does not exist;
180  energy=m_LowEPtr[m_LowEIndex];
181  gain=0; //=CaloGain::LARHIGHGAIN
182  time=0;
183  quality=-1;
184  m_LowEIndex++;
185  //std::cout << "*** Reading Raw data form Low E block. E=" << energy << std::endl;
186  }
187  /*
188  if (energy>10000000)
189  std::cout << " Read: Large E found. E=" << energy
190  << " t=" << time
191  << " Q=" << quality
192  << " G=" << gain
193  << " channel Number=" << channelNumber
194  << " LowEIndex=" << m_LowEIndex
195  << " HighEIndex="<<m_HighEIndex << std::endl;
196  else
197  std::cout << "Read energy" << std::endl;
198  */
199  return 1;
200 }

◆ getNextRawData()

int LArRodBlockPhysicsV0::getNextRawData ( int &  channelNumber,
std::vector< short > &  samples,
uint32_t &  gain 
)
virtual

Reimplemented from LArRodBlockStructure.

Definition at line 370 of file LArRodBlockPhysicsV0.cxx.

371 {
372  LARBSDBG("in LArRodBlockPhysicsV0::getNextRawData.");
373  LARBSDBG("m_RawDataCounter=" << m_RawDataCounter << " m_RawDataIndex="<< m_RawDataIndex);
374  LARBSDBG("m_channelsPerFEB=" << m_channelsPerFEB);
375  const int flags=(int) LE_getHeader16(RawDataBlkOffset);
376  if (!flags)
377  return 0; //Block not existing
378  if (m_RawDataCounter>=m_channelsPerFEB) //Already beyond maximal number of channels
379  return 0;
380 
381  LARBSDBG("Flags="<<flags);
382  while (!getBit(m_FebBlock+flags,m_RawDataCounter)) //Look for next filled channel
383  {++m_RawDataCounter;
384  LARBSDBG("RawDataCounter ist now " << m_RawDataCounter);
385  if (m_RawDataCounter>=m_channelsPerFEB) //No more channel availible
386  return 0;
387  }
388  LARBSDBG("Found filled channel at positon " << m_RawDataCounter);
389  //Found next filled channel
390  channelNumber=(m_RawDataCounter>>4) + ((m_RawDataCounter&0xf)<<3); //Convert ROD to FEB channel ordering
391  unsigned int nsamples = LE_getHeader16(NGainNSamples) & 0x00FF;
392  LARBSDBG("This run has " << nsamples << " samples");
393  int index = flags+m_NFlaggingWords+m_RawDataIndex*((int) (nsamples+1)/2);
394  LARBSDBG( "index="<<index);
395  ++m_RawDataIndex;
396  LARBSDBG("In getnextRawData(). index= " << index);
397  if((nsamples/2)*2!=nsamples) { //odd number of samples
398  const uint32_t& x = m_FebBlock[index];
399  gain = x >> 30;
400  samples.push_back((short) (x>>2 & 0xfff));
401  for(unsigned int i=1;i<=(nsamples-1)/2;i++) {
402  const uint32_t& x = m_FebBlock[index+i];
403  samples.push_back((short) (x>>2 & 0xfff));
404  samples.push_back((short) (x>>18));
405  }
406  }
407  else { //even number of samples
408  const uint32_t& x = m_FebBlock[index];
409  gain = x >> 30;
410  samples.push_back((short) (x>>2 & 0xfff));
411 
412  samples.push_back((short) ((x>>18) & 0xfff));
413 
414  for (unsigned int i=1;i<nsamples/2;i++) {
415  const uint32_t& x = m_FebBlock[index+i];
416  samples.push_back((short) (x>>2 & 0xfff));
417  samples.push_back((short) (x >> 18));
418  }
419  } //end even numer of sample
420  ++m_RawDataCounter;
421  return 1;
422 }

◆ getNStep()

uint16_t LArRodBlockStructure::getNStep ( ) const
inlinevirtualinherited

Reimplemented in LArRodBlockCalibrationV3, and LArRodBlockAccumulatedV3.

Definition at line 491 of file LArRodBlockStructure.h.

492 {
493  std::cout << "ERROR: Function getNStep not implemented in this instance of LArRodBlockStructure!\n";
494  return 0;
495 }

◆ getNTrigger()

uint16_t LArRodBlockStructure::getNTrigger ( ) const
inlinevirtualinherited

Reimplemented in LArRodBlockCalibrationV3, LArRodBlockCalibrationV2, LArRodBlockCalibrationV1, and LArRodBlockAccumulatedV3.

Definition at line 480 of file LArRodBlockStructure.h.

481 {
482  std::cout << "ERROR: Function getNTrigger not implemented in this instance of LArRodBlockStructure!\n";
483  return 0;
484 }

◆ getNumberOfGains()

uint32_t LArRodBlockStructure::getNumberOfGains ( ) const
virtualinherited

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

Definition at line 246 of file LArRodBlockStructure.cxx.

246 { return 0; }

◆ getNumberOfSamples()

uint32_t LArRodBlockStructure::getNumberOfSamples ( ) const
virtualinherited

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

Definition at line 245 of file LArRodBlockStructure.cxx.

245 { return 0; }

◆ getNumberOfWords()

uint32_t LArRodBlockStructure::getNumberOfWords ( ) const
inlineinherited

Definition at line 428 of file LArRodBlockStructure.h.

429 {
430  return getHeader32(NWTot);
431 }

◆ getPulsed()

bool LArRodBlockStructure::getPulsed ( unsigned  channelNumber) const
inlinevirtualinherited

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

Definition at line 462 of file LArRodBlockStructure.h.

463 {
464  std::cout << "ERROR: Function getPulsed not implemented in this instance of LArRodBlockStructure!\n";
465  return 0;
466 }

◆ getRadd()

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

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

Definition at line 247 of file LArRodBlockStructure.cxx.

247 { return 0; }

◆ getRawDataSize()

uint16_t LArRodBlockStructure::getRawDataSize ( ) const
virtualinherited

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

Definition at line 254 of file LArRodBlockStructure.cxx.

254 { return 0; }

◆ getResults1Size()

uint16_t LArRodBlockStructure::getResults1Size ( ) const
virtualinherited

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

Definition at line 252 of file LArRodBlockStructure.cxx.

252 { return 0; }

◆ getResults2Size()

uint16_t LArRodBlockStructure::getResults2Size ( ) const
virtualinherited

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

Definition at line 253 of file LArRodBlockStructure.cxx.

253 { return 0; }

◆ getStatus()

uint32_t LArRodBlockStructure::getStatus ( ) const
virtualinherited

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

Definition at line 251 of file LArRodBlockStructure.cxx.

251 { return 0; }

◆ getStepIndex()

uint16_t LArRodBlockStructure::getStepIndex ( ) const
inlinevirtualinherited

Reimplemented in LArRodBlockCalibrationV3, and LArRodBlockAccumulatedV3.

Definition at line 486 of file LArRodBlockStructure.h.

487 {
488  std::cout << "ERROR: Function getStepIndex not implemented in this instance of LArRodBlockStructure!\n";
489  return 0;
490 }

◆ getSumE()

int32_t LArRodBlockStructure::getSumE ( ) const
inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV6.

Definition at line 315 of file LArRodBlockStructure.h.

315  {
316  return 0;
317 }

◆ getTDCPhase()

uint8_t LArRodBlockStructure::getTDCPhase ( ) const
virtualinherited

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

Definition at line 149 of file LArRodBlockStructure.cxx.

150 {
151  std::cout << "ERROR: Function getTDCPhase not implemented in this instance of LArRodBlockStructure!\n";
152  return 0;
153 }

◆ getVectorHeader16()

uint16_t LArRodBlockStructure::getVectorHeader16 ( const unsigned  n) const
inlineprotectedinherited

Definition at line 368 of file LArRodBlockStructure.h.

369 { if (n&0x1) //n is a odd number
370  return (std::as_const(*m_vFragment).at(n>>1) & 0xffff);
371  else //n is a even number
372  return (std::as_const(*m_vFragment).at(n>>1) >> 16);
373 }

◆ getVectorHeader32()

uint32_t LArRodBlockStructure::getVectorHeader32 ( const unsigned  n) const
inlineprotectedinherited

Definition at line 375 of file LArRodBlockStructure.h.

376 {
377  return (*m_vFragment)[n>>1];
378 }

◆ getVROBEx()

int32_t LArRodBlockStructure::getVROBEx ( ) const
inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV6, and LArRodBlockPhysicsV5.

Definition at line 323 of file LArRodBlockStructure.h.

323  {
324 return 0;
325 }

◆ getVROBEy()

int32_t LArRodBlockStructure::getVROBEy ( ) const
inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV6, and LArRodBlockPhysicsV5.

Definition at line 327 of file LArRodBlockStructure.h.

327  {
328 return 0;
329 }

◆ getVROBEz()

int32_t LArRodBlockStructure::getVROBEz ( ) const
inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV6, and LArRodBlockPhysicsV5.

Definition at line 331 of file LArRodBlockStructure.h.

331  {
332 return 0;
333 }

◆ getVROBFebId()

uint32_t LArRodBlockStructure::getVROBFebId ( )
inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV6, and LArRodBlockPhysicsV5.

Definition at line 319 of file LArRodBlockStructure.h.

319  {
320 return 0;
321 }

◆ getVROBSumE()

int32_t LArRodBlockStructure::getVROBSumE ( ) const
inlinevirtualinherited

Reimplemented in LArRodBlockPhysicsV6.

Definition at line 335 of file LArRodBlockStructure.h.

335  {
336 return 0;
337 }

◆ hasAccumBlock()

virtual uint32_t LArRodBlockStructure::hasAccumBlock ( ) const
inlinevirtualinherited

Reimplemented in LArRodBlockAccumulatedV3.

Definition at line 123 of file LArRodBlockStructure.h.

123 {return 0;} ;

◆ hasCalibBlock()

virtual uint32_t LArRodBlockStructure::hasCalibBlock ( ) const
inlinevirtualinherited

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

Definition at line 122 of file LArRodBlockStructure.h.

122 {return 0;} ;

◆ hasControlWords()

virtual uint32_t LArRodBlockStructure::hasControlWords ( ) const
inlinevirtualinherited

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

Definition at line 126 of file LArRodBlockStructure.h.

126 {return 0;} ;

◆ hasPhysicsBlock()

virtual uint32_t LArRodBlockPhysicsV0::hasPhysicsBlock ( ) const
inlinevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 110 of file LArRodBlockPhysicsV0.h.

110 {return LE_getHeader16(LowEBlkOffset)+LE_getHeader16(HighEBlkOffset);} ;

◆ hasRawDataBlock()

virtual uint32_t LArRodBlockPhysicsV0::hasRawDataBlock ( ) const
inlinevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 111 of file LArRodBlockPhysicsV0.h.

111 {return LE_getHeader16(RawDataBlkOffset);} ;

◆ initializeFEB()

void LArRodBlockPhysicsV0::initializeFEB ( const uint32_t  id)
virtual

Reimplemented from LArRodBlockStructure.

Definition at line 274 of file LArRodBlockPhysicsV0.cxx.

275 { m_vFragment=&(m_mFebBlocks[id]);
276  if (m_vFragment->size()<m_iHeadBlockSize) //Got empty or spoiled fragment
277  {m_vFragment->resize(m_iHeadBlockSize,0); //Initialize FEB-Header
278  setHeader32(FEBID,id); //Set Feb ID
279  }
280 
281  m_LowEnergyBlock.assign(m_NFlaggingWords,0);
282  m_RawDataBlock.assign(m_NFlaggingWords,0);
283  resetPointers();
284 }

◆ initializeFragment()

void LArRodBlockPhysicsV0::initializeFragment ( std::vector< uint32_t > &  fragment)
virtual

Reimplemented from LArRodBlockStructure.

Definition at line 246 of file LArRodBlockPhysicsV0.cxx.

247 {
248  m_pRODblock=&fragment; //remember pointer to fragment
249  if (fragment.size()>m_iHeadBlockSize) { //Got filled fragment
250  unsigned int sizeRead=0;
251  //Store existing data in the FEB-Map
252  while (sizeRead<fragment.size()) {
253  std::vector<uint32_t>::iterator FebIter;
254  FebIter=fragment.begin()+sizeRead; //Store pointer to current Feb-Header
255  m_FebBlock=&(*FebIter); //Set m_FebBlock in order to use getHeader-functions.
256  uint32_t currFEBid=getHeader32(FEBID); //Get this FEB-ID
257  uint16_t currFebSize=getNumberOfWords(); //Size of this FEB-Block
258  //std::cout << "FebID=" << currFEBid << " FEBSize=" << currFebSize << " Vector size=" << fragment.size() << std::endl;
259  if (FebIter+currFebSize>fragment.end()) {
260  fragment.clear(); //Clear existing vector
261  m_logstr << MSG::ERROR << "Got inconsistent ROD-Fragment!" << endmsg;
262  return;
263  }
264  m_mFebBlocks[currFEBid].assign(FebIter,FebIter+currFebSize); //Copy data from ROD-fragment into FEB-Block
265  sizeRead+=currFebSize+m_MiddleHeaderSize;//6 is the middle header size
266  LARBSDBG("Found FEB-id " << currFEBid << " in existing ROD-Fragment");
267  } // end while
268  }
269  fragment.clear(); //Clear existing vector
270  return;
271 }

◆ LE_getHeader16()

uint16_t LArRodBlockStructure::LE_getHeader16 ( const unsigned  n) const
inlineprotectedinherited

Definition at line 405 of file LArRodBlockStructure.h.

406 {
407  return (reinterpret_cast<const uint16_t*>(m_FebBlock))[n];
408 }

◆ LE_getVectorHeader16()

uint16_t LArRodBlockStructure::LE_getVectorHeader16 ( const unsigned  n) const
inlineprotectedinherited

Definition at line 410 of file LArRodBlockStructure.h.

411 {
412  const uint32_t* data32 = std::as_const(*m_vFragment).data();
413  const uint16_t* data16 = reinterpret_cast<const uint16_t*> (data32);
414  return data16[n];
415 }

◆ LE_setHeader16()

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

Definition at line 417 of file LArRodBlockStructure.h.

418 {
419 #ifdef LARBYTESTREAMRODBLOCK_CHCKBOUNDARIES
420  if ((unsigned)n>=m_vFragment->size()*2) {
421  std::cout << "LArRodBlockStructure::LE_setHeader16 ERROR: WRITE BEYOND ARRAY BONDARY!" << std::endl;
422  std::abort();
423  }
424 #endif
425  ((uint16_t*)(&(m_vFragment->front())))[n] = w;
426 }

◆ nextFEB()

bool LArRodBlockStructure::nextFEB ( )
inlineinherited

Definition at line 497 of file LArRodBlockStructure.h.

498 {
499  resetPointers();
500 
501  const int32_t FebOffset = m_FebBlockSize+m_MiddleHeaderSize;
502  const int32_t LeftSize = m_RodBlockSize-FebOffset+m_RodBlock-m_FebBlock;
503  if ( LeftSize<=0 ) return false; //No next feb
504 
505  m_FebBlock += FebOffset; //Jump to the next FEB fragment
506  const int32_t BlockSize = getNumberOfWords();
507  //std::cout << "LeftSize=" << LeftSize << " BlockSize=" << BlockSize << std::endl;
508  if (BlockSize>LeftSize) {
509  std::cout << "ERROR while decoding LArByteStream: Found FEB block of size " << BlockSize << " in a ROD block of size " << LeftSize << std::endl;
510  m_error_next_feb = true;
511  return false;
512  }
513  //std::cout << "Second FEB ok, size= " << LeftSize <<std::endl;
514 
515  //m_FebBlockSize = LeftSize; //should be =BlockSize;
516  m_FebBlockSize=BlockSize;
517 
518  //std::cout << "2: FEB found with size " << m_FebBlockSize << std::endl;
519  setPointers();
520  return true;
521 }

◆ offlineCheckSum()

uint32_t LArRodBlockStructure::offlineCheckSum ( ) const
virtualinherited

Reimplemented in LArRodBlockPhysicsV4.

Definition at line 163 of file LArRodBlockStructure.cxx.

164 {
165  int end = getNumberOfWords()-3;
166  int start = 1;
167  uint32_t sum = 0;
168  if(end>m_FebBlockSize) end = m_FebBlockSize;
169  for(int i=start;i<end;i++) {
170  sum += m_FebBlock[i];
171  }
172  return sum & 0x7fffffff;
173 }

◆ OfflineToRawGain()

uint32_t LArRodBlockStructure::OfflineToRawGain ( const uint32_t  gain) const
inlineinherited

Definition at line 352 of file LArRodBlockStructure.h.

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

◆ onlineCheckSum()

uint32_t LArRodBlockStructure::onlineCheckSum ( ) const
virtualinherited

Reimplemented in LArRodBlockPhysicsV4.

Definition at line 155 of file LArRodBlockStructure.cxx.

156 {
157  int offset = getNumberOfWords()-1;
158  if(offset>=m_FebBlockSize) return 0;
159  if(offset<0) return 0;
160  return m_FebBlock[offset];
161 }

◆ operator()() [1/2]

template<class RAWDATA >
bool LArRodBlockPhysicsV0::operator() ( ) const

◆ operator()() [2/2]

template<class RAWDATA >
bool LArRodBlockPhysicsV0::operator() ( const RAWDATA *  ch1,
const RAWDATA *  ch2 
) const

◆ RawToOfflineGain()

uint32_t LArRodBlockStructure::RawToOfflineGain ( const uint32_t  gain) const
inlineinherited

Definition at line 349 of file LArRodBlockStructure.h.

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

◆ report_error()

bool LArRodBlockStructure::report_error ( void  ) const
inlineinherited

Definition at line 177 of file LArRodBlockStructure.h.

177 { return m_error_next_feb;}

◆ resetPointers()

void LArRodBlockPhysicsV0::resetPointers ( )
inlineprivatevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 77 of file LArRodBlockPhysicsV0.cxx.

78 {m_ECounter=0;
79  m_RawDataCounter=0;
80  m_LowEIndex=0;
81  m_RawDataIndex=0;
82  m_HighEIndex=0;
83  m_EIndex=0;
84 }

◆ setBit()

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

Definition at line 444 of file LArRodBlockStructure.h.

445 {
446  // chan = (0,127)
447  // int a = chan/32;
448  // int r = chan%32;
449  int a = chan>>5;
450  int r = chan&0x1f;
451  // a = (0,3), r = ( 0, 31 )
452  *(p+a) |= (1<<r) ;
453  return;
454 }

◆ setDAC()

void LArRodBlockStructure::setDAC ( const uint16_t  DACValue)
virtualinherited

Reimplemented in LArRodBlockCalibrationV0< DSPHEADER >.

Definition at line 57 of file LArRodBlockStructure.cxx.

58 {
59  std::cout << "ERROR: Function setDAC not implemented in this instance of LArRodBlockStructure!\n";
60  return;
61 }

◆ setDelay()

void LArRodBlockStructure::setDelay ( const uint16_t  DelayValue)
virtualinherited

Reimplemented in LArRodBlockCalibrationV0< DSPHEADER >.

Definition at line 63 of file LArRodBlockStructure.cxx.

64 {
65  std::cout << "ERROR: Function setDelay not implemented in this instance of LArRodBlockStructure!\n";
66  return;
67 }

◆ 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 120 of file LArRodBlockStructure.cxx.

121 {
122  std::cout << "ERROR: Function setEtQ not implemented in this instance of LArRodBlockStructure!\n";
123  return;
124 }

◆ setEx()

void LArRodBlockStructure::setEx ( double  )
virtualinherited

Reimplemented in LArRodBlockPhysicsV6, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV3.

Definition at line 200 of file LArRodBlockStructure.cxx.

201 {
202  // Do not set anything
203  return;
204 }

◆ setEy()

void LArRodBlockStructure::setEy ( double  )
virtualinherited

Reimplemented in LArRodBlockPhysicsV6, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV3.

Definition at line 206 of file LArRodBlockStructure.cxx.

207 {
208  // Do not set anything
209  return;
210 }

◆ setEz()

void LArRodBlockStructure::setEz ( double  )
virtualinherited

Reimplemented in LArRodBlockPhysicsV6, LArRodBlockPhysicsV5, and LArRodBlockPhysicsV3.

Definition at line 212 of file LArRodBlockStructure.cxx.

213 {
214  // Do not set anything
215  return;
216 }

◆ setFirstSample()

void LArRodBlockStructure::setFirstSample ( const int  rearrangeFirstSample)
inlineinherited

Definition at line 168 of file LArRodBlockStructure.h.

169  {m_rearrangeFirstSample=rearrangeFirstSample;}

◆ setFragment()

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

Definition at line 252 of file LArRodBlockStructure.h.

253 {
254  resetPointers();
255  m_FebBlock = p;
256  m_RodBlock = m_FebBlock;
257  m_RodBlockSize = n;
258  uint32_t BlockSize = 0;
259 
260  if (n==0) {
261  std::cout << "ERROR while decoding LArByteStream: Got Rod block size 0" << std::endl;
262  return false;
263  }
264 
265  BlockSize = getNumberOfWords();
266  if (BlockSize>n) {
267  std::cout << "ERROR while decoding LArByteStream: Found FEB block of size " << BlockSize << " in a ROD block of size " << n << std::endl;
268  return false;
269  }
270  m_FebBlockSize = BlockSize;
271 
272  m_error_next_feb = false;
273  //std::cout << "1: FEB found with size " << m_FebBlockSize << std::endl;
274 
275  return setPointers();
276 }

◆ setFragmentVirtualROB()

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

Definition at line 280 of file LArRodBlockStructure.h.

281  {
282  m_ROB_to_decode=0;
283  m_virtualROBPointer=0;
284  m_virtualROBPointerLocal=0;
285  m_virtualROBJump=0;
286  if ( n<2 ) { std::cout << "ERROR" << std::endl; return 0;}
287  m_virtualROBJump = ((*p)>>16)>>1; // Divide by two (two FEBs-1ROB)
288  m_ROB_to_decode = ( (*p) & 0xFFFF )<<1; // Multiply by two
289  if ( (n - m_virtualROBJump*m_ROB_to_decode-1) ){
290  std::cout << "ERROR AGAIN" << std::endl;
291  return 0;
292  }
293  m_virtualROBPointer = (uint32_t*)(p+1);
294  return m_ROB_to_decode;
295 }

◆ setGain()

int LArRodBlockStructure::setGain ( const int  GainValue)
virtualinherited

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

Definition at line 224 of file LArRodBlockStructure.cxx.

225 {
226  return 1;
227 }

◆ setHeader16()

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

Definition at line 380 of file LArRodBlockStructure.h.

381 {
382 #ifdef LARBYTESTREAMRODBLOCK_CHCKBOUNDARIES
383  if ((unsigned)n>=m_vFragment->size()*2) {
384  std::cout << "ERROR WRITE BEYOND ARRAY BONDARY!" << std::endl;
385  std::abort();
386  }
387 #endif
388  if (n&0x1) // n is a odd number
389  m_vFragment->at(n>>1)=((m_vFragment->at(n>>1) & 0xffff0000) | w);
390  else
391  m_vFragment->at(n>>1)=((m_vFragment->at(n>>1) & 0xffff) | (w << 16));
392 }

◆ setHeader32()

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

Definition at line 394 of file LArRodBlockStructure.h.

395 {
396 #ifdef LARBYTESTREAMRODBLOCK_CHCKBOUNDARIES
397  if ((unsigned)n>=m_vFragment->size()*2) {
398  std::cout << "ERROR WRITE BEYOND ARRAY BONDARY!" << std::endl;
399  std::abort();
400  }
401 #endif
402  m_vFragment->at(n>>1) = w;
403 }

◆ setNextEnergy() [1/2]

void LArRodBlockPhysicsV0::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 144 of file LArRodBlockPhysicsV0.cxx.

145  {
146  int rcNb=FebToRodChannel(channel);
147  //rcNb ist supposed to equal or bigger than m_EIndex.
148  //In the latter case, we fill up the missing channels with zero
149  if (rcNb<m_EIndex) {
150  m_logstr << MSG::ERROR << "LArRODBlockStructure ERROR: Internal error. Channels not ordered correctly. rcNb=" << rcNb
151  << " m_EIndex=" << m_EIndex << endmsg;
152  return;
153  }
154  //Fill up missing channels with zeros:
155  while (m_EIndex<rcNb)
156  setNextEnergy(0,0,-1,0);
157  //Add data...
158  setNextEnergy(energy,time,quality,gain);
159  //std::cout << "SetNextEnergy " << channel << " : " << energy << std::endl;
160  return;
161 }

◆ setNextEnergy() [2/2]

void LArRodBlockPhysicsV0::setNextEnergy ( const int32_t  energy,
const int32_t  time,
const int32_t  quality,
const uint32_t  gain 
)
private

Definition at line 163 of file LArRodBlockPhysicsV0.cxx.

164 {
165  if (m_EIndex>=m_channelsPerFEB) //Use m_EIndex to count total number of channels
166  {m_logstr << MSG::ERROR << "LArRodBlockStructure ERROR: Attempt to write Energy for channel "
167  << m_EIndex << " channels into a FEB!" <<endmsg;
168  return;
169  }
170  LARBSDBG("LArRodBlockStructure: Setting Energy for channel " << m_EIndex << ". E=" << energy);
171  if (quality<0 && energy<0x7FFE && gain==0) { //Write into Low Energy block
172  m_LowEIndex++; //Use m_LowEIndex to count the channels in the Low Energy block
173  ShortLong twoValues{};
174  twoValues.s[0]=0;
175  twoValues.s[1]=0;
176  if (m_LowEIndex%2==1) { //This is an odd number, simply add data at the bottom of the block
177  twoValues.s[0]=(int16_t)energy;
178  }
179  else { //Even number: Merging with previous block
180  uint32_t oneValue=m_LowEnergyBlock[m_LowEnergyBlock.size()-1]; //Take last element of vector
181  m_LowEnergyBlock.pop_back();
182  int16_t* valptr=reinterpret_cast<int16_t*>(&oneValue);
183  twoValues.s[0]=valptr[0];
184  twoValues.s[1]=(int16_t)energy;
185  }
186  LARBSDBG("Writing words: val0= " << twoValues.s[0] << " val1= " << twoValues.s[1]);
187  m_LowEnergyBlock.push_back(twoValues.l);
188  LARBSDBG("Writing Raw data to Low E block. E=" << energy);
189  }
190  else //Write into High Energy block
191  {setBit(&m_LowEnergyBlock[0],m_EIndex);
192  m_HighEnergyBlock.push_back(*((uint32_t*)(&energy)));
193  uint32_t t_sign;
194  uint32_t abs_time;
195  if (time<0)
196  t_sign=1;
197  else
198  t_sign=0;
199  abs_time=abs(time);
200  if (abs_time>0x1fff)
201  abs_time=0x1fff;
202  //uint32_t gtQ = (gain << 30) | ((time & 0x3fff)<<16) | (0xffff & quality);
203  uint32_t gtQ = (gain << 30) | (t_sign<<29) | ((abs_time & 0x1fff)<<16) | (0xffff & quality);
204  m_HighEnergyBlock.push_back(gtQ);
205  LARBSDBG("Writing Raw data to High E block. E=" << energy << " Q=" << quality);
206  }
207  m_EIndex++;
208  // if (energy>0)
209  //m_ECounter++;
210 }

◆ setNTrigger()

void LArRodBlockStructure::setNTrigger ( const uint16_t  NTrigger)
virtualinherited

Definition at line 75 of file LArRodBlockStructure.cxx.

76 {
77  std::cout << "ERROR: Function setNTrigger not implemented in this instance of LArRodBlockStructure!\n";
78  return;
79 }

◆ setNumberOfGains()

void LArRodBlockPhysicsV0::setNumberOfGains ( const uint8_t  n)
virtual

Reimplemented from LArRodBlockStructure.

Definition at line 138 of file LArRodBlockPhysicsV0.cxx.

139 { uint16_t oldword=LE_getVectorHeader16(NGainNSamples);
140  LE_setHeader16(NGainNSamples,(oldword & 0x00FF) | (n<<8));
141 }

◆ setNumberOfSamples()

void LArRodBlockPhysicsV0::setNumberOfSamples ( const uint8_t  n)
virtual

Reimplemented from LArRodBlockStructure.

Definition at line 133 of file LArRodBlockPhysicsV0.cxx.

134 { uint16_t oldword=LE_getVectorHeader16(NGainNSamples);
135  LE_setHeader16(NGainNSamples,(oldword & 0xFF00) | n);
136 }

◆ setPointers()

bool LArRodBlockPhysicsV0::setPointers ( )
privatevirtual

Reimplemented from LArRodBlockStructure.

Definition at line 87 of file LArRodBlockPhysicsV0.cxx.

88 {//Set pointers to data blocks (presuming, they exist)
89  if (m_FebBlockSize>m_iHeadBlockSize)
90  {if (LE_getHeader16(LowEBlkOffset))
91  {m_FlagPtr=m_FebBlock+LE_getHeader16(LowEBlkOffset);
92  m_LowEPtr=(const int16_t*)(m_FlagPtr+m_NFlaggingWords);
93  }
94  else
95  {//m_FlagPtr=NULL;
96  //m_LowEPtr=NULL;
97  //Bugfix, 9.8.2004, WL: Set pointer to dummy map to read FEB with only high energy block
98  m_FlagPtr=m_DummyBitMap;
99  m_LowEPtr=(const int16_t*)m_FlagPtr;
100  }
101  if (LE_getHeader16(HighEBlkOffset))
102  m_HighEPtr=(const int32_t*)m_FebBlock+LE_getHeader16(HighEBlkOffset);
103  else
104  m_HighEPtr=NULL;
105  }
106  else
107  {m_FlagPtr=NULL;
108  m_LowEPtr=NULL;
109  m_HighEPtr=NULL;
110  }
111 #ifdef LARBSDBGOUTPUT
112  std::cout << "Fragment offsets: (m_NFlaggingWords=" << m_NFlaggingWords << ")" << std::endl;
113  std::cout << "Raw Data: " << LE_getHeader16(RawDataBlkOffset)<< std::endl;
114  if (m_FlagPtr)
115  std::cout << "Flags: " << LE_getHeader16(LowEBlkOffset)<< std::endl;
116  else
117  std::cout << "Flags: not present" << std::endl;
118 
119  if (m_LowEPtr)
120  std::cout << "Low Energy: " << LE_getHeader16(LowEBlkOffset)+m_NFlaggingWords << std::endl;
121  else
122  std::cout << "Low Energy: not present" << std::endl;
123 
124 
125  if (m_HighEPtr)
126  std::cout << "High Energy: " << LE_getHeader16(HighEBlkOffset)<< std::endl;
127  else
128  std::cout << "High Energy: not present" << std::endl;
129 #endif
130  return true;
131 }

◆ setPulsed()

void LArRodBlockStructure::setPulsed ( const unsigned  channelNumber)
virtualinherited

Reimplemented in LArRodBlockCalibrationV0< DSPHEADER >.

Definition at line 69 of file LArRodBlockStructure.cxx.

70 {
71  std::cout << "ERROR: Function setPulsed not implemented in this instance of LArRodBlockStructure!\n";
72  return;
73 }

◆ setRawData()

void LArRodBlockPhysicsV0::setRawData ( const int  channel,
const std::vector< short > &  samples,
const uint32_t  gain 
)
virtual

Reimplemented from LArRodBlockStructure.

Definition at line 213 of file LArRodBlockPhysicsV0.cxx.

213  {
214  //Convert Feb to Rod Channel Number:
215  //int rcNb=(channel>>3) + ((channel&0x7)<<4);
216  int rcNb=FebToRodChannel(channel);
217  if (rcNb>=m_channelsPerFEB)
218  {m_logstr << MSG::ERROR << "Attempt to write Energy for channel " << rcNb << " channels into a FEB!" << endmsg;
219  return;
220  }
221  unsigned int nsamples = LE_getVectorHeader16(NGainNSamples) & 0x00FF;
222  if(samples.size() != nsamples) {
223  m_logstr << MSG::ERROR << "Number of samples mismatch!\n";
224  m_logstr << " nsamples =" << nsamples;
225  m_logstr << " samples.size() =" << samples.size() << endmsg;
226  std::abort();
227  }
228 
229  setBit(&m_RawDataBlock[0],rcNb);
230  //Samples have 12 bit and are shifted to the left by 2 bits.
231  // odd samples in high bits, even samples in low bits
232  if((nsamples/2)*2!=nsamples) { //odd number of samples - gain is alone
233  m_RawDataBlock.push_back((gain<<30) | samples[0]<<2);
234  for (unsigned int i=1;i<nsamples;i+=2)
235  m_RawDataBlock.push_back((samples[i+1]<<18) | samples[i]<<2);
236  }
237  else { //even number of samples - gain is packed with sample 0
238  m_RawDataBlock.push_back((gain<<30) | (samples[1]<<18) | samples[0]<<2);
239  for (unsigned int i=2;i<nsamples;i+=2)
240  m_RawDataBlock.push_back((samples[i+1]<<18) | samples[i]<<2);
241  }
242 }

◆ setRawDataFixed()

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

Reimplemented in LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 126 of file LArRodBlockStructure.cxx.

127 {
128  std::cout << "ERROR: Function setRawDataFixed not implemented in this instance of LArRodBlockStructure!\n";
129  return;
130 }

◆ setSumE()

void LArRodBlockStructure::setSumE ( double  )
virtualinherited

Reimplemented in LArRodBlockPhysicsV6.

Definition at line 218 of file LArRodBlockStructure.cxx.

219 {
220  // Do not set anything
221  return;
222 }

◆ setTDCPhase()

void LArRodBlockStructure::setTDCPhase ( const uint8_t  n)
virtualinherited

Reimplemented in LArRodBlockTransparentV0< DSPHEADER >.

Definition at line 144 of file LArRodBlockStructure.cxx.

145 {
146  std::cout << "ERROR: Function setTDCPhase not implemented in this instance of LArRodBlockStructure!\n";
147  return;
148 }

◆ sortDataVector() [1/10]

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

Definition at line 239 of file LArRodBlockStructure.cxx.

240 {return;}

◆ sortDataVector() [2/10]

void LArRodBlockStructure::sortDataVector

Definition at line 90 of file LArRodBlockStructure.cxx.

240 {return;}

◆ sortDataVector() [3/10]

void LArRodBlockStructure::sortDataVector

Definition at line 91 of file LArRodBlockStructure.cxx.

243 {return;}

◆ sortDataVector() [4/10]

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

Definition at line 242 of file LArRodBlockStructure.cxx.

243 {return;}

◆ sortDataVector() [5/10]

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

Definition at line 236 of file LArRodBlockStructure.cxx.

237 {return;}

◆ sortDataVector() [6/10]

void LArRodBlockStructure::sortDataVector

Definition at line 89 of file LArRodBlockStructure.cxx.

237 {return;}

◆ sortDataVector() [7/10]

void LArRodBlockStructure::sortDataVector

Definition at line 88 of file LArRodBlockStructure.cxx.

234 {return;}

◆ sortDataVector() [8/10]

virtual void LArRodBlockPhysicsV0::sortDataVector ( std::vector< const LArDigit * > &  )
virtual

Reimplemented from LArRodBlockStructure.

◆ sortDataVector() [9/10]

void LArRodBlockStructure::sortDataVector

Definition at line 87 of file LArRodBlockStructure.cxx.

231 {return;}

◆ sortDataVector() [10/10]

virtual void LArRodBlockPhysicsV0::sortDataVector ( std::vector< const LArRawChannel * > &  )
virtual

Reimplemented from LArRodBlockStructure.

Member Data Documentation

◆ m_channelsPerFEB

int LArRodBlockStructure::m_channelsPerFEB
protectedinherited

Definition at line 225 of file LArRodBlockStructure.h.

◆ m_DummyBitMap

const uint32_t LArRodBlockPhysicsV0::m_DummyBitMap ={0xffffffff,0xffffffff,0xffffffff,0xffffffff}
staticprivate

Definition at line 136 of file LArRodBlockPhysicsV0.h.

◆ m_ECounter

int LArRodBlockPhysicsV0::m_ECounter = 0
private

Definition at line 122 of file LArRodBlockPhysicsV0.h.

◆ m_EIndex

int LArRodBlockPhysicsV0::m_EIndex = 0
private

Definition at line 127 of file LArRodBlockPhysicsV0.h.

◆ m_error_next_feb

bool LArRodBlockStructure::m_error_next_feb
protectedinherited

Definition at line 243 of file LArRodBlockStructure.h.

◆ m_Ex

int32_t LArRodBlockStructure::m_Ex
protectedinherited

Definition at line 207 of file LArRodBlockStructure.h.

◆ m_Ey

int32_t LArRodBlockStructure::m_Ey
protectedinherited

Definition at line 208 of file LArRodBlockStructure.h.

◆ m_Ez

int32_t LArRodBlockStructure::m_Ez
protectedinherited

Definition at line 209 of file LArRodBlockStructure.h.

◆ m_FebBlock

const uint32_t* LArRodBlockStructure::m_FebBlock
protectedinherited

Definition at line 227 of file LArRodBlockStructure.h.

◆ m_FebBlockSize

int32_t LArRodBlockStructure::m_FebBlockSize
protectedinherited

Definition at line 229 of file LArRodBlockStructure.h.

◆ m_FlagPtr

const uint32_t* LArRodBlockPhysicsV0::m_FlagPtr
private

Definition at line 129 of file LArRodBlockPhysicsV0.h.

◆ m_HighEIndex

int LArRodBlockPhysicsV0::m_HighEIndex = 0
private

Definition at line 126 of file LArRodBlockPhysicsV0.h.

◆ m_HighEnergyBlock

std::vector<uint32_t> LArRodBlockPhysicsV0::m_HighEnergyBlock
private

Definition at line 119 of file LArRodBlockPhysicsV0.h.

◆ m_HighEPtr

const int32_t* LArRodBlockPhysicsV0::m_HighEPtr
private

Definition at line 128 of file LArRodBlockPhysicsV0.h.

◆ m_iHeadBlockSize

unsigned short LArRodBlockStructure::m_iHeadBlockSize
protectedinherited

Definition at line 221 of file LArRodBlockStructure.h.

◆ m_logstr

MsgStream LArRodBlockPhysicsV0::m_logstr
private

Definition at line 142 of file LArRodBlockPhysicsV0.h.

◆ m_LowEIndex

int LArRodBlockPhysicsV0::m_LowEIndex = 0
private

Definition at line 124 of file LArRodBlockPhysicsV0.h.

◆ m_LowEnergyBlock

std::vector<uint32_t> LArRodBlockPhysicsV0::m_LowEnergyBlock
private

Definition at line 118 of file LArRodBlockPhysicsV0.h.

◆ m_LowEPtr

const int16_t* LArRodBlockPhysicsV0::m_LowEPtr
private

Definition at line 130 of file LArRodBlockPhysicsV0.h.

◆ m_mFebBlocks

FEBMAPTYPE LArRodBlockStructure::m_mFebBlocks
protectedinherited

Definition at line 234 of file LArRodBlockStructure.h.

◆ m_MiddleHeaderSize

int32_t LArRodBlockStructure::m_MiddleHeaderSize
protectedinherited

Definition at line 239 of file LArRodBlockStructure.h.

◆ m_NFlaggingWords

unsigned short LArRodBlockPhysicsV0::m_NFlaggingWords
private

Definition at line 132 of file LArRodBlockPhysicsV0.h.

◆ m_numberOfEx

uint32_t LArRodBlockStructure::m_numberOfEx
protectedinherited

Definition at line 214 of file LArRodBlockStructure.h.

◆ m_numberOfEy

uint32_t LArRodBlockStructure::m_numberOfEy
protectedinherited

Definition at line 215 of file LArRodBlockStructure.h.

◆ m_numberOfEz

uint32_t LArRodBlockStructure::m_numberOfEz
protectedinherited

Definition at line 216 of file LArRodBlockStructure.h.

◆ m_numberOfSumE

uint32_t LArRodBlockStructure::m_numberOfSumE
protectedinherited

Definition at line 217 of file LArRodBlockStructure.h.

◆ m_OfflineToRawGainMap

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

Definition at line 238 of file LArRodBlockStructure.h.

◆ m_onlineHelper

const LArOnlineID* LArRodBlockPhysicsV0::m_onlineHelper
private

Definition at line 135 of file LArRodBlockPhysicsV0.h.

◆ m_pRODblock

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

Definition at line 232 of file LArRodBlockStructure.h.

◆ m_RawDataBlock

std::vector<uint32_t> LArRodBlockPhysicsV0::m_RawDataBlock
private

Definition at line 120 of file LArRodBlockPhysicsV0.h.

◆ m_RawDataCounter

int LArRodBlockPhysicsV0::m_RawDataCounter = 0
private

Definition at line 123 of file LArRodBlockPhysicsV0.h.

◆ m_RawDataIndex

int LArRodBlockPhysicsV0::m_RawDataIndex = 0
private

Definition at line 125 of file LArRodBlockPhysicsV0.h.

◆ m_RawToOfflineGainMap

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

Definition at line 237 of file LArRodBlockStructure.h.

◆ m_rearrangeFirstSample

unsigned int LArRodBlockStructure::m_rearrangeFirstSample
protectedinherited

Definition at line 241 of file LArRodBlockStructure.h.

◆ m_ROB_to_decode

int32_t LArRodBlockStructure::m_ROB_to_decode
protectedinherited

Definition at line 246 of file LArRodBlockStructure.h.

◆ m_RodBlock

const uint32_t* LArRodBlockStructure::m_RodBlock
protectedinherited

Definition at line 228 of file LArRodBlockStructure.h.

◆ m_RodBlockSize

int32_t LArRodBlockStructure::m_RodBlockSize
protectedinherited

Definition at line 230 of file LArRodBlockStructure.h.

◆ m_SumE

int32_t LArRodBlockStructure::m_SumE
protectedinherited

Definition at line 210 of file LArRodBlockStructure.h.

◆ m_vFragment

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

Definition at line 231 of file LArRodBlockStructure.h.

◆ m_virtualROBJump

uint32_t LArRodBlockStructure::m_virtualROBJump
protectedinherited

Definition at line 245 of file LArRodBlockStructure.h.

◆ m_virtualROBPointer

const uint32_t* LArRodBlockStructure::m_virtualROBPointer
protectedinherited

Definition at line 247 of file LArRodBlockStructure.h.

◆ m_virtualROBPointerLocal

const uint32_t* LArRodBlockStructure::m_virtualROBPointerLocal
protectedinherited

Definition at line 248 of file LArRodBlockStructure.h.

The documentation for this class was generated from the following files:
xAOD::iterator
JetConstituentVector::iterator iterator
Definition: JetConstituentVector.cxx:68
beamspotman.r
def r
Definition: beamspotman.py:676
plotBeamSpotCompare.x1
x1
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Definition: LArRodBlockPhysicsV0.h:69
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