CMS 3D CMS Logo

Public Member Functions | Private Types | Private Member Functions | Private Attributes

EcalTB07DaqFormatter Class Reference

#include <EcalTB07DaqFormatter.h>

List of all members.

Public Member Functions

 EcalTB07DaqFormatter (std::string tbName, int a[68][5][5], int b[71], int c[201])
void interpretRawData (const FEDRawData &data, EBDigiCollection &digicollection, EEDigiCollection &eeDigiCollection, EcalPnDiodeDigiCollection &pndigicollection, EcalRawDataCollection &DCCheaderCollection, EBDetIdCollection &dccsizecollection, EcalElectronicsIdCollection &ttidcollection, EcalElectronicsIdCollection &blocksizecollection, EBDetIdCollection &chidcollection, EBDetIdCollection &gaincollection, EBDetIdCollection &gainswitchcollection, EcalElectronicsIdCollection &memttidcollection, EcalElectronicsIdCollection &memblocksizecollection, EcalElectronicsIdCollection &memgaincollection, EcalElectronicsIdCollection &memchidcollection, EcalTrigPrimDigiCollection &tpcollection)
virtual ~EcalTB07DaqFormatter ()

Private Types

enum  SMElectronics_t {
  kSamplesPerChannel = 10, kSamplesPerPn = 50, kChannelsPerTower = 25, kStripsPerTower = 5,
  kChannelsPerStrip = 5, kPnPerTowerBlock = 5, kTriggerTowersAndMem = 70
}
enum  SMGeom_t {
  kModules = 4, kTriggerTowers = 68, kTowersInPhi = 4, kTowersInEta = 17,
  kCrystals = 1700, kPns = 10, kCrystalsInPhi = 20, kCrystalsInEta = 85,
  kCrystalsPerTower = 25, kCardsPerTower = 5, kChannelsPerCard = 5
}

Private Member Functions

std::pair< int, int > cellIndex (int tower_id, int strip, int xtal)
int cryIc (int tower_id, int strip, int xtal)
void DecodeMEM (DCCTBTowerBlock *towerblock, EcalPnDiodeDigiCollection &pndigicollection, EcalElectronicsIdCollection &memttidcollection, EcalElectronicsIdCollection &memblocksizecollection, EcalElectronicsIdCollection &memgaincollection, EcalElectronicsIdCollection &memchidcollection)
int getEE_ix (int tower, int strip, int ch)
int getEE_iy (int tower, int strip, int ch)
bool leftTower (int tower) const
bool rightTower (int tower) const

Private Attributes

unsigned _ExpectedTowers [71]
unsigned _expTowersIndex
unsigned _numExpectedTowers
int cryIcMap_ [68][5][5]
int data_MEM [500]
int memRawSample_ [kStripsPerTower][kChannelsPerStrip][kSamplesPerChannel+1]
bool pnAllocated
bool pnIsOkInBlock [kPnPerTowerBlock]
std::string tbName_
int tbStatusToLocation_ [71]
int tbTowerIDToLocation_ [201]
DCCTBDataParsertheParser_

Detailed Description

Date:
2008/01/21 11:21:00
Revision:
1.7
Author:
N. Marinelli IASA-Athens
G. Della Ricca
G. Franzoni
A. Ghezzi

Definition at line 29 of file EcalTB07DaqFormatter.h.


Member Enumeration Documentation

Enumerator:
kSamplesPerChannel 
kSamplesPerPn 
kChannelsPerTower 
kStripsPerTower 
kChannelsPerStrip 
kPnPerTowerBlock 
kTriggerTowersAndMem 

Definition at line 83 of file EcalTB07DaqFormatter.h.

                       {
    kSamplesPerChannel = 10,  // Number of sample per channel, per event
    kSamplesPerPn          = 50,  // Number of sample per PN, per event
    kChannelsPerTower   = 25,  // Number of channels per trigger tower
    kStripsPerTower        = 5,   // Number of VFE cards per trigger tower
    kChannelsPerStrip     = 5,   // Number channels per VFE card
    kPnPerTowerBlock    = 5,    // Number Pn diodes pertaining to 1 tower block = 1/2 mem box
    kTriggerTowersAndMem  = 70    // Number of trigger towers block including mems
  };
Enumerator:
kModules 
kTriggerTowers 
kTowersInPhi 
kTowersInEta 
kCrystals 
kPns 
kCrystalsInPhi 
kCrystalsInEta 
kCrystalsPerTower 
kCardsPerTower 
kChannelsPerCard 

Definition at line 69 of file EcalTB07DaqFormatter.h.

                {
     kModules = 4,           // Number of modules per supermodule
     kTriggerTowers = 68,    // Number of trigger towers per supermodule
     kTowersInPhi = 4,       // Number of trigger towers in phi
     kTowersInEta = 17,      // Number of trigger towers in eta
     kCrystals = 1700,       // Number of crystals per supermodule
     kPns = 10,                  // Number of PN laser monitoring diodes per supermodule
     kCrystalsInPhi = 20,    // Number of crystals in phi
     kCrystalsInEta = 85,    // Number of crystals in eta
     kCrystalsPerTower = 25, // Number of crystals per trigger tower
     kCardsPerTower = 5,     // Number of VFE cards per trigger tower
     kChannelsPerCard = 5    // Number of channels per VFE card
   };

Constructor & Destructor Documentation

EcalTB07DaqFormatter::EcalTB07DaqFormatter ( std::string  tbName,
int  a[68][5][5],
int  b[71],
int  c[201] 
)

Definition at line 37 of file EcalTB07DaqFormatter.cc.

References cryIcMap_, i, j, gen::k, LogDebug, Parameters::parameters, tbName_, tbStatusToLocation_, tbTowerIDToLocation_, and theParser_.

                                                                          {

  LogDebug("EcalTB07RawToDigi") << "@SUB=EcalTB07DaqFormatter";
  std::vector<uint32_t> parameters;
  parameters.push_back(10); // parameters[0] is the xtal samples 
  parameters.push_back(1);  // parameters[1] is the number of trigger time samples for TPG's
  parameters.push_back(68); // parameters[2] is the number of TT
  parameters.push_back(68); // parameters[3] is the number of SR Flags
  parameters.push_back(1);  // parameters[4] is the dcc id
  parameters.push_back(1);  // parameters[5] is the sr id
  parameters.push_back(1);  // parameters[6] is the tcc1 id
  parameters.push_back(2);  // parameters[7] is the tcc2 id
  parameters.push_back(3);  // parameters[8] is the tcc3 id
  parameters.push_back(4);  // parameters[9] is the tcc4 id

  theParser_ = new DCCTBDataParser(parameters);

  tbName_ = tbName;

  for(int i=0; i<68; ++i) 
    for (int j=0; j<5; ++j)
      for (int k=0; k<5; ++k)
        cryIcMap_[i][j][k] = cryIcMap[i][j][k];
  
  for(int i=0; i<71; ++i)
    tbStatusToLocation_[i] = tbStatusToLocation[i];
  
  for(int i=0; i<201; ++i)
    tbTowerIDToLocation_[i] = tbTowerIDToLocation[i];


}
virtual EcalTB07DaqFormatter::~EcalTB07DaqFormatter ( ) [inline, virtual]

Definition at line 34 of file EcalTB07DaqFormatter.h.

References LogDebug.

{LogDebug("EcalTB07RawToDigi") << "@SUB=EcalTB07DaqFormatter" << "\n"; };

Member Function Documentation

std::pair< int, int > EcalTB07DaqFormatter::cellIndex ( int  tower_id,
int  strip,
int  xtal 
) [private]

Definition at line 893 of file EcalTB07DaqFormatter.cc.

References eta(), kCardsPerTower, kChannelsPerCard, kCrystalsPerTower, kTowersInPhi, phi, and rightTower().

                                                                                 {
  
  int xtal= (strip-1)*5+ch-1;
  //  std::cout << " cellIndex input xtal " << xtal << std::endl;
  std::pair<int,int> ind;
  
  int eta = (tower_id - 1)/kTowersInPhi*kCardsPerTower;
  int phi = (tower_id - 1)%kTowersInPhi*kChannelsPerCard;

  if (rightTower(tower_id))
    eta += xtal/kCardsPerTower;
  else
    eta += (kCrystalsPerTower - 1 - xtal)/kCardsPerTower;

  if ((rightTower(tower_id) && (xtal/kCardsPerTower)%2 == 1) ||
      (!rightTower(tower_id) && (xtal/kCardsPerTower)%2 == 0))

    phi += (kChannelsPerCard - 1 - xtal%kChannelsPerCard);
  else
    phi += xtal%kChannelsPerCard;


  ind.first =eta+1;  
  ind.second=phi+1; 

  //  std::cout << "  EcalTB07DaqFormatter::cell_index eta " << ind.first << " phi " << ind.second << " " << std::endl;

  return ind;

}
int EcalTB07DaqFormatter::cryIc ( int  tower_id,
int  strip,
int  xtal 
) [private]

Definition at line 949 of file EcalTB07DaqFormatter.cc.

References cryIcMap_.

Referenced by getEE_ix(), getEE_iy(), and interpretRawData().

                                                             {

  if ( strip < 1 || 5<strip || ch <1 || 5 < ch || 68<tower)
    {
      edm::LogWarning("EcalTB07RawToDigiChId") << "EcalTB07DaqFormatter::interpretRawData (cryIc) "
                                             << " wrong channel id, since out of range: "
                                             << "\t strip: "  << strip  << "\t channel: " << ch
                                             << "\t in TT: " << tower;
      return -1;
    }
  
  // YM
  return cryIcMap_[tower-1][strip-1][ch-1];
  //std::pair<int,int> cellInd= EcalTB07DaqFormatter::cellIndex(tower, strip, ch); 
  //return cellInd.second + (cellInd.first-1)*kCrystalsInPhi;
}
void EcalTB07DaqFormatter::DecodeMEM ( DCCTBTowerBlock towerblock,
EcalPnDiodeDigiCollection pndigicollection,
EcalElectronicsIdCollection memttidcollection,
EcalElectronicsIdCollection memblocksizecollection,
EcalElectronicsIdCollection memgaincollection,
EcalElectronicsIdCollection memchidcollection 
) [private]

Definition at line 676 of file EcalTB07DaqFormatter.cc.

References _ExpectedTowers, _expTowersIndex, edm::EDCollection< T >::begin(), data_MEM, edm::EDCollection< T >::end(), kChannelsPerStrip, kChannelsPerTower, kPnPerTowerBlock, kSamplesPerChannel, kSamplesPerPn, kStripsPerTower, LogDebug, memRawSample_, pnIsOkInBlock, edm::SortedCollection< T, SORT >::push_back(), edm::EDCollection< T >::push_back(), compare_using_db::sample, EcalPnDiodeDigi::setSample(), EcalPnDiodeDigi::setSize(), edm::EDCollection< T >::size(), strip(), DCCTBTowerBlock::towerID(), and DCCTBTowerBlock::xtalBlocks().

Referenced by interpretRawData().

{
  
  LogDebug("EcalTB07RawToDigi") << "@SUB=EcalTB07DaqFormatter::DecodeMEM"
                              << "in mem " << towerblock->towerID();  
  
  int  tower_id = towerblock ->towerID() ;
  int  mem_id   = tower_id-69;

  // initializing container
  for (int st_id=0; st_id< kStripsPerTower; st_id++){
    for (int ch_id=0; ch_id<kChannelsPerStrip; ch_id++){
      for (int sa=0; sa<11; sa++){      
        memRawSample_[st_id][ch_id][sa] = -1;}    } }

  
  // check that tower block id corresponds to mem boxes
  if(tower_id != 69 && tower_id != 70) 
    {
      edm::LogWarning("EcalTB07RawToDigiTowerId") << "@SUB=EcalTB07DaqFormatter:decodeMem"
                                    << "DecodeMEM: this is not a mem box tower (" << tower_id << ")";
      ++ _expTowersIndex;
      return;
    }

     
  /******************************************************************************
   // getting the raw hits from towerBlock while checking tt and ch data structure 
   ******************************************************************************/
  std::vector<DCCTBXtalBlock *> & dccXtalBlocks = towerblock->xtalBlocks();
  std::vector<DCCTBXtalBlock*>::iterator itXtal;

  // checking mem tower block fo size
  if (dccXtalBlocks.size() != kChannelsPerTower)
    {     
      LogDebug("EcalTB07RawToDigiDccBlockSize") << "@SUB=EcalTB07DaqFormatter:decodeMem"
                                  << " wrong dccBlock size, namely: "  << dccXtalBlocks.size() 
                                  << ", for mem " << _ExpectedTowers[_expTowersIndex];

      // reporting mem-tt block size problem
      // chosing channel 1 as representative as a dummy...
      EcalElectronicsId id(1, (int)_ExpectedTowers[_expTowersIndex], 1, 1);
      memblocksizecollection.push_back(id);

      ++ _expTowersIndex;
      return;  // if mem tt block size not ok - do not build any Pn digis
    }
  

  // loop on channels of the mem block
  int  cryCounter = 0;   int  strip_id  = 0;   int  xtal_id   = 0;  

  for ( itXtal = dccXtalBlocks.begin(); itXtal < dccXtalBlocks.end(); itXtal++ ) {
    strip_id                     = (*itXtal) ->getDataField("STRIP ID");
    xtal_id                      = (*itXtal) ->getDataField("XTAL ID");
    int wished_strip_id  = cryCounter/ kStripsPerTower;
    int wished_ch_id     = cryCounter% kStripsPerTower;
    
    if( (wished_strip_id+1) != ((int)strip_id) ||
        (wished_ch_id+1) != ((int)xtal_id) )
      {
        
        LogDebug("EcalTB07RawToDigiChId") << "@SUB=EcalTB07DaqFormatter:decodeMem"
                                    << " in mem " <<  towerblock->towerID()
                                    << ", expected:\t strip"
                                    << (wished_strip_id+1)  << " cry " << (wished_ch_id+1) << "\tfound: "
                                    << "  strip " <<  strip_id << "  cry " << xtal_id;
        
        // report on crystal with unexpected indices
        EcalElectronicsId id(1, (int)_ExpectedTowers[_expTowersIndex], wished_strip_id,  wished_ch_id);
        memchidcollection.push_back(id);
      }
    
    
    // Accessing the 10 time samples per Xtal:
    memRawSample_[wished_strip_id][wished_ch_id][1] = (*itXtal)->getDataField("ADC#1");
    memRawSample_[wished_strip_id][wished_ch_id][2] = (*itXtal)->getDataField("ADC#2");
    memRawSample_[wished_strip_id][wished_ch_id][3] = (*itXtal)->getDataField("ADC#3");
    memRawSample_[wished_strip_id][wished_ch_id][4] = (*itXtal)->getDataField("ADC#4");
    memRawSample_[wished_strip_id][wished_ch_id][5] = (*itXtal)->getDataField("ADC#5");
    memRawSample_[wished_strip_id][wished_ch_id][6] = (*itXtal)->getDataField("ADC#6");
    memRawSample_[wished_strip_id][wished_ch_id][7] = (*itXtal)->getDataField("ADC#7");
    memRawSample_[wished_strip_id][wished_ch_id][8] = (*itXtal)->getDataField("ADC#8");
    memRawSample_[wished_strip_id][wished_ch_id][9] = (*itXtal)->getDataField("ADC#9");
    memRawSample_[wished_strip_id][wished_ch_id][10] = (*itXtal)->getDataField("ADC#10");
      
    cryCounter++;
  }// end loop on crystals of mem dccXtalBlock
  
  // tower accepted and digi read from all 25 channels.
  // Increase counter of expected towers before unpacking in the 5 PNs
  ++ _expTowersIndex;



  /************************************************************
   // unpacking and 'cooking' the raw numbers to get PN sample
   ************************************************************/
  int tempSample=0;
  int memStoreIndex=0;
  int ipn=0;
  for (memStoreIndex=0; memStoreIndex<500; memStoreIndex++)    {
    data_MEM[memStoreIndex]= -1;   }
  
  
  for(int strip=0; strip<kStripsPerTower; strip++) {// loop on strips
    for(int channel=0; channel<kChannelsPerStrip; channel++) {// loop on channels

      if(strip%2 == 0) 
        {ipn= mem_id*5+channel;}
      else 
        {ipn=mem_id*5+4-channel;}

      for(int sample=0;sample< kSamplesPerChannel ;sample++) {
        tempSample= memRawSample_[strip][channel][sample+1];

        int new_data=0;
        if(strip%2 == 1) {
          // 1) if strip number is even, 14 bits are reversed in order
          for(int ib=0;ib<14;ib++)
            { 
              new_data <<= 1;
              new_data=new_data | (tempSample&1);
              tempSample >>= 1;
            }
        } else {
          new_data=tempSample;
        }

        // 2) flip 11th bit for AD9052 still there on MEM !
        // 3) mask with 1 1111 1111 1111
        new_data = (new_data ^ 0x800) & 0x3fff;    // (new_data  XOR 1000 0000 0000) & 11 1111 1111 1111
        // new_data = (new_data ^ 0x800) & 0x1fff;    // (new_data  XOR 1000 0000 0000) & 1 1111 1111 1111

        //(Bit 12) == 1 -> Gain 16;    (Bit 12) == 0 -> Gain 1  
        // gain in mem can be 1 or 16 encoded resp. with 0 ir 1 in the 13th bit.
        // checking and reporting if there is any sample with gain==2,3
        short sampleGain = (new_data &0x3000)/4096;
        if (  sampleGain==2 || sampleGain==3) 
          {
            EcalElectronicsId id(1, (int)_ExpectedTowers[_expTowersIndex], strip, channel);
            memgaincollection.push_back(id);
            
            edm::LogWarning("EcalTB07RawToDigiGainZero")  << "@SUB=EcalTB07DaqFormatter:decodeMem"
                                           << "in mem " <<  towerblock->towerID()
                                           << " :\t strip: "
                                           << (strip +1)  << " cry: " << (channel+1) 
                                           << " has 14th bit non zero! Gain results: "
                                           << sampleGain << ".";
            
            continue;
          }// end 'if gain is zero'

        memStoreIndex= ipn*50+strip*kSamplesPerChannel+sample;
        // storing in data_MEM also the gain bits
        data_MEM[memStoreIndex]= new_data & 0x3fff;

      }// loop on samples
    }// loop on strips
  }// loop on channels
  



  for (int pnId=0; pnId<kPnPerTowerBlock; pnId++) pnIsOkInBlock[pnId]=true;
  // if anything was wrong with mem_tt_id or mem_tt_size: you would have already exited
  // otherwise, if any problem with ch_gain or ch_id: must not produce digis for the pertaining Pn

  if (!      (memgaincollection.size()==0 && memchidcollection.size()==0)          )
    {
      for ( EcalElectronicsIdCollection::const_iterator idItr = memgaincollection.begin();
            idItr != memgaincollection.end();
            ++ idItr ) {
        int ch = (*idItr).channelId();
        ch = (ch-1)/5;
        pnIsOkInBlock [ch] = false;
      }

      for ( EcalElectronicsIdCollection::const_iterator idItr = memchidcollection.begin();
            idItr != memchidcollection.end();
            ++ idItr ) {
        int ch = (*idItr).channelId();
        ch = (ch-1)/5;
        pnIsOkInBlock [ch] = false;
      }

    }// end: if any ch_gain or ch_id problems exclude the Pn's from digi production




  // looping on PN's of current mem box
  for (int pnId = 1;  pnId <  (kPnPerTowerBlock+1); pnId++){

    // if present Pn has any of its 5 channels with problems, do not produce digi for it
    if (! pnIsOkInBlock [pnId-1] ) continue;

    // second argument is DccId which is set to 46 to match h2 data in global CMS geometry
    EcalPnDiodeDetId PnId(2, 46, pnId +  kPnPerTowerBlock*mem_id);
    EcalPnDiodeDigi thePnDigi(PnId );

    thePnDigi.setSize(kSamplesPerPn);

    for (int sample =0; sample<kSamplesPerPn; sample++)
      {
        EcalFEMSample thePnSample( data_MEM[(mem_id)*250 + (pnId-1)*kSamplesPerPn + sample ] );
        thePnDigi.setSample(sample,  thePnSample );  
      }
    pndigicollection.push_back(thePnDigi);
  }
  
  
}
int EcalTB07DaqFormatter::getEE_ix ( int  tower,
int  strip,
int  ch 
) [private]

Definition at line 924 of file EcalTB07DaqFormatter.cc.

References cryIc(), and tbName_.

Referenced by interpretRawData().

                                                              {
  // H2 -- ix is in [-90, -80], and iy is in [-5; 5]
  int ic = cryIc(tower, strip, ch);
  int ix = 0;
  if ( tbName_ == "h2" ) 
    ix = 95 - (ic-1)/20;

  if ( tbName_ == "h4" )
    ix = 35 - (ic-1)%20;

  return ix;

}
int EcalTB07DaqFormatter::getEE_iy ( int  tower,
int  strip,
int  ch 
) [private]

Definition at line 937 of file EcalTB07DaqFormatter.cc.

References cryIc(), and tbName_.

Referenced by interpretRawData().

                                                              {
  int ic = cryIc(tower, strip, ch);
  int iy = 0;
  if ( tbName_ == "h2" ) 
    iy = 46 + (ic-1)%20;

  if ( tbName_ == "h4" )
    iy = 51 + (int)((ic-1)/20);

  return iy;
}
void EcalTB07DaqFormatter::interpretRawData ( const FEDRawData data,
EBDigiCollection digicollection,
EEDigiCollection eeDigiCollection,
EcalPnDiodeDigiCollection pndigicollection,
EcalRawDataCollection DCCheaderCollection,
EBDetIdCollection dccsizecollection,
EcalElectronicsIdCollection ttidcollection,
EcalElectronicsIdCollection blocksizecollection,
EBDetIdCollection chidcollection,
EBDetIdCollection gaincollection,
EBDetIdCollection gainswitchcollection,
EcalElectronicsIdCollection memttidcollection,
EcalElectronicsIdCollection memblocksizecollection,
EcalElectronicsIdCollection memgaincollection,
EcalElectronicsIdCollection memchidcollection,
EcalTrigPrimDigiCollection tpcollection 
)

Definition at line 73 of file EcalTB07DaqFormatter.cc.

References _ExpectedTowers, _expTowersIndex, _numExpectedTowers, edm::DataFrameContainer::back(), gather_cfg::cout, cryIc(), FEDRawData::data(), DCCTBDataParser::dccEvents(), EcalDCCTBHeaderRuntypeDecoder::Decode(), DecodeMEM(), EcalBarrel, first, getEE_ix(), getEE_iy(), i, kChannelsPerCard, kChannelsPerStrip, kChannelsPerTower, kCrystals, kPns, kStripsPerTower, kTowersInPhi, kTriggerTowers, kTriggerTowersAndMem, LogDebug, MAX_TCC_SIZE, MAX_TT_SIZE, DCCTBDataParser::parseBuffer(), pnAllocated, edm::DataFrameContainer::pop_back(), edm::DataFrameContainer::push_back(), edm::SortedCollection< T, SORT >::push_back(), edm::EDCollection< T >::push_back(), edm::SortedCollection< T, SORT >::reserve(), edm::DataFrameContainer::reserve(), edm::second(), EcalDCCHeaderBlock::setBasicTriggerType(), EcalDCCHeaderBlock::setBX(), EcalDCCHeaderBlock::setErrors(), EcalDCCHeaderBlock::setFedId(), EcalDCCHeaderBlock::setFEStatus(), EcalDCCHeaderBlock::setId(), EcalDCCHeaderBlock::setLV1(), EcalDCCHeaderBlock::setOrbit(), EcalDCCHeaderBlock::setRunNumber(), EcalTriggerPrimitiveDigi::setSample(), EcalDataFrame::setSample(), EcalDCCHeaderBlock::setSelectiveReadout(), EcalTriggerPrimitiveDigi::setSize(), EcalDCCHeaderBlock::setSrpStatus(), EcalDCCHeaderBlock::setTccStatus(), EcalDCCHeaderBlock::setTestZeroSuppression(), EcalDCCHeaderBlock::setZeroSuppression(), FEDRawData::size(), AlCaHLTBitMon_QueryRunRegistry::string, strip(), tbName_, tbStatusToLocation_, tbTowerIDToLocation_, theParser_, and v.

Referenced by EcalDCCTB07UnpackingModule::produce().

  {


  const unsigned char * pData = fedData.data();
  int length = fedData.size();
  bool shit=true;
  unsigned int tower=0;
  int ch=0;
  int strip=0;

  LogDebug("EcalTB07RawToDigi") << "@SUB=EcalTB07DaqFormatter::interpretRawData"
                              << "size " << length;
 

  // mean + 3sigma estimation needed when switching to 0suppressed data
  digicollection.reserve(kCrystals);
  eeDigiCollection.reserve(kCrystals);
  pnAllocated = false;
  

  theParser_->parseBuffer( reinterpret_cast<uint32_t*>(const_cast<unsigned char*>(pData)), static_cast<uint32_t>(length), shit );
  
  std::vector< DCCTBEventBlock * > &   dccEventBlocks = theParser_->dccEvents();

  // Access each DCCTB block
  for( std::vector< DCCTBEventBlock * >::iterator itEventBlock = dccEventBlocks.begin(); 
       itEventBlock != dccEventBlocks.end(); 
       itEventBlock++){
    
    bool _displayParserMessages = false;
    if( (*itEventBlock)->eventHasErrors() && _displayParserMessages)
      {
        edm::LogWarning("EcalTB07RawToDigi") << "@SUB=EcalTB07DaqFormatter::interpretRawData"
                                      << "errors found from parser... ";
        edm::LogWarning("EcalTB07RawToDigi") << (*itEventBlock)->eventErrorString();
        edm::LogWarning("EcalTB07RawToDigi") << "@SUB=EcalTB07DaqFormatter::interpretRawData"
                                      << "... errors from parser notified";
      }

    // getting the fields of the DCC header
    EcalDCCHeaderBlock theDCCheader;

    theDCCheader.setId(46);                                                      // tb EE unpacker: forced to 46 to match EE region used at h2
    int fedId = (*itEventBlock)->getDataField("FED/DCC ID");
    theDCCheader.setFedId( fedId );                                             // fed id as found in raw data (0... 35 at tb )

    theDCCheader.setRunNumber((*itEventBlock)->getDataField("RUN NUMBER"));
    short trigger_type = (*itEventBlock)->getDataField("TRIGGER TYPE");
    short zs  = (*itEventBlock)->getDataField("ZS");
    short tzs = (*itEventBlock)->getDataField("TZS");
    short sr  = (*itEventBlock)->getDataField("SR");
    bool  dataIsSuppressed;

    // if zs&&tzs the suppression algo is used in DCC, the data are not suppressed and zs-bits are set
    if ( zs && !(tzs) ) dataIsSuppressed = true;
    else  dataIsSuppressed = false;

    if(trigger_type >0 && trigger_type <5){theDCCheader.setBasicTriggerType(trigger_type);}
    else{ edm::LogWarning("EcalTB07RawToDigiTriggerType") << "@SUB=EcalTB07DaqFormatter::interpretRawData"
                                                        << "unrecognized TRIGGER TYPE: "<<trigger_type;}
    theDCCheader.setLV1((*itEventBlock)->getDataField("LV1"));
    theDCCheader.setOrbit((*itEventBlock)->getDataField("ORBIT COUNTER"));
    theDCCheader.setBX((*itEventBlock)->getDataField("BX"));
    theDCCheader.setErrors((*itEventBlock)->getDataField("DCC ERRORS"));
    theDCCheader.setSelectiveReadout( sr );
    theDCCheader.setZeroSuppression( zs );
    theDCCheader.setTestZeroSuppression( tzs );
    theDCCheader.setSrpStatus((*itEventBlock)->getDataField("SR_CHSTATUS"));




    std::vector<short> theTCCs;
    for(int i=0; i<MAX_TCC_SIZE; i++){
      
      char TCCnum[20]; sprintf(TCCnum,"TCC_CHSTATUS#%d",i+1); std::string TCCnumS(TCCnum);
      theTCCs.push_back ((*itEventBlock)->getDataField(TCCnumS) );
    }
    theDCCheader.setTccStatus(theTCCs);


    std::vector< DCCTBTCCBlock * > tccBlocks = (*itEventBlock)->tccBlocks();
    
    for(    std::vector< DCCTBTCCBlock * >::iterator itTCCBlock = tccBlocks.begin(); 
            itTCCBlock != tccBlocks.end(); 
            itTCCBlock ++)
      {

        std::vector< std::pair<int,bool> > TpSamples = (* itTCCBlock) -> triggerSamples() ;
        // std::vector of 3 bits
        std::vector<int> TpFlags      = (* itTCCBlock) -> triggerFlags() ;
        
        // there have always to be 68 primitives and flags, per FED
        if (TpSamples.size()==68   && TpFlags.size()==68)
          {
            for(int i=0; i<((int)TpSamples.size()); i++)        
              {
                
                int etaTT = (i)  / kTowersInPhi +1;
                int phiTT = (i) % kTowersInPhi +1;

                // follow HB convention in iphi
                phiTT=3-phiTT;
                if(phiTT<=0)phiTT=phiTT+72;

                EcalTriggerPrimitiveSample theSample(TpSamples[i].first, TpSamples[i].second, TpFlags[i]);

                EcalTrigTowerDetId idtt(2, EcalBarrel, etaTT, phiTT, 0);
                EcalTriggerPrimitiveDigi thePrimitive(idtt);
                thePrimitive.setSize(1);                          // hard coded
                thePrimitive.setSample(0, theSample);
                
                tpcollection.push_back(thePrimitive);
                
                LogDebug("EcalTB07RawToDigiTpg") << "@SUBS=EcalTB07DaqFormatter::interpretRawData"
                                               << "tower: " << (i+1) 
                                               << " primitive: " << TpSamples[i].first
                                               << " flag: " << TpSamples[i].second;

                LogDebug("EcalTB07RawToDigiTpg") << "@SUBS=EcalTB07DaqFormatter::interpretRawData"<<
                  "tower: " << (i+1) << " flag: " << TpFlags[i];
              }// end loop on tower primitives
            
          }// end if
        else
          {
            edm::LogWarning("EcalTB07RawToDigiTpg") << "68 elements not found for TpFlags or TpSamples, collection will be empty";
          }
      }  
    
    
    
    
    short TowerStatus[MAX_TT_SIZE+1];
    char buffer[20];
    std::vector<short> theTTstatus;
    for(int i=1;i<MAX_TT_SIZE+1;i++)
      { 
        sprintf(buffer, "FE_CHSTATUS#%d", i);
        std::string Tower(buffer);
        TowerStatus[i]= (*itEventBlock)->getDataField(Tower);
        theTTstatus.push_back(TowerStatus[i]);
        //std::cout << "tower " << i << " has status " <<  TowerStatus[i] << std::endl;  
      }
    bool checkTowerStatus = TowerStatus[1] == 0 && TowerStatus[2] == 0 && TowerStatus[3] == 0 && TowerStatus[4] == 0;
    for (int i=5; i < MAX_TT_SIZE+1; ++i) checkTowerStatus = checkTowerStatus && TowerStatus[i] == 1;
    if (!checkTowerStatus) {
      for(int i=1; i<MAX_TT_SIZE+1; ++i) {
        std::cout << "tower " << i << " has status " << TowerStatus[i] << std::endl;
      }
    }

    theDCCheader.setFEStatus(theTTstatus);

    EcalDCCTBHeaderRuntypeDecoder theRuntypeDecoder;
    uint32_t DCCruntype = (*itEventBlock)->getDataField("RUN TYPE");
    theRuntypeDecoder.Decode(DCCruntype, &theDCCheader);
    //DCCHeader filled!
    DCCheaderCollection.push_back(theDCCheader);
    
    // add three more DCC headers (EE region used at h4)
    EcalDCCHeaderBlock hdr = theDCCheader;
    hdr.setId(04);
    DCCheaderCollection.push_back(hdr);
    hdr.setId(05);
    DCCheaderCollection.push_back(hdr);
    hdr.setId(06);
    DCCheaderCollection.push_back(hdr);

    std::vector< DCCTBTowerBlock * > dccTowerBlocks = (*itEventBlock)->towerBlocks();
    LogDebug("EcalTB07RawToDigi") << "@SUBS=EcalTB07DaqFormatter::interpretRawData"
                                << "dccTowerBlocks size " << dccTowerBlocks.size();



    _expTowersIndex=0;_numExpectedTowers=0;
    for (int v=0; v<71; v++){
      _ExpectedTowers[v]=99999;
    }

    // note: these are the tower statuses handled at the moment - to be completed
    // staus==0:   tower expected;
    // staus==9:   Synk error LV1, tower expected;
    // staus==10:  Synk error BX, tower expected;
    // status==1, 2, 3, 4, 5:  tower not expected
    for (int u=1; u< (kTriggerTowersAndMem+1); u++)
      {
        // map status array to expected tower array
        //int towerMap[kTriggerTowersAndMem+1];
        //for (int i=0; i<kTriggerTowersAndMem; ++i ) towerMap[i] = i;
        //towerMap[1] = 6;
        //towerMap[2] = 2;
        //towerMap[3] = 1;
        //towerMap[4] = 5;

        if(   TowerStatus[u] ==0 || TowerStatus[u] ==9 || TowerStatus[u] ==10  ) 
          {_ExpectedTowers[_expTowersIndex]= tbStatusToLocation_[u];
            _expTowersIndex++;
            _numExpectedTowers++;
          }
      }
    // resetting counter of expected towers
    _expTowersIndex=0;
      
      
    // if number of dccEventBlocks NOT same as expected stop
    if (!      (dccTowerBlocks.size() == _numExpectedTowers)      )
      {
        // we probably always want to know if this happens
        edm::LogWarning("EcalTB07RawToDigiNumTowerBlocks") << "@SUB=EcalTB07DaqFormatter::interpretRawData"
                                      << "number of TowerBlocks found (" << dccTowerBlocks.size()
                                      << ") differs from expected (" << _numExpectedTowers 
                                      << ") skipping event"; 

        EBDetId idsm(1, 1);
        dccsizecollection.push_back(idsm);
        
        return;
        
      }
      




    // Access the Tower block    
    for( std::vector< DCCTBTowerBlock * >::iterator itTowerBlock = dccTowerBlocks.begin(); 
         itTowerBlock!= dccTowerBlocks.end(); 
         itTowerBlock++){

      tower=(*itTowerBlock)->towerID();
      // here is "correct" h2 map
      //if ( tower == 1  ) tower = 6;
      //if ( tower == 71 ) tower = 2;
      //if ( tower == 80 ) tower = 1;
      //if ( tower == 45 ) tower = 5;
      tower = tbTowerIDToLocation_[tower];

      // checking if tt in data is the same as tt expected 
      // else skip tower and increment problem counter
            
      // dccId set to 46 in order to match 'real' CMS positio at H2

      EcalElectronicsId idtt(46, _ExpectedTowers[_expTowersIndex], 1, 1);
    

      if (  !(tower == _ExpectedTowers[_expTowersIndex])          )
        {       
          
          if (_ExpectedTowers[_expTowersIndex] <= 68){
            edm::LogWarning("EcalTB07RawToDigiTowerId") << "@SUBS=EcalTB07DaqFormatter::interpretRawData"
                                                        << "TTower id found (=" << tower 
                                                        << ") different from expected (=" <<  _ExpectedTowers[_expTowersIndex] 
                                                        << ") " << (_expTowersIndex+1) << "-th tower checked"
                                                        << "\n Real hardware id is " << (*itTowerBlock)->towerID();

            //  report on failed tt_id for regular tower block
            ttidcollection.push_back(idtt);
          }
          else
            {
              edm::LogWarning("EcalTB07RawToDigiTowerId") << "@SUB=EcalTB07DaqFormatter:interpretRawData"
                                                        << "DecodeMEM: tower " << tower  
                                                        << " is not the same as expected " << ((int)_ExpectedTowers[_expTowersIndex])
                                                        << " (according to DCC header channel status)";
              
              // report on failed tt_id for mem tower block
              // chosing channel 1 as representative
              EcalElectronicsId id(1, (int)_ExpectedTowers[_expTowersIndex], 1, 1);
              memttidcollection.push_back(id);
            }

          ++ _expTowersIndex;
          continue;     
        }// if TT id found  different than expected 
        


      /*********************************
       //    tt: 1 ... 68: crystal data
       *********************************/
      if (  0<  (*itTowerBlock)->towerID() &&
            ((*itTowerBlock)->towerID() < (kTriggerTowers+1)  || 
             (*itTowerBlock)->towerID() == 71 || 
             (*itTowerBlock)->towerID() == 80)
            )
        {
          
          std::vector<DCCTBXtalBlock * > & xtalDataBlocks = (*itTowerBlock)->xtalBlocks();      
          
          // if there is no zero suppression, tower block must have have 25 channels in it
          if (  (!dataIsSuppressed)   &&   (xtalDataBlocks.size() != kChannelsPerTower)   )
            {     
              edm::LogWarning("EcalTB07RawToDigiTowerSize") << "EcalTB07DaqFormatter::interpretRawData, no zero suppression "
                                            << "wrong tower block size is: "  << xtalDataBlocks.size() 
                                            << " at LV1 " << (*itEventBlock)->getDataField("LV1")
                                            << " for TT " << _ExpectedTowers[_expTowersIndex];
              // report on wrong tt block size
              blocksizecollection.push_back(idtt);

              ++ _expTowersIndex;             continue; 

            }
          

          short cryInTower =0;

          short expStripInTower;
          short expCryInStrip;
          short expCryInTower =0;

          // Access the Xstal data
          for( std::vector< DCCTBXtalBlock * >::iterator itXtalBlock = xtalDataBlocks.begin(); 
               itXtalBlock!= xtalDataBlocks.end(); 
               itXtalBlock++){ //loop on crys of a  tower

            strip              =(*itXtalBlock)->stripID();
            ch                 =(*itXtalBlock)->xtalID();
            cryInTower  =(strip-1)* kChannelsPerCard + (ch -1);

            expStripInTower   =  expCryInTower/5 +1;
            expCryInStrip     =  expCryInTower%5 +1;
            
            
            // FIXME: waiting for geometry to do (TT, strip,chNum) <--> (SMChId)
            // short abscissa = (_ExpectedTowers[_expTowersIndex]-1)  /4;
            // short ordinate = (_ExpectedTowers[_expTowersIndex]-1)  %4;
            // temporarily choosing central crystal in trigger tower
            // int cryIdInSM  = 45 + ordinate*5 + abscissa * 100;
            
            
            // in case of 0 zuppressed data, check that cryInTower constantly grows
            if (dataIsSuppressed)
              {
                
                if ( strip < 1 || 5<strip || ch <1 || 5 < ch)
                  {
                    int  sm = 1; // hardcoded because of test  beam
                    for (int StripInTower_ =1;  StripInTower_ < 6; StripInTower_++){
                      for (int  CryInStrip_ =1;  CryInStrip_ < 6; CryInStrip_++){
                        int  ic        = cryIc(tower, StripInTower_,  CryInStrip_) ;
                        EBDetId               idExp(sm, ic,1);
                        chidcollection.push_back(idExp);
                      }
                    }
                    
                    edm::LogWarning("EcalTB07RawToDigiChId") << "EcalTB07DaqFormatter::interpretRawData with zero suppression, "
                                                           << " wrong channel id, since out of range: "
                                                           << "\t strip: "  << strip  << "\t channel: " << ch
                                                           << "\t in TT: " << _ExpectedTowers[_expTowersIndex]
                                                           << "\t at LV1 : " << (*itEventBlock)->getDataField("LV1");
                    
                    expCryInTower++;
                    continue;
                  }


                // correct ordering
                if(  cryInTower >= expCryInTower ){
                  expCryInTower = cryInTower +1;
                }
                
                
                // cry_id wrong because of incorrect ordering within trigger tower
                else
                  {
                    edm::LogWarning("EcalTB07RawToDigiChId") << "EcalTB07DaqFormatter::interpretRawData with zero suppression, "
                                                  << " based on ch ordering within tt, wrong channel id: "
                                                  << "\t strip: "  << strip  << "\t channel: " << ch
                                                  << "\t cryInTower "  << cryInTower
                                                  << "\t expCryInTower: " << expCryInTower
                                                  << "\t in TT: " << _ExpectedTowers[_expTowersIndex]
                                                  << "\t at LV1: " << (*itEventBlock)->getDataField("LV1");
                    
                    int  sm = 1; // hardcoded because of test  beam
                    for (int StripInTower_ =1;  StripInTower_ < 6; StripInTower_++){
                      for (int  CryInStrip_ =1;  CryInStrip_ < 6; CryInStrip_++){
                        int  ic        = cryIc(tower, StripInTower_,  CryInStrip_) ;
                        EBDetId               idExp(sm, ic,1);
                        chidcollection.push_back(idExp);
                      }
                    }
                    
                    // chennel with id which does not follow correct odering
                    expCryInTower++;                continue;
                    
                  }// end 'ch_id does not respect growing order'
                
              }// end   if zero supression
            
            

            else {
              
              // checking that ch and strip are within range and cryInTower is as expected
              if(   cryInTower != expCryInTower   ||  
                    strip < 1 ||   kStripsPerTower <strip  ||
                    ch <1  ||   kChannelsPerStrip < ch    ) 
                {
                  
                  int ic        = cryIc(tower, expStripInTower,  expCryInStrip) ;
                  int  sm = 1; // hardcoded because of test  beam
                  EBDetId  idExp(sm, ic,1);
                  
                  edm::LogWarning("EcalTB07RawToDigiChId") << "EcalTB07DaqFormatter::interpretRawData no zero suppression "
                                                    << " wrong channel id for channel: "  << expCryInStrip
                                                    << "\t strip: " << expStripInTower
                                                    << "\t in TT: " << _ExpectedTowers[_expTowersIndex]
                                                    << "\t at LV1: " << (*itEventBlock)->getDataField("LV1")
                                                    << "\t   (in the data, found channel:  " << ch
                                                    << "\t strip:  " << strip << " ).";

                  
                  // report on wrong channel id
                  chidcollection.push_back(idExp);

                  // there has been unexpected crystal id, dataframe not to go to the Event
                  expCryInTower++;                continue;
                  
                } // if channel in data does not equal expected channel

              expCryInTower++;

            } // end 'not zero suppression'
            
            
            
            // data  to be stored in EBDataFrame, identified by EBDetId
            int  ic = cryIc(tower, strip, ch) ;
            int  sm = 1;
            EBDetId  id(sm, ic,1);      
            // EE data to be stored in EEDataFrame, identified by EEDetId
            // eeId(int i, int j, int iz (+1/-1), int mode = XYMODE)
            int ix = getEE_ix(tower, strip, ch);
            int iy = getEE_iy(tower, strip, ch);

            int iz = 1;
            if ( tbName_ == "h4" ) iz = -1;
            EEDetId  eeId(ix, iy, iz);
                
            // here data frame go into the Event
            // removed later on (with a pop_back()) if gain==0 or if forbidden-gain-switch
            digicollection.push_back( id );
            eeDigiCollection.push_back( eeId );
            EBDataFrame theFrame ( digicollection.back() );
            EEDataFrame eeFrame ( eeDigiCollection.back() );

            std::vector<int> xtalDataSamples = (*itXtalBlock)->xtalDataSamples();   
            //theFrame.setSize(xtalDataSamples.size()); // if needed, to be changed when constructing digicollection
            //eeFrame. setSize(xtalDataSamples.size()); // if needed, to be changed when constructing eeDigicollection
      

            // gain cannot be 0, checking for that
            bool        gainIsOk =true;
            unsigned gain_mask      = 12288;    //12th and 13th bit
            std::vector <int> xtalGain;

            for (unsigned short i=0; i<xtalDataSamples.size(); ++i ) {
              
              theFrame.setSample (i, xtalDataSamples[i] );
              eeFrame .setSample (i, xtalDataSamples[i] );
              
              if((xtalDataSamples[i] & gain_mask) == 0){gainIsOk =false;}
              
              xtalGain.push_back(0);
              xtalGain[i] |= (xtalDataSamples[i] >> 12);
            }
            
            if (! gainIsOk) {
              
              edm::LogWarning("EcalTB07RawToDigiGainZero") << "@SUB=EcalTB07DaqFormatter::interpretRawData"
                                            << " gain==0 for strip: "  << expStripInTower
                                            << "\t channel: " << expCryInStrip
                                            << "\t in TT: " << _ExpectedTowers[_expTowersIndex]
                                            << "\t ic: " << ic
                                            << "\t at LV1: " << (*itEventBlock)->getDataField("LV1");
              // report on gain==0
              gaincollection.push_back(id);
              
              // there has been a gain==0, dataframe not to go to the Event
              digicollection.pop_back();
              eeDigiCollection.pop_back();
              continue; //            expCryInTower already incremented
            }


            
            
            // looking for forbidden gain transitions
            
            short firstGainWrong=-1;
            short numGainWrong=0;
            
            for (unsigned short i=0; i<xtalGain.size(); i++ ) {
              
              if (i>0 && xtalGain[i-1]>xtalGain[i]) {
                
                numGainWrong++;// counting forbidden gain transitions
                
                if (firstGainWrong == -1) {
                  firstGainWrong=i;
                  edm::LogWarning("EcalTB07RawToDigiGainSwitch") << "@SUB=EcalTB07DaqFormatter::interpretRawData"
                                                          << "channelHasGainSwitchProblem: crystal eta = " 
                                                          << id.ieta() << " phi = " << id.iphi();
                }
                edm::LogWarning("EcalTB07RawToDigiGainSwitch") << "@SUB=EcalTB07DaqFormatter::interpretRawData"
                                                        << "channelHasGainSwitchProblem: sample = " << (i-1) 
                                                        << " gain: " << xtalGain[i-1] << " sample: " 
                                                        << i << " gain: " << xtalGain[i];
              }
            }

            if (numGainWrong>0) {
              gainswitchcollection.push_back(id);

              edm::LogWarning("EcalTB07RawToDigiGainSwitch") << "@SUB=EcalTB07DaqFormatter:interpretRawData"
                                                        << "channelHasGainSwitchProblem: more than 1 wrong transition";
                
              for (unsigned short i1=0; i1<xtalDataSamples.size(); ++i1 ) {
                int countADC = 0x00000FFF;
                countADC &= xtalDataSamples[i1];
                LogDebug("EcalTB07RawToDigi") << "Sample " << i1 << " ADC " << countADC << " Gain " << xtalGain[i1];
              }

              // there has been a forbidden gain transition,  dataframe not to go to the Event
              digicollection.pop_back();
              eeDigiCollection.pop_back();
              continue; //            expCryInTower already incremented

            }// END of:   'if there is a forbidden gain transition'

          }// end loop on crystals within a tower block
          
          _expTowersIndex++;
        }// end: tt1 ... tt68, crystal data
      


      
      
      /******************************************************************
       //    tt 69 and 70:  two mem boxes, holding PN0 ... PN9
       ******************************************************************/      
      else if (       (*itTowerBlock)->towerID() == 69 
                      ||           (*itTowerBlock)->towerID() == 70       )     
        {
          
          LogDebug("EcalTB07RawToDigi") << "@SUB=EcalTB07DaqFormatter::interpretRawData"
                                      << "processing mem box num: " << (*itTowerBlock)->towerID();

          // if tt 69 or 70 found, allocate Pn digi collection
          if(! pnAllocated) 
            {
              pndigicollection.reserve(kPns);
              pnAllocated = true;
            }

          DecodeMEM( (*itTowerBlock),  pndigicollection , 
                     memttidcollection,  memblocksizecollection,
                     memgaincollection,  memchidcollection);
          
        }// end of < if it is a mem box>
      
      
    


      // wrong tt id
      else  {
        edm::LogWarning("EcalTB07RawToDigiTowerId") <<"@SUB=EcalTB07DaqFormatter::interpretRawData"
                                      << " processing tt with ID not existing ( "
                                      <<  (*itTowerBlock)->towerID() << ")";
        ++ _expTowersIndex;
        continue; 
      }// end: tt id error

    }// end loop on trigger towers
      
  }// end loop on events
}
bool EcalTB07DaqFormatter::leftTower ( int  tower) const [private]

Definition at line 979 of file EcalTB07DaqFormatter.cc.

References rightTower().

{
  return !rightTower(tower);
}
bool EcalTB07DaqFormatter::rightTower ( int  tower) const [private]

Definition at line 968 of file EcalTB07DaqFormatter.cc.

Referenced by cellIndex(), and leftTower().

                                                     {
  
  if ((tower>12 && tower<21) || (tower>28 && tower<37) ||
      (tower>44 && tower<53) || (tower>60 && tower<69))
    return true;
  else
    return false;
}

Member Data Documentation

unsigned EcalTB07DaqFormatter::_ExpectedTowers[71] [private]

Definition at line 95 of file EcalTB07DaqFormatter.h.

Referenced by DecodeMEM(), and interpretRawData().

Definition at line 96 of file EcalTB07DaqFormatter.h.

Referenced by DecodeMEM(), and interpretRawData().

Definition at line 94 of file EcalTB07DaqFormatter.h.

Referenced by interpretRawData().

int EcalTB07DaqFormatter::cryIcMap_[68][5][5] [private]

Definition at line 61 of file EcalTB07DaqFormatter.h.

Referenced by cryIc(), and EcalTB07DaqFormatter().

int EcalTB07DaqFormatter::data_MEM[500] [private]

Definition at line 100 of file EcalTB07DaqFormatter.h.

Referenced by DecodeMEM().

int EcalTB07DaqFormatter::memRawSample_[kStripsPerTower][kChannelsPerStrip][kSamplesPerChannel+1] [private]

Definition at line 99 of file EcalTB07DaqFormatter.h.

Referenced by DecodeMEM().

Definition at line 101 of file EcalTB07DaqFormatter.h.

Referenced by interpretRawData().

bool EcalTB07DaqFormatter::pnIsOkInBlock[kPnPerTowerBlock] [private]

Definition at line 102 of file EcalTB07DaqFormatter.h.

Referenced by DecodeMEM().

std::string EcalTB07DaqFormatter::tbName_ [private]

Definition at line 64 of file EcalTB07DaqFormatter.h.

Referenced by EcalTB07DaqFormatter(), getEE_ix(), getEE_iy(), and interpretRawData().

Definition at line 62 of file EcalTB07DaqFormatter.h.

Referenced by EcalTB07DaqFormatter(), and interpretRawData().

Definition at line 63 of file EcalTB07DaqFormatter.h.

Referenced by EcalTB07DaqFormatter(), and interpretRawData().

Definition at line 60 of file EcalTB07DaqFormatter.h.

Referenced by EcalTB07DaqFormatter(), and interpretRawData().