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Public Member Functions | Public Attributes | Private Attributes

EcalRawToDigi Class Reference

#include <EcalRawToDigi.h>

Inheritance diagram for EcalRawToDigi:
edm::EDProducer edm::ProducerBase edm::ProductRegistryHelper

List of all members.

Public Member Functions

virtual void beginRun (edm::Run &run, const edm::EventSetup &es)
 EcalRawToDigi (const edm::ParameterSet &ps)
virtual void produce (edm::Event &e, const edm::EventSetup &c)
virtual ~EcalRawToDigi ()

Public Attributes

edm::ESWatcher< EcalMappingRcdwatcher_

Private Attributes

edm::InputTag dataLabel_
edm::InputTag fedsLabel_
std::vector< int > fedUnpackList_
bool feIdCheck_
bool feUnpacking_
bool first_
bool forceToKeepFRdata_
bool headerUnpacking_
bool memUnpacking_
EcalElectronicsMappermyMap_
unsigned int nevts_
unsigned int numbTriggerTSamples_
unsigned int numbXtalTSamples_
std::vector< int > orderedDCCIdList_
std::vector< int > orderedFedUnpackList_
bool put_
bool REGIONAL_
double RUNNING_TIME_
double SETUP_TIME_
bool srpUnpacking_
bool syncCheck_
bool tccUnpacking_
DCCDataUnpackertheUnpacker_

Detailed Description

Definition at line 42 of file EcalRawToDigi.h.


Constructor & Destructor Documentation

EcalRawToDigi::EcalRawToDigi ( const edm::ParameterSet ps) [explicit]

Class constructor

Definition at line 13 of file EcalRawToDigi.cc.

References fedUnpackList_, feIdCheck_, feUnpacking_, first_, forceToKeepFRdata_, edm::ParameterSet::getUntrackedParameter(), headerUnpacking_, i, FEDNumbering::MAXECALFEDID, memUnpacking_, FEDNumbering::MINECALFEDID, myMap_, numbTriggerTSamples_, numbXtalTSamples_, orderedDCCIdList_, orderedFedUnpackList_, convertSQLitetoXML_cfg::output, DCCDataUnpacker::silentMode_, srpUnpacking_, syncCheck_, tccUnpacking_, and theUnpacker_.

                                                       :
  
  //define the list of FED to be unpacked
  fedUnpackList_(conf.getParameter<std::vector<int> >("FEDs")),

  //define the ordered FED list
  orderedFedUnpackList_(conf.getParameter<std::vector<int> >("orderedFedList")),

  //define the ordered DCCId list
  orderedDCCIdList_(conf.getParameter<std::vector<int> >("orderedDCCIdList")),

  //get number of Xtal Time Samples
  numbXtalTSamples_(conf.getParameter<int>("numbXtalTSamples")),

  //Get number of Trigger Time Samples
  numbTriggerTSamples_(conf.getParameter<int>("numbTriggerTSamples")),
  
  //See if header unpacking is enabled
  headerUnpacking_(conf.getParameter<bool>("headerUnpacking")),
 
  //See if srp unpacking is enabled
  srpUnpacking_(conf.getParameter<bool>("srpUnpacking")),
  
  //See if tcc unpacking is enabled
  tccUnpacking_(conf.getParameter<bool>("tccUnpacking")),
  
  //See if fe unpacking is enabled
  feUnpacking_(conf.getParameter<bool>("feUnpacking")),
  
  //See if fe unpacking is enabled for mem box
  memUnpacking_(conf.getParameter<bool>("memUnpacking")), 

  //See if syncCheck is enabled
  syncCheck_(conf.getParameter<bool>("syncCheck")), 

  //See if feIdCheck is enabled
  feIdCheck_(conf.getParameter<bool>("feIdCheck")),

  // See if we want to keep data even if we have a mismatch between SR decision and block length
  forceToKeepFRdata_(conf.getParameter<bool>("forceToKeepFRData")),

  
  put_(conf.getParameter<bool>("eventPut")),
  
  dataLabel_(conf.getParameter<edm::InputTag>("InputLabel")),

  REGIONAL_(conf.getParameter<bool>("DoRegional")),

  fedsLabel_(conf.getParameter<edm::InputTag>("FedLabel")),

  myMap_(0),
  
  theUnpacker_(0)

{
  
  first_ = true;
  DCCDataUnpacker::silentMode_ = conf.getUntrackedParameter<bool>("silentMode",false) ;
  
  if( numbXtalTSamples_ <6 || numbXtalTSamples_>64 || (numbXtalTSamples_-2)%4 ){
    std::ostringstream output;
    output      <<"\n Unsuported number of xtal time samples : "<<numbXtalTSamples_
                <<"\n Valid Number of xtal time samples are : 6,10,14,18,...,62"; 
    edm::LogError("IncorrectConfiguration")<< output.str();
    // todo : throw an execption
  }
  
  if( numbTriggerTSamples_ !=1 && numbTriggerTSamples_ !=4 && numbTriggerTSamples_ !=8  ){
    std::ostringstream output;
    output      <<"\n Unsuported number of trigger time samples : "<<numbTriggerTSamples_
                <<"\n Valid number of trigger time samples are :  1, 4 or 8"; 
    edm::LogError("IncorrectConfiguration")<< output.str();
    // todo : throw an execption
  }
  
  //NA : testing
  //nevts_=0;
  //RUNNING_TIME_=0;

  // if there are FEDs specified to unpack fill the vector of the fedUnpackList_
  // else fill with the entire ECAL fed range (600-670)
  if (fedUnpackList_.empty()) 
    for (int i=FEDNumbering::MINECALFEDID; i<=FEDNumbering::MAXECALFEDID; i++)
      fedUnpackList_.push_back(i);

  //print the FEDs to unpack to the logger
  std::ostringstream loggerOutput_;
  if(fedUnpackList_.size()!=0){
    for (unsigned int i=0; i<fedUnpackList_.size(); i++) 
      loggerOutput_ << fedUnpackList_[i] << " ";
    edm::LogInfo("EcalRawToDigi") << "EcalRawToDigi will unpack FEDs ( " << loggerOutput_.str() << ")";
  }
  
  edm::LogInfo("EcalRawToDigi")
    <<"\n ECAL RawToDigi configuration:"
    <<"\n Header  unpacking is "<<headerUnpacking_
    <<"\n SRP Bl. unpacking is "<<srpUnpacking_
    <<"\n TCC Bl. unpacking is "<<tccUnpacking_  
    <<"\n FE  Bl. unpacking is "<<feUnpacking_
    <<"\n MEM Bl. unpacking is "<<memUnpacking_<<"\n";
  
  // Producer products :
  produces<EBDigiCollection>("ebDigis"); 
  produces<EEDigiCollection>("eeDigis");
  produces<EBSrFlagCollection>();
  produces<EESrFlagCollection>();
  produces<EcalRawDataCollection>();
  produces<EcalPnDiodeDigiCollection>();
  produces<EcalTrigPrimDigiCollection>("EcalTriggerPrimitives");
  produces<EcalPSInputDigiCollection>("EcalPseudoStripInputs");
  
  // Integrity for xtal data
  produces<EBDetIdCollection>("EcalIntegrityGainErrors");
  produces<EBDetIdCollection>("EcalIntegrityGainSwitchErrors");
  produces<EBDetIdCollection>("EcalIntegrityChIdErrors");

  // Integrity for xtal data - EE specific (to be rivisited towards EB+EE common collection)
  produces<EEDetIdCollection>("EcalIntegrityGainErrors");
  produces<EEDetIdCollection>("EcalIntegrityGainSwitchErrors");
  produces<EEDetIdCollection>("EcalIntegrityChIdErrors");

  // Integrity Errors
  produces<EcalElectronicsIdCollection>("EcalIntegrityTTIdErrors");
  produces<EcalElectronicsIdCollection>("EcalIntegrityZSXtalIdErrors");
  produces<EcalElectronicsIdCollection>("EcalIntegrityBlockSizeErrors");
 
  // Mem channels' integrity
  produces<EcalElectronicsIdCollection>("EcalIntegrityMemTtIdErrors");
  produces<EcalElectronicsIdCollection>("EcalIntegrityMemBlockSizeErrors");
  produces<EcalElectronicsIdCollection>("EcalIntegrityMemChIdErrors");
  produces<EcalElectronicsIdCollection>("EcalIntegrityMemGainErrors");


 
  // Build a new Electronics mapper and parse default map file
  myMap_ = new EcalElectronicsMapper(numbXtalTSamples_,numbTriggerTSamples_);

  // in case of external  text file (deprecated by HLT environment) 
  //  bool readResult = myMap_->readDCCMapFile(conf.getParameter<std::string>("DCCMapFile",""));

  // use two arrays from cfg to establish DCCId:FedId. If they are empy, than use hard coded correspondence 
  bool readResult = myMap_->makeMapFromVectors(orderedFedUnpackList_, orderedDCCIdList_);
  // myMap::makeMapFromVectors() returns "true" always
  // need to be fixed?

  if(!readResult){
    edm::LogWarning("IncorrectConfiguration")
      << "Arrays orderedFedList and orderedDCCIdList are emply. "
         "Hard coded correspondence for DCCId:FedId will be used.";
    // edm::LogError("EcalRawToDigi")<<"\n unable to read file : "
    //   <<conf.getParameter<std::string>("DCCMapFile");
  }
  
  // Build a new ECAL DCC data unpacker
  theUnpacker_ = new DCCDataUnpacker(myMap_,headerUnpacking_,srpUnpacking_,tccUnpacking_,feUnpacking_,memUnpacking_,syncCheck_,feIdCheck_,forceToKeepFRdata_);
   
}
EcalRawToDigi::~EcalRawToDigi ( ) [virtual]

Class destructor

Definition at line 467 of file EcalRawToDigi.cc.

References myMap_, and theUnpacker_.

{
  
  //cout << "EcalDCCUnpackingModule  " << "N events        " << (nevts_-1)<<endl;
  //cout << "EcalDCCUnpackingModule  " << " --- SETUP time " << endl;
  //cout << "EcalDCCUnpackingModule  " << "Time (sys)      " << SETUP_TIME_ << endl;
  //cout << "EcalDCCUnpackingModule  " << "Time in sec.    " << SETUP_TIME_/ CLOCKS_PER_SEC  << endl;
  //cout << "EcalDCCUnpackingModule  " << " --- Per event  " << endl;
  
  //RUNNING_TIME_ = RUNNING_TIME_ / (nevts_-1);
  
  //cout << "EcalDCCUnpackingModule  "<< "Time (sys)      " << RUNNING_TIME_  << endl;
  //cout << "EcalDCCUnpackingModule  "<< "Time in sec.    " << RUNNING_TIME_ / CLOCKS_PER_SEC  << endl;
  
  
  
  if(myMap_      ) delete myMap_;
  if(theUnpacker_) delete theUnpacker_;
  
}

Member Function Documentation

void EcalRawToDigi::beginRun ( edm::Run run,
const edm::EventSetup es 
) [virtual]

Reimplemented from edm::EDProducer.

Definition at line 227 of file EcalRawToDigi.cc.

References edm::EventSetup::get(), edm::ESHandle< T >::product(), DCCDataUnpacker::setChannelStatusDB(), and theUnpacker_.

{
  // channel status database
  edm::ESHandle<EcalChannelStatusMap> pChStatus;
  es.get<EcalChannelStatusRcd>().get(pChStatus);
  theUnpacker_->setChannelStatusDB(pChStatus.product());
  
  // uncomment following line to print list of crystals with bad status
  //edm::ESHandle<EcalElectronicsMapping> pEcalMapping;
  //es.get<EcalMappingRcd>().get(pEcalMapping);
  //const EcalElectronicsMapping* mapping = pEcalMapping.product();
  //printStatusRecords(theUnpacker_, mapping);
}
void EcalRawToDigi::produce ( edm::Event e,
const edm::EventSetup c 
) [virtual]

Functions that are called by framework at each event

Implements edm::EDProducer.

Definition at line 242 of file EcalRawToDigi.cc.

References edm::ESWatcher< T >::check(), FEDRawData::data(), dataLabel_, EMPTYEVENTSIZE, fedsLabel_, fedUnpackList_, feUnpacking_, spr::find(), first_, edm::EventSetup::get(), EcalElectronicsMapper::getActiveSM(), edm::Event::getByLabel(), headerUnpacking_, i, LogDebug, memUnpacking_, myMap_, edm::ESHandle< T >::product(), edm::Event::put(), put_, REGIONAL_, EcalElectronicsMapper::setActiveDCC(), DCCDataUnpacker::setDccHeadersCollection(), DCCDataUnpacker::setEBDigisCollection(), DCCDataUnpacker::setEBSrFlagsCollection(), DCCDataUnpacker::setEcalPSsCollection(), DCCDataUnpacker::setEcalTpsCollection(), DCCDataUnpacker::setEEDigisCollection(), DCCDataUnpacker::setEESrFlagsCollection(), DCCDataUnpacker::setInvalidBlockLengthsCollection(), DCCDataUnpacker::setInvalidChIdsCollection(), DCCDataUnpacker::setInvalidEEChIdsCollection(), DCCDataUnpacker::setInvalidEEGainsCollection(), DCCDataUnpacker::setInvalidEEGainsSwitchCollection(), DCCDataUnpacker::setInvalidGainsCollection(), DCCDataUnpacker::setInvalidGainsSwitchCollection(), DCCDataUnpacker::setInvalidMemBlockSizesCollection(), DCCDataUnpacker::setInvalidMemChIdsCollection(), DCCDataUnpacker::setInvalidMemGainsCollection(), DCCDataUnpacker::setInvalidMemTtIdsCollection(), DCCDataUnpacker::setInvalidTTIdsCollection(), DCCDataUnpacker::setInvalidZSXtalIdsCollection(), DCCDataUnpacker::setPnDiodeDigisCollection(), FEDRawData::size(), srpUnpacking_, tccUnpacking_, theUnpacker_, DCCDataUnpacker::unpack(), and watcher_.

{
  
  //double TIME_START = clock();
  //nevts_++; //NUNO


  if (first_) {
   watcher_.check(es);
   edm::ESHandle< EcalElectronicsMapping > ecalmapping;
   es.get< EcalMappingRcd >().get(ecalmapping);
   myMap_ -> setEcalElectronicsMapping(ecalmapping.product());
   
   first_ = false;

  }else{

    if ( watcher_.check(es) ) {    
      edm::ESHandle< EcalElectronicsMapping > ecalmapping;
      es.get< EcalMappingRcd >().get(ecalmapping);
      myMap_ -> deletePointers();
      myMap_ -> resetPointers();
      myMap_ -> setEcalElectronicsMapping(ecalmapping.product());
    }

  }

  // Get list of FEDS :
  std::vector<int> FEDS_to_unpack;
  if (REGIONAL_) {
        edm::Handle<EcalListOfFEDS> listoffeds;
        e.getByLabel(fedsLabel_, listoffeds);
        FEDS_to_unpack = listoffeds -> GetList();
  }



  // Step A: Get Inputs    

  edm::Handle<FEDRawDataCollection> rawdata;  
  e.getByLabel(dataLabel_,rawdata);


  // Step B: encapsulate vectors in actual collections and set unpacker pointers

  // create the collection of Ecal Digis
  std::auto_ptr<EBDigiCollection> productDigisEB(new EBDigiCollection);
  productDigisEB->reserve(1700);
  theUnpacker_->setEBDigisCollection(&productDigisEB);
  
  // create the collection of Ecal Digis
  std::auto_ptr<EEDigiCollection> productDigisEE(new EEDigiCollection);
  theUnpacker_->setEEDigisCollection(&productDigisEE);
  
  // create the collection for headers
  std::auto_ptr<EcalRawDataCollection> productDccHeaders(new EcalRawDataCollection);
  theUnpacker_->setDccHeadersCollection(&productDccHeaders); 

  // create the collection for invalid gains
  std::auto_ptr< EBDetIdCollection> productInvalidGains(new EBDetIdCollection);
  theUnpacker_->setInvalidGainsCollection(&productInvalidGains); 

  // create the collection for invalid gain Switch
  std::auto_ptr< EBDetIdCollection> productInvalidGainsSwitch(new EBDetIdCollection);
  theUnpacker_->setInvalidGainsSwitchCollection(&productInvalidGainsSwitch);
   
  // create the collection for invalid chids
  std::auto_ptr< EBDetIdCollection> productInvalidChIds(new EBDetIdCollection);
  theUnpacker_->setInvalidChIdsCollection(&productInvalidChIds);
  
    
  // create the collection for invalid gains
  std::auto_ptr<EEDetIdCollection> productInvalidEEGains(new EEDetIdCollection);
  theUnpacker_->setInvalidEEGainsCollection(&productInvalidEEGains); 
    
  // create the collection for invalid gain Switch
  std::auto_ptr<EEDetIdCollection> productInvalidEEGainsSwitch(new EEDetIdCollection);
  theUnpacker_->setInvalidEEGainsSwitchCollection(&productInvalidEEGainsSwitch);
    
  // create the collection for invalid chids
  std::auto_ptr<EEDetIdCollection> productInvalidEEChIds(new EEDetIdCollection);
  theUnpacker_->setInvalidEEChIdsCollection(&productInvalidEEChIds);


  // create the collection for EB srflags       
  std::auto_ptr<EBSrFlagCollection> productEBSrFlags(new EBSrFlagCollection);
  theUnpacker_->setEBSrFlagsCollection(&productEBSrFlags);
  
  // create the collection for EB srflags       
  std::auto_ptr<EESrFlagCollection> productEESrFlags(new EESrFlagCollection);
  theUnpacker_->setEESrFlagsCollection(&productEESrFlags);

  // create the collection for ecal trigger primitives
  std::auto_ptr<EcalTrigPrimDigiCollection> productEcalTps(new EcalTrigPrimDigiCollection);
  theUnpacker_->setEcalTpsCollection(&productEcalTps);

  // create the collection for ecal trigger primitives
  std::auto_ptr<EcalPSInputDigiCollection> productEcalPSs(new EcalPSInputDigiCollection);
  theUnpacker_->setEcalPSsCollection(&productEcalPSs);

  // create the collection for invalid TTIds
  std::auto_ptr<EcalElectronicsIdCollection> productInvalidTTIds(new EcalElectronicsIdCollection);
  theUnpacker_->setInvalidTTIdsCollection(&productInvalidTTIds);
 
   // create the collection for invalid TTIds
  std::auto_ptr<EcalElectronicsIdCollection> productInvalidZSXtalIds(new EcalElectronicsIdCollection);
  theUnpacker_->setInvalidZSXtalIdsCollection(&productInvalidZSXtalIds);


 
  // create the collection for invalid BlockLengths
  std::auto_ptr<EcalElectronicsIdCollection> productInvalidBlockLengths(new EcalElectronicsIdCollection);
  theUnpacker_->setInvalidBlockLengthsCollection(&productInvalidBlockLengths);

  // MEMs Collections
  // create the collection for the Pn Diode Digis
  std::auto_ptr<EcalPnDiodeDigiCollection> productPnDiodeDigis(new EcalPnDiodeDigiCollection);
  theUnpacker_->setPnDiodeDigisCollection(&productPnDiodeDigis);

  // create the collection for invalid Mem Tt id 
  std::auto_ptr<EcalElectronicsIdCollection> productInvalidMemTtIds(new EcalElectronicsIdCollection);
  theUnpacker_->setInvalidMemTtIdsCollection(& productInvalidMemTtIds);
  
  // create the collection for invalid Mem Block Size 
  std::auto_ptr<EcalElectronicsIdCollection> productInvalidMemBlockSizes(new EcalElectronicsIdCollection);
  theUnpacker_->setInvalidMemBlockSizesCollection(& productInvalidMemBlockSizes);
  
  // create the collection for invalid Mem Block Size 
  std::auto_ptr<EcalElectronicsIdCollection> productInvalidMemChIds(new EcalElectronicsIdCollection);
  theUnpacker_->setInvalidMemChIdsCollection(& productInvalidMemChIds);
 
  // create the collection for invalid Mem Gain Errors 
  std::auto_ptr<EcalElectronicsIdCollection> productInvalidMemGains(new EcalElectronicsIdCollection);
  theUnpacker_->setInvalidMemGainsCollection(& productInvalidMemGains); 
  //  double TIME_START = clock(); 
  

  // Step C: unpack all requested FEDs    
  for (std::vector<int>::const_iterator i=fedUnpackList_.begin(); i!=fedUnpackList_.end(); i++) {

    if (REGIONAL_) {
      std::vector<int>::const_iterator fed_it = find(FEDS_to_unpack.begin(), FEDS_to_unpack.end(), *i);
      if (fed_it == FEDS_to_unpack.end()) continue;
    }

  
    // get fed raw data and SM id
    const FEDRawData & fedData = rawdata->FEDData(*i);
    int length = fedData.size();

    LogDebug("EcalRawToDigi") << "raw data length: " << length ;
    //if data size is not null interpret data
    if ( length >= EMPTYEVENTSIZE ){
      
      if(myMap_->setActiveDCC(*i)){

        int smId = myMap_->getActiveSM();
        LogDebug("EcalRawToDigi") << "Getting FED = " << *i <<"(SM = "<<smId<<")"<<" data size is: " << length;

        uint64_t * pData = (uint64_t *)(fedData.data());
        theUnpacker_->unpack( pData, static_cast<unsigned int>(length),smId,*i);
      }
    }
    
  }// loop on FEDs
  
  //if(nevts_>1){   //NUNO
  //  double TIME_END = clock(); //NUNO
  //  RUNNING_TIME_ += TIME_END-TIME_START; //NUNO
  // }
  
  
  // Add collections to the event 
  
  if(put_){
    
    if( headerUnpacking_){ 
      e.put(productDccHeaders); 
    }
    
    if(feUnpacking_){
      productDigisEB->sort();
      e.put(productDigisEB,"ebDigis");
      productDigisEE->sort();
      e.put(productDigisEE,"eeDigis");
      e.put(productInvalidGains,"EcalIntegrityGainErrors");
      e.put(productInvalidGainsSwitch, "EcalIntegrityGainSwitchErrors");
      e.put(productInvalidChIds, "EcalIntegrityChIdErrors");
      // EE (leaving for now the same names as in EB)
      e.put(productInvalidEEGains,"EcalIntegrityGainErrors");
      e.put(productInvalidEEGainsSwitch, "EcalIntegrityGainSwitchErrors");
      e.put(productInvalidEEChIds, "EcalIntegrityChIdErrors");
      // EE
      e.put(productInvalidTTIds,"EcalIntegrityTTIdErrors");
      e.put(productInvalidZSXtalIds,"EcalIntegrityZSXtalIdErrors");
      e.put(productInvalidBlockLengths,"EcalIntegrityBlockSizeErrors");
      e.put(productPnDiodeDigis);
    }
    if(memUnpacking_){
      e.put(productInvalidMemTtIds,"EcalIntegrityMemTtIdErrors");
      e.put(productInvalidMemBlockSizes,"EcalIntegrityMemBlockSizeErrors");
      e.put(productInvalidMemChIds,"EcalIntegrityMemChIdErrors");
      e.put(productInvalidMemGains,"EcalIntegrityMemGainErrors");
    }
    if(srpUnpacking_){
      e.put(productEBSrFlags);
      e.put(productEESrFlags);
    }
    if(tccUnpacking_){
      e.put(productEcalTps,"EcalTriggerPrimitives");
      e.put(productEcalPSs,"EcalPseudoStripInputs");
    }
  }
  
//if(nevts_>1){   //NUNO
//  double TIME_END = clock(); //NUNO 
//  RUNNING_TIME_ += TIME_END-TIME_START; //NUNO
//}
  
}

Member Data Documentation

Definition at line 91 of file EcalRawToDigi.h.

Referenced by produce().

Definition at line 95 of file EcalRawToDigi.h.

Referenced by produce().

std::vector<int> EcalRawToDigi::fedUnpackList_ [private]

Definition at line 70 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi(), and produce().

bool EcalRawToDigi::feIdCheck_ [private]

Definition at line 84 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi().

Definition at line 81 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi(), and produce().

bool EcalRawToDigi::first_ [private]

Definition at line 86 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi(), and produce().

Definition at line 85 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi().

Definition at line 78 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi(), and produce().

Definition at line 82 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi(), and produce().

Definition at line 98 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi(), produce(), and ~EcalRawToDigi().

unsigned int EcalRawToDigi::nevts_ [private]

Definition at line 103 of file EcalRawToDigi.h.

unsigned int EcalRawToDigi::numbTriggerTSamples_ [private]

Definition at line 76 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi().

unsigned int EcalRawToDigi::numbXtalTSamples_ [private]

Definition at line 75 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi().

std::vector<int> EcalRawToDigi::orderedDCCIdList_ [private]

Definition at line 73 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi().

std::vector<int> EcalRawToDigi::orderedFedUnpackList_ [private]

Definition at line 72 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi().

bool EcalRawToDigi::put_ [private]

Definition at line 87 of file EcalRawToDigi.h.

Referenced by produce().

bool EcalRawToDigi::REGIONAL_ [private]

Definition at line 94 of file EcalRawToDigi.h.

Referenced by produce().

double EcalRawToDigi::RUNNING_TIME_ [private]

Definition at line 104 of file EcalRawToDigi.h.

double EcalRawToDigi::SETUP_TIME_ [private]

Definition at line 104 of file EcalRawToDigi.h.

Definition at line 79 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi(), and produce().

bool EcalRawToDigi::syncCheck_ [private]

Definition at line 83 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi().

Definition at line 80 of file EcalRawToDigi.h.

Referenced by EcalRawToDigi(), and produce().

Definition at line 101 of file EcalRawToDigi.h.

Referenced by beginRun(), EcalRawToDigi(), produce(), and ~EcalRawToDigi().

Definition at line 64 of file EcalRawToDigi.h.

Referenced by produce().