DCCTBDataParser Class Reference

#include <DCCDataParser.h>

Public Types
enum	DCCDataParserGlobalFields { EMPTYEVENTSIZE = 32 }

Public Member Functions
std::pair< uint32_t, uint32_t >	checkEventLength (const uint32_t *pointerToEvent, uint32_t bytesToEnd, bool singleEvent=false)
std::vector< DCCTBEventBlock * > &	dccEvents ()
uint32_t	dccId ()
	DCCTBDataParser (const std::vector< uint32_t > &parserParameters, bool parseInternalData=true, bool debug=true)
bool	debug ()
std::map< std::string, uint32_t > &	errorCounters ()
std::vector< std::pair< uint32_t, std::pair< const uint32_t *, uint32_t > > >	events ()
const uint32_t *	getBuffer ()
std::string	getDecString (uint32_t data)
std::string	getHexString (uint32_t data)
std::string	getIndexedData (uint32_t indexed, uint32_t *pointer)
std::string	index (uint32_t position)
DCCTBDataMapper *	mapper ()
uint32_t	numbSRF ()
uint32_t	numbTriggerSamples ()
uint32_t	numbTTs ()
uint32_t	numbXtalSamples ()
void	parseBuffer (const uint32_t *buffer, uint32_t bufferSize, bool singleEvent=false)
void	parseFile (std::string fileName, bool singleEvent=false)
std::vector< uint32_t >	parserParameters ()
void	resetErrorCounters ()
void	setParameters (const std::vector< uint32_t > &newParameters)
uint32_t	srpBlockSize ()
uint32_t	srpId ()
uint32_t	tcc1Id ()
uint32_t	tcc2Id ()
uint32_t	tcc3Id ()
uint32_t	tcc4Id ()
uint32_t	tccBlockSize ()
	~DCCTBDataParser ()

Protected Types
enum	DCCTBDataParserFields {   EVENTLENGTHMASK = 0xFFFFFF, BOEBEGIN = 28, BOEMASK = 0xF, BOE =0x5,   EOEBEGIN = 28, EOEMASK = 0xF, EOE =0xA }

Protected Member Functions
void	computeBlockSizes ()

Protected Attributes
const uint32_t *	buffer_
uint32_t	bufferSize_
std::vector< DCCTBEventBlock * >	dccEvents_
bool	debug_
std::map< std::string, uint32_t >	errors_
std::string	eventErrors_
std::vector< std::pair< uint32_t, std::pair< const uint32_t *, uint32_t > > >	events_
DCCTBDataMapper *	mapper_
std::vector< uint32_t >	parameters
bool	parseInternalData_
uint32_t	processedEvent_
uint32_t	srpBlockSize_
uint32_t	tccBlockSize_

Detailed Description

Definition at line 27 of file DCCDataParser.h.

Member Enumeration Documentation

enum DCCTBDataParser::DCCDataParserGlobalFields

Enumerator
EMPTYEVENTSIZE

Definition at line 138 of file DCCDataParser.h.

                                {
    EMPTYEVENTSIZE = 32                   //bytes
  };

enum DCCTBDataParser::DCCTBDataParserFields

protected

Enumerator
EVENTLENGTHMASK
BOEBEGIN
BOEMASK
BOE
EOEBEGIN
EOEMASK
EOE

Definition at line 165 of file DCCDataParser.h.

                            {
    EVENTLENGTHMASK = 0xFFFFFF,
    
    BOEBEGIN = 28,                  //begin of event (on 32 bit string starts at bit 28)
    BOEMASK = 0xF,                  //mask is 4 bits (F)
    BOE =0x5,                       //B'0101'

    EOEBEGIN = 28,                  //end of event
    EOEMASK = 0xF,                  //4 bits
    EOE =0xA                        //B'1010'
  };

Constructor & Destructor Documentation

DCCTBDataParser::DCCTBDataParser	(	const std::vector< uint32_t > &	parserParameters,
		bool	parseInternalData = true,
		bool	debug = true
	)

Class constructor: takes a vector of 10 parameters and flags for parseInternalData and debug Parameters are: 0 - crystal samples (default is 10) 1 - number of trigger time samples (default is 1) 2 - number of TT (default is 68) 3 - number of SR Flags (default is 68) 4 - DCC id 5 - SR id [6-9] - TCC[6-9] id

Definition at line 9 of file DCCDataParser.cc.

References computeBlockSizes(), mapper_, and resetErrorCounters().

                                                                                                              :
  buffer_(nullptr),parseInternalData_(parseInternalData),debug_(debug), parameters(parserParameters){
    
  mapper_ = new DCCTBDataMapper(this);       //build a new data mapper
  resetErrorCounters();                    //restart error counters
  computeBlockSizes();                     //calculate block sizes
  
}

DCCTBDataParser::~DCCTBDataParser

(

)

Class destructor

Definition at line 346 of file DCCDataParser.cc.

References dccEvents_, and mapper_.

Referenced by getBuffer().

                                 {
  
  // delete DCCTBEvents if any...
  std::vector<DCCTBEventBlock *>::iterator it;
  for(it=dccEvents_.begin();it!=dccEvents_.end();it++){delete *it;}
  dccEvents_.clear();
    
  delete mapper_;
}

Member Function Documentation

std::pair< uint32_t, uint32_t > DCCTBDataParser::checkEventLength	(	const uint32_t *	pointerToEvent,
		uint32_t	bytesToEnd,
		bool	singleEvent = false
	)

Check if EVENT LENGTH is coeherent and if BOE/EOE are correctly written returns 3 bits code with the error found + event length

Definition at line 217 of file DCCDataParser.cc.

References BOE, BOEBEGIN, BOEMASK, EMPTYEVENTSIZE, EOEBEGIN, EOEMASK, errors_, EVENTLENGTHMASK, events_, getDecString(), mps_fire::result, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by parseBuffer().

                                                                                                                                 {
    
  std::pair<uint32_t,uint32_t> result;    //returns error mask and event length 
  uint32_t errorMask(0);          //error mask to return

  //check begin of event (BOE bits field) 
  //(Note: we have to add one to read the 2nd 32 bit word where BOE is written)
  const uint32_t *boePointer = pointerToEvent + 1;
  if( (  ((*boePointer)>>BOEBEGIN)& BOEMASK  )  != BOE ) { 
    (errors_["DCC::BOE"])++; errorMask = 1; 
  }
    
    
  //get Event Length from buffer (Note: we have to add two to read the 3rd 32 bit word where EVENT LENGTH is written)
  const uint32_t * myPointer = pointerToEvent + 2; 
  uint32_t eventLength = (*myPointer)&EVENTLENGTHMASK;

  // std::cout << " Event Length(from decoding) = " << dec << eventLength << "... bytes to end... " << bytesToEnd << ", event numb : " << processedEvent_ << std::endl;
  
  bool eoeError = false;

  //check if event is empty but but EVENT LENGTH is not corresponding to it
  if( singleEvent && eventLength != bytesToEnd/8 ){
    eventLength = bytesToEnd/8;
    (errors_["DCC::EVENT LENGTH"])++; 
    errorMask = errorMask | (1<<1);
  }
  //check if event length mismatches the number of words written as data
  else if( eventLength == 0 || eventLength > (bytesToEnd / 8) || eventLength < (EMPTYEVENTSIZE/8) ){  
    // How to handle bad event length in multiple event buffers
    // First approach : Send an exception   
    // Second aproach : Try to find the EOE (To be done? If yes check dataDecoder tBeam implementation)
    std::string fatalError;
        
    fatalError +="\n ======================================================================";       
    fatalError +="\n Fatal error at event = " + getDecString(events_.size()+1);
    fatalError +="\n Decoded event length = " + getDecString(eventLength);
    fatalError +="\n bytes to buffer end  = " + getDecString(bytesToEnd);
    fatalError +="\n Unable to procead the data decoding ...";

    if(eventLength > (bytesToEnd / 8)){ fatalError +=" (eventLength > (bytesToEnd / 8)";}
    else{ fatalError += "\n event length not big enough heaven to build an empty event ( 4x8 bytes)";}

    fatalError +="\n ======================================================================";

    throw ECALTBParserException(fatalError);
  }

  //check end of event (EOE bits field) 
  //(Note: event length is multiplied by 2 because its written as 32 bit words and not 64 bit words)
  const uint32_t *endOfEventPointer = pointerToEvent + eventLength*2 -1;
  if ( (  ((*endOfEventPointer) >> EOEBEGIN & EOEMASK )  != EOEMASK) && !eoeError ){ 
    (errors_["DCC::EOE"])++; 
    errorMask = errorMask | (1<<2); 
  }
  
  //build result to return
  result.first  = errorMask;
  result.second = eventLength;
  
  return result;
}

void DCCTBDataParser::computeBlockSizes ( )

protected

Definition at line 35 of file DCCDataParser.cc.

References nTT, numbSRF(), numbTriggerSamples(), numbTTs(), srpBlockSize_, and tccBlockSize_.

Referenced by DCCTBDataParser(), and setParameters().

                                       {
  uint32_t nTT = numbTTs();                                      //gets the number of the trigger towers (default:68)  
  uint32_t tSamples = numbTriggerSamples();                      //gets the number of trigger time samples (default: 1)
  uint32_t nSr = numbSRF();                                      //gests the number of SR flags (default:68)

  uint32_t tf(0), srf(0);
    
  if( (nTT*tSamples)<4 || (nTT*tSamples)%4 ) tf=1;            //test is there is no TTC primitives or if it's a multiple of 4?
  else tf=0;
  

  if( srf<16 || srf%16 ) srf=1;                               //??? by default srf=0 why do we make this test ?????
  else srf=0;
  
  //TTC block size: header (8 bytes) + 17 words with 4 trigger primitives (17*8bytes)
  tccBlockSize_ = 8 + ((nTT*tSamples)/4)*8 + tf*8 ;          

  //SR block size: header (8 bytes) + 4 words with 16 SR flags + 1 word with 4 SR flags (5*8bytes)
  srpBlockSize_ = 8 + (nSr/16)*8 + srf*8;
}

std::vector< DCCTBEventBlock * > & DCCTBDataParser::dccEvents ( )

inline

Get method for DCCEventBlocks vector

Definition at line 199 of file DCCDataParser.h.

References dccEvents_.

Referenced by EcalTB07DaqFormatter::interpretRawData(), and EcalTBDaqFormatter::interpretRawData().

{ return dccEvents_;    }

uint32_t DCCTBDataParser::dccId ( )

inline

Definition at line 186 of file DCCDataParser.h.

{ return parameters[4]; }

bool DCCTBDataParser::debug ( )

inline

Get methods for debug flag

Definition at line 198 of file DCCDataParser.h.

References debug_.

Referenced by DCCTBEventBlock::DCCTBEventBlock(), DCCTBSRPBlock::DCCTBSRPBlock(), DCCTBTCCBlock::DCCTBTCCBlock(), DCCTBXtalBlock::DCCTBXtalBlock(), DCCTBXtalBlock::increment(), DCCTBSRPBlock::increment(), DCCTBTCCBlock::increment(), and DCCTBTowerBlock::parseXtalData().

{ return debug_;     }

std::map< std::string, uint32_t > & DCCTBDataParser::errorCounters ( )

inline

Get method for error counters map

Definition at line 200 of file DCCDataParser.h.

References errors_.

{ return errors_;       }

std::vector< std::pair< uint32_t, std::pair< const uint32_t *, uint32_t > > > DCCTBDataParser::events ( )

inline

Get method for events

Definition at line 201 of file DCCDataParser.h.

References events_.

{ return events_;   }

const uint32_t* DCCTBDataParser::getBuffer ( )

inline

Retrieves a pointer to the data buffer

Definition at line 131 of file DCCDataParser.h.

References buffer_, and ~DCCTBDataParser().

{ return buffer_;}

std::string DCCTBDataParser::getDecString

(

uint32_t

data

)

Methods to get data strings formatted as decimal/hexadecimal, indexes and indexed data

Definition at line 300 of file DCCDataParser.cc.

References edmScanValgrind::buffer, data, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by DCCTBDataMapper::buildDCCFields(), DCCTBDataMapper::buildSRPFields(), DCCTBDataMapper::buildTCCFields(), DCCTBDataMapper::buildXtalFields(), DCCTBBlockPrototype::checkDataField(), checkEventLength(), DCCTBEventBlock::dataCheck(), DCCTBTowerBlock::dataCheck(), DCCTBTCCBlock::dataCheck(), DCCTBEventBlock::DCCTBEventBlock(), DCCTBEventBlock::eventErrorString(), parseBuffer(), DCCTBBlockPrototype::parseData(), DCCTBTowerBlock::parseXtalData(), DCCTBTCCBlock::triggerFlags(), DCCTBTCCBlock::triggerSamples(), and DCCTBXtalBlock::xtalDataSamples().

                                                   {
    
  char buffer[15];
  long unsigned int data = dat;
  snprintf(buffer, sizeof(buffer), "%lu",data);

  return std::string(buffer);   
}

std::string DCCTBDataParser::getHexString

(

uint32_t

data

)

Definition at line 314 of file DCCDataParser.cc.

References edmScanValgrind::buffer, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by getIndexedData().

                                                    {
    
  char buffer[15];
  snprintf(buffer, sizeof(buffer), "0x%08x",(uint16_t)(data));

  return std::string(buffer);   
}

std::string DCCTBDataParser::getIndexedData	(	uint32_t	indexed,
		uint32_t *	pointer
	)

Definition at line 327 of file DCCDataParser.cc.

References getHexString(), index(), and AlCaHLTBitMon_QueryRunRegistry::string.

                                                                             {
  std::string ret;
  
  //char indexBuffer[20];
  //char dataBuffer[20];
  //sprintf(indexBuffer,"W[%08u] = ",position);
  //sprintf(dataBuffer,"0x%08x",*pointer);
  //ret = std::string(indexBuffer)+std::string(dataBuffer);

  ret = index(position) + getHexString(*pointer);
  
  return ret;   
}

std::string DCCTBDataParser::index

(

uint32_t

position

)

Definition at line 286 of file DCCDataParser.cc.

References position, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by getIndexedData(), and BeautifulSoup.PageElement::insert().

                                                 {

  char indexBuffer[20];
  long unsigned int pos = position;
  snprintf(indexBuffer, sizeof(indexBuffer), "W[%08lu]",pos);        //build an index string for display purposes, p.e.  W[15] 

  return std::string(indexBuffer);  
}

DCCTBDataMapper * DCCTBDataParser::mapper ( )

inline

Get method for DCCTBDataMapper

Definition at line 179 of file DCCDataParser.h.

References mapper_.

Referenced by DCCTBEventBlock::DCCTBEventBlock(), DCCTBSRPBlock::DCCTBSRPBlock(), DCCTBTCCBlock::DCCTBTCCBlock(), DCCTBTowerBlock::DCCTBTowerBlock(), DCCTBTrailerBlock::DCCTBTrailerBlock(), and DCCTBXtalBlock::DCCTBXtalBlock().

{ return mapper_;}

uint32_t DCCTBDataParser::numbSRF ( )

inline

Definition at line 185 of file DCCDataParser.h.

Referenced by computeBlockSizes(), and DCCTBSRPBlock::DCCTBSRPBlock().

{ return parameters[3]; }

uint32_t DCCTBDataParser::numbTriggerSamples ( )

inline

Definition at line 183 of file DCCDataParser.h.

Referenced by DCCTBDataMapper::buildTCCFields(), and computeBlockSizes().

{ return parameters[1]; }

uint32_t DCCTBDataParser::numbTTs ( )

inline

Definition at line 184 of file DCCDataParser.h.

Referenced by computeBlockSizes(), DCCTBTCCBlock::DCCTBTCCBlock(), DCCTBTCCBlock::triggerFlags(), and DCCTBTCCBlock::triggerSamples().

{ return parameters[2]; }

uint32_t DCCTBDataParser::numbXtalSamples ( )

inline

Definition at line 182 of file DCCDataParser.h.

Referenced by DCCTBDataMapper::buildXtalFields(), DCCTBTowerBlock::parseXtalData(), and DCCTBXtalBlock::xtalDataSamples().

{ return parameters[0]; }

void DCCTBDataParser::parseBuffer	(	const uint32_t *	buffer,
		uint32_t	bufferSize,
		bool	singleEvent = false
	)

Parse data from a buffer

Definition at line 113 of file DCCDataParser.cc.

References edmScanValgrind::buffer, buffer_, checkEventLength(), dccEvents_, EMPTYEVENTSIZE, eventErrors_, events_, getDecString(), parseInternalData_, processedEvent_, resetErrorCounters(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by EcalTB07DaqFormatter::interpretRawData(), EcalTBDaqFormatter::interpretRawData(), and parseFile().

                                                                                               {
    
  resetErrorCounters();                           //reset error counters
    
  buffer_ = buffer;                               //set class buffer
  
  //clear stored data
  processedEvent_ = 0;
  events_.clear();
  std::vector<DCCTBEventBlock *>::iterator it;
  for( it = dccEvents_.begin(); it!=dccEvents_.end(); it++ ) { delete *it; }
  dccEvents_.clear();
  eventErrors_ = "";
    
  //for debug purposes
  //std::cout << std::endl << "Now in DCCTBDataParser::parseBuffer" << std::endl;
  //std::cout << std::endl << "Buffer Size:" << dec << bufferSize << std::endl;
    
  //check if we have a coherent buffer size
  if( bufferSize%8  ){
    std::string fatalError ;
    fatalError += "\n ======================================================================";      
    fatalError += "\n Fatal error at event = " + getDecString(events_.size()+1);
    fatalError += "\n Buffer Size of = "+ getDecString(bufferSize) + "[bytes] is not divisible by 8 ... ";
    fatalError += "\n ======================================================================";
    throw ECALTBParserException(fatalError);
  }
  if ( bufferSize < EMPTYEVENTSIZE ){
    std::string fatalError ;
    fatalError += "\n ======================================================================";      
    fatalError += "\n Fatal error at event = " + getDecString(events_.size()+1);
    fatalError += "\n Buffer Size of = "+ getDecString(bufferSize) + "[bytes] is less than an empty event ... ";
    fatalError += "\n ======================================================================";
    throw ECALTBParserException(fatalError);
  }

  const uint32_t *myPointer =  buffer_;                        
  
  //  uint32_t processedBytes(0), wordIndex(0), lastEvIndex(0),eventSize(0), eventLength(0), errorMask(0);
  uint32_t processedBytes(0), wordIndex(0), eventLength(0), errorMask(0);
  
  //parse until there are no more events
  while( processedBytes + EMPTYEVENTSIZE <= bufferSize ){

    //for debug purposes
    //std::cout << "-> processedBytes.  =   " << dec << processedBytes << std::endl;
    //std::cout << " -> Processed Event index =   " << dec << processedEvent_ << std::endl;
    //std::cout << "-> First ev.word    = 0x" << hex << (*myPointer) << std::endl;
    //std::cout << "-> word index       =   " << dec << wordIndex << std::endl;
    
    //check if Event Length is coherent /////////////////////////////////////////
    uint32_t bytesToEnd         = bufferSize - processedBytes;
    std::pair<uint32_t,uint32_t> eventD = checkEventLength(myPointer,bytesToEnd,singleEvent);
    eventLength              = eventD.second; 
    errorMask                = eventD.first;
     
    //for debug purposes
    //std::cout <<" -> EventSizeBytes        =   " << dec << eventLength*8 << std::endl;
   
      
         
    //for debug purposes debug 
    //std::cout<<std::endl;
    //std::cout<<" out... Bytes To End.... =   "<<dec<<bytesToEnd<<std::endl;
    //std::cout<<" out... Processed Event  =   "<<dec<<processedEvent_<<std::endl;  
    //std::cout<<" out... Event Length     =   "<<dec<<eventLength<<std::endl;
    //std::cout<<" out... LastWord         = 0x"<<hex<<*(myPointer+eventLength*2-1)<<std::endl;
    
    if (parseInternalData_){ 
      //build a new event block from buffer
      DCCTBEventBlock *myBlock = new DCCTBEventBlock(this,myPointer,eventLength*8, eventLength*2 -1 ,wordIndex,0);
      
      //add event to dccEvents vector
      dccEvents_.push_back(myBlock);
    }
    
    //build the event pointer with error mask and add it to the events vector
    std::pair<const uint32_t *, uint32_t> eventPointer(myPointer,eventLength);
    std::pair<uint32_t, std::pair<const uint32_t*, uint32_t> > eventPointerWithErrorMask(errorMask,eventPointer);
    events_.push_back(eventPointerWithErrorMask);
            
    //update processed buffer size 
    processedEvent_++;
    processedBytes += eventLength*8;
    //std::cout << std::endl << "Processed Bytes = " << dec << processedBytes << std::endl;
    
    //go to next event
    myPointer     += eventLength*2;
    wordIndex     += eventLength*2;
  } 
}

void DCCTBDataParser::parseFile	(	std::string	fileName,
		bool	singleEvent = false
	)

Parse data from file

Definition at line 61 of file DCCDataParser.cc.

References bufferSize_, MillePedeFileConverter_cfg::fileName, mps_fire::i, analyzePatCleaning_cfg::inputFile, parseBuffer(), resetErrorCounters(), and AlCaHLTBitMon_QueryRunRegistry::string.

                                                                   {
    
  std::ifstream inputFile;                            //open file as input
  inputFile.open(fileName.c_str());
    
  resetErrorCounters();                          //reset error counters

  //for debug purposes
  //std::cout << "Now in DCCTBDataParser::parseFile " << std::endl;

    
  //if file opened correctly read data to a buffer and parse it
  //else throw an exception
  if( !inputFile.fail() ){ 
    
    std::string myWord;                               //word read from line
    std::vector<std::string> dataVector;                   //data vector
    
    //until the end of file read each line as a string and add it to the data vector
    while( inputFile >> myWord ){ 
      dataVector.push_back( myWord ); 
    }
    
    bufferSize_ = (dataVector.size() ) * 4 ;      //buffer size in bytes (note:each char is an hex number)

    uint32_t *myData = new uint32_t[dataVector.size()];       //allocate memory for a new data buffer
    uint32_t * const myDataBeginning = myData;                //pointer that stays at the beginning of the allocated memory
    
    //fill buffer data with data from file lines
    for(uint32_t i = 1; i <= dataVector.size() ; i++, myData++ ){
      sscanf((dataVector[i-1]).c_str(),"%x",myData);
      
      //for debug purposes
      //std::cout << std::endl << "Data position: " << dec << i << " val = " << getHexString(*myData);
    }
    
    inputFile.close();                              //close file
    
    parseBuffer( myData,bufferSize_,singleEvent);  //parse data from the newly filled myData
    delete [] myDataBeginning;
  }
  else{ 
    std::string errorMessage = std::string(" Error::Unable to open file :") + fileName;
    throw ECALTBParserException(errorMessage);
  }
}

std::vector< uint32_t > DCCTBDataParser::parserParameters ( )

inline

Get methods for parser parameters;

Definition at line 181 of file DCCDataParser.h.

References parameters.

{ return parameters; }

void DCCTBDataParser::resetErrorCounters

(

)

Reset Error Counters

Definition at line 23 of file DCCDataParser.cc.

References errors_.

Referenced by DCCTBDataParser(), parseBuffer(), and parseFile().

                                        {
  //set error counters to 0
  errors_["DCC::BOE"] = 0;               //begin of event (header B[60-63])
  errors_["DCC::EOE"] = 0;               //end of event (trailer B[60-63])
  errors_["DCC::EVENT LENGTH"] = 0;  //event length (trailer B[32-55])
}

void DCCTBDataParser::setParameters ( const std::vector< uint32_t > &  newParameters )

inline

Set method for parser parameters

Definition at line 193 of file DCCDataParser.h.

References computeBlockSizes().

{ parameters = newParameters; computeBlockSizes();}

uint32_t DCCTBDataParser::srpBlockSize ( )

inline

Get methods for block sizes

Definition at line 195 of file DCCDataParser.h.

References srpBlockSize_.

Referenced by DCCTBEventBlock::DCCTBEventBlock().

{ return srpBlockSize_; } 

uint32_t DCCTBDataParser::srpId ( )

inline

Definition at line 187 of file DCCDataParser.h.

Referenced by DCCTBSRPBlock::dataCheck().

{ return parameters[5]; }

uint32_t DCCTBDataParser::tcc1Id ( )

inline

Definition at line 188 of file DCCDataParser.h.

Referenced by DCCTBEventBlock::DCCTBEventBlock().

{ return parameters[6]; } 

uint32_t DCCTBDataParser::tcc2Id ( )

inline

Definition at line 189 of file DCCDataParser.h.

Referenced by DCCTBEventBlock::DCCTBEventBlock().

{ return parameters[7]; } 

uint32_t DCCTBDataParser::tcc3Id ( )

inline

Definition at line 190 of file DCCDataParser.h.

Referenced by DCCTBEventBlock::DCCTBEventBlock().

{ return parameters[8]; } 

uint32_t DCCTBDataParser::tcc4Id ( )

inline

Definition at line 191 of file DCCDataParser.h.

Referenced by DCCTBEventBlock::DCCTBEventBlock().

{ return parameters[9]; }

uint32_t DCCTBDataParser::tccBlockSize ( )

inline

Definition at line 196 of file DCCDataParser.h.

References tccBlockSize_.

Referenced by DCCTBEventBlock::DCCTBEventBlock().

{ return tccBlockSize_; } 

Member Data Documentation

const uint32_t* DCCTBDataParser::buffer_

protected

Definition at line 145 of file DCCDataParser.h.

Referenced by getBuffer(), and parseBuffer().

uint32_t DCCTBDataParser::bufferSize_

protected

Definition at line 146 of file DCCDataParser.h.

Referenced by parseFile().

std::vector<DCCTBEventBlock *> DCCTBDataParser::dccEvents_

protected

Definition at line 155 of file DCCDataParser.h.

Referenced by dccEvents(), parseBuffer(), and ~DCCTBDataParser().

bool DCCTBDataParser::debug_

protected

Definition at line 161 of file DCCDataParser.h.

Referenced by debug().

std::map<std::string,uint32_t> DCCTBDataParser::errors_

protected

Definition at line 162 of file DCCDataParser.h.

Referenced by checkEventLength(), errorCounters(), and resetErrorCounters().

std::string DCCTBDataParser::eventErrors_

protected

Definition at line 152 of file DCCDataParser.h.

Referenced by parseBuffer().

std::vector< std::pair< uint32_t, std::pair<const uint32_t *, uint32_t> > > DCCTBDataParser::events_

protected

Definition at line 158 of file DCCDataParser.h.

Referenced by checkEventLength(), events(), and parseBuffer().

DCCTBDataMapper* DCCTBDataParser::mapper_

protected

Definition at line 153 of file DCCDataParser.h.

Referenced by DCCTBDataParser(), mapper(), and ~DCCTBDataParser().

std::vector<uint32_t> DCCTBDataParser::parameters

protected

Definition at line 163 of file DCCDataParser.h.

Referenced by Vispa.Plugins.ConfigEditor.ConfigDataAccessor.ConfigDataAccessor::inputTags(), parserParameters(), Vispa.Plugins.ConfigEditor.ConfigDataAccessor.ConfigDataAccessor::properties(), and Vispa.Plugins.ConfigEditor.ConfigDataAccessor.ConfigDataAccessor::recursePSetProperties().

bool DCCTBDataParser::parseInternalData_

protected

Definition at line 160 of file DCCDataParser.h.

Referenced by parseBuffer().

uint32_t DCCTBDataParser::processedEvent_

protected

Definition at line 151 of file DCCDataParser.h.

Referenced by parseBuffer().

uint32_t DCCTBDataParser::srpBlockSize_

protected

Definition at line 148 of file DCCDataParser.h.

Referenced by computeBlockSizes(), and srpBlockSize().

uint32_t DCCTBDataParser::tccBlockSize_

protected

Definition at line 149 of file DCCDataParser.h.

Referenced by computeBlockSizes(), and tccBlockSize().