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Public Member Functions

DTTFMasksOnlineProd Class Reference

Inheritance diagram for DTTFMasksOnlineProd:
L1ConfigOnlineProdBase< L1MuDTTFMasksRcd, L1MuDTTFMasks > edm::ESProducer edm::ESProxyFactoryProducer edm::eventsetup::DataProxyProvider

List of all members.

Public Member Functions

 DTTFMasksOnlineProd (const edm::ParameterSet &)
virtual boost::shared_ptr
< L1MuDTTFMasks
newObject (const std::string &objectKey)
 ~DTTFMasksOnlineProd ()

Detailed Description

Description: <one line="" class="" summary>="">

Implementation: <Notes on="" implementation>="">

Definition at line 34 of file DTTFMasksOnlineProd.cc.


Constructor & Destructor Documentation

DTTFMasksOnlineProd::DTTFMasksOnlineProd ( const edm::ParameterSet iConfig)

Definition at line 51 of file DTTFMasksOnlineProd.cc.

  : L1ConfigOnlineProdBase< L1MuDTTFMasksRcd, L1MuDTTFMasks >( iConfig )
{
   //the following line is needed to tell the framework what
   // data is being produced

   //now do what ever other initialization is needed
}
DTTFMasksOnlineProd::~DTTFMasksOnlineProd ( )

Definition at line 62 of file DTTFMasksOnlineProd.cc.

{
 
   // do anything here that needs to be done at desctruction time
   // (e.g. close files, deallocate resources etc.)

}

Member Function Documentation

boost::shared_ptr< L1MuDTTFMasks > DTTFMasksOnlineProd::newObject ( const std::string &  objectKey) [virtual]

Implements L1ConfigOnlineProdBase< L1MuDTTFMasksRcd, L1MuDTTFMasks >.

Definition at line 71 of file DTTFMasksOnlineProd.cc.

References l1t::OMDSReader::basicQuery(), gather_cfg::cout, L1ConfigOnlineProdBase< L1MuDTTFMasksRcd, L1MuDTTFMasks >::m_omdsReader, NULL, and l1t::OMDSReader::singleAttribute().

{
     using namespace edm::es;

     boost::shared_ptr< L1MuDTTFMasks > pDTTFMasks(
       new L1MuDTTFMasks() ) ;

     pDTTFMasks->reset() ;

     std::string dttfSchema = "CMS_DT_TF" ;

     // Order of strings is used below -- don't change!
     std::vector< std::string > crateMaskColumns ;
     crateMaskColumns.push_back( "WEDGE_CRATE_1" ) ;
     crateMaskColumns.push_back( "WEDGE_CRATE_2" ) ;
     crateMaskColumns.push_back( "WEDGE_CRATE_3" ) ;
     crateMaskColumns.push_back( "WEDGE_CRATE_4" ) ;
     crateMaskColumns.push_back( "WEDGE_CRATE_5" ) ;
     crateMaskColumns.push_back( "WEDGE_CRATE_6" ) ;
     crateMaskColumns.push_back( "WEDGE_CRATE_1_E" ) ;
     crateMaskColumns.push_back( "WEDGE_CRATE_2_E" ) ;
     crateMaskColumns.push_back( "WEDGE_CRATE_3_E" ) ;
     crateMaskColumns.push_back( "WEDGE_CRATE_4_E" ) ;
     crateMaskColumns.push_back( "WEDGE_CRATE_5_E" ) ;
     crateMaskColumns.push_back( "WEDGE_CRATE_6_E" ) ;

     l1t::OMDSReader::QueryResults crateMaskResults =
       m_omdsReader.basicQuery( crateMaskColumns,
                                dttfSchema,
                                "DTTF_RUN_SETTINGS",
                                "DTTF_RUN_SETTINGS.ID",
                                m_omdsReader.singleAttribute( objectKey ) ) ;

     if( crateMaskResults.queryFailed() ||
         crateMaskResults.numberRows() != 1 ) // check query successful
       {
         edm::LogError( "L1-O2O" )
           << "Problem with L1MuDTTFMasks key " << objectKey ;
         return boost::shared_ptr< L1MuDTTFMasks >() ;
       }

     // Cache crate masks
     unsigned long crateMaskL[ 6 ] ;
     unsigned long crateMaskR[ 6 ] ;
     unsigned long krateMaskL[ 6 ] ;
     unsigned long krateMaskR[ 6 ] ;
     for( int icrate = 0 ; icrate < 6 ; ++icrate )
       {
         std::string crateMask ;
         crateMaskResults.fillVariable( crateMaskColumns[ icrate ],
                                        crateMask ) ;
         char* pEnd;
         crateMaskL[ icrate ] = std::strtol( crateMask.c_str(), &pEnd, 16 ) ;
         crateMaskR[ icrate ] = std::strtol( pEnd, (char **)NULL, 16 ) ;

         crateMaskResults.fillVariable( crateMaskColumns[ icrate+6 ],
                                        crateMask ) ;
         krateMaskL[ icrate ] = std::strtol( crateMask.c_str(), &pEnd, 16 ) ;
         krateMaskR[ icrate ] = std::strtol( pEnd, (char **)NULL, 16 ) ;

         std::cout << "Crate " << icrate << " masks"
                   << " L: " << std::hex << crateMaskL[ icrate ]
                   << " "    << std::hex << krateMaskL[ icrate ]
                   << " R: " << std::hex << crateMaskR[ icrate ]
                   << " "    << std::hex << krateMaskR[ icrate ] << std::endl ;
       }

     // Map of sector (0-11) to name (L/R)
     std::string sectorNames[ 12 ] = {
       "R", "L", "R", "L", "L", "R", "L", "R", "R", "L", "R", "L" } ;

     // Map of sector (0-11) to crate (0-5)
     int crateNumbers[ 12 ] = { 3, 3, 4, 4, 5, 5, 2, 2, 1, 1, 0, 0 } ;

     // Map of wheel array index to wheel number (+- 3, 2, 1).
     int wheelNumbers[ 6 ] = { -3, -2, -1, 1, 2, 3 } ;

     // Map of wheel array index to name ({N,P}{0,1,2}).
     std::string wheelNames[ 6 ] = { "N2", "N1", "N0", "P0", "P1", "P2" } ;

     // Map of sector+wheel name to bit number in crate mask
     std::map< std::string, unsigned int > crateMaskBitmap ;
     crateMaskBitmap.insert( std::make_pair( "N2", 24 ) ) ;
     crateMaskBitmap.insert( std::make_pair( "N1", 20 ) ) ;
     crateMaskBitmap.insert( std::make_pair( "N0", 16 ) ) ;
     crateMaskBitmap.insert( std::make_pair( "P0",  8 ) ) ;
     crateMaskBitmap.insert( std::make_pair( "P1",  4 ) ) ;
     crateMaskBitmap.insert( std::make_pair( "P2",  0 ) ) ;

     std::map< std::string, unsigned int > krateMaskBitmap ;
     krateMaskBitmap.insert( std::make_pair( "N2", 16 ) ) ;
     krateMaskBitmap.insert( std::make_pair( "N1", 12 ) ) ;
     krateMaskBitmap.insert( std::make_pair( "P0",  8 ) ) ;
     krateMaskBitmap.insert( std::make_pair( "P1",  4 ) ) ;
     krateMaskBitmap.insert( std::make_pair( "P2",  0 ) ) ;

     // Loop over sectors 0-11
     for( int isc = 0 ; isc < 12 ; ++isc )
       {
         int crateNumber = crateNumbers[ isc ] ;
         unsigned long crateMask = crateMaskL[ crateNumber ] ;
         if ( sectorNames[ isc ] == "R" ) crateMask = crateMaskR[ crateNumber ] ;
         unsigned long krateMask = krateMaskL[ crateNumber ] ;
         if ( sectorNames[ isc ] == "R" ) krateMask = krateMaskR[ crateNumber ] ;
         std::cout << "isc " << isc << " icr " << crateNumber << std::endl ;

         // Loop over wheels 0-5
         for( int iwh = 0 ; iwh < 6 ; ++iwh )
           {
             std::string sectorWheelName =
               sectorNames[ isc ] + wheelNames[ iwh ] ;

             unsigned int maskBit = 30 ;
             std::map< std::string, unsigned int >::const_iterator itr =
               crateMaskBitmap.find( wheelNames[ iwh ] ) ;
             if( itr != crateMaskBitmap.end() ) maskBit = itr->second ;

             unsigned long phtfEnabled = ( crateMask >> maskBit ) & 0xF ;

             if ( wheelNames[ iwh ] == "P2" ) phtfEnabled += ( crateMask >> 24 ) & 0x10 ;
             if ( wheelNames[ iwh ] == "N2" ) phtfEnabled += ( crateMask >> 25 ) & 0x10 ;

             std::cout << "Bits " << std::dec << maskBit << " (" << sectorWheelName
                       << ") of mask " << std::hex << crateMask << " is "
                       << std::hex << phtfEnabled << std::endl ;

             int nwh = wheelNumbers[ iwh ] ;

             unsigned long chmask = phtfEnabled & 0x1;
             std::cout << " INREC_CHDIS_ST1 " << 1-chmask ;
             pDTTFMasks->set_inrec_chdis_st1( nwh, isc, 1-chmask ) ;
             chmask = ( phtfEnabled >> 1 ) & 0x1;
             std::cout << " INREC_CHDIS_ST2 " << 1-chmask ;
             pDTTFMasks->set_inrec_chdis_st2( nwh, isc, 1-chmask ) ;
             chmask = ( phtfEnabled >> 2 ) & 0x1;
             std::cout << " INREC_CHDIS_ST3 " << 1-chmask ;
             pDTTFMasks->set_inrec_chdis_st3( nwh, isc, 1-chmask ) ;
             chmask = ( phtfEnabled >> 3 ) & 0x1;
             std::cout << " INREC_CHDIS_ST4 " << 1-chmask ;
             pDTTFMasks->set_inrec_chdis_st4( nwh, isc, 1-chmask ) ;
             chmask = ( phtfEnabled >> 4 ) & 0x1;
             std::cout << " INREC_CHDIS_CSC " << 1-chmask << std::endl ;
             pDTTFMasks->set_inrec_chdis_csc( nwh, isc, 1-chmask ) ;

             if ( wheelNames[ iwh ] == "N0" ) continue ;

             maskBit = 20 ;
             itr = krateMaskBitmap.find( wheelNames[ iwh ] ) ;
             if( itr != krateMaskBitmap.end() ) maskBit = itr->second ;

             unsigned long ettfEnabled = ( krateMask >> maskBit ) & 0x7 ;

             std::cout << "Bits " << std::dec << maskBit << " (" << sectorWheelName
                       << ") of mask " << std::hex << krateMask << " is "
                       << std::hex << ettfEnabled << std::endl ;

             chmask = ettfEnabled & 0x1;
             std::cout << " ETSOC_CHDIS_ST1 " << 1-chmask ;
             pDTTFMasks->set_etsoc_chdis_st1( nwh, isc, 1-chmask ) ;
             chmask = ( ettfEnabled >> 1 ) & 0x1;
             std::cout << " ETSOC_CHDIS_ST2 " << 1-chmask ;
             pDTTFMasks->set_etsoc_chdis_st2( nwh, isc, 1-chmask ) ;
             chmask = ( ettfEnabled >> 2 ) & 0x1;
             std::cout << " ETSOC_CHDIS_ST3 " << 1-chmask << std::endl ;
             pDTTFMasks->set_etsoc_chdis_st3( nwh, isc, 1-chmask ) ;
           }
       }

     return pDTTFMasks ;
}