de/d9c/SiStripDigiToRaw_8cc_source.html

 #include "SiStripDigiToRaw.h"

 #include "CondFormats/SiStripObjects/interface/SiStripFedCabling.h"

 #include "DataFormats/FEDRawData/interface/FEDRawDataCollection.h"

 #include "DataFormats/FEDRawData/interface/FEDHeader.h"

 #include "DataFormats/FEDRawData/interface/FEDTrailer.h"

 #include "DataFormats/SiStripDigi/interface/SiStripDigi.h"

 #include "DataFormats/SiStripDigi/interface/SiStripRawDigi.h"

 #include "DataFormats/SiStripCommon/interface/SiStripConstants.h"

 #include "FWCore/Utilities/interface/CRC16.h"

 #include "FWCore/MessageLogger/interface/MessageLogger.h"

 #include "EventFilter/SiStripRawToDigi/interface/SiStripFEDBuffer.h"

 #include <iostream>

 #include <iomanip>

 #include <sstream>

 #include <vector>


 namespace sistrip {


   // -----------------------------------------------------------------------------

   DigiToRaw::DigiToRaw( FEDReadoutMode mode,

             bool useFedKey ) :

     mode_(mode),

     useFedKey_(useFedKey),

     bufferGenerator_()

   {

     if ( edm::isDebugEnabled() ) {

       LogDebug("DigiToRaw")

     << "[sistrip::DigiToRaw::DigiToRaw]"

     << " Constructing object...";

     }

     bufferGenerator_.setReadoutMode(mode_);

   }


   // -----------------------------------------------------------------------------

   DigiToRaw::~DigiToRaw() {

     if ( edm::isDebugEnabled() ) {

       LogDebug("DigiToRaw")

     << "[sistrip::DigiToRaw::~DigiToRaw]"

     << " Destructing object...";

     }

   }


   // -----------------------------------------------------------------------------

   void DigiToRaw::createFedBuffers( edm::Event& event,

                     edm::ESHandle<SiStripFedCabling>& cabling,

                     edm::Handle< edm::DetSetVector<SiStripDigi> >& collection,

                     std::auto_ptr<FEDRawDataCollection>& buffers ) {

     createFedBuffers_(event, cabling, collection, buffers, true);

   }


   void DigiToRaw::createFedBuffers( edm::Event& event,

                     edm::ESHandle<SiStripFedCabling>& cabling,

                     edm::Handle< edm::DetSetVector<SiStripRawDigi> >& collection,

                     std::auto_ptr<FEDRawDataCollection>& buffers ) {

     createFedBuffers_(event, cabling, collection, buffers, false);

   }


   //with copy of headers from initial raw data collection (raw->digi->raw)

   void DigiToRaw::createFedBuffers( edm::Event& event,

                     edm::ESHandle<SiStripFedCabling>& cabling,

                     edm::Handle<FEDRawDataCollection> & rawbuffers,

                     edm::Handle< edm::DetSetVector<SiStripDigi> >& collection,

                     std::auto_ptr<FEDRawDataCollection>& buffers ) {

     createFedBuffers_(event, cabling, rawbuffers, collection, buffers, true);

   }


   void DigiToRaw::createFedBuffers( edm::Event& event,

                     edm::ESHandle<SiStripFedCabling>& cabling,

                     edm::Handle<FEDRawDataCollection> & rawbuffers,

                     edm::Handle< edm::DetSetVector<SiStripRawDigi> >& collection,

                     std::auto_ptr<FEDRawDataCollection>& buffers ) {

     createFedBuffers_(event, cabling, rawbuffers, collection, buffers, false);

   }


   template<class Digi_t>

   void DigiToRaw::createFedBuffers_( edm::Event& event,

                      edm::ESHandle<SiStripFedCabling>& cabling,

                      edm::Handle< edm::DetSetVector<Digi_t> >& collection,

                      std::auto_ptr<FEDRawDataCollection>& buffers,

                      bool zeroSuppressed) {


     edm::Handle<FEDRawDataCollection> rawbuffers;

     //CAMM initialise to some dummy empty buffers??? Or OK like this ?

     createFedBuffers_(event,cabling,rawbuffers,collection,buffers,zeroSuppressed);


   }


   template<class Digi_t>

   void DigiToRaw::createFedBuffers_( edm::Event& event,

                      edm::ESHandle<SiStripFedCabling>& cabling,

                      edm::Handle<FEDRawDataCollection> & rawbuffers,

                      edm::Handle< edm::DetSetVector<Digi_t> >& collection,

                      std::auto_ptr<FEDRawDataCollection>& buffers,

                      bool zeroSuppressed) {

     try {


       //set the L1ID to use in the buffers

       bufferGenerator_.setL1ID(0xFFFFFF & event.id().event());

       auto fed_ids = cabling->fedIds();


       //copy header if valid rawbuffers handle

       if (rawbuffers.isValid()){

     if ( edm::isDebugEnabled() ) {

       edm::LogWarning("DigiToRaw")

         << "[sistrip::DigiToRaw::createFedBuffers_]"

         << " Valid raw buffers, getting headers from them..."

         << " Number of feds: " << fed_ids.size() << " between "

         << *(fed_ids.begin()) << " and " << *(fed_ids.end());

     }


     const FEDRawDataCollection& rawDataCollection = *rawbuffers;


     for ( auto ifed = fed_ids.begin(); ifed != fed_ids.end(); ++ifed ) {

       const FEDRawData& rawfedData = rawDataCollection.FEDData(*ifed);


       if ( edm::isDebugEnabled() ) {

         edm::LogWarning("DigiToRaw")

           << "[sistrip::DigiToRaw::createFedBuffers_]"

           << "Fed " << *ifed << " : size of buffer = " << rawfedData.size();

       }


       //need to construct full object to copy full header

       std::auto_ptr<const sistrip::FEDBuffer> fedbuffer;

       //std::auto_ptr<const sistrip::FEDBufferBase> bufferBase;

       try {

         fedbuffer.reset(new sistrip::FEDBuffer(rawfedData.data(),rawfedData.size(),true));

         //bufferBase.reset(new sistrip::FEDBufferBase(rawfedData.data(),rawfedData.size()));

       } catch (const cms::Exception& e) {

         edm::LogWarning("DigiToRaw") << "[sistrip::DigiToRaw::createFedBuffers_]"

               << " Invalid raw data, cannot get buffer..."

               << std::endl;

       }


       if ( edm::isDebugEnabled() ) {

         edm::LogWarning("DigiToRaw")

           << "[sistrip::DigiToRaw::createFedBuffers_]"

           << " Original header type: " << fedbuffer->headerType();

       }


       bufferGenerator_.setHeaderType(FEDHeaderType::HEADER_TYPE_FULL_DEBUG);

       //fedbuffer->headerType());

       bufferGenerator_.daqHeader() = fedbuffer->daqHeader();

       bufferGenerator_.daqTrailer() = fedbuffer->daqTrailer();


       bufferGenerator_.trackerSpecialHeader() = fedbuffer->trackerSpecialHeader();

       bufferGenerator_.setReadoutMode(mode_);


       if ( edm::isDebugEnabled() ) {

         std::ostringstream debugStream;

         if(ifed==fed_ids.begin()){  bufferGenerator_.trackerSpecialHeader().print(std::cout); std::cout << std::endl;}

         bufferGenerator_.trackerSpecialHeader().print(debugStream);

         edm::LogWarning("DigiToRaw")

           << "[sistrip::DigiToRaw::createFedBuffers_]"

           << " Tracker special header apveAddress: " << static_cast<int>(bufferGenerator_.trackerSpecialHeader().apveAddress())

           << " - event type = " << bufferGenerator_.getDAQEventType()

           << " - buffer format = " << bufferGenerator_.getBufferFormat() << "\n"

           << " - SpecialHeader bufferformat " << bufferGenerator_.trackerSpecialHeader().bufferFormat()

           << " - headertype " << bufferGenerator_.trackerSpecialHeader().headerType()

           << " - readoutmode " << bufferGenerator_.trackerSpecialHeader().readoutMode()

           << " - apvaddrregister " << std::hex << static_cast<int>(bufferGenerator_.trackerSpecialHeader().apvAddressErrorRegister())

           << " - feenabledregister " << std::hex << static_cast<int>(bufferGenerator_.trackerSpecialHeader().feEnableRegister())

           << " - feoverflowregister " << std::hex << static_cast<int>(bufferGenerator_.trackerSpecialHeader().feOverflowRegister())

           << " - statusregister " << bufferGenerator_.trackerSpecialHeader().fedStatusRegister() << "\n"

           << " SpecialHeader: " << debugStream.str();

       }


       std::auto_ptr<FEDFEHeader> tempFEHeader(fedbuffer->feHeader()->clone());

       FEDFullDebugHeader* fedFeHeader = dynamic_cast<FEDFullDebugHeader*>(tempFEHeader.get());

       if ( edm::isDebugEnabled() ) {

         std::ostringstream debugStream;

         if(ifed==fed_ids.begin()){  std::cout << "FEHeader before transfer: " << std::endl;fedFeHeader->print(std::cout);std::cout  <<std::endl;}

         fedFeHeader->print(debugStream);

         edm::LogWarning("DigiToRaw")

           << "[sistrip::DigiToRaw::createFedBuffers_]"

           << " length of original feHeader: " << fedFeHeader->lengthInBytes() << "\n"

           << debugStream.str();

       }

           //status registers

           (bufferGenerator_.feHeader()).setBEStatusRegister(fedFeHeader->beStatusRegister());

           (bufferGenerator_.feHeader()).setDAQRegister2(fedFeHeader->daqRegister2());

           (bufferGenerator_.feHeader()).setDAQRegister(fedFeHeader->daqRegister());

           for(uint8_t iFE=1; iFE<6; iFE++) {

             (bufferGenerator_.feHeader()).set32BitReservedRegister(iFE,fedFeHeader->get32BitWordFrom(fedFeHeader->feWord(iFE)+10));

           }


           std::vector<bool> feEnabledVec;

       feEnabledVec.resize(FEUNITS_PER_FED,true);

       for (uint8_t iFE = 0; iFE < FEUNITS_PER_FED; iFE++) {

             feEnabledVec[iFE]=fedbuffer->trackerSpecialHeader().feEnabled(iFE);

             (bufferGenerator_.feHeader()).setFEUnitMajorityAddress(iFE,fedFeHeader->feUnitMajorityAddress(iFE));

         for (uint8_t iFEUnitChannel = 0; iFEUnitChannel < FEDCH_PER_FEUNIT; iFEUnitChannel++) {

           (bufferGenerator_.feHeader()).setChannelStatus(iFE,iFEUnitChannel,fedFeHeader->getChannelStatus(iFE,iFEUnitChannel));

         }//loop on channels

       }//loop on fe units

           bufferGenerator_.setFEUnitEnables(feEnabledVec);


       if ( edm::isDebugEnabled() ) {

         std::ostringstream debugStream;

         if(ifed==fed_ids.begin()){  std::cout << "\nFEHeader after transfer: " << std::endl;bufferGenerator_.feHeader().print(std::cout); std::cout << std::endl;}

         bufferGenerator_.feHeader().print(debugStream);

         edm::LogWarning("DigiToRaw")

           << "[sistrip::DigiToRaw::createFedBuffers_]"

           << " length of feHeader: " << bufferGenerator_.feHeader().lengthInBytes() << "\n"

           << debugStream.str();

       }

           auto conns = cabling->fedConnections(*ifed);


           //for special mode premix raw, data is zero-suppressed but not converted to 8 bit

           //zeroSuppressed here means converted to 8 bit...

           if (mode_ == READOUT_MODE_PREMIX_RAW) zeroSuppressed=false;

           FEDStripData fedData(zeroSuppressed);


           for (auto iconn = conns.begin() ; iconn != conns.end(); iconn++ ) {


             // Determine FED key from cabling

             uint32_t fed_key = ( ( iconn->fedId() & sistrip::invalid_ ) << 16 ) | ( iconn->fedCh() & sistrip::invalid_ );


             // Determine whether DetId or FED key should be used to index digi containers

             uint32_t key = ( useFedKey_ || mode_ == READOUT_MODE_SCOPE ) ? fed_key : iconn->detId();


             // Check key is non-zero and valid

             if ( !key || ( key == sistrip::invalid32_ ) ) { continue; }


             // Determine APV pair number (needed only when using DetId)

             uint16_t ipair = ( useFedKey_ || mode_ == READOUT_MODE_SCOPE ) ? 0 : iconn->apvPairNumber();


             FEDStripData::ChannelData& chanData = fedData[iconn->fedCh()];


             // Find digis for DetID in collection

             if (!collection.isValid()){

               if ( edm::isDebugEnabled() ) {

                 edm::LogWarning("DigiToRaw")

             << "[DigiToRaw::createFedBuffers] "

             << "digis collection is not valid...";

               }

               break;

             }

             typename std::vector< edm::DetSet<Digi_t> >::const_iterator digis = collection->find( key );

             if (digis == collection->end()) { continue; }


             typename edm::DetSet<Digi_t>::const_iterator idigi, digis_begin(digis->data.begin());

             for ( idigi = digis_begin; idigi != digis->data.end(); idigi++ ) {


               if ( STRIP(idigi, digis_begin) < ipair*256 ||

              STRIP(idigi, digis_begin) > ipair*256+255 ) { continue; }

               const unsigned short strip = STRIP(idigi, digis_begin) % 256;


               if ( strip >= STRIPS_PER_FEDCH ) {

                 if ( edm::isDebugEnabled() ) {

             std::stringstream ss;

             ss << "[sistrip::DigiToRaw::createFedBuffers]"

                << " strip >= strips_per_fedCh";

             edm::LogWarning("DigiToRaw") << ss.str();

                 }

                 continue;

               }


               // check if value already exists

               if ( edm::isDebugEnabled() ) {

                 const uint16_t value = 0;//chanData[strip];

                 if ( value && value != (*idigi).adc() ) {

             std::stringstream ss;

             ss << "[sistrip::DigiToRaw::createFedBuffers]"

                << " Incompatible ADC values in buffer!"

                << "  FedId/FedCh: " << *ifed << "/" << iconn->fedCh()

                << "  DetStrip: " << STRIP(idigi, digis_begin)

                << "  FedChStrip: " << strip

                << "  AdcValue: " << (*idigi).adc()

                << "  RawData[" << strip << "]: " << value;

             edm::LogWarning("DigiToRaw") << ss.str();

                 }

               }


               // Add digi to buffer

               chanData[strip] = (*idigi).adc();

             }

           }

           // if ((*idigi).strip() >= (ipair+1)*256) break;


           if ( edm::isDebugEnabled() ) {

             edm::LogWarning("DigiToRaw")

               << "DigiToRaw::createFedBuffers] "

               << "Almost at the end...";

           }

           //create the buffer

           FEDRawData& fedrawdata = buffers->FEDData( *ifed );

           bufferGenerator_.generateBuffer(&fedrawdata,fedData,*ifed);


           if ( edm::isDebugEnabled() ) {

             std::ostringstream debugStream;

             bufferGenerator_.feHeader().print(debugStream);

             edm::LogWarning("DigiToRaw")

               << "[sistrip::DigiToRaw::createFedBuffers_]"

               << " length of final feHeader: " << bufferGenerator_.feHeader().lengthInBytes() << "\n"

               << debugStream.str();

           }

     }//loop on fedids

     if ( edm::isDebugEnabled() ) {

       edm::LogWarning("DigiToRaw")

         << "[sistrip::DigiToRaw::createFedBuffers_]"

         << "end of first loop on feds";

     }


       }//end of workflow for copying header, below is workflow without copying header

       else{

         if ( edm::isDebugEnabled() ) {

           edm::LogWarning("DigiToRaw")

             << "[sistrip::DigiToRaw::createFedBuffers_]"

             << "Now getting the digis..."

             << " Number of feds: " << fed_ids.size() << " between "

             << *(fed_ids.begin()) << " and " << *(fed_ids.end());

         }


         for ( auto ifed = fed_ids.begin(); ifed != fed_ids.end(); ++ifed ) {


           auto conns = cabling->fedConnections(*ifed);


           //for special mode premix raw, data is zero-suppressed but not converted to 8 bit

           //zeroSuppressed here means converted to 8 bit...

           if (mode_ == READOUT_MODE_PREMIX_RAW) zeroSuppressed=false;

           FEDStripData fedData(zeroSuppressed);


           for (auto iconn = conns.begin() ; iconn != conns.end(); iconn++ ) {


             // Determine FED key from cabling

             uint32_t fed_key = ( ( iconn->fedId() & sistrip::invalid_ ) << 16 ) | ( iconn->fedCh() & sistrip::invalid_ );


             // Determine whether DetId or FED key should be used to index digi containers

             uint32_t key = ( useFedKey_ || mode_ == READOUT_MODE_SCOPE ) ? fed_key : iconn->detId();


             // Check key is non-zero and valid

             if ( !key || ( key == sistrip::invalid32_ ) ) { continue; }


             // Determine APV pair number (needed only when using DetId)

             uint16_t ipair = ( useFedKey_ || mode_ == READOUT_MODE_SCOPE ) ? 0 : iconn->apvPairNumber();


             FEDStripData::ChannelData& chanData = fedData[iconn->fedCh()];


             // Find digis for DetID in collection

             if (!collection.isValid()){

               if ( edm::isDebugEnabled() ) {

                 edm::LogWarning("DigiToRaw")

             << "[DigiToRaw::createFedBuffers] "

             << "digis collection is not valid...";

               }

               break;

             }

             typename std::vector< edm::DetSet<Digi_t> >::const_iterator digis = collection->find( key );

             if (digis == collection->end()) { continue; }


             typename edm::DetSet<Digi_t>::const_iterator idigi, digis_begin(digis->data.begin());

             for ( idigi = digis_begin; idigi != digis->data.end(); idigi++ ) {


               if ( STRIP(idigi, digis_begin) < ipair*256 ||

              STRIP(idigi, digis_begin) > ipair*256+255 ) { continue; }

               const unsigned short strip = STRIP(idigi, digis_begin) % 256;


               if ( strip >= STRIPS_PER_FEDCH ) {

                 if ( edm::isDebugEnabled() ) {

             std::stringstream ss;

             ss << "[sistrip::DigiToRaw::createFedBuffers]"

                << " strip >= strips_per_fedCh";

             edm::LogWarning("DigiToRaw") << ss.str();

                 }

                 continue;

               }


               // check if value already exists

               if ( edm::isDebugEnabled() ) {

                 const uint16_t value = 0;//chanData[strip];

                 if ( value && value != (*idigi).adc() ) {

             std::stringstream ss;

             ss << "[sistrip::DigiToRaw::createFedBuffers]"

                << " Incompatible ADC values in buffer!"

                << "  FedId/FedCh: " << *ifed << "/" << iconn->fedCh()

                << "  DetStrip: " << STRIP(idigi, digis_begin)

                << "  FedChStrip: " << strip

                << "  AdcValue: " << (*idigi).adc()

                << "  RawData[" << strip << "]: " << value;

             edm::LogWarning("DigiToRaw") << ss.str();

                 }

               }


               // Add digi to buffer

               chanData[strip] = (*idigi).adc();

             }

           }

           // if ((*idigi).strip() >= (ipair+1)*256) break;


           if ( edm::isDebugEnabled() ) {

             edm::LogWarning("DigiToRaw")

               << "DigiToRaw::createFedBuffers] "

               << "Almost at the end...";

           }

           //create the buffer

           FEDRawData& fedrawdata = buffers->FEDData( *ifed );

           bufferGenerator_.generateBuffer(&fedrawdata,fedData,*ifed);


           if ( edm::isDebugEnabled() ) {

             std::ostringstream debugStream;

             bufferGenerator_.feHeader().print(debugStream);

             edm::LogWarning("DigiToRaw")

               << "[sistrip::DigiToRaw::createFedBuffers_]"

               << " length of final feHeader: " << bufferGenerator_.feHeader().lengthInBytes() << "\n"

               << debugStream.str();

           }

         }//loop on feds

       }//end if-else for copying header

     }//try

     catch (const std::exception& e) {

       if ( edm::isDebugEnabled() ) {

     edm::LogWarning("DigiToRaw")

       << "DigiToRaw::createFedBuffers] "

       << "Exception caught : " << e.what();

       }

     }


   }


   inline uint16_t DigiToRaw::STRIP(const edm::DetSet<SiStripDigi>::const_iterator& it, const edm::DetSet<SiStripDigi>::const_iterator& begin) const {return it->strip();}

   inline uint16_t DigiToRaw::STRIP(const edm::DetSet<SiStripRawDigi>::const_iterator& it, const edm::DetSet<SiStripRawDigi>::const_iterator& begin) const {return it-begin;}


 }


LogDebug
#define LogDebug(id)
Definition: MessageLogger.h:501

sistrip::TrackerSpecialHeader::feOverflowRegister
uint8_t feOverflowRegister() const
Definition: SiStripFEDBufferComponents.h:736

edm::EventID::event
EventNumber_t event() const
Definition: EventID.h:41

edm::isDebugEnabled
bool isDebugEnabled()
Definition: MessageLogger.cc:71

sistrip::FEDFEHeader::lengthInBytes
virtual size_t lengthInBytes() const =0

CRC16.h

MessageLogger.h

sistrip::FEDBufferGenerator::generateBuffer
void generateBuffer(FEDRawData *rawDataObject, const FEDStripData &data, const uint16_t sourceID) const
Definition: SiStripFEDBufferGenerator.cc:449

sistrip::DigiToRaw::createFedBuffers_
void createFedBuffers_(edm::Event &, edm::ESHandle< SiStripFedCabling > &cabling, edm::Handle< edm::DetSetVector< Digi_t > > &digis, std::auto_ptr< FEDRawDataCollection > &buffers, bool zeroSuppressed)
Definition: SiStripDigiToRaw.cc:90

sistrip::FEDBufferGenerator::setReadoutMode
FEDBufferGenerator & setReadoutMode(const FEDReadoutMode newReadoutMode)
Definition: SiStripFEDBufferGenerator.h:361

sistrip::DigiToRaw::DigiToRaw
DigiToRaw(FEDReadoutMode, bool use_fed_key)
Definition: SiStripDigiToRaw.cc:22

sistrip::FEDStripData::ChannelData
Definition: SiStripFEDBufferGenerator.h:22

sistrip::DigiToRaw::useFedKey_
bool useFedKey_
Definition: SiStripDigiToRaw.h:82

sistrip::invalid32_
static const uint32_t invalid32_
Definition: Constants.h:15

relativeConstraints.value
tuple value
Definition: relativeConstraints.py:54

edm::Handle
Definition: AssociativeIterator.h:47

sistrip::TrackerSpecialHeader::feEnableRegister
uint8_t feEnableRegister() const
Definition: SiStripFEDBufferComponents.h:728

edm::LogWarning
Definition: MessageLogger.h:140

sistrip::TrackerSpecialHeader::fedStatusRegister
FEDStatusRegister fedStatusRegister() const
Definition: SiStripFEDBufferComponents.h:751

FEDRawDataCollection.h

SiStripDigi.h

sistrip::READOUT_MODE_PREMIX_RAW
Definition: SiStripFEDBufferComponents.h:55

sistrip::FEDBufferGenerator::trackerSpecialHeader
TrackerSpecialHeader & trackerSpecialHeader()
Definition: SiStripFEDBufferGenerator.h:395

sistrip::FEDBufferGenerator::getBufferFormat
FEDBufferFormat getBufferFormat() const
Definition: SiStripFEDBufferGenerator.h:339

FEDRawData::size
size_t size() const
Lenght of the data buffer in bytes.
Definition: FEDRawData.h:47

SiStripFedCabling.h

sistrip::FEDBufferGenerator::daqTrailer
FEDDAQTrailer & daqTrailer()
Definition: SiStripFEDBufferGenerator.h:390

universalConfigTemplate.mode
mode
Definition: universalConfigTemplate.py:80

FEDTrailer.h

cppFunctionSkipper.exception
string exception
Definition: cppFunctionSkipper.py:8

FEDRawDataCollection::FEDData
const FEDRawData & FEDData(int fedid) const
retrieve data for fed
Definition: FEDRawDataCollection.cc:28

universalConfigTemplate.collection
collection
Definition: universalConfigTemplate.py:79

SiStripDigiToRaw.h

sistrip::HEADER_TYPE_FULL_DEBUG
Definition: SiStripFEDBufferComponents.h:34

sistrip::TrackerSpecialHeader::apveAddress
uint8_t apveAddress() const
Definition: SiStripFEDBufferComponents.h:717

sistrip::FEDBufferGenerator::setFEUnitEnables
FEDBufferGenerator & setFEUnitEnables(const std::vector< bool > &feUnitsEnabled)
Definition: SiStripFEDBufferGenerator.cc:425

sistrip::FEDReadoutMode
FEDReadoutMode
Definition: SiStripFEDBufferComponents.h:40

FEDRawData
Definition: FEDRawData.h:20

sistrip::FEUNITS_PER_FED
static const uint16_t FEUNITS_PER_FED
Definition: ConstantsForHardwareSystems.h:29

edm::ESHandle< SiStripFedCabling >

sistrip::FEDFullDebugHeader
Definition: SiStripFEDBufferComponents.h:469

SiStripRawDigi.h

sistrip::DigiToRaw::createFedBuffers
void createFedBuffers(edm::Event &, edm::ESHandle< SiStripFedCabling > &cabling, edm::Handle< edm::DetSetVector< SiStripDigi > > &digis, std::auto_ptr< FEDRawDataCollection > &buffers)
Definition: SiStripDigiToRaw.cc:55

event
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past

edm::HandleBase::isValid
bool isValid() const
Definition: HandleBase.h:75

relval_steps.key
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
Definition: relval_steps.py:667

sistrip::TrackerSpecialHeader::apvAddressErrorRegister
uint8_t apvAddressErrorRegister() const
Definition: SiStripFEDBufferComponents.h:720

sistrip::DigiToRaw::mode_
FEDReadoutMode mode_
Definition: SiStripDigiToRaw.h:81

sistrip::TrackerSpecialHeader::print
void print(std::ostream &os) const
Definition: SiStripFEDBufferComponents.h:754

sistrip::FEDBuffer
Definition: SiStripFEDBuffer.h:22

sistrip::STRIPS_PER_FEDCH
static const uint16_t STRIPS_PER_FEDCH
Definition: ConstantsForHardwareSystems.h:44

sistrip::FEDBufferGenerator::setHeaderType
FEDBufferGenerator & setHeaderType(const FEDHeaderType newHeaderType)
Definition: SiStripFEDBufferGenerator.h:367

sistrip::FEDFEHeader::print
virtual void print(std::ostream &os) const =0

sistrip::FEDBufferGenerator::setL1ID
FEDBufferGenerator & setL1ID(const uint32_t newL1ID)
Definition: SiStripFEDBufferGenerator.h:349

FEDHeader.h

sistrip::FEDCH_PER_FEUNIT
static const uint16_t FEDCH_PER_FEUNIT
Definition: ConstantsForHardwareSystems.h:28

cms::Exception
Definition: Exception.h:68

sistrip::TrackerSpecialHeader::headerType
FEDHeaderType headerType() const
Definition: SiStripFEDBufferComponents.cc:679

sistrip::invalid_
static const uint16_t invalid_
Definition: Constants.h:16

sistrip::TrackerSpecialHeader::readoutMode
FEDReadoutMode readoutMode() const
Definition: SiStripFEDBufferComponents.cc:707

sistrip::TrackerSpecialHeader::bufferFormat
FEDBufferFormat bufferFormat() const
Definition: SiStripFEDBufferComponents.cc:669

SiStripFEDBuffer.h

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Definition: SiStripFEDBufferGenerator.h:18

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Definition: FEDRawDataCollection.h:19

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list e
Definition: alignCSCRings.py:90

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FEDFEHeader & feHeader()
Definition: SiStripFEDBufferGenerator.h:400

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edm::EventID id() const
Definition: EventBase.h:59

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collection_type data
Definition: DetSet.h:78

begin
#define begin
Definition: vmac.h:30

contentValuesCheck.ss
list ss
Definition: contentValuesCheck.py:32

sistrip::DigiToRaw::~DigiToRaw
~DigiToRaw()
Definition: SiStripDigiToRaw.cc:38

FEDRawData::data
const unsigned char * data() const
Return a const pointer to the beginning of the data buffer.
Definition: FEDRawData.cc:28

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Definition: gather_cfg.py:145

sistrip::DigiToRaw::STRIP
uint16_t STRIP(const edm::DetSet< SiStripDigi >::const_iterator &it, const edm::DetSet< SiStripDigi >::const_iterator &begin) const
Definition: SiStripDigiToRaw.cc:436

sistrip::FEDBufferGenerator::getDAQEventType
FEDDAQEventType getDAQEventType() const
Definition: SiStripFEDBufferGenerator.h:344

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Definition: SiStripFEDBufferComponents.h:41

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collection_type::const_iterator const_iterator
Definition: DetSet.h:33

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Definition: Event.h:65

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FEDBufferGenerator bufferGenerator_
Definition: SiStripDigiToRaw.h:83

sistrip::FEDBufferGenerator::daqHeader
FEDDAQHeader & daqHeader()
Definition: SiStripFEDBufferGenerator.h:385

edm::DetSetVector< SiStripDigi >

SiStripConstants.h