CMS 3D CMS Logo

List of all members | Public Member Functions | Protected Member Functions | Private Types | Private Member Functions | Static Private Attributes
GctFormatTranslateMCLegacy Class Reference

Unpacks/packs the MC Legacy data originally produced by the GctBlockPacker class. More...

#include <GctFormatTranslateMCLegacy.h>

Inheritance diagram for GctFormatTranslateMCLegacy:
GctFormatTranslateBase

Public Member Functions

bool convertBlock (const unsigned char *d, const GctBlockHeader &hdr) override
 Get digis from the block - will return true if it succeeds, false otherwise. More...
 
 GctFormatTranslateMCLegacy (bool hltMode=false, bool unpackSharedRegions=false)
 Constructor. More...
 
GctBlockHeader generateBlockHeader (const unsigned char *data) const override
 Generate a block header from four 8-bit values. More...
 
void writeAllRctCaloRegionBlock (unsigned char *d, const L1CaloRegionCollection *rctCalo)
 Writes the giant hack that is the RCT Calo Regions block. More...
 
void writeGctOutEmAndEnergyBlock (unsigned char *d, const L1GctEmCandCollection *iso, const L1GctEmCandCollection *nonIso, const L1GctEtTotalCollection *etTotal, const L1GctEtHadCollection *etHad, const L1GctEtMissCollection *etMiss)
 Writes GCT output EM and energy sums block into an unsigned char array, starting at the position pointed to by d. More...
 
void writeGctOutJetBlock (unsigned char *d, const L1GctJetCandCollection *cenJets, const L1GctJetCandCollection *forJets, const L1GctJetCandCollection *tauJets, const L1GctHFRingEtSumsCollection *hfRingSums, const L1GctHFBitCountsCollection *hfBitCounts, const L1GctHtMissCollection *htMiss)
 Writes GCT output jet cands and counts into an unsigned char array, starting at the position pointed to by d. More...
 
void writeRctEmCandBlocks (unsigned char *d, const L1CaloEmCollection *rctEm)
 Writes the 4 RCT EM Candidate blocks. More...
 
 ~GctFormatTranslateMCLegacy () override
 Destructor. More...
 
- Public Member Functions inherited from GctFormatTranslateBase
 GctFormatTranslateBase (bool hltMode=false, bool unpackSharedRegions=false)
 Constructor. More...
 
const std::string & getBlockDescription (const GctBlockHeader &header) const
 Get block description. More...
 
void setPackingBxId (uint32_t bxId)
 
void setPackingEventId (uint32_t eventId)
 
void setUnpackCollections (GctUnpackCollections *const collections)
 Set the pointer to the unpack collections. More...
 
virtual ~GctFormatTranslateBase ()
 Destructor. More...
 

Protected Member Functions

const BlockLengthMapblockLengthMap () const final
 get the static block ID to block-length map. More...
 
const BlockNameMapblockNameMap () const final
 get the static block ID to blockname map. More...
 
uint32_t generateRawHeader (const uint32_t blockId, const uint32_t nSamples, const uint32_t bxId, const uint32_t eventId) const override
 Returns a raw 32-bit header word generated from the blockId, number of time samples, bunch-crossing and event IDs. More...
 
const BlockIdToEmCandIsoBoundMapinternEmIsoBounds () const final
 get the static intern EM cand isolated boundary map. More...
 
const BlkToRctCrateMaprctEmCrateMap () const final
 get static the block ID to RCT crate map for electrons. More...
 
const BlkToRctCrateMaprctJetCrateMap () const final
 get the static block ID to RCT crate map for jets More...
 
- Protected Member Functions inherited from GctFormatTranslateBase
void blockDoNothing (const unsigned char *d, const GctBlockHeader &hdr)
 The null unpack function - obviously common to all formats. More...
 
bool checkBlock (const GctBlockHeader &hdr) const
 Performs checks on the block header to see if the block is possible to unpack or not. More...
 
GctUnpackCollections *const colls () const
 Protected access to the GCT Unpack Collections. More...
 
L1GctJetCandCollection *const gctJets (const unsigned cat) const
 Get a specific jet candandiate collection using the JetCandCategory enumeration. More...
 
bool hltMode () const
 Protected interface to get HLT optimisation mode flag. More...
 
const uint32_t packingBxId () const
 Get the BxId to be used when packing data. More...
 
const uint32_t packingEventId () const
 Get the EventId to be used when packing data. More...
 
const SourceCardRoutingsrcCardRouting () const
 Protected interface to the unpackSharedRegions commissioning option. More...
 
bool unpackSharedRegions () const
 
void writeRawHeader (unsigned char *data, uint32_t blockId, uint32_t nSamples) const
 Writes a raw block header into the raw data array for a given block ID and number of time-samples. More...
 

Private Types

typedef std::map< unsigned int, PtrToUnpackFnBlockIdToUnpackFnMap
 Typedef for a block ID to unpack function map. More...
 
typedef void(GctFormatTranslateMCLegacy::* PtrToUnpackFn) (const unsigned char *, const GctBlockHeader &)
 Function pointer typdef to a block unpack function. More...
 

Private Member Functions

void blockToAllRctCaloRegions (const unsigned char *d, const GctBlockHeader &hdr)
 Unpack All RCT Calo Regions ('orrible hack for DigiToRaw use) More...
 
void blockToFibres (const unsigned char *d, const GctBlockHeader &hdr)
 unpack Fibres More...
 
void blockToFibresAndToRctEmCand (const unsigned char *d, const GctBlockHeader &hdr)
 unpack Fibres and RCT EM Candidates More...
 
void blockToGctEmCandsAndEnergySums (const unsigned char *d, const GctBlockHeader &hdr)
 unpack GCT EM Candidates and energy sums. More...
 
void blockToGctJetCandsAndCounts (const unsigned char *d, const GctBlockHeader &hdr)
 Unpack GCT Jet Candidates and jet counts. More...
 
void blockToRctEmCand (const unsigned char *d, const GctBlockHeader &hdr)
 unpack RCT EM Candidates More...
 
template<typename Collection >
bool findBx0OffsetInCollection (unsigned &bx0Offset, const Collection *coll)
 Template function (used in packing) that will find the offset to first item in a collection vector where bx=0. More...
 

Static Private Attributes

static const BlockLengthMap m_blockLength
 Map to translate block number to fundamental size of a block (i.e. for 1 time-sample). More...
 
static const BlockNameMap m_blockName
 Map to hold a description for each block number. More...
 
static const BlockIdToUnpackFnMap m_blockUnpackFn
 Block ID to unpack function map. More...
 
static const BlockIdToEmCandIsoBoundMap m_internEmIsoBounds
 
static const BlkToRctCrateMap m_rctEmCrate
 Map to relate capture block ID to the RCT crate the data originated from (for electrons). More...
 
static const BlkToRctCrateMap m_rctJetCrate
 Map to relate capture block ID to the RCT crate the data originated from (for jets). More...
 

Additional Inherited Members

- Protected Types inherited from GctFormatTranslateBase
typedef std::map< unsigned int, unsigned int > BlkToRctCrateMap
 Typedef for mapping block ID to RCT crate. More...
 
typedef std::map< unsigned int, IsoBoundaryPairBlockIdToEmCandIsoBoundMap
 A typdef for mapping Block IDs to IsoBoundaryPairs. More...
 
typedef std::map< unsigned int, unsigned int > BlockLengthMap
 Block ID to Block Length map. More...
 
typedef std::pair< unsigned int, unsigned int > BlockLengthPair
 Block ID/length pair. More...
 
typedef std::map< unsigned int, std::string > BlockNameMap
 Block ID to Block Description map. More...
 
typedef std::pair< unsigned int, std::string > BlockNamePair
 Block ID/Description pair. More...
 
enum  EmCandCatagory { NON_ISO_EM_CANDS, ISO_EM_CANDS, NUM_EM_CAND_CATEGORIES }
 An enum of the EM candidate types. More...
 
typedef std::pair< unsigned int, unsigned int > IsoBoundaryPair
 
enum  JetCandCategory { TAU_JETS, FORWARD_JETS, CENTRAL_JETS, NUM_JET_CATEGORIES }
 Useful enumeration for jet candidate pack/unpack. More...
 

Detailed Description

Unpacks/packs the MC Legacy data originally produced by the GctBlockPacker class.

The data produced by the legacy GctBlockPacker class should have a firmware version header that wasn't set to anything, i.e.: 0x00000000

Author
Robert Frazier

Definition at line 20 of file GctFormatTranslateMCLegacy.h.

Member Typedef Documentation

◆ BlockIdToUnpackFnMap

typedef std::map<unsigned int, PtrToUnpackFn> GctFormatTranslateMCLegacy::BlockIdToUnpackFnMap
private

Typedef for a block ID to unpack function map.

Definition at line 101 of file GctFormatTranslateMCLegacy.h.

◆ PtrToUnpackFn

typedef void(GctFormatTranslateMCLegacy::* GctFormatTranslateMCLegacy::PtrToUnpackFn) (const unsigned char *, const GctBlockHeader &)
private

Function pointer typdef to a block unpack function.

Definition at line 99 of file GctFormatTranslateMCLegacy.h.

Constructor & Destructor Documentation

◆ GctFormatTranslateMCLegacy()

GctFormatTranslateMCLegacy::GctFormatTranslateMCLegacy ( bool  hltMode = false,
bool  unpackSharedRegions = false 
)
explicit

Constructor.

Parameters
hltMode- set true to unpack only BX zero and GCT output data (i.e. to run as quick as possible).
unpackSharedRegions- this is a commissioning option to unpack the shared RCT calo regions.

Definition at line 80 of file GctFormatTranslateMCLegacy.cc.

◆ ~GctFormatTranslateMCLegacy()

GctFormatTranslateMCLegacy::~GctFormatTranslateMCLegacy ( )
override

Destructor.

Definition at line 83 of file GctFormatTranslateMCLegacy.cc.

83 {}

Member Function Documentation

◆ blockLengthMap()

const BlockLengthMap& GctFormatTranslateMCLegacy::blockLengthMap ( ) const
inlinefinalprotectedvirtual

get the static block ID to block-length map.

Implements GctFormatTranslateBase.

Definition at line 70 of file GctFormatTranslateMCLegacy.h.

References m_blockLength.

Referenced by generateBlockHeader(), and writeRctEmCandBlocks().

◆ blockNameMap()

const BlockNameMap& GctFormatTranslateMCLegacy::blockNameMap ( ) const
inlinefinalprotectedvirtual

get the static block ID to blockname map.

Implements GctFormatTranslateBase.

Definition at line 74 of file GctFormatTranslateMCLegacy.h.

References m_blockName.

◆ blockToAllRctCaloRegions()

void GctFormatTranslateMCLegacy::blockToAllRctCaloRegions ( const unsigned char *  d,
const GctBlockHeader hdr 
)
private

Unpack All RCT Calo Regions ('orrible hack for DigiToRaw use)

Definition at line 670 of file GctFormatTranslateMCLegacy.cc.

670  {
671  // Don't want to do this in HLT optimisation mode!
672  if (hltMode()) {
673  LogDebug("GCT") << "HLT mode - skipping unpack of RCT Calo Regions";
674  return;
675  }
676 
677  // This method is one giant "temporary" hack whilst waiting for proper
678  // pipeline formats for the RCT calo region data.
679 
680  const int nSamples = hdr.nSamples(); // Number of time-samples.
681 
682  // Re-interpret block payload pointer to 16 bits
683  const uint16_t* p16 = reinterpret_cast<const uint16_t*>(d);
684 
685  for (unsigned iCrate = 0; iCrate < 18; ++iCrate) {
686  // Barrel and endcap regions
687  for (unsigned iCard = 0; iCard < 7; ++iCard) {
688  // Samples
689  for (int16_t iSample = 0; iSample < nSamples; ++iSample) {
690  // Two regions per card (and per 32-bit word).
691  for (unsigned iRegion = 0; iRegion < 2; ++iRegion) {
692  L1CaloRegionDetId id(iCrate, iCard, iRegion);
693  colls()->rctCalo()->push_back(L1CaloRegion(*p16, id.ieta(), id.iphi(), iSample));
694  ++p16; //advance pointer
695  }
696  }
697  }
698  // Forward regions (8 regions numbered 0 through 7, packed in 4 sets of pairs)
699  for (unsigned iRegionPairNum = 0; iRegionPairNum < 4; ++iRegionPairNum) {
700  // Samples
701  for (int16_t iSample = 0; iSample < nSamples; ++iSample) {
702  // two regions in a pair
703  for (unsigned iPair = 0; iPair < 2; ++iPair) {
704  // For forward regions, RCTCard=999
705  L1CaloRegionDetId id(iCrate, 999, iRegionPairNum * 2 + iPair);
706  colls()->rctCalo()->push_back(L1CaloRegion(*p16, id.ieta(), id.iphi(), iSample));
707  ++p16; //advance pointer
708  }
709  }
710  }
711  }
712 }

References GctFormatTranslateBase::colls(), ztail::d, GctFormatTranslateBase::hltMode(), triggerObjects_cff::id, LEDCalibrationChannels::ieta, LEDCalibrationChannels::iphi, LogDebug, PresampleTask_cfi::nSamples, GctBlockHeader::nSamples(), and GctUnpackCollections::rctCalo().

◆ blockToFibres()

void GctFormatTranslateMCLegacy::blockToFibres ( const unsigned char *  d,
const GctBlockHeader hdr 
)
private

unpack Fibres

Definition at line 643 of file GctFormatTranslateMCLegacy.cc.

643  {
644  // Don't want to do this in HLT optimisation mode!
645  if (hltMode()) {
646  LogDebug("GCT") << "HLT mode - skipping unpack of GCT Fibres";
647  return;
648  }
649 
650  unsigned int id = hdr.blockId();
651  unsigned int nSamples = hdr.nSamples();
652  unsigned int length = hdr.blockLength();
653 
654  // re-interpret pointer
655  uint32_t* p = reinterpret_cast<uint32_t*>(const_cast<unsigned char*>(d));
656 
657  for (unsigned int i = 0; i < length; ++i) {
658  for (unsigned int bx = 0; bx < nSamples; ++bx) {
659  colls()->gctFibres()->push_back(L1GctFibreWord(*p, id, i, bx));
660  ++p;
661  }
662  }
663 }

References GctBlockHeader::blockId(), GctBlockHeader::blockLength(), l1GtPatternGenerator_cfi::bx, GctFormatTranslateBase::colls(), ztail::d, GctUnpackCollections::gctFibres(), GctFormatTranslateBase::hltMode(), mps_fire::i, LogDebug, PresampleTask_cfi::nSamples, GctBlockHeader::nSamples(), and AlCaHLTBitMon_ParallelJobs::p.

Referenced by blockToFibresAndToRctEmCand().

◆ blockToFibresAndToRctEmCand()

void GctFormatTranslateMCLegacy::blockToFibresAndToRctEmCand ( const unsigned char *  d,
const GctBlockHeader hdr 
)
private

unpack Fibres and RCT EM Candidates

Definition at line 665 of file GctFormatTranslateMCLegacy.cc.

665  {
666  this->blockToRctEmCand(d, hdr);
667  this->blockToFibres(d, hdr);
668 }

References blockToFibres(), and blockToRctEmCand().

◆ blockToGctEmCandsAndEnergySums()

void GctFormatTranslateMCLegacy::blockToGctEmCandsAndEnergySums ( const unsigned char *  d,
const GctBlockHeader hdr 
)
private

unpack GCT EM Candidates and energy sums.

Definition at line 466 of file GctFormatTranslateMCLegacy.cc.

466  {
467  const unsigned int id = hdr.blockId();
468  const unsigned int nSamples = hdr.nSamples();
469 
470  // Re-interpret pointer. p16 will be pointing at the 16 bit word that
471  // contains the rank0 non-isolated electron of the zeroth time-sample.
472  const uint16_t* p16 = reinterpret_cast<const uint16_t*>(d);
473 
474  // UNPACK EM CANDS
475 
476  const unsigned int emCandCategoryOffset =
477  nSamples * 4; // Offset to jump from the non-iso electrons to the isolated ones.
478  const unsigned int timeSampleOffset = nSamples * 2; // Offset to jump to next candidate pair in the same time-sample.
479 
480  unsigned int samplesToUnpack = 1;
481  if (!hltMode()) {
482  samplesToUnpack = nSamples;
483  } // Only if not running in HLT mode do we want more than 1 timesample.
484 
485  for (unsigned int iso = 0; iso < 2; ++iso) // loop over non-iso/iso candidate pairs
486  {
487  bool isoFlag = (iso == 1);
488 
489  // Get the correct collection to put them in.
491  if (isoFlag) {
492  em = colls()->gctIsoEm();
493  } else {
494  em = colls()->gctNonIsoEm();
495  }
496 
497  for (unsigned int bx = 0; bx < samplesToUnpack; ++bx) // loop over time samples
498  {
499  // cand0Offset will give the offset on p16 to get the rank 0 candidate
500  // of the correct category and timesample.
501  const unsigned int cand0Offset = iso * emCandCategoryOffset + bx * 2;
502 
503  em->push_back(L1GctEmCand(p16[cand0Offset], isoFlag, id, 0, bx)); // rank0 electron
504  em->push_back(L1GctEmCand(p16[cand0Offset + timeSampleOffset], isoFlag, id, 1, bx)); // rank1 electron
505  em->push_back(L1GctEmCand(p16[cand0Offset + 1], isoFlag, id, 2, bx)); // rank2 electron
506  em->push_back(L1GctEmCand(p16[cand0Offset + timeSampleOffset + 1], isoFlag, id, 3, bx)); // rank3 electron
507  }
508  }
509 
510  p16 += emCandCategoryOffset * 2; // Move the pointer over the data we've already unpacked.
511 
512  // UNPACK ENERGY SUMS
513  // NOTE: we are only unpacking one timesample of these currently!
514 
515  colls()->gctEtTot()->push_back(L1GctEtTotal(p16[0])); // Et total (timesample 0).
516  colls()->gctEtHad()->push_back(L1GctEtHad(p16[1])); // Et hadronic (timesample 0).
517 
518  // 32-bit pointer for getting Missing Et.
519  const uint32_t* p32 = reinterpret_cast<const uint32_t*>(p16);
520 
521  colls()->gctEtMiss()->push_back(L1GctEtMiss(p32[nSamples])); // Et Miss (timesample 0).
522 }

References GctBlockHeader::blockId(), l1GtPatternGenerator_cfi::bx, GctFormatTranslateBase::colls(), ztail::d, GctUnpackCollections::gctEtHad(), GctUnpackCollections::gctEtMiss(), GctUnpackCollections::gctEtTot(), GctUnpackCollections::gctIsoEm(), GctUnpackCollections::gctNonIsoEm(), GctFormatTranslateBase::hltMode(), PresampleTask_cfi::nSamples, and GctBlockHeader::nSamples().

◆ blockToGctJetCandsAndCounts()

void GctFormatTranslateMCLegacy::blockToGctJetCandsAndCounts ( const unsigned char *  d,
const GctBlockHeader hdr 
)
private

Unpack GCT Jet Candidates and jet counts.

Definition at line 524 of file GctFormatTranslateMCLegacy.cc.

524  {
525  const unsigned int id = hdr.blockId(); // Capture block ID.
526  const unsigned int nSamples = hdr.nSamples(); // Number of time-samples.
527 
528  // Re-interpret block payload pointer to 16 bits so it sees one candidate at a time.
529  // p16 points to the start of the block payload, at the rank0 tau jet candidate.
530  const uint16_t* p16 = reinterpret_cast<const uint16_t*>(d);
531 
532  // UNPACK JET CANDS
533 
534  const unsigned int jetCandCategoryOffset = nSamples * 4; // Offset to jump from one jet category to the next.
535  const unsigned int timeSampleOffset = nSamples * 2; // Offset to jump to next candidate pair in the same time-sample.
536 
537  unsigned int samplesToUnpack = 1;
538  if (!hltMode()) {
539  samplesToUnpack = nSamples;
540  } // Only if not running in HLT mode do we want more than 1 timesample.
541 
542  // Loop over the different catagories of jets
543  for (unsigned int iCat = 0; iCat < NUM_JET_CATEGORIES; ++iCat) {
544  L1GctJetCandCollection* const jets = gctJets(iCat);
545  assert(jets->empty()); // The supplied vector should be empty.
546 
547  bool tauflag = (iCat == TAU_JETS);
548  bool forwardFlag = (iCat == FORWARD_JETS);
549 
550  // Loop over the different timesamples (bunch crossings).
551  for (unsigned int bx = 0; bx < samplesToUnpack; ++bx) {
552  // cand0Offset will give the offset on p16 to get the rank 0 Jet Cand of the correct category and timesample.
553  const unsigned int cand0Offset = iCat * jetCandCategoryOffset + bx * 2;
554 
555  // Rank 0 Jet.
556  jets->push_back(L1GctJetCand(p16[cand0Offset], tauflag, forwardFlag, id, 0, bx));
557  // Rank 1 Jet.
558  jets->push_back(L1GctJetCand(p16[cand0Offset + timeSampleOffset], tauflag, forwardFlag, id, 1, bx));
559  // Rank 2 Jet.
560  jets->push_back(L1GctJetCand(p16[cand0Offset + 1], tauflag, forwardFlag, id, 2, bx));
561  // Rank 3 Jet.
562  jets->push_back(L1GctJetCand(p16[cand0Offset + timeSampleOffset + 1], tauflag, forwardFlag, id, 3, bx));
563  }
564  }
565 
566  p16 += NUM_JET_CATEGORIES * jetCandCategoryOffset; // Move the pointer over the data we've already unpacked.
567 
568  // NOW UNPACK: HFBitCounts, HFRingEtSums and Missing Ht
569  // NOTE: we are only unpacking one timesample of these currently!
570 
571  // Re-interpret block payload pointer to 32 bits so it sees six jet counts at a time.
572  const uint32_t* p32 = reinterpret_cast<const uint32_t*>(p16);
573 
574  // Channel 0 carries both HF counts and sums
575  colls()->gctHfBitCounts()->push_back(L1GctHFBitCounts::fromConcHFBitCounts(id, 6, 0, p32[0]));
576  colls()->gctHfRingEtSums()->push_back(L1GctHFRingEtSums::fromConcRingSums(id, 6, 0, p32[0]));
577 
578  // Channel 1 carries Missing HT.
579  colls()->gctHtMiss()->push_back(L1GctHtMiss(p32[nSamples], 0));
580 }

References cms::cuda::assert(), GctBlockHeader::blockId(), l1GtPatternGenerator_cfi::bx, GctFormatTranslateBase::colls(), ztail::d, GctFormatTranslateBase::FORWARD_JETS, L1GctHFBitCounts::fromConcHFBitCounts(), L1GctHFRingEtSums::fromConcRingSums(), GctUnpackCollections::gctHfBitCounts(), GctUnpackCollections::gctHfRingEtSums(), GctUnpackCollections::gctHtMiss(), GctFormatTranslateBase::gctJets(), GctFormatTranslateBase::hltMode(), singleTopDQM_cfi::jets, PresampleTask_cfi::nSamples, GctBlockHeader::nSamples(), GctFormatTranslateBase::NUM_JET_CATEGORIES, and GctFormatTranslateBase::TAU_JETS.

◆ blockToRctEmCand()

void GctFormatTranslateMCLegacy::blockToRctEmCand ( const unsigned char *  d,
const GctBlockHeader hdr 
)
private

unpack RCT EM Candidates

Definition at line 584 of file GctFormatTranslateMCLegacy.cc.

584  {
585  // Don't want to do this in HLT optimisation mode!
586  if (hltMode()) {
587  LogDebug("GCT") << "HLT mode - skipping unpack of RCT EM Cands";
588  return;
589  }
590 
591  unsigned int id = hdr.blockId();
592  unsigned int nSamples = hdr.nSamples();
593  unsigned int length = hdr.blockLength();
594 
595  // re-interpret pointer
596  uint16_t* p = reinterpret_cast<uint16_t*>(const_cast<unsigned char*>(d));
597 
598  // arrays of source card data
599  uint16_t sfp[2][4]; // [ cycle ] [ SFP ]
600  uint16_t eIsoRank[4];
601  uint16_t eIsoCard[4];
602  uint16_t eIsoRgn[4];
603  uint16_t eNonIsoRank[4];
604  uint16_t eNonIsoCard[4];
605  uint16_t eNonIsoRgn[4];
606  uint16_t MIPbits[7][2];
607  uint16_t QBits[7][2];
608 
609  unsigned int bx = 0;
610 
611  // loop over crates
612  auto found = rctEmCrateMap().find(id);
613  assert(found != rctEmCrateMap().end());
614  for (unsigned int crate = found->second; crate < found->second + length / 3; ++crate) {
615  // read SC SFP words
616  for (unsigned short iSfp = 0; iSfp < 4; ++iSfp) {
617  for (unsigned short cyc = 0; cyc < 2; ++cyc) {
618  if (iSfp == 0) {
619  sfp[cyc][iSfp] = 0;
620  } // muon bits
621  else { // EM candidate
622  sfp[cyc][iSfp] = *p;
623  ++p;
624  }
625  }
626  p = p + 2 * (nSamples - 1);
627  }
628 
629  // fill SC arrays
630  srcCardRouting().SFPtoEMU(eIsoRank, eIsoCard, eIsoRgn, eNonIsoRank, eNonIsoCard, eNonIsoRgn, MIPbits, QBits, sfp);
631 
632  // create EM cands
633  for (unsigned short int i = 0; i < 4; ++i) {
634  colls()->rctEm()->push_back(L1CaloEmCand(eIsoRank[i], eIsoRgn[i], eIsoCard[i], crate, true, i, bx));
635  }
636  for (unsigned short int i = 0; i < 4; ++i) {
637  colls()->rctEm()->push_back(L1CaloEmCand(eNonIsoRank[i], eNonIsoRgn[i], eNonIsoCard[i], crate, false, i, bx));
638  }
639  }
640 }

References cms::cuda::assert(), GctBlockHeader::blockId(), GctBlockHeader::blockLength(), l1GtPatternGenerator_cfi::bx, GctFormatTranslateBase::colls(), ztail::d, end, newFWLiteAna::found, GctFormatTranslateBase::hltMode(), mps_fire::i, LogDebug, PresampleTask_cfi::nSamples, GctBlockHeader::nSamples(), AlCaHLTBitMon_ParallelJobs::p, GctUnpackCollections::rctEm(), rctEmCrateMap(), edm::second(), SourceCardRouting::SFPtoEMU(), and GctFormatTranslateBase::srcCardRouting().

Referenced by blockToFibresAndToRctEmCand().

◆ convertBlock()

bool GctFormatTranslateMCLegacy::convertBlock ( const unsigned char *  d,
const GctBlockHeader hdr 
)
overridevirtual

Get digis from the block - will return true if it succeeds, false otherwise.

Implements GctFormatTranslateBase.

Definition at line 114 of file GctFormatTranslateMCLegacy.cc.

114  {
115  // if the block has no time samples, don't bother with it.
116  if (hdr.nSamples() < 1) {
117  return true;
118  }
119 
120  if (!checkBlock(hdr)) {
121  return false;
122  } // Check the block to see if it's possible to unpack.
123 
124  // The header validity check above will protect against
125  // the map::find() method returning the end of the map,
126  // assuming the block header definitions are up-to-date.
127  (this->*m_blockUnpackFn.find(hdr.blockId())->second)(data,
128  hdr); // Calls the correct unpack function, based on block ID.
129 
130  return true;
131 }

References GctBlockHeader::blockId(), GctFormatTranslateBase::checkBlock(), data, m_blockUnpackFn, GctBlockHeader::nSamples(), and edm::second().

◆ findBx0OffsetInCollection()

template<typename Collection >
bool GctFormatTranslateMCLegacy::findBx0OffsetInCollection ( unsigned &  bx0Offset,
const Collection *  coll 
)
private

Template function (used in packing) that will find the offset to first item in a collection vector where bx=0.

Returns false if fails to find any item in the collection with bx=0

Definition at line 715 of file GctFormatTranslateMCLegacy.cc.

715  {
716  bool foundBx0 = false;
717  unsigned size = coll->size();
718  for (bx0Offset = 0; bx0Offset < size; ++bx0Offset) {
719  if (coll->at(bx0Offset).bx() == 0) {
720  foundBx0 = true;
721  break;
722  }
723  }
724  return foundBx0;
725 }

References findQualityFiles::size.

Referenced by writeGctOutEmAndEnergyBlock(), and writeGctOutJetBlock().

◆ generateBlockHeader()

GctBlockHeader GctFormatTranslateMCLegacy::generateBlockHeader ( const unsigned char *  data) const
overridevirtual

Generate a block header from four 8-bit values.

Implements GctFormatTranslateBase.

Definition at line 85 of file GctFormatTranslateMCLegacy.cc.

85  {
86  // Turn the four 8-bit header words into the full 32-bit header.
87  uint32_t hdr = data[0] + (data[1] << 8) + (data[2] << 16) + (data[3] << 24);
88 
89  // Bit mapping of header:
90  // ----------------------
91  // 11:0 => block_id Unique pipeline identifier.
92  // - 3:0 =>> pipe_id There can be up to 16 different pipelines per FPGA.
93  // - 6:4 =>> reserved Do not use yet. Set to zero.
94  // - 11:7 =>> fpga geograpical add The VME geographical address of the FPGA.
95  // 15:12 => event_id Determined locally. Not reset by Resync.
96  // 19:16 => number_of_time_samples If time samples 15 or more then value = 15.
97  // 31:20 => event_bxId The bunch crossing the data was recorded.
98 
99  uint32_t blockId = hdr & 0xfff;
100  uint32_t blockLength = 0; // Set to zero until we know it's a valid block
101  uint32_t nSamples = (hdr >> 16) & 0xf;
102  uint32_t bxId = (hdr >> 20) & 0xfff;
103  uint32_t eventId = (hdr >> 12) & 0xf;
104  bool valid = (blockLengthMap().find(blockId) != blockLengthMap().end());
105 
106  if (valid) {
107  blockLength = blockLengthMap().find(blockId)->second;
108  }
109 
110  return GctBlockHeader(blockId, blockLength, nSamples, bxId, eventId, valid);
111 }

References blockLengthMap(), data, PresampleTask_cfi::nSamples, and validateGeometry_cfg::valid.

◆ generateRawHeader()

uint32_t GctFormatTranslateMCLegacy::generateRawHeader ( const uint32_t  blockId,
const uint32_t  nSamples,
const uint32_t  bxId,
const uint32_t  eventId 
) const
overrideprotectedvirtual

Returns a raw 32-bit header word generated from the blockId, number of time samples, bunch-crossing and event IDs.

Implements GctFormatTranslateBase.

Definition at line 446 of file GctFormatTranslateMCLegacy.cc.

449  {
450  // Bit mapping of header:
451  // ----------------------
452  // 11:0 => block_id Unique pipeline identifier.
453  // - 3:0 =>> pipe_id There can be up to 16 different pipelines per FPGA.
454  // - 6:4 =>> reserved Do not use yet. Set to zero.
455  // - 11:7 =>> fpga geograpical add The VME geographical address of the FPGA.
456  // 15:12 => event_id Determined locally. Not reset by Resync.
457  // 19:16 => number_of_time_samples If time samples 15 or more then value = 15.
458  // 31:20 => event_bxId The bunch crossing the data was recorded.
459 
460  return ((bxId & 0xfff) << 20) | ((nSamples & 0xf) << 16) | ((eventId & 0xf) << 12) | (blockId & 0xfff);
461 }

References PresampleTask_cfi::nSamples.

◆ internEmIsoBounds()

const BlockIdToEmCandIsoBoundMap& GctFormatTranslateMCLegacy::internEmIsoBounds ( ) const
inlinefinalprotectedvirtual

get the static intern EM cand isolated boundary map.

Implements GctFormatTranslateBase.

Definition at line 84 of file GctFormatTranslateMCLegacy.h.

References m_internEmIsoBounds.

◆ rctEmCrateMap()

const BlkToRctCrateMap& GctFormatTranslateMCLegacy::rctEmCrateMap ( ) const
inlinefinalprotectedvirtual

get static the block ID to RCT crate map for electrons.

Implements GctFormatTranslateBase.

Definition at line 76 of file GctFormatTranslateMCLegacy.h.

References m_rctEmCrate.

Referenced by blockToRctEmCand(), and writeRctEmCandBlocks().

◆ rctJetCrateMap()

const BlkToRctCrateMap& GctFormatTranslateMCLegacy::rctJetCrateMap ( ) const
inlinefinalprotectedvirtual

get the static block ID to RCT crate map for jets

Implements GctFormatTranslateBase.

Definition at line 80 of file GctFormatTranslateMCLegacy.h.

References m_rctJetCrate.

◆ writeAllRctCaloRegionBlock()

void GctFormatTranslateMCLegacy::writeAllRctCaloRegionBlock ( unsigned char *  d,
const L1CaloRegionCollection rctCalo 
)

Writes the giant hack that is the RCT Calo Regions block.

Definition at line 397 of file GctFormatTranslateMCLegacy.cc.

397  {
398  // This method is one giant "temporary" hack for CMSSW_1_8_X and CMSSW_2_0_0.
399 
400  if (rctCalo->empty() || rctCalo->size() % 396 != 0) // Should be 396 calo regions for 1 bx.
401  {
402  LogDebug("GCT") << "Block pack error: bad L1CaloRegionCollection size detected!\n"
403  << "Aborting packing of RCT Calo Region data!";
404  return;
405  }
406 
407  writeRawHeader(d, 0x0ff, 1);
408  d += 4; // move past header.
409 
410  // Want a 16 bit pointer to push the 16 bit data in.
411  uint16_t* p16 = reinterpret_cast<uint16_t*>(const_cast<unsigned char*>(d));
412 
413  for (unsigned i = 0, size = rctCalo->size(); i < size; ++i) {
414  const L1CaloRegion& reg = rctCalo->at(i);
415  if (reg.bx() != 0) {
416  continue;
417  } // Only interested in bunch crossing zero for now!
418  const unsigned crateNum = reg.rctCrate();
419  const unsigned regionIndex = reg.rctRegionIndex();
420  assert(crateNum < 18); // Only 18 RCT crates!
421 
422  // Gotta make the raw data as there currently isn't a method of getting raw from L1CaloRegion
423  const uint16_t raw = reg.et() | (reg.overFlow() ? 0x400 : 0x0) | (reg.fineGrain() ? 0x800 : 0x0) |
424  (reg.mip() ? 0x1000 : 0x0) | (reg.quiet() ? 0x2000 : 0x0);
425 
426  unsigned offset = 0; // for storing calculated raw data offset.
427  if (reg.isHbHe()) // Is a barrel/endcap region
428  {
429  const unsigned cardNum = reg.rctCard();
430  assert(cardNum < 7); // 7 RCT cards per crate for the barrel/endcap
431  assert(regionIndex < 2); // regionIndex less than 2 for barrel/endcap
432 
433  // Calculate position in the raw data from crateNum, cardNum, and regionIndex
434  offset = crateNum * 22 + cardNum * 2 + regionIndex;
435  } else // Must be forward region
436  {
437  assert(regionIndex < 8); // regionIndex less than 8 for forward calorimeter.
438  offset = crateNum * 22 + 14 + regionIndex;
439  }
440  p16[offset] = raw; // Write raw data in correct place!
441  }
442 }

References cms::cuda::assert(), L1CaloRegion::bx(), ztail::d, L1CaloRegion::et(), L1CaloRegion::fineGrain(), mps_fire::i, L1CaloRegion::isHbHe(), LogDebug, L1CaloRegion::mip(), hltrates_dqm_sourceclient-live_cfg::offset, L1CaloRegion::overFlow(), L1CaloRegion::quiet(), L1CaloRegion::rctCard(), L1CaloRegion::rctCrate(), L1CaloRegion::rctRegionIndex(), findQualityFiles::size, and GctFormatTranslateBase::writeRawHeader().

Referenced by GctDigiToRaw::produce().

◆ writeGctOutEmAndEnergyBlock()

void GctFormatTranslateMCLegacy::writeGctOutEmAndEnergyBlock ( unsigned char *  d,
const L1GctEmCandCollection iso,
const L1GctEmCandCollection nonIso,
const L1GctEtTotalCollection etTotal,
const L1GctEtHadCollection etHad,
const L1GctEtMissCollection etMiss 
)

Writes GCT output EM and energy sums block into an unsigned char array, starting at the position pointed to by d.

Parameters
dmust be pointing at the position where the EM Output block header should be written!

Definition at line 134 of file GctFormatTranslateMCLegacy.cc.

139  {
140  // Set up a vector of the collections for easy iteration.
141  vector<const L1GctEmCandCollection*> emCands(NUM_EM_CAND_CATEGORIES);
142  emCands.at(NON_ISO_EM_CANDS) = nonIso;
143  emCands.at(ISO_EM_CANDS) = iso;
144 
145  /* To hold the offsets within the EM candidate collections for the bx=0 candidates.
146  * The capture index doesn't seem to get set properly by the emulator, so take the
147  * first bx=0 cand as the highest energy EM cand, and the fourth as the lowest. */
148  vector<unsigned> bx0EmCandOffsets(NUM_EM_CAND_CATEGORIES);
149 
150  // Loop over the different catagories of EM cands to find the bx=0 offsets.
151  for (unsigned int iCat = 0; iCat < NUM_EM_CAND_CATEGORIES; ++iCat) {
152  const L1GctEmCandCollection* cands = emCands.at(iCat);
153  unsigned& offset = bx0EmCandOffsets.at(iCat);
155  LogDebug("GCT") << "No EM candidates with bx=0!\nAborting packing of GCT EM Cand and Energy Sum Output!";
156  return;
157  }
158  if ((cands->size() - offset) < 4) {
159  LogDebug("GCT")
160  << "Insufficient EM candidates with bx=0!\nAborting packing of GCT EM Cand and Energy Sum Output!";
161  return;
162  }
163  }
164 
165  unsigned bx0EtTotalOffset, bx0EtHadOffset, bx0EtMissOffset;
166  if (!findBx0OffsetInCollection(bx0EtTotalOffset, etTotal)) {
167  LogDebug("GCT") << "No Et Total value for bx=0!\nAborting packing of GCT EM Cand and Energy Sum Output!";
168  return;
169  }
170  if (!findBx0OffsetInCollection(bx0EtHadOffset, etHad)) {
171  LogDebug("GCT") << "No Et Hadronic value for bx=0!\nAborting packing of GCT EM Cand and Energy Sum Output!";
172  return;
173  }
174  if (!findBx0OffsetInCollection(bx0EtMissOffset, etMiss)) {
175  LogDebug("GCT") << "No Et Miss value for bx=0!\nAborting packing of GCT EM Cand and Energy Sum Output!";
176  return;
177  }
178 
179  // We should now have all requisite data, so we can get on with packing
180 
181  unsigned nSamples = 1; // ** NOTE can only currenly do 1 timesample! **
182 
183  // write header
184  writeRawHeader(d, 0x683, nSamples);
185 
186  d = d + 4; // move to the block payload.
187 
188  // FIRST DO EM CANDS
189 
190  // re-interpret payload pointer to 16 bit.
191  uint16_t* p16 = reinterpret_cast<uint16_t*>(d);
192 
193  for (unsigned iCat = 0; iCat < NUM_EM_CAND_CATEGORIES; ++iCat) // loop over non-iso/iso candidates categories
194  {
195  const L1GctEmCandCollection* em = emCands.at(iCat); // The current category of EM cands.
196  const unsigned bx0Offset = bx0EmCandOffsets.at(iCat); // The offset in the EM cand collection to the bx=0 cands.
197 
198  uint16_t* cand = p16 + (iCat * 4);
199 
200  *cand = em->at(bx0Offset).raw();
201  cand++;
202  *cand = em->at(bx0Offset + 2).raw();
203  cand += nSamples;
204  *cand = em->at(bx0Offset + 1).raw();
205  cand++;
206  *cand = em->at(bx0Offset + 3).raw();
207  }
208 
209  // NOW DO ENERGY SUMS
210  // assumes these are all 1-object collections, ie. central BX only
211  p16 += 8; // Move past EM cands
212  *p16 = etTotal->at(bx0EtTotalOffset).raw(); // Et Total - 16 bits.
213  p16++;
214  *p16 = etHad->at(bx0EtHadOffset).raw(); // Et Hadronic - next 16 bits
215  p16++;
216  uint32_t* p32 = reinterpret_cast<uint32_t*>(p16); // For writing Missing Et (32-bit raw data)
217  *p32 = etMiss->at(bx0EtMissOffset).raw(); // Et Miss on final 32 bits of block payload.
218 }

References HLT_2018_cff::cands, ztail::d, findBx0OffsetInCollection(), GctFormatTranslateBase::ISO_EM_CANDS, LogDebug, GctFormatTranslateBase::NON_ISO_EM_CANDS, PresampleTask_cfi::nSamples, GctFormatTranslateBase::NUM_EM_CAND_CATEGORIES, hltrates_dqm_sourceclient-live_cfg::offset, and GctFormatTranslateBase::writeRawHeader().

Referenced by GctDigiToRaw::produce().

◆ writeGctOutJetBlock()

void GctFormatTranslateMCLegacy::writeGctOutJetBlock ( unsigned char *  d,
const L1GctJetCandCollection cenJets,
const L1GctJetCandCollection forJets,
const L1GctJetCandCollection tauJets,
const L1GctHFRingEtSumsCollection hfRingSums,
const L1GctHFBitCountsCollection hfBitCounts,
const L1GctHtMissCollection htMiss 
)

Writes GCT output jet cands and counts into an unsigned char array, starting at the position pointed to by d.

Parameters
dmust be pointing at the position where the Jet Output block header should be written!

Definition at line 220 of file GctFormatTranslateMCLegacy.cc.

226  {
227  // Set up a vector of the collections for easy iteration.
228  vector<const L1GctJetCandCollection*> jets(NUM_JET_CATEGORIES);
229  jets.at(CENTRAL_JETS) = cenJets;
230  jets.at(FORWARD_JETS) = forJets;
231  jets.at(TAU_JETS) = tauJets;
232 
233  /* To hold the offsets within the three jet cand collections for the bx=0 jets.
234  * The capture index doesn't seem to get set properly by the emulator, so take the
235  * first bx=0 jet as the highest energy jet, and the fourth as the lowest. */
236  vector<unsigned> bx0JetCandOffsets(NUM_JET_CATEGORIES);
237 
238  // Loop over the different catagories of jets to find the bx=0 offsets.
239  for (unsigned int iCat = 0; iCat < NUM_JET_CATEGORIES; ++iCat) {
240  const L1GctJetCandCollection* jetCands = jets.at(iCat);
241  unsigned& offset = bx0JetCandOffsets.at(iCat);
242  if (!findBx0OffsetInCollection(offset, jetCands)) {
243  LogDebug("GCT") << "No jet candidates with bx=0!\nAborting packing of GCT Jet Output!";
244  return;
245  }
246  if ((jetCands->size() - offset) < 4) {
247  LogDebug("GCT") << "Insufficient jet candidates with bx=0!\nAborting packing of GCT Jet Output!";
248  return;
249  }
250  }
251 
252  // Now find the collection offsets for the HfRingSums, HfBitCounts, and HtMiss with bx=0
253  unsigned bx0HfRingSumsOffset, bx0HfBitCountsOffset, bx0HtMissOffset;
254  if (!findBx0OffsetInCollection(bx0HfRingSumsOffset, hfRingSums)) {
255  LogDebug("GCT") << "No ring sums with bx=0!\nAborting packing of GCT Jet Output!";
256  return;
257  }
258  if (!findBx0OffsetInCollection(bx0HfBitCountsOffset, hfBitCounts)) {
259  LogDebug("GCT") << "No bit counts with bx=0!\nAborting packing of GCT Jet Output!";
260  return;
261  }
262  if (!findBx0OffsetInCollection(bx0HtMissOffset, htMiss)) {
263  LogDebug("GCT") << "No missing Ht with bx=0!\nAborting packing of GCT Jet Output!";
264  return;
265  }
266 
267  // Now write the header, as we should now have all requisite data.
268  writeRawHeader(d, 0x583, 1); // ** NOTE can only currenly do 1 timesample! **
269 
270  d = d + 4; // move forward past the block header to the block payload.
271 
272  // FIRST DO JET CANDS
273  // re-interpret pointer to 16 bits - the space allocated for each Jet candidate.
274  uint16_t* p16 = reinterpret_cast<uint16_t*>(d);
275 
276  const unsigned categoryOffset = 4; // Offset to jump from one jet category to the next.
277  const unsigned nextCandPairOffset = 2; // Offset to jump to next candidate pair.
278 
279  // Loop over the different catagories of jets
280  for (unsigned iCat = 0; iCat < NUM_JET_CATEGORIES; ++iCat) {
281  const L1GctJetCandCollection* jetCands = jets.at(iCat); // The current category of jet cands.
282  const unsigned cand0Offset =
283  iCat * categoryOffset; // the offset on p16 to get the rank 0 Jet Cand of the correct category.
284  const unsigned bx0Offset = bx0JetCandOffsets.at(iCat); // The offset in the jet cand collection to the bx=0 jets.
285 
286  p16[cand0Offset] = jetCands->at(bx0Offset).raw(); // rank 0 jet in bx=0
287  p16[cand0Offset + nextCandPairOffset] = jetCands->at(bx0Offset + 1).raw(); // rank 1 jet in bx=0
288  p16[cand0Offset + 1] = jetCands->at(bx0Offset + 2).raw(); // rank 2 jet in bx=0
289  p16[cand0Offset + nextCandPairOffset + 1] = jetCands->at(bx0Offset + 3).raw(); // rank 3 jet in bx=0.
290  }
291 
292  // NOW DO JET COUNTS
293  d = d + 24; // move forward past the jet cands to the jet counts section
294 
295  // re-interpret pointer to 32 bit.
296  uint32_t* p32 = reinterpret_cast<uint32_t*>(d);
297 
298  uint32_t tmp = hfBitCounts->at(bx0HfBitCountsOffset).raw() & 0xfff;
299  tmp |= hfRingSums->at(bx0HfRingSumsOffset).etSum(0) << 12;
300  tmp |= hfRingSums->at(bx0HfRingSumsOffset).etSum(1) << 16;
301  tmp |= hfRingSums->at(bx0HfRingSumsOffset).etSum(2) << 19;
302  tmp |= hfRingSums->at(bx0HfRingSumsOffset).etSum(3) << 22;
303  p32[0] = tmp;
304 
305  const L1GctHtMiss& bx0HtMiss = htMiss->at(bx0HtMissOffset);
306  uint32_t htMissRaw = 0x5555c000 | (bx0HtMiss.overFlow() ? 0x1000 : 0x0000) | ((bx0HtMiss.et() & 0x7f) << 5) |
307  ((bx0HtMiss.phi() & 0x1f));
308 
309  p32[1] = htMissRaw;
310 }

References GctFormatTranslateBase::CENTRAL_JETS, ztail::d, L1GctHtMiss::et(), findBx0OffsetInCollection(), GctFormatTranslateBase::FORWARD_JETS, singleTopDQM_cfi::jets, LogDebug, GctFormatTranslateBase::NUM_JET_CATEGORIES, hltrates_dqm_sourceclient-live_cfg::offset, L1GctHtMiss::overFlow(), L1GctHtMiss::phi(), GctFormatTranslateBase::TAU_JETS, createJobs::tmp, and GctFormatTranslateBase::writeRawHeader().

Referenced by GctDigiToRaw::produce().

◆ writeRctEmCandBlocks()

void GctFormatTranslateMCLegacy::writeRctEmCandBlocks ( unsigned char *  d,
const L1CaloEmCollection rctEm 
)

Writes the 4 RCT EM Candidate blocks.

Definition at line 312 of file GctFormatTranslateMCLegacy.cc.

312  {
313  // This method is one giant "temporary" hack for CMSSW_1_8_X and CMSSW_2_0_0.
314 
315  if (rctEm->empty() ||
316  rctEm->size() % 144 != 0) // Should be 18 crates * 2 types (iso/noniso) * 4 electrons = 144 for 1 bx.
317  {
318  LogDebug("GCT") << "Block pack error: bad L1CaloEmCollection size detected!\n"
319  << "Aborting packing of RCT EM Cand data!";
320  return;
321  }
322 
323  // Need 18 sets of EM fibre data, since 18 RCT crates
324  SourceCardRouting::EmuToSfpData emuToSfpData[18];
325 
326  // Fill in the input arrays with the data from the digi
327  for (unsigned i = 0, size = rctEm->size(); i < size; ++i) {
328  const L1CaloEmCand& cand = rctEm->at(i);
329  if (cand.bx() != 0) {
330  continue;
331  } // Only interested in bunch crossing zero for now!
332  unsigned crateNum = cand.rctCrate();
333  unsigned index = cand.index();
334 
335  // Some error checking.
336  assert(crateNum < 18); // Only 18 RCT crates!
337  assert(index < 4); // Should only be 4 cands of each type per crate!
338 
339  if (cand.isolated()) {
340  emuToSfpData[crateNum].eIsoRank[index] = cand.rank();
341  emuToSfpData[crateNum].eIsoCardId[index] = cand.rctCard();
342  emuToSfpData[crateNum].eIsoRegionId[index] = cand.rctRegion();
343  } else {
344  emuToSfpData[crateNum].eNonIsoRank[index] = cand.rank();
345  emuToSfpData[crateNum].eNonIsoCardId[index] = cand.rctCard();
346  emuToSfpData[crateNum].eNonIsoRegionId[index] = cand.rctRegion();
347  }
348  // Note doing nothing with the MIP bit and Q bit arrays as we are not
349  // interested in them; these arrays will contain uninitialised junk
350  // and so you will get out junk for sourcecard output 0 - I.e. don't
351  // trust sfp[0][0] or sfp[1][0] output!.
352  }
353 
354  // Now run the conversion
355  for (unsigned c = 0; c < 18; ++c) {
356  srcCardRouting().EMUtoSFP(emuToSfpData[c].eIsoRank,
357  emuToSfpData[c].eIsoCardId,
358  emuToSfpData[c].eIsoRegionId,
359  emuToSfpData[c].eNonIsoRank,
360  emuToSfpData[c].eNonIsoCardId,
361  emuToSfpData[c].eNonIsoRegionId,
362  emuToSfpData[c].mipBits,
363  emuToSfpData[c].qBits,
364  emuToSfpData[c].sfp);
365  }
366 
367  // Now pack up the data into the RAW format.
368  for (auto blockStartCrateIter = rctEmCrateMap().begin(); blockStartCrateIter != rctEmCrateMap().end();
369  ++blockStartCrateIter) {
370  unsigned blockId = blockStartCrateIter->first;
371  unsigned startCrate = blockStartCrateIter->second;
372  auto found = blockLengthMap().find(blockId);
373  //assert(found != blockLengthMap().end());
374  unsigned blockLength_32bit = found->second;
375 
376  writeRawHeader(d, blockId, 1);
377  d += 4; // move past header.
378 
379  // Want a 16 bit pointer to push the 16 bit data in.
380  uint16_t* p16 = reinterpret_cast<uint16_t*>(const_cast<unsigned char*>(d));
381 
382  for (unsigned iCrate = startCrate, end = startCrate + blockLength_32bit / 3; iCrate < end; ++iCrate) {
383  for (unsigned iOutput = 1; iOutput < 4; ++iOutput) // skipping output 0 as that is Q-bit/MIP-bit data.
384  {
385  for (unsigned iCycle = 0; iCycle < 2; ++iCycle) {
386  *p16 = emuToSfpData[iCrate].sfp[iCycle][iOutput];
387  ++p16;
388  }
389  }
390  }
391 
392  // Now move d onto the location of the next block header
393  d += (blockLength_32bit * 4);
394  }
395 }

References cms::cuda::assert(), begin, blockLengthMap(), HltBtagPostValidation_cff::c, ztail::d, SourceCardRouting::EmuToSfpData::eIsoCardId, SourceCardRouting::EmuToSfpData::eIsoRank, SourceCardRouting::EmuToSfpData::eIsoRegionId, SourceCardRouting::EMUtoSFP(), end, SourceCardRouting::EmuToSfpData::eNonIsoCardId, SourceCardRouting::EmuToSfpData::eNonIsoRank, SourceCardRouting::EmuToSfpData::eNonIsoRegionId, newFWLiteAna::found, mps_fire::i, LogDebug, rctEmCrateMap(), SourceCardRouting::EmuToSfpData::sfp, findQualityFiles::size, GctFormatTranslateBase::srcCardRouting(), and GctFormatTranslateBase::writeRawHeader().

Referenced by GctDigiToRaw::produce().

Member Data Documentation

◆ m_blockLength

const GctFormatTranslateMCLegacy::BlockLengthMap GctFormatTranslateMCLegacy::m_blockLength
staticprivate
Initial value:
= {
{0x000, 0},
{0x0ff, 198},
{0x583, 8},
{0x683, 6},
{0x804, 15},
{0x884, 12},
{0xc04, 15},
{0xc84, 12}}

Map to translate block number to fundamental size of a block (i.e. for 1 time-sample).

Definition at line 106 of file GctFormatTranslateMCLegacy.h.

Referenced by blockLengthMap().

◆ m_blockName

const GctFormatTranslateMCLegacy::BlockNameMap GctFormatTranslateMCLegacy::m_blockName
staticprivate
Initial value:
= {
{0x000, "NULL"},
{0x0ff, "All RCT Calo Regions"},
{0x583, "ConcJet: Jet Cands and Counts Output to GT"},
{0x683, "ConcElec: EM Cands and Energy Sums Output to GT"},
{0x804, "Leaf0ElecPosEtaU1: Raw Input"},
{0x884, "Leaf0ElecPosEtaU2: Raw Input"},
{0xc04, "Leaf0ElecNegEtaU1: Raw Input"},
{0xc84, "Leaf0ElecNegEtaU2: Raw Input"}}

Map to hold a description for each block number.

Definition at line 109 of file GctFormatTranslateMCLegacy.h.

Referenced by blockNameMap().

◆ m_blockUnpackFn

const GctFormatTranslateMCLegacy::BlockIdToUnpackFnMap GctFormatTranslateMCLegacy::m_blockUnpackFn
staticprivate

◆ m_internEmIsoBounds

const GctFormatTranslateMCLegacy::BlockIdToEmCandIsoBoundMap GctFormatTranslateMCLegacy::m_internEmIsoBounds
staticprivate

A map of Block IDs to IsoBoundaryPairs for storing the location of the isolated Internal EM cands in the pipeline, as this differs with Block ID.

Definition at line 119 of file GctFormatTranslateMCLegacy.h.

Referenced by internEmIsoBounds().

◆ m_rctEmCrate

const GctFormatTranslateMCLegacy::BlkToRctCrateMap GctFormatTranslateMCLegacy::m_rctEmCrate
staticprivate
Initial value:
= {
{0x804, 13}, {0x884, 9}, {0xc04, 4}, {0xc84, 0}}

Map to relate capture block ID to the RCT crate the data originated from (for electrons).

Definition at line 112 of file GctFormatTranslateMCLegacy.h.

Referenced by rctEmCrateMap().

◆ m_rctJetCrate

const GctFormatTranslateMCLegacy::BlkToRctCrateMap GctFormatTranslateMCLegacy::m_rctJetCrate
staticprivate

Map to relate capture block ID to the RCT crate the data originated from (for jets).

Definition at line 115 of file GctFormatTranslateMCLegacy.h.

Referenced by rctJetCrateMap().

GctFormatTranslateMCLegacy::blockToGctJetCandsAndCounts
void blockToGctJetCandsAndCounts(const unsigned char *d, const GctBlockHeader &hdr)
Unpack GCT Jet Candidates and jet counts.
Definition: GctFormatTranslateMCLegacy.cc:524
L1GctHtMiss
Persistable copy of missing Et measured at Level-1.
Definition: L1GctHtMiss.h:16
L1CaloRegion::fineGrain
bool fineGrain() const
get fine grain bit
Definition: L1CaloRegion.h:102
GctBlockHeader
Simple class for holding the basic attributes of an 32-bit block header.
Definition: GctBlockHeader.h:15
GctFormatTranslateBase::FORWARD_JETS
Definition: GctFormatTranslateBase.h:61
GctFormatTranslateMCLegacy::blockToAllRctCaloRegions
void blockToAllRctCaloRegions(const unsigned char *d, const GctBlockHeader &hdr)
Unpack All RCT Calo Regions ('orrible hack for DigiToRaw use)
Definition: GctFormatTranslateMCLegacy.cc:670
mps_fire.i
i
Definition: mps_fire.py:355
L1GctJetCand
Level-1 Trigger jet candidate.
Definition: L1GctJetCand.h:17
GctFormatTranslateMCLegacy::blockToFibresAndToRctEmCand
void blockToFibresAndToRctEmCand(const unsigned char *d, const GctBlockHeader &hdr)
unpack Fibres and RCT EM Candidates
Definition: GctFormatTranslateMCLegacy.cc:665
L1CaloRegion
A calorimeter trigger region (sum of 4x4 trigger towers)
Definition: L1CaloRegion.h:21
L1GctHFBitCounts::fromConcHFBitCounts
static L1GctHFBitCounts fromConcHFBitCounts(const uint16_t capBlock, const uint16_t capIndex, const int16_t bx, const uint32_t data)
Definition: L1GctHFBitCounts.cc:14
GctUnpackCollections::rctEm
L1CaloEmCollection *const rctEm() const
Input electrons from the RCT to the GCT.
Definition: GctUnpackCollections.h:31
GctFormatTranslateBase::writeRawHeader
void writeRawHeader(unsigned char *data, uint32_t blockId, uint32_t nSamples) const
Writes a raw block header into the raw data array for a given block ID and number of time-samples.
Definition: GctFormatTranslateBase.cc:41
GctFormatTranslateBase::NUM_JET_CATEGORIES
Definition: GctFormatTranslateBase.h:61
GctFormatTranslateMCLegacy::blockToGctEmCandsAndEnergySums
void blockToGctEmCandsAndEnergySums(const unsigned char *d, const GctBlockHeader &hdr)
unpack GCT EM Candidates and energy sums.
Definition: GctFormatTranslateMCLegacy.cc:466
AlCaHLTBitMon_ParallelJobs.p
p
Definition: AlCaHLTBitMon_ParallelJobs.py:153
L1GctJetCandCollection
std::vector< L1GctJetCand > L1GctJetCandCollection
Definition: L1GctCollections.h:31
GctFormatTranslateBase::unpackSharedRegions
bool unpackSharedRegions() const
Definition: GctFormatTranslateBase.h:101
L1CaloRegion::bx
int16_t bx() const
get bunch-crossing index
Definition: L1CaloRegion.h:165
l1GtPatternGenerator_cfi.bx
bx
Definition: l1GtPatternGenerator_cfi.py:18
SourceCardRouting::EmuToSfpData::eIsoRank
unsigned short eIsoRank[4]
Definition: SourceCardRouting.h:22
L1GctEmCand
Level-1 Trigger EM candidate at output of GCT.
Definition: L1GctEmCand.h:21
cms::cuda::assert
assert(be >=bs)
edm::second
U second(std::pair< T, U > const &p)
Definition: ParameterSet.cc:215
GctUnpackCollections::gctHfBitCounts
L1GctHFBitCountsCollection *const gctHfBitCounts() const
GCT output: Hadronic-Forward bit-counts collection.
Definition: GctUnpackCollections.h:67
GctFormatTranslateMCLegacy::blockLengthMap
const BlockLengthMap & blockLengthMap() const final
get the static block ID to block-length map.
Definition: GctFormatTranslateMCLegacy.h:70
GctUnpackCollections::gctHfRingEtSums
L1GctHFRingEtSumsCollection *const gctHfRingEtSums() const
GCT output: Hadronic-Forward ring-sums collection.
Definition: GctUnpackCollections.h:70
singleTopDQM_cfi.jets
jets
Definition: singleTopDQM_cfi.py:42
GctFormatTranslateBase::blockDoNothing
void blockDoNothing(const unsigned char *d, const GctBlockHeader &hdr)
The null unpack function - obviously common to all formats.
Definition: GctFormatTranslateBase.h:128
GctBlockHeader::blockId
uint32_t blockId() const
Get the block ID.
Definition: GctBlockHeader.h:27
createJobs.tmp
tmp
align.sh
Definition: createJobs.py:716
newFWLiteAna.found
found
Definition: newFWLiteAna.py:118
SourceCardRouting::EmuToSfpData
Definition: SourceCardRouting.h:20
SourceCardRouting::EmuToSfpData::eIsoRegionId
unsigned short eIsoRegionId[4]
Definition: SourceCardRouting.h:24
PresampleTask_cfi.nSamples
nSamples
Definition: PresampleTask_cfi.py:7
GctUnpackCollections::gctNonIsoEm
L1GctEmCandCollection *const gctNonIsoEm() const
GCT output: Non-isolated EM candidate collection.
Definition: GctUnpackCollections.h:57
validateGeometry_cfg.valid
valid
Definition: validateGeometry_cfg.py:21
end
#define end
Definition: vmac.h:39
LEDCalibrationChannels.iphi
iphi
Definition: LEDCalibrationChannels.py:64
L1GctEtMiss
Persistable copy of missing Et measured at Level-1.
Definition: L1GctEtMiss.h:17
L1CaloRegionDetId
Definition: L1CaloRegionDetId.h:18
GctFormatTranslateBase::GctFormatTranslateBase
GctFormatTranslateBase(bool hltMode=false, bool unpackSharedRegions=false)
Constructor.
Definition: GctFormatTranslateBase.cc:11
L1CaloRegion::isHbHe
bool isHbHe() const
Definition: L1CaloRegion.h:135
GctUnpackCollections::gctHtMiss
L1GctHtMissCollection *const gctHtMiss() const
GCT output: Missing Ht collection.
Definition: GctUnpackCollections.h:78
L1CaloRegion::mip
bool mip() const
get MIP bit
Definition: L1CaloRegion.h:105
L1GctEtTotal
Persistable copy of total Et measured at Level-1.
Definition: L1GctEtTotal.h:17
GctFormatTranslateBase::hltMode
bool hltMode() const
Protected interface to get HLT optimisation mode flag.
Definition: GctFormatTranslateBase.h:100
LEDCalibrationChannels.ieta
ieta
Definition: LEDCalibrationChannels.py:63
GctFormatTranslateMCLegacy::findBx0OffsetInCollection
bool findBx0OffsetInCollection(unsigned &bx0Offset, const Collection *coll)
Template function (used in packing) that will find the offset to first item in a collection vector wh...
Definition: GctFormatTranslateMCLegacy.cc:715
LogDebug
#define LogDebug(id)
Definition: MessageLogger.h:670
L1CaloRegion::overFlow
bool overFlow() const
get overflow
Definition: L1CaloRegion.h:96
L1CaloRegion::rctCrate
unsigned rctCrate() const
get RCT crate ID
Definition: L1CaloRegion.h:138
L1CaloRegion::et
unsigned et() const
get Et
Definition: L1CaloRegion.h:90
L1GctHFRingEtSums::fromConcRingSums
static L1GctHFRingEtSums fromConcRingSums(const uint16_t capBlock, const uint16_t capIndex, const int16_t bx, const uint32_t data)
Definition: L1GctHFRingEtSums.cc:14
GctFormatTranslateMCLegacy::blockToFibres
void blockToFibres(const unsigned char *d, const GctBlockHeader &hdr)
unpack Fibres
Definition: GctFormatTranslateMCLegacy.cc:643
GctUnpackCollections::rctCalo
L1CaloRegionCollection *const rctCalo() const
Input calo regions from the RCT to the GCT.
Definition: GctUnpackCollections.h:32
L1CaloRegion::rctCard
unsigned rctCard() const
get RCT reciever card ID (valid output for HB/HE)
Definition: L1CaloRegion.h:141
cand
Definition: decayParser.h:34
GctFormatTranslateBase::CENTRAL_JETS
Definition: GctFormatTranslateBase.h:61
GctFormatTranslateMCLegacy::rctEmCrateMap
const BlkToRctCrateMap & rctEmCrateMap() const final
get static the block ID to RCT crate map for electrons.
Definition: GctFormatTranslateMCLegacy.h:76
GctFormatTranslateBase::colls
GctUnpackCollections *const colls() const
Protected access to the GCT Unpack Collections.
Definition: GctFormatTranslateBase.h:97
GctBlockHeader::blockLength
uint32_t blockLength() const
Get the fundamental block length (for 1 time sample)
Definition: GctBlockHeader.h:30
SourceCardRouting::EmuToSfpData::eNonIsoRank
unsigned short eNonIsoRank[4]
Definition: SourceCardRouting.h:25
HltBtagPostValidation_cff.c
c
Definition: HltBtagPostValidation_cff.py:31
SourceCardRouting::EmuToSfpData::eNonIsoCardId
unsigned short eNonIsoCardId[4]
Definition: SourceCardRouting.h:26
SourceCardRouting::SFPtoEMU
void SFPtoEMU(unsigned short(&eIsoRank)[4], unsigned short(&eIsoCardId)[4], unsigned short(&eIsoRegionId)[4], unsigned short(&eNonIsoRank)[4], unsigned short(&eNonIsoCardId)[4], unsigned short(&eNonIsoRegionId)[4], unsigned short(&MIPbits)[7][2], unsigned short(&Qbits)[7][2], unsigned short(&SFP)[2][4]) const
Definition: SourceCardRouting.cc:68
SourceCardRouting::EMUtoSFP
void EMUtoSFP(unsigned short(&eIsoRank)[4], unsigned short(&eIsoCardId)[4], unsigned short(&eIsoRegionId)[4], unsigned short(&eNonIsoRank)[4], unsigned short(&eNonIsoCardId)[4], unsigned short(&eNonIsoRegionId)[4], unsigned short(&MIPbits)[7][2], unsigned short(&Qbits)[7][2], unsigned short(&SFP)[2][4]) const
Definition: SourceCardRouting.cc:30
GctUnpackCollections::gctIsoEm
L1GctEmCandCollection *const gctIsoEm() const
GCT output: Isolated EM candidate collection.
Definition: GctUnpackCollections.h:54
L1GctHtMiss::phi
unsigned phi() const
get the Et
Definition: L1GctHtMiss.h:65
GctFormatTranslateBase::gctJets
L1GctJetCandCollection *const gctJets(const unsigned cat) const
Get a specific jet candandiate collection using the JetCandCategory enumeration.
Definition: GctFormatTranslateBase.cc:30
SourceCardRouting::EmuToSfpData::sfp
unsigned short sfp[2][4]
Definition: SourceCardRouting.h:31
GctFormatTranslateBase::TAU_JETS
Definition: GctFormatTranslateBase.h:61
GctBlockHeader::nSamples
uint32_t nSamples() const
Get the number of time samples.
Definition: GctBlockHeader.h:33
L1GctEtHad
Persistable copy of total Ht measured at Level-1.
Definition: L1GctEtHad.h:17
L1GctEmCandCollection
std::vector< L1GctEmCand > L1GctEmCandCollection
Definition: L1GctCollections.h:30
GctFormatTranslateMCLegacy::m_blockUnpackFn
static const BlockIdToUnpackFnMap m_blockUnpackFn
Block ID to unpack function map.
Definition: GctFormatTranslateMCLegacy.h:122
triggerObjects_cff.id
id
Definition: triggerObjects_cff.py:31
GctFormatTranslateBase::ISO_EM_CANDS
Definition: GctFormatTranslateBase.h:57
GctFormatTranslateBase::NON_ISO_EM_CANDS
Definition: GctFormatTranslateBase.h:57
GctUnpackCollections::gctEtHad
L1GctEtHadCollection *const gctEtHad() const
GCT output: Hadronic transverse-energy (Ht) collection.
Definition: GctUnpackCollections.h:74
L1CaloRegion::quiet
bool quiet() const
get quiet bit
Definition: L1CaloRegion.h:108
HLT_2018_cff.cands
cands
Definition: HLT_2018_cff.py:13762
GctFormatTranslateBase::NUM_EM_CAND_CATEGORIES
Definition: GctFormatTranslateBase.h:57
GctUnpackCollections::gctEtMiss
L1GctEtMissCollection *const gctEtMiss() const
GCT output: Missing Et collection.
Definition: GctUnpackCollections.h:77
data
char data[epos_bytes_allocation]
Definition: EPOS_Wrapper.h:79
AlignmentPI::index
index
Definition: AlignmentPayloadInspectorHelper.h:46
L1GctFibreWord
Global Calorimeter Trigger SC -> CC fibre data word.
Definition: L1GctFibreWord.h:17
ztail.d
d
Definition: ztail.py:151
GctUnpackCollections::gctEtTot
L1GctEtTotalCollection *const gctEtTot() const
GCT output: Total Et collection.
Definition: GctUnpackCollections.h:73
GctFormatTranslateBase::srcCardRouting
const SourceCardRouting & srcCardRouting() const
Protected interface to the unpackSharedRegions commissioning option.
Definition: GctFormatTranslateBase.h:104
GctFormatTranslateMCLegacy::blockToRctEmCand
void blockToRctEmCand(const unsigned char *d, const GctBlockHeader &hdr)
unpack RCT EM Candidates
Definition: GctFormatTranslateMCLegacy.cc:584
GctFormatTranslateBase::checkBlock
bool checkBlock(const GctBlockHeader &hdr) const
Performs checks on the block header to see if the block is possible to unpack or not.
Definition: GctFormatTranslateBase.cc:47
hltrates_dqm_sourceclient-live_cfg.offset
offset
Definition: hltrates_dqm_sourceclient-live_cfg.py:82
SourceCardRouting::EmuToSfpData::eNonIsoRegionId
unsigned short eNonIsoRegionId[4]
Definition: SourceCardRouting.h:27
L1GctHtMiss::overFlow
bool overFlow() const
get the overflow
Definition: L1GctHtMiss.h:62
L1CaloRegion::rctRegionIndex
unsigned rctRegionIndex() const
get RCT region index
Definition: L1CaloRegion.h:144
L1CaloEmCand
Level-1 Region Calorimeter Trigger EM candidate.
Definition: L1CaloEmCand.h:17
GctUnpackCollections::gctFibres
L1GctFibreCollection *const gctFibres() const
Raw fibre input to the GCT.
Definition: GctUnpackCollections.h:30
begin
#define begin
Definition: vmac.h:32
L1GctHtMiss::et
unsigned et() const
get the magnitude
Definition: L1GctHtMiss.h:59
SourceCardRouting::EmuToSfpData::eIsoCardId
unsigned short eIsoCardId[4]
Definition: SourceCardRouting.h:23
findQualityFiles.size
size
Write out results.
Definition: findQualityFiles.py:443