omtf Namespace Reference

Namespaces
	DataWord64

Classes
class	CscDataWord64
class	CscPacker
class	CscUnpacker
class	DtDataWord64
class	DtPacker
class	DtUnpacker
class	EleIndex
struct	lessLinkBoardElectronicIndex
class	MuonDataWord64
class	MuonUnpacker
class	OmtfPacker
class	OmtfUnpacker
class	RpcDataWord64
class	RpcLinkMap
class	RpcPacker
class	RpcUnpacker

Typedefs
typedef std::map< std::pair < unsigned int, unsigned int > , std::vector< Word64 > >	FedAmcRawsMap
typedef std::map< uint32_t, std::pair< EleIndex, EleIndex > >	MapCscDet2EleIndex
typedef std::map< EleIndex, CSCDetId >	MapEleIndex2CscDet
typedef std::map< EleIndex, LinkBoardElectronicIndex >	MapEleIndex2LBIndex
typedef std::map < LinkBoardElectronicIndex, std::pair< EleIndex, EleIndex > , lessLinkBoardElectronicIndex >	MapLBIndex2EleIndex
typedef uint64_t	Word64

Functions
MapCscDet2EleIndex	mapCscDet2EleIndex ()
MapEleIndex2CscDet	mapEleIndex2CscDet ()
std::ostream &	operator<< (std::ostream &out, const CscDataWord64 &o)
std::ostream &	operator<< (std::ostream &out, const DtDataWord64 &o)
std::ostream &	operator<< (std::ostream &out, const MuonDataWord64 &o)
std::ostream &	operator<< (std::ostream &out, const RpcDataWord64 &o)
MapEleIndex2LBIndex	translateOmtf2Pact (const RpcLinkMap &omtfLnks, const RPCReadOutMapping *pactCabling)
MapLBIndex2EleIndex	translatePact2Omtf (const RpcLinkMap &omtfLnks, const RPCReadOutMapping *pactCabling)

Typedef Documentation

typedef std::map<std::pair<unsigned int, unsigned int>, std::vector<Word64> > omtf::FedAmcRawsMap

Definition at line 13 of file OmtfDataWord64.h.

typedef std::map<uint32_t, std::pair<EleIndex, EleIndex> > omtf::MapCscDet2EleIndex

Definition at line 12 of file OmtfLinkMappingCsc.h.

typedef std::map<EleIndex, CSCDetId> omtf::MapEleIndex2CscDet

Definition at line 11 of file OmtfLinkMappingCsc.h.

typedef std::map<EleIndex, LinkBoardElectronicIndex> omtf::MapEleIndex2LBIndex

Definition at line 18 of file OmtfLinkMappingRpc.h.

typedef std::map<LinkBoardElectronicIndex, std::pair<EleIndex, EleIndex>, lessLinkBoardElectronicIndex> omtf::MapLBIndex2EleIndex

Definition at line 27 of file OmtfLinkMappingRpc.h.

typedef uint64_t omtf::Word64

Definition at line 11 of file OmtfDataWord64.h.

Function Documentation

MapCscDet2EleIndex omtf::mapCscDet2EleIndex

(

)

Definition at line 247 of file OmtfLinkMappingCsc.cc.

References mapEleIndex2CscDet(), and mps_fire::result.

Referenced by omtf::CscPacker::init().

                                          {
    MapCscDet2EleIndex result;
    MapEleIndex2CscDet omtf2cscs = mapEleIndex2CscDet();

    for (const auto& omtf2csc : omtf2cscs) {
      uint32_t rawId = omtf2csc.second;
      auto it = result.find(rawId);
      if (result.end() == it) {
        result[rawId] = std::make_pair(omtf2csc.first, EleIndex());
      } else {
        it->second.second = omtf2csc.first;
      }
    }

    return result;
  }

MapEleIndex2CscDet omtf::mapEleIndex2CscDet

(

)

Definition at line 5 of file OmtfLinkMappingCsc.cc.

References amc, relativeConstraints::cham, Reference_intrackfit_cff::endcap, MainPageGenerator::link, mps_fire::result, relativeConstraints::ring, and edm_modernize_messagelogger::stat.

Referenced by omtf::CscUnpacker::init(), and mapCscDet2EleIndex().

                                          {
    MapEleIndex2CscDet result;
    for (unsigned int fed = 1380; fed <= 1381; fed++) {
      //Endcap label. 1=forward (+Z); 2=backward (-Z)
      unsigned int endcap = (fed == 1380) ? 2 : 1;
      for (unsigned int amc = 1; amc <= 6; amc++) {
        for (unsigned int link = 0; link <= 34; link++) {
          unsigned int stat = 0;
          unsigned int ring = 0;
          unsigned int cham = 0;
          switch (link) {
            case (0): {
              stat = 1;
              ring = 2;
              cham = 3;
              break;
            }  //  (0,  9, 2, 3 ), --channel_0  OV1A_4 chamber_ME1/2/3  layer_9 input 2, 3
            case (1): {
              stat = 1;
              ring = 2;
              cham = 4;
              break;
            }  //  (1,  9, 4, 5 ), --channel_1  OV1A_5 chamber_ME1/2/4  layer_9 input 4, 5
            case (2): {
              stat = 1;
              ring = 2;
              cham = 5;
              break;
            }  //  (2,  9, 6, 7 ), --channel_2  OV1A_6 chamber_ME1/2/5  layer_9 input 6, 7
            case (3): {
              stat = 1;
              ring = 3;
              cham = 3;
              break;
            }  //  (3,  6, 2, 3 ), --channel_3  OV1A_7 chamber_ME1/3/3  layer_6 input 2, 3
            case (4): {
              stat = 1;
              ring = 3;
              cham = 4;
              break;
            }  //  (4,  6, 4, 5 ), --channel_4  OV1A_8 chamber_ME1/3/4  layer_6 input 4, 5
            case (5): {
              stat = 1;
              ring = 3;
              cham = 5;
              break;
            }  //  (5,  6, 6, 7 ), --channel_5  OV1A_9 chamber_ME1/3/5  layer_6 input 6, 7
            case (6): {
              stat = 1;
              ring = 2;
              cham = 6;
              break;
            }  //  (6,  9, 8, 9 ), --channel_6  OV1B_4 chamber_ME1/2/6  layer_9 input 8, 9
            case (7): {
              stat = 1;
              ring = 2;
              cham = 7;
              break;
            }  //  (7,  9, 10,11), --channel_7  OV1B_5 chamber_ME1/2/7  layer_9 input 10,11
            case (8): {
              stat = 1;
              ring = 2;
              cham = 8;
              break;
            }  //  (8,  9, 12,13), --channel_8  OV1B_6 chamber_ME1/2/8  layer_9 input 12,13
            case (9): {
              stat = 1;
              ring = 3;
              cham = 6;
              break;
            }  //  (9,  6, 8, 9 ), --channel_9  OV1B_7 chamber_ME1/3/6  layer_6 input 8, 9
            case (10): {
              stat = 1;
              ring = 3;
              cham = 7;
              break;
            }  //  (10, 6, 10,11), --channel_10 OV1B_8 chamber_ME1/3/7  layer_6 input 10,11
            case (11): {
              stat = 1;
              ring = 3;
              cham = 8;
              break;
            }  //  (11, 6, 12,13), --channel_11 OV1B_9 chamber_ME1/3/8  layer_6 input 12,13
            case (12): {
              stat = 2;
              ring = 2;
              cham = 3;
              break;
            }  //  (12, 7, 2, 3 ), --channel_0  OV2_4  chamber_ME2/2/3  layer_7 input 2, 3
            case (13): {
              stat = 2;
              ring = 2;
              cham = 4;
              break;
            }  //  (13, 7, 4, 5 ), --channel_1  OV2_5  chamber_ME2/2/4  layer_7 input 4, 5
            case (14): {
              stat = 2;
              ring = 2;
              cham = 5;
              break;
            }  //  (14, 7, 6, 7 ), --channel_2  OV2_6  chamber_ME2/2/5  layer_7 input 6, 7
            case (15): {
              stat = 2;
              ring = 2;
              cham = 6;
              break;
            }  //  (15, 7, 8, 9 ), --channel_3  OV2_7  chamber_ME2/2/6  layer_7 input 8, 9
            case (16): {
              stat = 2;
              ring = 2;
              cham = 7;
              break;
            }  //  (16, 7, 10,11), --channel_4  OV2_8  chamber_ME2/2/7  layer_7 input 10,11
            case (17): {
              stat = 2;
              ring = 2;
              cham = 8;
              break;
            }  //  (17, 7, 12,13), --channel_5  OV2_9  chamber_ME2/2/8  layer_7 input 12,13
            case (18): {
              stat = 3;
              ring = 2;
              cham = 3;
              break;
            }  //  (18, 8, 2, 3 ), --channel_6  OV3_4  chamber_ME3/2/3  layer_8 input 2, 3
            case (19): {
              stat = 3;
              ring = 2;
              cham = 4;
              break;
            }  //  (19, 8, 4, 5 ), --channel_7  OV3_5  chamber_ME3/2/4  layer_8 input 4, 5
            case (20): {
              stat = 3;
              ring = 2;
              cham = 5;
              break;
            }  //  (20, 8, 6, 7 ), --channel_8  OV3_6  chamber_ME3/2/5  layer_8 input 6, 7
            case (21): {
              stat = 3;
              ring = 2;
              cham = 6;
              break;
            }  //  (21, 8, 8, 9 ), --channel_9  OV3_7  chamber_ME3/2/6  layer_8 input 8, 9
            case (22): {
              stat = 3;
              ring = 2;
              cham = 7;
              break;
            }  //  (22, 8, 10,11), --channel_10 OV3_8  chamber_ME3/2/7  layer_8 input 10,11
            case (23): {
              stat = 3;
              ring = 2;
              cham = 8;
              break;
            }  //  (23, 8, 12,13), --channel_11 OV3_9  chamber_ME3/2/8  layer_8 input 12,13
            case (24): {
              stat = 4;
              ring = 2;
              cham = 3;
              break;
            }  //--(24,  ,      ), --channel_3  OV4_4  chamber_ME4/2/3  layer   input
            case (25): {
              stat = 4;
              ring = 2;
              cham = 4;
              break;
            }  //--(25,  ,      ), --channel_4  OV4_5  chamber_ME4/2/4  layer   input
            case (26): {
              stat = 4;
              ring = 2;
              cham = 5;
              break;
            }  //--(26,  ,      ), --channel_5  OV4_6  chamber_ME4/2/5  layer   input
            case (27): {
              stat = 4;
              ring = 2;
              cham = 6;
              break;
            }  //--(27,  ,      ), --channel_7  OV4_7  chamber_ME4/2/6  layer   input
            case (28): {
              stat = 4;
              ring = 2;
              cham = 7;
              break;
            }  //--(28,  ,      ), --channel_8  OV4_8  chamber_ME4/2/7  layer   input
            case (29): {
              stat = 4;
              ring = 2;
              cham = 8;
              break;
            }  //--(29,  ,      ), --channel_9  OV4_9  chamber_ME4/2/8  layer   input
            case (30): {
              stat = 1;
              ring = 2;
              cham = 2;
              break;
            }  //  (30, 9, 0, 1 ), --channel_0  OV1B_6 chamber_ME1/2/2  layer_9 input 0, 1
            case (31): {
              stat = 1;
              ring = 3;
              cham = 2;
              break;
            }  //  (31, 6, 0, 1 ), --channel_1  OV1B_9 chamber_ME1/3/2  layer_6 input 0, 1
            case (32): {
              stat = 2;
              ring = 2;
              cham = 2;
              break;
            }  //  (32, 7, 0, 1 ), --channel_2  OV2_9  chamber_ME2/2/2  layer_7 input 0, 1
            case (33): {
              stat = 3;
              ring = 2;
              cham = 2;
              break;
            }  //  (33, 8, 0, 1 ), --channel_3  ON3_9  chamber_ME3/2/2  layer_8 input 0, 1
            case (34): {
              stat = 4;
              ring = 2;
              cham = 2;
              break;
            }  //--(34,  ,      ), --channel_4  ON4_9  chamber_ME4/2/2  layer   input
            default: {
              stat = 0;
              ring = 0;
              cham = 0;
              break;
            }
          }
          if (ring != 0) {
            int chamber = cham + (amc - 1) * 6;
            if (chamber > 36)
              chamber -= 36;
            CSCDetId cscDetId(endcap, stat, ring, chamber, 0);
            EleIndex omtfEle(fed, amc, link);
            result[omtfEle] = cscDetId;
          }
        }
      }
    }
    return result;
  }

std::ostream& omtf::operator<<	(	std::ostream &	out,
		const CscDataWord64 &	o
	)

Definition at line 4 of file OmtfCscDataWord64.cc.

References omtf::CscDataWord64::bend(), omtf::CscDataWord64::bxNum(), omtf::CscDataWord64::clctPattern(), omtf::CscDataWord64::cscID(), omtf::CscDataWord64::halfStrip(), omtf::CscDataWord64::hitNum(), omtf::CscDataWord64::linkNum(), submitPVResolutionJobs::out, omtf::CscDataWord64::quality(), omtf::CscDataWord64::station(), omtf::CscDataWord64::type(), omtf::DataWord64::type(), omtf::CscDataWord64::valid(), and omtf::CscDataWord64::wireGroup().

                                                                  {
    out << "CscDataWord64: "
        << " type: " << DataWord64::type(o.type()) << " val: " << o.valid() << " bx: " << o.bxNum()
        << " lnk: " << o.linkNum() << " stat: " << o.station() << " cscId: " << o.cscID() << " hit: " << o.hitNum()
        << " qual: " << o.quality() << " patt: " << o.clctPattern() << " bending: " << o.bend()
        << " hs: " << o.halfStrip() << " wg: " << o.wireGroup();
    return out;
  }

std::ostream& omtf::operator<<	(	std::ostream &	out,
		const DtDataWord64 &	o
	)

Definition at line 4 of file OmtfDtDataWord64.cc.

References omtf::DtDataWord64::bcnt_e0(), omtf::DtDataWord64::bcnt_e1(), omtf::DtDataWord64::bcnt_st(), omtf::DtDataWord64::bxNum(), omtf::DtDataWord64::eta(), omtf::DtDataWord64::etaQuality(), omtf::DtDataWord64::fiber(), submitPVResolutionJobs::out, omtf::DtDataWord64::phi(), omtf::DtDataWord64::quality(), omtf::DtDataWord64::sector(), omtf::DtDataWord64::station(), omtf::DataWord64::type(), and omtf::DtDataWord64::type().

                                                                 {
    out << "DtDataWord64:  "
        << " type: " << DataWord64::type(o.type()) << " bx: " << o.bxNum() << " station: " << o.station()
        << " sector: " << o.sector() << " fiber: " << o.fiber() << " phi: " << o.phi() << " quality: " << o.quality()
        << " eta: " << o.eta() << " etaQ: " << o.etaQuality() << " bcnt: " << o.bcnt_st() << "_" << o.bcnt_e0() << "_"
        << o.bcnt_e1() << "";
    return out;
  }

std::ostream& omtf::operator<<	(	std::ostream &	out,
		const MuonDataWord64 &	o
	)

Definition at line 6 of file OmtfMuonDataWord64.cc.

References omtf::MuonDataWord64::bxNum(), omtf::MuonDataWord64::eta(), omtf::MuonDataWord64::layers(), submitPVResolutionJobs::out, omtf::MuonDataWord64::phi(), omtf::MuonDataWord64::pT(), omtf::MuonDataWord64::quality(), omtf::DataWord64::type(), and omtf::MuonDataWord64::type().

                                                                   {
    out << "MuonDataWord64: "
        << " type: " << DataWord64::type(o.type()) << " bx: " << o.bxNum() << " pT: " << o.pT() << " eta: " << o.eta()
        << " phi: " << o.phi() << " quality: " << o.quality() << " layers: " << std::bitset<18>(o.layers()) << "";
    return out;
  }

std::ostream& omtf::operator<<	(	std::ostream &	out,
		const RpcDataWord64 &	o
	)

Definition at line 6 of file OmtfRpcDataWrod64.cc.

References omtf::RpcDataWord64::bxNum_, TauDecayModes::dec, omtf::RpcDataWord64::frame1_, omtf::RpcDataWord64::frame2_, omtf::RpcDataWord64::frame3_, if(), omtf::RpcDataWord64::linkNum_, submitPVResolutionJobs::out, omtf::DataWord64::type(), and omtf::RpcDataWord64::type().

                                                                  {
    out << "RpcDataWord64: "
        << " type: " << DataWord64::type(o.type()) << " bx: " << o.bxNum_ << " lnk: " << o.linkNum_;
    out << std::hex;
    out << " frame1: 0x" << o.frame1_;
    if (o.frame1_ != 0)
      out << " (" << std::bitset<16>(o.frame1_) << ")";
    out << " frame2: 0x" << o.frame2_;
    if (o.frame2_ != 0)
      out << " (" << std::bitset<16>(o.frame2_) << ")";
    out << " frame3: 0x" << o.frame3_;
    if (o.frame3_ != 0)
      out << " (" << std::bitset<16>(o.frame3_) << ")";
    out << std::dec;
    return out;
  }

MapEleIndex2LBIndex omtf::translateOmtf2Pact	(	const RpcLinkMap &	omtfLnks,
		const RPCReadOutMapping *	pactCabling
	)

Definition at line 33 of file OmtfLinkMappingRpc.cc.

References LinkBoardElectronicIndex::dccInputChannelNum, RPCReadOutMapping::dccList(), electronStore::links, LogTrace, omtf::RpcLinkMap::omtfEleIndex(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by omtf::RpcUnpacker::init(), and translatePact2Omtf().

                                                                                                               {
    MapEleIndex2LBIndex omtf2rpc;

    std::vector<const DccSpec*> dccs = pactCabling->dccList();
    for (auto it1 : dccs) {
      const std::vector<TriggerBoardSpec>& rmbs = it1->triggerBoards();
      for (auto const& it2 : rmbs) {
        const std::vector<LinkConnSpec>& links = it2.linkConns();
        for (auto const& it3 : links) {
          const std::vector<LinkBoardSpec>& lbs = it3.linkBoards();
          for (std::vector<LinkBoardSpec>::const_iterator it4 = lbs.begin(); it4 != lbs.end(); ++it4) {
            std::string lbNameCH = it4->linkBoardName();
            std::string lbName = lbNameCH.substr(0, lbNameCH.size() - 4);
            std::vector<EleIndex> omtfEles = omtfLink2Ele.omtfEleIndex(lbName);
            //        if (!omtfEles.empty()) std::cout <<"  isOK ! " <<  it4->linkBoardName() <<" has: " << omtfEles.size() << " first: "<< omtfEles[0] << std::endl;
            LinkBoardElectronicIndex rpcEle = {
                it1->id(), it2.dccInputChannelNum(), it3.triggerBoardInputNumber(), it4->linkBoardNumInLink()};
            for (const auto& omtfEle : omtfEles)
              omtf2rpc[omtfEle] = rpcEle;
          }
        }
      }
    }
    LogTrace(" ") << " SIZE OF OMTF to RPC map TRANSLATION is: " << omtf2rpc.size() << std::endl;
    return omtf2rpc;
  }

MapLBIndex2EleIndex omtf::translatePact2Omtf	(	const RpcLinkMap &	omtfLnks,
		const RPCReadOutMapping *	pactCabling
	)

Definition at line 60 of file OmtfLinkMappingRpc.cc.

References if(), and translateOmtf2Pact().

Referenced by omtf::RpcPacker::init().

                                                                                                               {
    MapLBIndex2EleIndex pact2omtfs;
    MapEleIndex2LBIndex omtf2rpcs = translateOmtf2Pact(omtfLink2Ele, pactCabling);
    for (const auto& omtf2rpc : omtf2rpcs) {
      std::pair<EleIndex, EleIndex>& omtfs = pact2omtfs[omtf2rpc.second];
      if (omtfs.first.fed() == 0)
        omtfs.first = omtf2rpc.first;
      else if (omtfs.second.fed() == 0)
        omtfs.second = omtf2rpc.first;
      else
        edm::LogError(" translatePact2Omtf ") << " PROBLEM LinkBoardElectronicIndex already USED!!!! ";
    }
    return pact2omtfs;
  }