RawRunSummary.cc

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#include "DQM/HcalTasks/interface/RawRunSummary.h"
 
namespace hcaldqm {
  using namespace constants;
  RawRunSummary::RawRunSummary(std::string const& name, std::string const& taskname, edm::ParameterSet const& ps)
      : DQClient(name, taskname, ps), _booked(false) {}
 
  /* virtual */ void RawRunSummary::beginRun(edm::Run const& r, edm::EventSetup const& es) {
    DQClient::beginRun(r, es);
 
    if (_ptype != fOffline)
      return;
 
    //  INITIALIZE WHAT NEEDS TO BE INITIALIZE ONLY ONCE!
    _ehashmap.initialize(_emap, electronicsmap::fD2EHashMap);
    _vhashVME.push_back(
        HcalElectronicsId(constants::FIBERCH_MIN, constants::FIBER_VME_MIN, SPIGOT_MIN, CRATE_VME_MIN).rawId());
    _vhashuTCA.push_back(HcalElectronicsId(CRATE_uTCA_MIN, SLOT_uTCA_MIN, FIBER_uTCA_MIN1, FIBERCH_MIN, false).rawId());
    _filter_VME.initialize(filter::fFilter, hashfunctions::fElectronics,
                           _vhashVME);  // filter out VME
    _filter_uTCA.initialize(filter::fFilter, hashfunctions::fElectronics,
                            _vhashuTCA);  // filter out uTCA
 
    //  INTIALIZE CONTAINERS ACTING AS HOLDERS OF RUN INFORAMTION
    _cEvnMsm_ElectronicsVME.initialize(_name,
                                       "EvnMsm",
                                       hashfunctions::fElectronics,
                                       new quantity::FEDQuantity(_vFEDsVME),
                                       new quantity::ElectronicsQuantity(quantity::fSpigot),
                                       new quantity::ValueQuantity(quantity::fN),
                                       0);
    _cBcnMsm_ElectronicsVME.initialize(_name,
                                       "BcnMsm",
                                       hashfunctions::fElectronics,
                                       new quantity::FEDQuantity(_vFEDsVME),
                                       new quantity::ElectronicsQuantity(quantity::fSpigot),
                                       new quantity::ValueQuantity(quantity::fN),
                                       0);
    _cEvnMsm_ElectronicsuTCA.initialize(_name,
                                        "EvnMsm",
                                        hashfunctions::fElectronics,
                                        new quantity::FEDQuantity(_vFEDsuTCA),
                                        new quantity::ElectronicsQuantity(quantity::fSlotuTCA),
                                        new quantity::ValueQuantity(quantity::fN),
                                        0);
    _cBcnMsm_ElectronicsuTCA.initialize(_name,
                                        "BcnMsm",
                                        hashfunctions::fElectronics,
                                        new quantity::FEDQuantity(_vFEDsuTCA),
                                        new quantity::ElectronicsQuantity(quantity::fSlotuTCA),
                                        new quantity::ValueQuantity(quantity::fN),
                                        0);
    _cBadQuality_depth.initialize(_name,
                                  "BadQuality",
                                  hashfunctions::fdepth,
                                  new quantity::DetectorQuantity(quantity::fieta),
                                  new quantity::DetectorQuantity(quantity::fiphi),
                                  new quantity::ValueQuantity(quantity::fN),
                                  0);
 
    _xEvn.initialize(hashfunctions::fFED);
    _xBcn.initialize(hashfunctions::fFED);
    _xBadQ.initialize(hashfunctions::fFED);
    //  BOOK CONTAINERSXXX
    _xEvn.book(_emap);
    _xBcn.book(_emap);
    _xBadQ.book(_emap);
  }
 
  /*
     *  END OF LUMINOSITY HARVESTING 
     *  RAW FORMAT HAS ONLY LUMI BASED FLAGS!
     *  THEREFORE STEPS ARE:
     *  1) LOAD CONTAINERS YOU NEED (MUST BE LUMI BASED)
     *  2) ANALYZE 
     *  3) GENERATE SUMMARY FLAGS AND PUSH THEM
     */
  /* virtual */ void RawRunSummary::endLuminosityBlock(DQMStore::IBooker& ib,
                                                       DQMStore::IGetter& ig,
                                                       edm::LuminosityBlock const& lb,
                                                       edm::EventSetup const& es) {
    DQClient::endLuminosityBlock(ib, ig, lb, es);
 
    if (_ptype != fOffline)
      return;
 
    //  INITIALIZE WHAT YOU NEED
    LSSummary lssum;         // summary for this LS
    lssum._LS = _currentLS;  // set the LS
 
    //  RESET CONTAINERS USED FOR ANALYSIS OF THIS LS
    _xEvn.reset();
    _xBcn.reset();
    _xBadQ.reset();
 
    //  INITIALIZE LUMI BASED HISTOGRAMS
    Container2D cEvnMsm_ElectronicsVME, cEvnMsm_ElectronicsuTCA;
    Container2D cBcnMsm_ElectronicsVME, cBcnMsm_ElectronicsuTCA;
    Container2D cBadQuality_depth;
    cEvnMsm_ElectronicsVME.initialize(_taskname,
                                      "EvnMsm",
                                      hashfunctions::fElectronics,
                                      new quantity::FEDQuantity(_vFEDsVME),
                                      new quantity::ElectronicsQuantity(quantity::fSpigot),
                                      new quantity::ValueQuantity(quantity::fN),
                                      0);
    cBcnMsm_ElectronicsVME.initialize(_taskname,
                                      "BcnMsm",
                                      hashfunctions::fElectronics,
                                      new quantity::FEDQuantity(_vFEDsVME),
                                      new quantity::ElectronicsQuantity(quantity::fSpigot),
                                      new quantity::ValueQuantity(quantity::fN),
                                      0);
    cEvnMsm_ElectronicsuTCA.initialize(_taskname,
                                       "EvnMsm",
                                       hashfunctions::fElectronics,
                                       new quantity::FEDQuantity(_vFEDsuTCA),
                                       new quantity::ElectronicsQuantity(quantity::fSlotuTCA),
                                       new quantity::ValueQuantity(quantity::fN),
                                       0);
    cBcnMsm_ElectronicsuTCA.initialize(_taskname,
                                       "BcnMsm",
                                       hashfunctions::fElectronics,
                                       new quantity::FEDQuantity(_vFEDsuTCA),
                                       new quantity::ElectronicsQuantity(quantity::fSlotuTCA),
                                       new quantity::ValueQuantity(quantity::fN),
                                       0);
    cBadQuality_depth.initialize(_taskname,
                                 "BadQuality",
                                 hashfunctions::fdepth,
                                 new quantity::DetectorQuantity(quantity::fieta),
                                 new quantity::DetectorQuantity(quantity::fiphi),
                                 new quantity::ValueQuantity(quantity::fN),
                                 0);
 
    //  LOAD LUMI BASED HISTOGRAMS
    cEvnMsm_ElectronicsVME.load(ig, _emap, _filter_uTCA, _subsystem);
    cBcnMsm_ElectronicsVME.load(ig, _emap, _filter_uTCA, _subsystem);
    cEvnMsm_ElectronicsuTCA.load(ig, _emap, _filter_VME, _subsystem);
    cBcnMsm_ElectronicsuTCA.load(ig, _emap, _filter_VME, _subsystem);
    cBadQuality_depth.load(ig, _emap, _subsystem);
    MonitorElement* meNumEvents = ig.get(_subsystem + "/RunInfo/NumberOfEvents");
    int numEvents = meNumEvents->getBinContent(1);
 
    //  BOOK for the very first time
    if (!_booked) {
      _cEvnMsm_ElectronicsVME.book(ib, _emap, _filter_uTCA, _subsystem);
      _cBcnMsm_ElectronicsVME.book(ib, _emap, _filter_uTCA, _subsystem);
      _cEvnMsm_ElectronicsuTCA.book(ib, _emap, _filter_VME, _subsystem);
      _cBcnMsm_ElectronicsuTCA.book(ib, _emap, _filter_VME, _subsystem);
      _cBadQuality_depth.book(ib, _emap, _subsystem);
      _booked = true;
    }
 
    // ANALYZE THIS LS
    // iterate over all channels
    std::vector<HcalGenericDetId> gids = _emap->allPrecisionId();
    for (std::vector<HcalGenericDetId>::const_iterator it = gids.begin(); it != gids.end(); ++it) {
      if (!it->isHcalDetId())
        continue;
      HcalDetId did = HcalDetId(it->rawId());
      HcalElectronicsId eid = HcalElectronicsId(_ehashmap.lookup(did));
 
      _xBadQ.get(eid) += cBadQuality_depth.getBinContent(did);
      _cBadQuality_depth.fill(did, cBadQuality_depth.getBinContent(did));
      if (eid.isVMEid()) {
        _xEvn.get(eid) += cEvnMsm_ElectronicsVME.getBinContent(eid);
        _xBcn.get(eid) += cBcnMsm_ElectronicsVME.getBinContent(eid);
 
        _cEvnMsm_ElectronicsVME.fill(eid, cEvnMsm_ElectronicsVME.getBinContent(eid));
        _cBcnMsm_ElectronicsVME.fill(eid, cBcnMsm_ElectronicsVME.getBinContent(eid));
      } else {
        _xEvn.get(eid) += cEvnMsm_ElectronicsuTCA.getBinContent(eid);
        _xBcn.get(eid) += cBcnMsm_ElectronicsuTCA.getBinContent(eid);
 
        _cEvnMsm_ElectronicsuTCA.fill(eid, cEvnMsm_ElectronicsuTCA.getBinContent(eid));
        _cBcnMsm_ElectronicsuTCA.fill(eid, cBcnMsm_ElectronicsuTCA.getBinContent(eid));
      }
    }
 
    //  GENERATE THE SUMMARY FOR THIS LS AND STORE IT
    std::vector<flag::Flag> vtmpflags;  // tmp summary flags vector
    vtmpflags.resize(nRawFlag);
    vtmpflags[fEvnMsm] = flag::Flag("EvnMsm");
    vtmpflags[fBcnMsm] = flag::Flag("BcnMsm");
    vtmpflags[fBadQ] = flag::Flag("BadQ");
    for (std::vector<uint32_t>::const_iterator it = _vhashFEDs.begin(); it != _vhashFEDs.end(); ++it) {
      HcalElectronicsId eid(*it);
 
      //    reset all the tmp flags to fNA
      //    MUST DO IT NOW! AS NCDAQ MIGHT OVERWRITE IT!
      for (std::vector<flag::Flag>::iterator ft = vtmpflags.begin(); ft != vtmpflags.end(); ++ft)
        ft->reset();
 
      //    check if this FED was @cDAQ
      std::vector<uint32_t>::const_iterator cit = std::find(_vcdaqEids.begin(), _vcdaqEids.end(), *it);
      if (cit == _vcdaqEids.end()) {
        //  was not @cDAQ, set all the flags for this FED as fNCDAQ
        for (std::vector<flag::Flag>::iterator ft = vtmpflags.begin(); ft != vtmpflags.end(); ++ft)
          ft->_state = flag::fNCDAQ;
 
        // push all the flags for this FED
        // IMPORTANT!!!
        lssum._vflags.push_back(vtmpflags);
        continue;
      }
 
      //    here only if was registered at cDAQ
      if (utilities::isFEDHBHE(eid) || utilities::isFEDHF(eid) || utilities::isFEDHO(eid)) {
        if (_xEvn.get(eid) > 0)
          vtmpflags[fEvnMsm]._state = flag::fBAD;
        else
          vtmpflags[fEvnMsm]._state = flag::fGOOD;
        if (_xBcn.get(eid) > 0)
          vtmpflags[fBcnMsm]._state = flag::fBAD;
        else
          vtmpflags[fBcnMsm]._state = flag::fGOOD;
        if (double(_xBadQ.get(eid)) > double(12 * numEvents))
          vtmpflags[fBadQ]._state = flag::fBAD;
        else if (_xBadQ.get(eid) > 0)
          vtmpflags[fBadQ]._state = flag::fPROBLEMATIC;
        else
          vtmpflags[fBadQ]._state = flag::fGOOD;
      }
 
      // push all the flags for this FED
      lssum._vflags.push_back(vtmpflags);
    }
 
    //  push all flags for all FEDs for this LS
    _vflagsLS.push_back(lssum);
  }
 
  /*
     * END JOB
     * BOOK THE SUMMARY CONTAINERS, SET THE FLAGS
     * RETURN THE LIST OF FLAGS FOR THIS DATATIER
     */
  /* virtual */ std::vector<flag::Flag> RawRunSummary::endJob(DQMStore::IBooker& ib, DQMStore::IGetter& ig) {
    if (_ptype != fOffline)
      return std::vector<flag::Flag>();
 
    //  PREPARE LS BASED FLAGS to use it for booking
    std::vector<flag::Flag> vflagsLS;
    vflagsLS.resize(nRawFlag);
    vflagsLS[fEvnMsm] = flag::Flag("EvnMsm");
    vflagsLS[fBcnMsm] = flag::Flag("BcnMsm");
    vflagsLS[fBadQ] = flag::Flag("BadQ");
 
    //  INITIALIZE AND BOOK SUMMARY CONTAINERS
    ContainerSingle2D cSummaryvsLS;  // summary per FED: flag vs LS
    Container2D cSummaryvsLS_FED;    // LS based flags vs LS for each FED
    cSummaryvsLS.initialize(_name,
                            "SummaryvsLS",
                            new quantity::LumiSection(_maxProcessedLS),
                            new quantity::FEDQuantity(_vFEDs),
                            new quantity::ValueQuantity(quantity::fState),
                            0);
    cSummaryvsLS_FED.initialize(_name,
                                "SummaryvsLS",
                                hashfunctions::fFED,
                                new quantity::LumiSection(_maxProcessedLS),
                                new quantity::FlagQuantity(vflagsLS),
                                new quantity::ValueQuantity(quantity::fState),
                                0);
    cSummaryvsLS_FED.book(ib, _emap, _subsystem);
    cSummaryvsLS.book(ib, _subsystem);
 
    /*
         *  Iterate over each FED
         *      Iterate over each LS SUmmary
         *          Iterate over all flags
         *              set...
         */
 
    std::vector<flag::Flag> sumflags;  // flag per FED
    int ifed = 0;
    for (std::vector<uint32_t>::const_iterator it = _vhashFEDs.begin(); it != _vhashFEDs.end(); ++it) {
      flag::Flag fSumRun("RAW");  // summary flag for this FED
      HcalElectronicsId eid(*it);
 
      //    ITERATE OVER EACH LS
      for (std::vector<LSSummary>::const_iterator itls = _vflagsLS.begin(); itls != _vflagsLS.end(); ++itls) {
        //  fill histograms per LS
        int iflag = 0;
        flag::Flag fSumLS("RAW");
        for (std::vector<flag::Flag>::const_iterator ft = itls->_vflags[ifed].begin(); ft != itls->_vflags[ifed].end();
             ++ft) {
          //    Flag vs LS per FEd
          cSummaryvsLS_FED.setBinContent(eid, itls->_LS, int(iflag), ft->_state);
          fSumLS += (*ft);
          iflag++;
        }
        //  FED vs LS
        cSummaryvsLS.setBinContent(eid, itls->_LS, fSumLS._state);
        fSumRun += fSumLS;
      }
 
      //    push the summary flag for this FED for the whole RUN
      sumflags.push_back(fSumRun);
 
      //    increment the fed counter
      ifed++;
    }
 
    return sumflags;
  }
}  // namespace hcaldqm