L1AnalysisCSCTF.cc

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#include "L1Trigger/L1TNtuples/interface/L1AnalysisCSCTF.h"
 
L1Analysis::L1AnalysisCSCTF::L1AnalysisCSCTF() {}
 
L1Analysis::L1AnalysisCSCTF::~L1AnalysisCSCTF() {}
 
void L1Analysis::L1AnalysisCSCTF::SetTracks(const edm::Handle<L1CSCTrackCollection> csctfTrks,
                                            const L1MuTriggerScales* ts,
                                            const L1MuTriggerPtScale* tpts,
                                            CSCSectorReceiverLUT* srLUTs_[5][2],
                                            CSCTFPtLUT* ptLUTs_) {
  //for (int i =0; i<MAXCSCTFTR; i++) csctf_.trSector[i]=0;
 
  csctf_.trSize = csctfTrks->size();
  //cout << " csctf_.trSize: " << csctf_.trSize << endl;
 
  int nTrk = 0;
  for (L1CSCTrackCollection::const_iterator trk = csctfTrks->begin(); trk < csctfTrks->end(); trk++) {
    nTrk++;
 
    // trk->first.endcap() = 2 for - endcap
    //                     = 1 for + endcap
    csctf_.trEndcap.push_back(trk->first.endcap() == 2 ? trk->first.endcap() - 3 : trk->first.endcap());
    //sectors: 1->6 (plus endcap), 7->12 (minus endcap)
    csctf_.trSector.push_back(6 * (trk->first.endcap() - 1) + trk->first.sector());
    csctf_.trBx.push_back(trk->first.BX());
 
    csctf_.trME1ID.push_back(trk->first.me1ID());
    csctf_.trME2ID.push_back(trk->first.me2ID());
    csctf_.trME3ID.push_back(trk->first.me3ID());
    csctf_.trME4ID.push_back(trk->first.me4ID());
    csctf_.trMB1ID.push_back(trk->first.mb1ID());
 
    csctf_.trME1TBin.push_back(trk->first.me1Tbin());
    csctf_.trME2TBin.push_back(trk->first.me2Tbin());
    csctf_.trME3TBin.push_back(trk->first.me3Tbin());
    csctf_.trME4TBin.push_back(trk->first.me4Tbin());
    csctf_.trMB1TBin.push_back(trk->first.mb1Tbin());
 
    // output link of the track
    csctf_.trOutputLink.push_back(trk->first.outputLink());
 
    // PtAddress gives an handle on other parameters
    ptadd thePtAddress(trk->first.ptLUTAddress());
 
    csctf_.trPhiSign.push_back(thePtAddress.delta_phi_sign);
    csctf_.trPhi12.push_back(thePtAddress.delta_phi_12);
    csctf_.trPhi23.push_back(thePtAddress.delta_phi_23);
    csctf_.trMode.push_back(thePtAddress.track_mode);
    csctf_.trForR.push_back(thePtAddress.track_fr);
    csctf_.trCharge.push_back(trk->first.chargeValue());
 
    //Pt needs some more workaround since it is not in the unpacked data
    ptdat thePtData = ptLUTs_->Pt(thePtAddress);
 
    // front or rear bit?
    if (thePtAddress.track_fr) {
      csctf_.trPtBit.push_back(thePtData.front_rank & 0x1f);
      csctf_.trQuality.push_back((thePtData.front_rank >> 5) & 0x3);
      csctf_.trChargeValid.push_back(thePtData.charge_valid_front);
    } else {
      csctf_.trPtBit.push_back(thePtData.rear_rank & 0x1f);
      csctf_.trQuality.push_back((thePtData.rear_rank >> 5) & 0x3);
      csctf_.trChargeValid.push_back(thePtData.charge_valid_rear);
    }
 
    // convert the Pt in human readable values (GeV/c)
    csctf_.trPt.push_back(tpts->getPtScale()->getLowEdge(csctf_.trPtBit.back()));
 
    // track's Eta and Phi in bit...
    csctf_.trEtaBit.push_back(trk->first.eta_packed());
    csctf_.trPhiBit.push_back(trk->first.localPhi());
 
    //... in radians
    // Type 2 is CSC
    //csctf_.trEta.push_back(theTriggerScales->getRegionalEtaScale(2)->getCenter(trk->first.eta_packed()));
    //csctf_.trPhi.push_back(theTriggerScales->getPhiScale()->getLowEdge(trk->first.localPhi()));
    csctf_.trEta.push_back(ts->getRegionalEtaScale(2)->getCenter(trk->first.eta_packed()));
    csctf_.trPhi.push_back(ts->getPhiScale()->getLowEdge(trk->first.localPhi()));
    //Phi in one sector varies from [0,62] degrees -> Rescale manually to global coords.
    csctf_.trPhi_02PI.push_back(
        fmod(csctf_.trPhi[nTrk - 1] + ((trk->first.sector() - 1) * TMath::Pi() / 3) +  //sector 1 starts at 15 degrees
                 (TMath::Pi() / 12),
             2 * TMath::Pi()));
 
    //  //csctf lcts of tracks
    //  if( csctfLCTSource_.label() != "none" ){
 
    // For each trk, get the list of its LCTs
    CSCCorrelatedLCTDigiCollection lctsOfTracks = trk->second;
 
    int LctTrkId_ = 0;
 
    for (CSCCorrelatedLCTDigiCollection::DigiRangeIterator lctOfTrks = lctsOfTracks.begin();
         lctOfTrks != lctsOfTracks.end();
         lctOfTrks++) {
      int lctTrkId = 0;
 
      CSCCorrelatedLCTDigiCollection::Range lctRange = lctsOfTracks.get((*lctOfTrks).first);
 
      for (CSCCorrelatedLCTDigiCollection::const_iterator lctTrk = lctRange.first; lctTrk != lctRange.second;
           lctTrk++, lctTrkId++) {
        csctf_.trLctEndcap[nTrk - 1][LctTrkId_] = (*lctOfTrks).first.zendcap();
        if ((*lctOfTrks).first.zendcap() > 0)
          csctf_.trLctSector[nTrk - 1][LctTrkId_] = (*lctOfTrks).first.triggerSector();
        else
          csctf_.trLctSector[nTrk - 1][LctTrkId_] = 6 + (*lctOfTrks).first.triggerSector();
        csctf_.trLctSubSector[nTrk - 1][LctTrkId_] =
            CSCTriggerNumbering::triggerSubSectorFromLabels((*lctOfTrks).first);
        ;
        csctf_.trLctBx[nTrk - 1][LctTrkId_] = lctTrk->getBX();
        csctf_.trLctBx0[nTrk - 1][LctTrkId_] = lctTrk->getBX0();
 
        csctf_.trLctStation[nTrk - 1][LctTrkId_] = (*lctOfTrks).first.station();
        csctf_.trLctRing[nTrk - 1][LctTrkId_] = (*lctOfTrks).first.ring();
        csctf_.trLctChamber[nTrk - 1][LctTrkId_] = (*lctOfTrks).first.chamber();
        csctf_.trLctTriggerCSCID[nTrk - 1][LctTrkId_] = (*lctOfTrks).first.triggerCscId();
        csctf_.trLctFpga[nTrk - 1][LctTrkId_] =
            (csctf_.trLctSubSector[nTrk - 1][LctTrkId_] ? csctf_.trLctSubSector[nTrk - 1][LctTrkId_]
                                                        : (*lctOfTrks).first.station() + 1);
 
        // Check if DetId is within range
        if (csctf_.trLctSector[nTrk - 1][LctTrkId_] < 1 || csctf_.trLctSector[nTrk - 1][LctTrkId_] > 12 ||
            csctf_.trLctStation[nTrk - 1][LctTrkId_] < 1 || csctf_.trLctStation[nTrk - 1][LctTrkId_] > 4 ||
            csctf_.trLctTriggerCSCID[nTrk - 1][LctTrkId_] < 1 || csctf_.trLctTriggerCSCID[nTrk - 1][LctTrkId_] > 9 ||
            lctTrkId < 0 || lctTrkId > 1) {
          edm::LogInfo("L1NtupleProducer") << "  TRACK ERROR: CSC digi are out of range: ";
 
          continue;
        }
 
        // handles not to overload the method: mostly for readability
        int endcap = (*lctOfTrks).first.zendcap();
        if (endcap < 0)
          endcap = 0;
 
        int StationLctTrk = (*lctOfTrks).first.station();
        int CscIdLctTrk = (*lctOfTrks).first.triggerCscId();
        int SubSectorLctTrk = CSCTriggerNumbering::triggerSubSectorFromLabels((*lctOfTrks).first);
 
        int FPGALctTrk = (SubSectorLctTrk ? SubSectorLctTrk - 1 : StationLctTrk);
 
        // local Phi
        lclphidat lclPhi;
 
        try {
          csctf_.trLctstripNum[nTrk - 1][LctTrkId_] = lctTrk->getStrip();
          lclPhi = srLUTs_[FPGALctTrk][endcap]->localPhi(
              lctTrk->getStrip(), lctTrk->getPattern(), lctTrk->getQuality(), lctTrk->getBend());
 
          csctf_.trLctlocalPhi[nTrk - 1][LctTrkId_] = lclPhi.phi_local;
          //csctf_.trLctlocalPhi_bend[nTrk-1][LctTrkId_] = lclPhi.phi_bend_local;
          //csctf_.trLctCLCT_pattern[nTrk-1][LctTrkId_] = lctTrk->getPattern();
          csctf_.trLctQuality[nTrk - 1][LctTrkId_] = lctTrk->getQuality();
 
          //std::cout <<"lctTrk->getPattern() =  " << lctTrk->getPattern() << std::endl;
        } catch (...) {
          bzero(&lclPhi, sizeof(lclPhi));
          csctf_.trLctlocalPhi[nTrk - 1][LctTrkId_] = -999;
          //csctf_.trLctlocalPhi_bend[nTrk-1][LctTrkId_] = -999;
          //csctf_.trLctCLCT_pattern[nTrk-1][LctTrkId_] = -999;
          csctf_.trLctQuality[nTrk - 1][LctTrkId_] = -999;
        }
        // clct pattern
        lclphiadd lclPattern;
        try {
          //std::cout <<"lclPattern.clct_pattern = " << lclPattern.clct_pattern << std::endl;
          //std::cout <<"lclPattern.pattern_type = " << lclPattern.pattern_type << std::endl;
 
        } catch (...) {
        }
 
        // Global Phi
        gblphidat gblPhi;
 
        try {
          csctf_.trLctwireGroup[nTrk - 1][LctTrkId_] = lctTrk->getKeyWG();
          gblPhi = srLUTs_[FPGALctTrk][endcap]->globalPhiME(lclPhi.phi_local, lctTrk->getKeyWG(), CscIdLctTrk);
 
          csctf_.trLctglobalPhi[nTrk - 1][LctTrkId_] = gblPhi.global_phi;
 
        } catch (...) {
          bzero(&gblPhi, sizeof(gblPhi));
          csctf_.trLctglobalPhi[nTrk - 1][LctTrkId_] = -999;
        }
 
        // Global Eta
        gbletadat gblEta;
 
        try {
          gblEta = srLUTs_[FPGALctTrk][endcap]->globalEtaME(
              lclPhi.phi_bend_local, lclPhi.phi_local, lctTrk->getKeyWG(), CscIdLctTrk);
          csctf_.trLctglobalEta[nTrk - 1][LctTrkId_] = gblEta.global_eta;
          csctf_.trLctCLCT_pattern[nTrk - 1][LctTrkId_] = gblEta.global_bend;
        } catch (...) {
          bzero(&gblEta, sizeof(gblEta));
          csctf_.trLctglobalEta[nTrk - 1][LctTrkId_] = -999;
          csctf_.trLctCLCT_pattern[nTrk - 1][LctTrkId_] = -999;
        }
 
        ++LctTrkId_;
 
      }  // for(CSCCorrelatedLCTDigiCollection::const_iterator lctTrk
    }    // for(CSCCorrelatedLCTDigiCollection::DigiRangeIterator lctOfTrks
 
    csctf_.trNumLCTs.push_back(LctTrkId_);
    //}
    //else
    // edm::LogInfo("L1NtupleProducer")<<"  No valid CSCCorrelatedLCTDigiCollection products found";
 
 
  }  //for(L1CSCTrackCollection::const_iterator trk=csctfTrks->begin(); trk<csctfTrks->end(); trk++,nTrk++){
}
 
//ALL csctf lcts
void L1Analysis::L1AnalysisCSCTF::SetLCTs(const edm::Handle<CSCCorrelatedLCTDigiCollection> corrlcts,
                                          CSCSectorReceiverLUT* srLUTs_[5][2]) {
  int nLCT = 0;
  for (CSCCorrelatedLCTDigiCollection::DigiRangeIterator corrLct = corrlcts.product()->begin();
       corrLct != corrlcts.product()->end();
       corrLct++) {
    nLCT++;
 
    int lctId = 0;
 
    CSCCorrelatedLCTDigiCollection::Range lctRange = corrlcts.product()->get((*corrLct).first);
 
    for (CSCCorrelatedLCTDigiCollection::const_iterator lct = lctRange.first; lct != lctRange.second; lct++, lctId++) {
      csctf_.lctEndcap.push_back((*corrLct).first.zendcap());
      if ((*corrLct).first.zendcap() > 0)
        csctf_.lctSector.push_back((*corrLct).first.triggerSector());
      else
        csctf_.lctSector.push_back(6 + (*corrLct).first.triggerSector());
 
      csctf_.lctSubSector.push_back(CSCTriggerNumbering::triggerSubSectorFromLabels((*corrLct).first));
      csctf_.lctBx.push_back(lct->getBX());
      csctf_.lctBx0.push_back(lct->getBX0());
 
      csctf_.lctStation.push_back((*corrLct).first.station());
      csctf_.lctRing.push_back((*corrLct).first.ring());
      csctf_.lctChamber.push_back((*corrLct).first.chamber());
      csctf_.lctTriggerCSCID.push_back((*corrLct).first.triggerCscId());
      csctf_.lctFpga.push_back(
          (csctf_.lctSubSector.back() ? csctf_.lctSubSector.back() : (*corrLct).first.station() + 1));
 
      // Check if DetId is within range
      if (csctf_.lctSector.back() < 1 || csctf_.lctSector.back() > 12 || csctf_.lctStation.back() < 1 ||
          csctf_.lctStation.back() > 4 || csctf_.lctTriggerCSCID.back() < 1 || csctf_.lctTriggerCSCID.back() > 9 ||
          lctId < 0 || lctId > 1) {
        edm::LogInfo("L1NtupleProducer") << "  LCT ERROR: CSC digi are out of range: ";
 
        continue;
      }
 
      // handles not to overload the method: mostly for readability
      int endcap = (*corrLct).first.zendcap();
      if (endcap < 0)
        endcap = 0;
 
      int StationLct = (*corrLct).first.station();
      int CscIdLct = (*corrLct).first.triggerCscId();
      int SubSectorLct = CSCTriggerNumbering::triggerSubSectorFromLabels((*corrLct).first);
 
      int FPGALct = (SubSectorLct ? SubSectorLct - 1 : StationLct);
 
      // local Phi
      lclphidat lclPhi;
 
      /*
    try {
      
      csctf_.lctstripNum.push_back(lct->getStrip());
 
      
      csctf_.lctlocalPhi.push_back(lclPhi.phi_local);
    } 
    catch(...) { 
      bzero(&lclPhi,sizeof(lclPhi)); 
      csctf_.lctlocalPhi.push_back(-999);
    }
        
*/
      try {
        csctf_.lctstripNum.push_back(lct->getStrip());
        lclPhi =
            srLUTs_[FPGALct][endcap]->localPhi(lct->getStrip(), lct->getPattern(), lct->getQuality(), lct->getBend());
 
        csctf_.lctlocalPhi.push_back(lclPhi.phi_local);
        //csctf_.lctlocalPhi_bend.push_back(lclPhi.phi_bend_local);
        //csctf_.lctCLCT_pattern.push_back(lct->getPattern());
        csctf_.lctQuality.push_back(lct->getQuality());
        //std::cout <<"localPhi: lclPhi.phi_bend_local = " << lclPhi.phi_bend_local << std::endl;
        //std::cout <<"localPhi: lct->getBend() = " << lct->getBend() << std::endl;
 
      } catch (...) {
        bzero(&lclPhi, sizeof(lclPhi));
        csctf_.lctlocalPhi.push_back(-999);
        //csctf_.lctlocalPhi_bend.push_back(-999);
        //csctf_.lctCLCT_pattern.push_back(-999);
        csctf_.lctQuality.push_back(-999);
      }
 
      // Global Phi
      gblphidat gblPhi;
 
      try {
        csctf_.lctwireGroup.push_back(lct->getKeyWG());
 
        //std::cout << "lclPhi.phi_local: " << lclPhi.phi_local << std::endl;
        //std::cout << "lct->getKeyWG(): " << lct->getKeyWG() << std::endl;
        //std::cout << "CscIdLct: " << CscIdLct << std::endl;
 
        gblPhi = srLUTs_[FPGALct][endcap]->globalPhiME(lclPhi.phi_local, lct->getKeyWG(), CscIdLct);
        csctf_.lctglobalPhi.push_back(gblPhi.global_phi);
 
      } catch (...) {
        bzero(&gblPhi, sizeof(gblPhi));
        csctf_.lctglobalPhi.push_back(-999);
      }
 
      // Global Eta
      gbletadat gblEta;
 
      try {
        gblEta =
            srLUTs_[FPGALct][endcap]->globalEtaME(lclPhi.phi_bend_local, lclPhi.phi_local, lct->getKeyWG(), CscIdLct);
        //std::cout <<"gblEta: lclPhi.phi_bend_local = " << lclPhi.phi_bend_local << std::endl;
        csctf_.lctglobalEta.push_back(gblEta.global_eta);
        csctf_.lctCLCT_pattern.push_back(gblEta.global_bend);
      } catch (...) {
        bzero(&gblEta, sizeof(gblEta));
        csctf_.lctglobalEta.push_back(-999);
        csctf_.lctCLCT_pattern.push_back(-999);
      }
 
    }  // for(CSCCorrelatedLCTDigiCollection::const_iterator lct
  }    // for(CSCCorrelatedLCTDigiCollection::DigiRangeIterator lct
 
  csctf_.lctSize = nLCT;
}
 
void L1Analysis::L1AnalysisCSCTF::SetStatus(const edm::Handle<L1CSCStatusDigiCollection> status) {
  int nStat = 0;
  for (std::vector<L1CSCSPStatusDigi>::const_iterator stat = status->second.begin(); stat != status->second.end();
       stat++) {
    // fill the Ntuple
    if (stat->VPs() != 0) {
      csctf_.stSPslot.push_back(stat->slot());
      csctf_.stL1A_BXN.push_back(stat->BXN());
      csctf_.stTrkCounter.push_back((const_cast<L1CSCSPStatusDigi*>(&(*stat)))->track_counter());
      csctf_.stOrbCounter.push_back((const_cast<L1CSCSPStatusDigi*>(&(*stat)))->orbit_counter());
 
      nStat++;
    }
  }
 
  csctf_.nsp = nStat;
}
 
//DT Stubs added by Alex Ji
//Code modeled from DQM/L1TMonitor/src/L1TCSCTF.cc, v1.36
void L1Analysis::L1AnalysisCSCTF::SetDTStubs(const edm::Handle<CSCTriggerContainer<csctf::TrackStub> > dtStubs) {
  //get the vector of DT Stubs
  std::vector<csctf::TrackStub> vstubs = dtStubs->get();
  //iterate through DT Stubs
  for (std::vector<csctf::TrackStub>::const_iterator stub = vstubs.begin(); stub != vstubs.end(); stub++) {
    csctf_.dtBXN.push_back(stub->BX());
    csctf_.dtFLAG.push_back(stub->getStrip());  //getStrip() is actually the "FLAG" bit
    csctf_.dtCAL.push_back(stub->getKeyWG());   //getKeyWG() is actually the "CAL" bit
 
    csctf_.dtSector.push_back(6 * (stub->endcap() - 1) + stub->sector());
    csctf_.dtSubSector.push_back(stub->subsector());
 
    csctf_.dtBX0.push_back(stub->getBX0());  //it is unclear what this variable is...
    csctf_.dtPhiBend.push_back(stub->getBend());
    csctf_.dtPhiPacked.push_back(stub->phiPacked());
    csctf_.dtQuality.push_back(stub->getQuality());
  }
 
  csctf_.dtSize = vstubs.size();
}