#include "DQM/L1TMonitor/interface/L1TObjectsTiming.h"

L1TObjectsTiming::L1TObjectsTiming(const edm::ParameterSet& ps)
    : ugmtMuonToken_(consumes<l1t::MuonBxCollection>(ps.getParameter<edm::InputTag>("muonProducer"))),
      stage2CaloLayer2JetToken_(
          consumes<l1t::JetBxCollection>(ps.getParameter<edm::InputTag>("stage2CaloLayer2JetProducer"))),
      stage2CaloLayer2EGammaToken_(
          consumes<l1t::EGammaBxCollection>(ps.getParameter<edm::InputTag>("stage2CaloLayer2EGammaProducer"))),
      stage2CaloLayer2TauToken_(
          consumes<l1t::TauBxCollection>(ps.getParameter<edm::InputTag>("stage2CaloLayer2TauProducer"))),
      stage2CaloLayer2EtSumToken_(
          consumes<l1t::EtSumBxCollection>(ps.getParameter<edm::InputTag>("stage2CaloLayer2EtSumProducer"))),
      l1tStage2uGtProducer_(consumes<GlobalAlgBlkBxCollection>(ps.getParameter<edm::InputTag>("ugtProducer"))),
      monitorDir_(ps.getUntrackedParameter<std::string>("monitorDir")),
      verbose_(ps.getUntrackedParameter<bool>("verbose")),
      gtUtil_(new l1t::L1TGlobalUtil(ps,
                                     consumesCollector(),
                                     *this,
                                     ps.getParameter<edm::InputTag>("ugtProducer"),
                                     ps.getParameter<edm::InputTag>("ugtProducer"))),
      algoBitFirstBxInTrain_(-1),
      algoBitLastBxInTrain_(-1),
      algoBitIsoBx_(-1),
      algoNameFirstBxInTrain_(ps.getUntrackedParameter<std::string>("firstBXInTrainAlgo", "")),
      algoNameLastBxInTrain_(ps.getUntrackedParameter<std::string>("lastBXInTrainAlgo", "")),
      algoNameIsoBx_(ps.getUntrackedParameter<std::string>("isoBXAlgo", "")),
      bxrange_(5),
      egammaPtCuts_(ps.getUntrackedParameter<std::vector<double>>("egammaPtCuts")),
      jetPtCut_(ps.getUntrackedParameter<double>("jetPtCut")),
      egammaPtCut_(0.),
      tauPtCut_(ps.getUntrackedParameter<double>("tauPtCut")),
      etsumPtCut_(ps.getUntrackedParameter<double>("etsumPtCut")),
      muonPtCut_(ps.getUntrackedParameter<double>("muonPtCut")),
      muonQualCut_(ps.getUntrackedParameter<int>("muonQualCut")) {
  if (ps.getUntrackedParameter<std::string>("useAlgoDecision").find("final") == 0) {
    useAlgoDecision_ = 2;
  } else if (ps.getUntrackedParameter<std::string>("useAlgoDecision").find("intermediate") == 0) {
    useAlgoDecision_ = 1;
  } else {
    useAlgoDecision_ = 0;
  }

  // Take the first element of the cuts vector as the one to use for the all bunches histograms
  if (not egammaPtCuts_.empty()) {
    egammaPtCut_ = egammaPtCuts_.at(0);
  }
}

L1TObjectsTiming::~L1TObjectsTiming() {}

void L1TObjectsTiming::fillDescriptions(edm::ConfigurationDescriptions& descriptions) {
  edm::ParameterSetDescription desc;
  desc.add<edm::InputTag>("muonProducer")->setComment("L1T muons");
  ;
  desc.add<edm::InputTag>("stage2CaloLayer2JetProducer")->setComment("L1T jets");
  desc.add<edm::InputTag>("stage2CaloLayer2EGammaProducer")->setComment("L1T egamma");
  desc.add<edm::InputTag>("stage2CaloLayer2TauProducer")->setComment("L1T taus");
  desc.add<edm::InputTag>("stage2CaloLayer2EtSumProducer")->setComment("L1T etsums");
  desc.add<edm::InputTag>("ugtProducer")->setComment("uGT output");
  desc.addUntracked<std::string>("monitorDir", "")
      ->setComment("Target directory in the DQM file. Will be created if not existing.");
  desc.addUntracked<bool>("verbose", false);
  desc.addUntracked<std::string>("firstBXInTrainAlgo", "")
      ->setComment("Pick the right algo name for L1 First Collision In Train");
  desc.addUntracked<std::string>("lastBXInTrainAlgo", "")
      ->setComment("Pick the right algo name for L1 Last Collision In Train");
  desc.addUntracked<std::string>("isoBXAlgo", "")->setComment("Pick the right algo name for L1 Isolated Bunch");
  desc.addUntracked<std::string>("useAlgoDecision", "initial")
      ->setComment("Which algo decision should be checked [initial, intermediate, final].");
  desc.addUntracked<std::vector<double>>("egammaPtCuts", {20., 10., 30.})->setComment("List if min egamma pT vaules");
  desc.addUntracked<double>("jetPtCut", 20.)->setComment("Min jet pT");
  desc.addUntracked<double>("tauPtCut", 20.)->setComment("Min tau pT");
  desc.addUntracked<double>("etsumPtCut", 20.)->setComment("Min etsum pT");
  desc.addUntracked<double>("muonPtCut", 8.)->setComment("Min muon pT");
  desc.addUntracked<int>("muonQualCut", 12)->setComment("Min muon quality");
  descriptions.add("l1tObjectsTiming", desc);
}

void L1TObjectsTiming::dqmBeginRun(const edm::Run& r, const edm::EventSetup& c) {
  // Get the trigger menu information
  gtUtil_->retrieveL1Setup(c);

  // Get the algo bits needed for the timing histograms
  if (!gtUtil_->getAlgBitFromName(algoNameFirstBxInTrain_, algoBitFirstBxInTrain_)) {
    edm::LogWarning("L1TObjectsTiming") << "Algo \"" << algoNameFirstBxInTrain_ << "\" not found in the trigger menu "
                                        << gtUtil_->gtTriggerMenuName() << ". Could not retrieve algo bit number.";
  }

  if (!gtUtil_->getAlgBitFromName(algoNameLastBxInTrain_, algoBitLastBxInTrain_)) {
    edm::LogWarning("L1TObjectsTiming") << "Algo \"" << algoNameLastBxInTrain_ << "\" not found in the trigger menu "
                                        << gtUtil_->gtTriggerMenuName() << ". Could not retrieve algo bit number.";
  }

  if (!gtUtil_->getAlgBitFromName(algoNameIsoBx_, algoBitIsoBx_)) {
    edm::LogWarning("L1TObjectsTiming") << "Algo \"" << algoNameIsoBx_ << "\" not found in the trigger menu "
                                        << gtUtil_->gtTriggerMenuName() << ". Could not retrieve algo bit number.";
  }
}

void L1TObjectsTiming::bookHistograms(DQMStore::IBooker& ibooker, const edm::Run&, const edm::EventSetup&) {
  std::array<std::string, 5> bx_obj{{"minus2", "minus1", "0", "plus1", "plus2"}};

  // generate cut value strings for the histogram titles
  auto muonQualCutStr = std::to_string(muonQualCut_);
  auto muonPtCutStr = std::to_string(muonPtCut_);
  muonPtCutStr.resize(muonPtCutStr.size() - 5);  // cut some decimal digits

  auto jetPtCutStr = std::to_string(jetPtCut_);
  jetPtCutStr.resize(jetPtCutStr.size() - 5);  // cut some decimal digits

  auto egammaPtCutStr = std::to_string(egammaPtCut_);
  egammaPtCutStr.resize(egammaPtCutStr.size() - 5);  // cut some decimal digits

  auto tauPtCutStr = std::to_string(tauPtCut_);
  tauPtCutStr.resize(tauPtCutStr.size() - 5);  // cut some decimal digits

  auto etsumPtCutStr = std::to_string(etsumPtCut_);
  etsumPtCutStr.resize(etsumPtCutStr.size() - 5);  // cut some decimal digits

  // all bunches
  ibooker.setCurrentFolder(monitorDir_ + "/L1TMuon/timing");
  for (unsigned int i = 0; i < bxrange_; ++i) {
    muons_eta_phi.push_back(ibooker.book2D("muons_eta_phi_bx_" + bx_obj[i],
                                           "L1T Muon p_{T}#geq" + muonPtCutStr + " GeV qual#geq" + muonQualCutStr +
                                               " #eta vs #phi BX=" + bx_obj[i] + ";#eta;#phi",
                                           25,
                                           -2.5,
                                           2.5,
                                           25,
                                           -3.2,
                                           3.2));
  }
  denominator_muons = ibooker.book2D(
      "denominator_muons",
      "Denominator for L1T Muon p_{T}#geq" + muonPtCutStr + " GeV qual#geq" + muonQualCutStr + ";#eta;#phi",
      25,
      -2.5,
      2.5,
      25,
      -3.2,
      3.2);

  ibooker.setCurrentFolder(monitorDir_ + "/L1TJet/timing");
  for (unsigned int i = 0; i < bxrange_; ++i) {
    jet_eta_phi.push_back(
        ibooker.book2D("jet_eta_phi_bx_" + bx_obj[i],
                       "L1T Jet p_{T}#geq" + jetPtCutStr + " GeV #eta vs #phi BX=" + bx_obj[i] + ";#eta;#phi",
                       50,
                       -5.,
                       5.,
                       25,
                       -3.2,
                       3.2));
  }
  denominator_jet = ibooker.book2D("denominator_jet",
                                   "Denominator for L1T Jet p_{T}#geq" + jetPtCutStr + " GeV;#eta;#phi",
                                   50,
                                   -5.,
                                   5.,
                                   25,
                                   -3.2,
                                   3.2);

  ibooker.setCurrentFolder(monitorDir_ + "/L1TEGamma/timing");
  for (unsigned int i = 0; i < bxrange_; ++i) {
    egamma_eta_phi.push_back(
        ibooker.book2D("egamma_eta_phi_bx_" + bx_obj[i],
                       "L1T EGamma p_{T}#geq" + egammaPtCutStr + " GeV #eta vs #phi BX=" + bx_obj[i] + ";#eta;#phi",
                       30,
                       -3.,
                       3.,
                       25,
                       -3.2,
                       3.2));
  }
  denominator_egamma = ibooker.book2D("denominator_egamma",
                                      "Denominator for L1T EGamma p_{T}#geq" + egammaPtCutStr + " GeV;#eta;#phi",
                                      30,
                                      -3.,
                                      3.,
                                      25,
                                      -3.2,
                                      3.2);

  ibooker.setCurrentFolder(monitorDir_ + "/L1TTau/timing");
  for (unsigned int i = 0; i < bxrange_; ++i) {
    tau_eta_phi.push_back(
        ibooker.book2D("tau_eta_phi_bx_" + bx_obj[i],
                       "L1T Tau p_{T}#geq" + tauPtCutStr + " GeV #eta vs #phi BX=" + bx_obj[i] + ";#eta;#phi",
                       30,
                       -3.,
                       3.,
                       25,
                       -3.2,
                       3.2));
  }
  denominator_tau = ibooker.book2D("denominator_tau",
                                   "Denominator for L1T Tau p_{T}#geq" + tauPtCutStr + " GeV;#eta;#phi",
                                   30,
                                   -3.,
                                   3.,
                                   25,
                                   -3.2,
                                   3.2);

  ibooker.setCurrentFolder(monitorDir_ + "/L1TEtSum/timing");
  for (unsigned int i = 0; i < bxrange_; ++i) {
    etsum_eta_phi_MET.push_back(
        ibooker.book1D("etsum_phi_bx_MET_" + bx_obj[i],
                       "L1T EtSum MET p_{T}#geq" + etsumPtCutStr + " GeV #phi BX=" + bx_obj[i] + ";#phi",
                       25,
                       -3.2,
                       3.2));
    etsum_eta_phi_METHF.push_back(
        ibooker.book1D("etsum_phi_bx_METHF_" + bx_obj[i],
                       "L1T EtSum METHF p_{T}#geq" + etsumPtCutStr + " GeV #phi BX=" + bx_obj[i] + ";#phi",
                       25,
                       -3.2,
                       3.2));
    etsum_eta_phi_MHT.push_back(
        ibooker.book1D("etsum_phi_bx_MHT_" + bx_obj[i],
                       "L1T EtSum MHT p_{T}#geq" + etsumPtCutStr + " GeV #phi BX=" + bx_obj[i] + ";#phi",
                       25,
                       -3.2,
                       3.2));
    etsum_eta_phi_MHTHF.push_back(
        ibooker.book1D("etsum_phi_bx_MHTHF_" + bx_obj[i],
                       "L1T EtSum MHTHF p_{T}#geq" + etsumPtCutStr + " GeV #phi BX=" + bx_obj[i] + ";#phi",
                       25,
                       -3.2,
                       3.2));
  }
  denominator_etsum_MET = ibooker.book1D(
      "denominator_etsum_MET", "Denominator for L1T EtSum MET p_{T}#geq" + etsumPtCutStr + " GeV;#phi", 25, -3.2, 3.2);
  denominator_etsum_METHF = ibooker.book1D("denominator_etsum_METHF",
                                           "Denominator for L1T EtSum METHF p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                                           25,
                                           -3.2,
                                           3.2);
  denominator_etsum_MHT = ibooker.book1D(
      "denominator_etsum_MHT", "Denominator for L1T EtSum MHT p_{T}#geq" + etsumPtCutStr + " GeV;#phi", 25, -3.2, 3.2);
  denominator_etsum_MHTHF = ibooker.book1D("denominator_etsum_MHTHF",
                                           "Denominator for L1T EtSum MHTHF p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                                           25,
                                           -3.2,
                                           3.2);

  // isolated bunch
  if (algoBitIsoBx_ > -1) {
    ibooker.setCurrentFolder(monitorDir_ + "/L1TMuon/timing/Isolated_bunch");
    for (unsigned int i = 0; i < bxrange_; ++i) {
      muons_eta_phi_isolated.push_back(
          ibooker.book2D("muons_eta_phi_bx_isolated_" + bx_obj[i],
                         "L1T Muon p_{T}#geq" + muonPtCutStr + " GeV qual#geq" + muonQualCutStr +
                             " #eta vs #phi for isolated bunch BX=" + bx_obj[i] + ";#eta;#phi",
                         25,
                         -2.5,
                         2.5,
                         25,
                         -3.2,
                         3.2));
    }
    denominator_muons_isolated = ibooker.book2D(
        "denominator_muons_isolated",
        "Denominator for Isolated Bunch for L1T Muon p_{T}#geq" + muonPtCutStr + " GeV qual#geq" + muonQualCutStr,
        25,
        -2.5,
        2.5,
        25,
        -3.2,
        3.2);

    ibooker.setCurrentFolder(monitorDir_ + "/L1TJet/timing/Isolated_bunch");
    for (unsigned int i = 0; i < bxrange_; ++i) {
      jet_eta_phi_isolated.push_back(ibooker.book2D(
          "jet_eta_phi_bx_isolated_" + bx_obj[i],
          "L1T Jet p_{T}#geq" + jetPtCutStr + " GeV #eta vs #phi for isolated bunch BX=" + bx_obj[i] + ";#eta;#phi",
          50,
          -5.,
          5.,
          25,
          -3.2,
          3.2));
    }
    denominator_jet_isolated =
        ibooker.book2D("denominator_jet_isolated",
                       "Denominator for Isolated Bunch for L1T Jet p_{T}#geq" + jetPtCutStr + " GeV;#eta;#phi",
                       50,
                       -5.,
                       5.,
                       25,
                       -3.2,
                       3.2);

    for (const auto egammaPtCut : egammaPtCuts_) {
      auto egammaPtCutStr = std::to_string(egammaPtCut);
      egammaPtCutStr.resize(egammaPtCutStr.size() - 5);  // cut some decimal digits
      auto egammaPtCutStrAlpha = egammaPtCutStr;
      std::replace(egammaPtCutStrAlpha.begin(),
                   egammaPtCutStrAlpha.end(),
                   '.',
                   'p');  // replace the decimal dot with a 'p' to please the DQMStore

      ibooker.setCurrentFolder(monitorDir_ + "/L1TEGamma/timing/Isolated_bunch/ptmin_" + egammaPtCutStrAlpha + "_gev");
      std::vector<MonitorElement*> vHelper;
      for (unsigned int i = 0; i < bxrange_; ++i) {
        vHelper.push_back(ibooker.book2D("egamma_eta_phi_bx_isolated_" + bx_obj[i],
                                         "L1T EGamma p_{T}#geq" + egammaPtCutStr +
                                             " GeV #eta vs #phi for first bunch BX=" + bx_obj[i] + ";#eta;#phi",
                                         30,
                                         -3.,
                                         3.,
                                         25,
                                         -3.2,
                                         3.2));
      }
      egamma_eta_phi_isolated.push_back(vHelper);

      denominator_egamma_isolated.push_back(
          ibooker.book2D("denominator_egamma_isolated",
                         "Denominator for Isolated Bunch for L1T EGamma p_{T}#geq" + egammaPtCutStr + " GeV;#eta;#phi",
                         30,
                         -3.,
                         3.,
                         25,
                         -3.2,
                         3.2));

      egamma_iso_bx_ieta_isolated.push_back(
          ibooker.book2D("egamma_iso_bx_ieta_isolated_ptmin" + egammaPtCutStrAlpha,
                         "L1T EGamma iso with pT#geq" + egammaPtCutStr +
                             " GeV BX vs. i#eta for first bunch in train;BX in event (corrected);i#eta",
                         5,
                         -2.5,
                         2.5,
                         70,
                         -70,
                         70));

      egamma_noniso_bx_ieta_isolated.push_back(
          ibooker.book2D("egamma_noniso_bx_ieta_isolated_ptmin" + egammaPtCutStrAlpha,
                         "L1T EGamma non iso with pT#geq" + egammaPtCutStr +
                             " GeV BX vs. i#eta for first bunch in train;BX in event (corrected);i#eta",
                         5,
                         -2.5,
                         2.5,
                         70,
                         -70,
                         70));
    }

    ibooker.setCurrentFolder(monitorDir_ + "/L1TTau/timing/Isolated_bunch");
    for (unsigned int i = 0; i < bxrange_; ++i) {
      tau_eta_phi_isolated.push_back(ibooker.book2D(
          "tau_eta_phi_bx_isolated_" + bx_obj[i],
          "L1T Tau p_{T}#geq" + tauPtCutStr + " GeV #eta vs #phi for isolated bunch BX=" + bx_obj[i] + ";#eta;#phi",
          30,
          -3.,
          3.,
          25,
          -3.2,
          3.2));
    }
    denominator_tau_isolated =
        ibooker.book2D("denominator_tau_isolated",
                       "Denominator for Isolated Bunch for L1T Tau p_{T}#geq" + tauPtCutStr + " GeV;#eta;#phi",
                       30,
                       -3.,
                       3.,
                       25,
                       -3.2,
                       3.2);

    ibooker.setCurrentFolder(monitorDir_ + "/L1TEtSum/timing/Isolated_bunch");
    for (unsigned int i = 0; i < bxrange_; ++i) {
      etsum_eta_phi_MET_isolated.push_back(ibooker.book1D(
          "etsum_phi_bx_MET_isolated_" + bx_obj[i],
          "L1T EtSum MET p_{T}#geq" + etsumPtCutStr + " GeV #phi for isolated bunch BX=" + bx_obj[i] + ";#phi",
          25,
          -3.2,
          3.2));
      etsum_eta_phi_METHF_isolated.push_back(ibooker.book1D(
          "etsum_phi_bx_METHF_isolated_" + bx_obj[i],
          "L1T EtSum METHF p_{T}#geq" + etsumPtCutStr + " GeV #phi for isolated bunch BX=" + bx_obj[i] + ";#phi",
          25,
          -3.2,
          3.2));
      etsum_eta_phi_MHT_isolated.push_back(ibooker.book1D(
          "etsum_phi_bx_MHT_isolated_" + bx_obj[i],
          "L1T EtSum MHT p_{T}#geq" + etsumPtCutStr + " GeV #phi for isolated bunch BX=" + bx_obj[i] + ";#phi",
          25,
          -3.2,
          3.2));
      etsum_eta_phi_MHTHF_isolated.push_back(ibooker.book1D(
          "etsum_phi_bx_MHTHF_isolated_" + bx_obj[i],
          "L1T EtSum MHTHF p_{T}#geq" + etsumPtCutStr + " GeV #phi for isolated bunch BX=" + bx_obj[i] + ";#phi",
          25,
          -3.2,
          3.2));
    }
    denominator_etsum_isolated_MET =
        ibooker.book1D("denominator_etsum_isolated_MET",
                       "Denominator for Isolated Bunch for L1T EtSum MET p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                       25,
                       -3.2,
                       3.2);
    denominator_etsum_isolated_METHF =
        ibooker.book1D("denominator_etsum_isolated_METHF",
                       "Denominator for Isolated Bunch for L1T EtSum METHF p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                       25,
                       -3.2,
                       3.2);
    denominator_etsum_isolated_MHT =
        ibooker.book1D("denominator_etsum_isolated_MHT",
                       "Denominator for Isolated Bunch for L1T EtSum MHT p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                       25,
                       -3.2,
                       3.2);
    denominator_etsum_isolated_MHTHF =
        ibooker.book1D("denominator_etsum_isolated_MHTHF",
                       "Denominator for Isolated Bunch for L1T EtSum MHTHF p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                       25,
                       -3.2,
                       3.2);
  }

  if (algoBitFirstBxInTrain_ > -1) {
    // first bunch in train
    ibooker.setCurrentFolder(monitorDir_ + "/L1TMuon/timing/First_bunch");
    for (unsigned int i = 0; i < bxrange_ - 2; ++i) {
      muons_eta_phi_firstbunch.push_back(
          ibooker.book2D("muons_eta_phi_bx_firstbunch_" + bx_obj[i],
                         "L1T Muon p_{T}#geq" + muonPtCutStr + " GeV qual#geq" + muonQualCutStr +
                             " #eta vs #phi for first bunch BX=" + bx_obj[i] + ";#eta;#phi",
                         25,
                         -2.5,
                         2.5,
                         25,
                         -3.2,
                         3.2));
    }
    denominator_muons_firstbunch = ibooker.book2D(
        "denominator_muons_firstbunch",
        "Denominator for First Bunch for L1T Muon p_{T}#geq" + muonPtCutStr + " GeV qual#geq" + muonQualCutStr,
        25,
        -2.5,
        2.5,
        25,
        -3.2,
        3.2);

    ibooker.setCurrentFolder(monitorDir_ + "/L1TJet/timing/First_bunch");
    for (unsigned int i = 0; i < bxrange_ - 2; ++i) {
      jet_eta_phi_firstbunch.push_back(ibooker.book2D(
          "jet_eta_phi_bx_firstbunch_" + bx_obj[i],
          "L1T Jet p_{T}#geq" + jetPtCutStr + " GeV #eta vs #phi for first bunch BX=" + bx_obj[i] + ";#eta;#phi",
          50,
          -5.,
          5.,
          25,
          -3.2,
          3.2));
    }
    denominator_jet_firstbunch =
        ibooker.book2D("denominator_jet_firstbunch",
                       "Denominator for First Bunch for L1T Jet p_{T}#geq" + jetPtCutStr + " GeV;#eta;#phi",
                       50,
                       -5.,
                       5.,
                       25,
                       -3.2,
                       3.2);

    for (const auto egammaPtCut : egammaPtCuts_) {
      auto egammaPtCutStr = std::to_string(egammaPtCut);
      egammaPtCutStr.resize(egammaPtCutStr.size() - 5);  // cut some decimal digits
      auto egammaPtCutStrAlpha = egammaPtCutStr;
      std::replace(egammaPtCutStrAlpha.begin(),
                   egammaPtCutStrAlpha.end(),
                   '.',
                   'p');  // replace the decimal dot with a 'p' to please the DQMStore

      ibooker.setCurrentFolder(monitorDir_ + "/L1TEGamma/timing/First_bunch/ptmin_" + egammaPtCutStrAlpha + "_gev");
      std::vector<MonitorElement*> vHelper;
      for (unsigned int i = 0; i < bxrange_ - 2; ++i) {
        vHelper.push_back(ibooker.book2D("egamma_eta_phi_bx_firstbunch_" + bx_obj[i],
                                         "L1T EGamma p_{T}#geq" + egammaPtCutStr +
                                             " GeV #eta vs #phi for first bunch BX=" + bx_obj[i] + ";#eta;#phi",
                                         30,
                                         -3.,
                                         3.,
                                         25,
                                         -3.2,
                                         3.2));
      }
      egamma_eta_phi_firstbunch.push_back(vHelper);

      denominator_egamma_firstbunch.push_back(
          ibooker.book2D("denominator_egamma_firstbunch",
                         "Denominator for First Bunch for L1T EGamma p_{T}#geq" + egammaPtCutStr + " GeV;#eta;#phi",
                         30,
                         -3.,
                         3.,
                         25,
                         -3.2,
                         3.2));

      egamma_iso_bx_ieta_firstbunch.push_back(
          ibooker.book2D("egamma_iso_bx_ieta_firstbunch_ptmin" + egammaPtCutStrAlpha,
                         "L1T EGamma iso with pT#geq" + egammaPtCutStr +
                             " GeV BX vs. i#eta for first bunch in train;BX in event (corrected);i#eta",
                         5,
                         -2.5,
                         2.5,
                         70,
                         -70,
                         70));

      egamma_noniso_bx_ieta_firstbunch.push_back(
          ibooker.book2D("egamma_noniso_bx_ieta_firstbunch_ptmin" + egammaPtCutStrAlpha,
                         "L1T EGamma non iso with pT#geq" + egammaPtCutStr +
                             " GeV BX vs. i#eta for first bunch in train;BX in event (corrected);i#eta",
                         5,
                         -2.5,
                         2.5,
                         70,
                         -70,
                         70));
    }

    ibooker.setCurrentFolder(monitorDir_ + "/L1TTau/timing/First_bunch");
    for (unsigned int i = 0; i < bxrange_ - 2; ++i) {
      tau_eta_phi_firstbunch.push_back(ibooker.book2D(
          "tau_eta_phi_bx_firstbunch_" + bx_obj[i],
          "L1T Tau p_{T}#geq" + tauPtCutStr + " GeV #eta vs #phi for first bunch BX=" + bx_obj[i] + ";#eta;#phi",
          30,
          -3.,
          3.,
          25,
          -3.2,
          3.2));
    }
    denominator_tau_firstbunch =
        ibooker.book2D("denominator_tau_firstbunch",
                       "Denominator for First Bunch for L1T Tau p_{T}#geq" + tauPtCutStr + " GeV;#eta;#phi",
                       30,
                       -3.,
                       3.,
                       25,
                       -3.2,
                       3.2);

    ibooker.setCurrentFolder(monitorDir_ + "/L1TEtSum/timing/First_bunch");
    for (unsigned int i = 0; i < bxrange_ - 2; ++i) {
      etsum_eta_phi_MET_firstbunch.push_back(ibooker.book1D(
          "etsum_phi_bx_MET_firstbunch_" + bx_obj[i],
          "L1T EtSum MET p_{T}#geq" + etsumPtCutStr + " GeV #phi for firstbunch bunch BX=" + bx_obj[i] + ";#phi",
          25,
          -3.2,
          3.2));
      etsum_eta_phi_METHF_firstbunch.push_back(ibooker.book1D(
          "etsum_phi_bx_METHF_firstbunch_" + bx_obj[i],
          "L1T EtSum METHF p_{T}#geq" + etsumPtCutStr + " GeV #phi for firstbunch bunch BX=" + bx_obj[i] + ";#phi",
          25,
          -3.2,
          3.2));
      etsum_eta_phi_MHT_firstbunch.push_back(ibooker.book1D(
          "etsum_phi_bx_MHT_firstbunch_" + bx_obj[i],
          "L1T EtSum MHT p_{T}#geq" + etsumPtCutStr + " GeV #phi for firstbunch bunch BX=" + bx_obj[i] + ";#phi",
          25,
          -3.2,
          3.2));
      etsum_eta_phi_MHTHF_firstbunch.push_back(ibooker.book1D(
          "etsum_phi_bx_MHTHF_firstbunch_" + bx_obj[i],
          "L1T EtSum MHTHF p_{T}#geq" + etsumPtCutStr + " GeV #phi for firstbunch bunch BX=" + bx_obj[i] + ";#phi",
          25,
          -3.2,
          3.2));
    }
    denominator_etsum_firstbunch_MET =
        ibooker.book1D("denominator_etsum_firstbunch_MET",
                       "Denominator for First Bunch for L1T EtSum MET p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                       25,
                       -3.2,
                       3.2);
    denominator_etsum_firstbunch_METHF =
        ibooker.book1D("denominator_etsum_firstbunch_METHF",
                       "Denominator for First Bunch for L1T EtSum METHF p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                       25,
                       -3.2,
                       3.2);
    denominator_etsum_firstbunch_MHT =
        ibooker.book1D("denominator_etsum_firstbunch_MHT",
                       "Denominator for First Bunch for L1T EtSum MHT p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                       25,
                       -3.2,
                       3.2);
    denominator_etsum_firstbunch_MHTHF =
        ibooker.book1D("denominator_etsum_firstbunch_MHTHF",
                       "Denominator for First Bunch for L1T EtSum MHTHF p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                       25,
                       -3.2,
                       3.2);
  }

  // last bunch in train
  if (algoBitLastBxInTrain_ > -1) {
    ibooker.setCurrentFolder(monitorDir_ + "/L1TMuon/timing/Last_bunch");
    for (unsigned int i = 0; i < bxrange_ - 2; ++i) {
      muons_eta_phi_lastbunch.push_back(
          ibooker.book2D("muons_eta_phi_bx_lastbunch_" + bx_obj[i + 2],
                         "L1T Muon p_{T}#geq" + muonPtCutStr + " GeV qual#geq" + muonQualCutStr +
                             " #eta vs #phi for last bunch BX=" + bx_obj[i] + ";#eta;#phi",
                         25,
                         -2.5,
                         2.5,
                         25,
                         -3.2,
                         3.2));
    }
    denominator_muons_lastbunch = ibooker.book2D(
        "denominator_muons_lastbunch",
        "Denominator for Last Bunch for L1T Muon p_{T}#geq" + muonPtCutStr + " GeV qual#geq" + muonQualCutStr,
        25,
        -2.5,
        2.5,
        25,
        -3.2,
        3.2);

    ibooker.setCurrentFolder(monitorDir_ + "/L1TJet/timing/Last_bunch");
    for (unsigned int i = 0; i < bxrange_ - 2; ++i) {
      jet_eta_phi_lastbunch.push_back(ibooker.book2D(
          "jet_eta_phi_bx_lastbunch_" + bx_obj[i + 2],
          "L1T Jet p_{T}#geq" + jetPtCutStr + " GeV #eta vs #phi for last bunch BX=" + bx_obj[i] + ";#eta;#phi",
          50,
          -5.,
          5.,
          25,
          -3.2,
          3.2));
    }
    denominator_jet_lastbunch =
        ibooker.book2D("denominator_jet_lastbunch",
                       "Denominator for Last Bunch for L1T Jet p_{T}#geq" + jetPtCutStr + " GeV;#eta;#phi",
                       50,
                       -5.,
                       5.,
                       25,
                       -3.2,
                       3.2);

    for (const auto egammaPtCut : egammaPtCuts_) {
      auto egammaPtCutStr = std::to_string(egammaPtCut);
      egammaPtCutStr.resize(egammaPtCutStr.size() - 5);  // cut some decimal digits
      auto egammaPtCutStrAlpha = egammaPtCutStr;
      std::replace(egammaPtCutStrAlpha.begin(),
                   egammaPtCutStrAlpha.end(),
                   '.',
                   'p');  // replace the decimal dot with a 'p' to please the DQMStore

      ibooker.setCurrentFolder(monitorDir_ + "/L1TEGamma/timing/Last_bunch/ptmin_" + egammaPtCutStrAlpha + "_gev");
      std::vector<MonitorElement*> vHelper;
      for (unsigned int i = 0; i < bxrange_ - 2; ++i) {
        vHelper.push_back(ibooker.book2D("egamma_eta_phi_bx_lastbunch_" + bx_obj[i + 2],
                                         "L1T EGamma p_{T}#geq" + egammaPtCutStr +
                                             " GeV #eta vs #phi for first bunch BX=" + bx_obj[i] + ";#eta;#phi",
                                         30,
                                         -3.,
                                         3.,
                                         25,
                                         -3.2,
                                         3.2));
      }
      egamma_eta_phi_lastbunch.push_back(vHelper);

      denominator_egamma_lastbunch.push_back(
          ibooker.book2D("denominator_egamma_lastbunch",
                         "Denominator for Last Bunch for L1T EGamma p_{T}#geq" + egammaPtCutStr + " GeV;#eta;#phi",
                         30,
                         -3.,
                         3.,
                         25,
                         -3.2,
                         3.2));

      egamma_iso_bx_ieta_lastbunch.push_back(
          ibooker.book2D("egamma_iso_bx_ieta_lastbunch_ptmin" + egammaPtCutStrAlpha,
                         "L1T EGamma iso with pT#geq" + egammaPtCutStr +
                             " GeV BX vs. i#eta for first bunch in train;BX in event (corrected);i#eta",
                         5,
                         -2.5,
                         2.5,
                         70,
                         -70,
                         70));

      egamma_noniso_bx_ieta_lastbunch.push_back(
          ibooker.book2D("egamma_noniso_bx_ieta_lastbunch_ptmin" + egammaPtCutStrAlpha,
                         "L1T EGamma non iso with pT#geq" + egammaPtCutStr +
                             " GeV BX vs. i#eta for first bunch in train;BX in event (corrected);i#eta",
                         5,
                         -2.5,
                         2.5,
                         70,
                         -70,
                         70));
    }

    ibooker.setCurrentFolder(monitorDir_ + "/L1TTau/timing/Last_bunch");
    for (unsigned int i = 0; i < bxrange_ - 2; ++i) {
      tau_eta_phi_lastbunch.push_back(ibooker.book2D(
          "tau_eta_phi_bx_lastbunch_" + bx_obj[i + 2],
          "L1T Tau p_{T}#geq" + tauPtCutStr + " GeV #eta vs #phi for last bunch BX=" + bx_obj[i] + ";#eta;#phi",
          30,
          -3.,
          3.,
          25,
          -3.2,
          3.2));
    }
    denominator_tau_lastbunch =
        ibooker.book2D("denominator_tau_lastbunch",
                       "Denominator for Last Bunch for L1T Tau p_{T}#geq" + tauPtCutStr + " GeV;#eta;#phi",
                       30,
                       -3.,
                       3.,
                       25,
                       -3.2,
                       3.2);

    ibooker.setCurrentFolder(monitorDir_ + "/L1TEtSum/timing/Last_bunch");
    for (unsigned int i = 0; i < bxrange_ - 2; ++i) {
      etsum_eta_phi_MET_lastbunch.push_back(ibooker.book1D(
          "etsum_phi_bx_MET_lastbunch_" + bx_obj[i + 2],
          "L1T EtSum MET p_{T}#geq" + etsumPtCutStr + " GeV #phi for lastbunch bunch BX=" + bx_obj[i] + ";#phi",
          25,
          -3.2,
          3.2));
      etsum_eta_phi_METHF_lastbunch.push_back(ibooker.book1D(
          "etsum_phi_bx_METHF_lastbunch_" + bx_obj[i + 2],
          "L1T EtSum METHF p_{T}#geq" + etsumPtCutStr + " GeV #phi for lastbunch bunch BX=" + bx_obj[i] + ";#phi",
          25,
          -3.2,
          3.2));
      etsum_eta_phi_MHT_lastbunch.push_back(ibooker.book1D(
          "etsum_phi_bx_MHT_lastbunch_" + bx_obj[i + 2],
          "L1T EtSum MHT p_{T}#geq" + etsumPtCutStr + " GeV #phi for lastbunch bunch BX=" + bx_obj[i] + ";#phi",
          25,
          -3.2,
          3.2));
      etsum_eta_phi_MHTHF_lastbunch.push_back(ibooker.book1D(
          "etsum_phi_bx_MHTHF_lastbunch_" + bx_obj[i + 2],
          "L1T EtSum MHTHF p_{T}#geq" + etsumPtCutStr + " GeV #phi for lastbunch bunch BX=" + bx_obj[i] + ";#phi",
          25,
          -3.2,
          3.2));
    }
    denominator_etsum_lastbunch_MET =
        ibooker.book1D("denominator_etsum_lastbunch_MET",
                       "Denominator for Last Bunch for L1T EtSum MET p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                       25,
                       -3.2,
                       3.2);
    denominator_etsum_lastbunch_METHF =
        ibooker.book1D("denominator_etsum_lastbunch_METHF",
                       "Denominator for Last Bunch for L1T EtSum METHF p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                       25,
                       -3.2,
                       3.2);
    denominator_etsum_lastbunch_MHT =
        ibooker.book1D("denominator_etsum_lastbunch_MHT",
                       "Denominator for Last Bunch for L1T EtSum MHT p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                       25,
                       -3.2,
                       3.2);
    denominator_etsum_lastbunch_MHTHF =
        ibooker.book1D("denominator_etsum_lastbunch_MHTHF",
                       "Denominator for Last Bunch for L1T EtSum MHTHF p_{T}#geq" + etsumPtCutStr + " GeV;#phi",
                       25,
                       -3.2,
                       3.2);
  }
}

void L1TObjectsTiming::analyze(const edm::Event& e, const edm::EventSetup& c) {
  if (verbose_)
    edm::LogInfo("L1TObjectsTiming") << "L1TObjectsTiming: analyze..." << std::endl;

  // Muon Collection
  edm::Handle<l1t::MuonBxCollection> MuonBxCollection;
  e.getByToken(ugmtMuonToken_, MuonBxCollection);
  // Jet Collection
  edm::Handle<l1t::JetBxCollection> JetBxCollection;
  e.getByToken(stage2CaloLayer2JetToken_, JetBxCollection);
  // EGamma Collection
  edm::Handle<l1t::EGammaBxCollection> EGammaBxCollection;
  e.getByToken(stage2CaloLayer2EGammaToken_, EGammaBxCollection);
  // Tau Collection
  edm::Handle<l1t::TauBxCollection> TauBxCollection;
  e.getByToken(stage2CaloLayer2TauToken_, TauBxCollection);
  // EtSum Collection
  edm::Handle<l1t::EtSumBxCollection> EtSumBxCollection;
  e.getByToken(stage2CaloLayer2EtSumToken_, EtSumBxCollection);

  // Open uGT readout record
  edm::Handle<GlobalAlgBlkBxCollection> uGtAlgs;
  e.getByToken(l1tStage2uGtProducer_, uGtAlgs);

  // Filling eta-phi map for muons for BX=-2,-1,0,+1,+2
  for (int itBX = MuonBxCollection->getFirstBX(); itBX <= MuonBxCollection->getLastBX(); ++itBX) {
    for (l1t::MuonBxCollection::const_iterator Muon = MuonBxCollection->begin(itBX);
         Muon != MuonBxCollection->end(itBX);
         ++Muon) {
      if (Muon->pt() >= muonPtCut_ and Muon->hwQual() >= muonQualCut_) {
        denominator_muons->Fill(Muon->eta(), Muon->phi());
        // the correlation from itBX to respective index of the vector
        int index = (int)itBX - std::min(0, 1 - (int)bxrange_ % 2 - (int)std::floor(bxrange_ / 2.));
        muons_eta_phi.at(index)->Fill(Muon->eta(), Muon->phi());
      }
    }
  }

  // Filling eta-phi map for jets for BX=-2,-1,0,+1,+2
  for (int itBX = JetBxCollection->getFirstBX(); itBX <= JetBxCollection->getLastBX(); ++itBX) {
    for (l1t::JetBxCollection::const_iterator jet = JetBxCollection->begin(itBX); jet != JetBxCollection->end(itBX);
         ++jet) {
      if (jet->pt() >= jetPtCut_) {
        denominator_jet->Fill(jet->eta(), jet->phi());
        int index =
            itBX - std::min(0,
                            1 - (int)bxrange_ % 2 -
                                (int)std::floor(bxrange_ /
                                                2.));  // the correlation from itBX to respective index of the vector
        jet_eta_phi.at(index)->Fill(jet->eta(), jet->phi());
      }
    }
  }

  // Filling eta-phi map for egamma for BX=-2,-1,0,+1,+2
  for (int itBX = EGammaBxCollection->getFirstBX(); itBX <= EGammaBxCollection->getLastBX(); ++itBX) {
    for (l1t::EGammaBxCollection::const_iterator egamma = EGammaBxCollection->begin(itBX);
         egamma != EGammaBxCollection->end(itBX);
         ++egamma) {
      if (egamma->pt() >= egammaPtCut_) {
        denominator_egamma->Fill(egamma->eta(), egamma->phi());
        int index =
            itBX - std::min(0,
                            1 - (int)bxrange_ % 2 -
                                (int)std::floor(bxrange_ /
                                                2.));  // the correlation from itBX to respective index of the vector
        egamma_eta_phi.at(index)->Fill(egamma->eta(), egamma->phi());
      }
    }
  }

  // Filling eta-phi map for tau for BX=-2,-1,0,+1,+2
  for (int itBX = TauBxCollection->getFirstBX(); itBX <= TauBxCollection->getLastBX(); ++itBX) {
    for (l1t::TauBxCollection::const_iterator tau = TauBxCollection->begin(itBX); tau != TauBxCollection->end(itBX);
         ++tau) {
      if (tau->pt() >= tauPtCut_) {
        denominator_tau->Fill(tau->eta(), tau->phi());
        int index =
            itBX - std::min(0,
                            1 - (int)bxrange_ % 2 -
                                (int)std::floor(bxrange_ /
                                                2.));  // the correlation from itBX to respective index of the vector
        tau_eta_phi.at(index)->Fill(tau->eta(), tau->phi());
      }
    }
  }

  // Filling eta-phi map for etsum for BX=-2,-1,0,+1,+2
  for (int itBX = EtSumBxCollection->getFirstBX(); itBX <= EtSumBxCollection->getLastBX(); ++itBX) {
    for (l1t::EtSumBxCollection::const_iterator EtSum = EtSumBxCollection->begin(itBX);
         EtSum != EtSumBxCollection->end(itBX);
         ++EtSum) {
      if (EtSum->pt() >= etsumPtCut_) {
        int index =
            itBX - std::min(0,
                            1 - (int)bxrange_ % 2 -
                                (int)std::floor(bxrange_ /
                                                2.));  // the correlation from itBX to respective index of the vector
        if (l1t::EtSum::EtSumType::kMissingEt == EtSum->getType()) {
          etsum_eta_phi_MET.at(index)->Fill(EtSum->phi());
          denominator_etsum_MET->Fill(EtSum->phi());
        } else if (l1t::EtSum::EtSumType::kMissingEtHF == EtSum->getType()) {
          etsum_eta_phi_METHF.at(index)->Fill(EtSum->phi());
          denominator_etsum_METHF->Fill(EtSum->phi());

        } else if (l1t::EtSum::EtSumType::kMissingHt == EtSum->getType()) {
          etsum_eta_phi_MHT.at(index)->Fill(EtSum->phi());
          denominator_etsum_MHT->Fill(EtSum->phi());

        } else if (l1t::EtSum::EtSumType::kMissingHtHF == EtSum->getType()) {
          etsum_eta_phi_MHTHF.at(index)->Fill(EtSum->phi());
          denominator_etsum_MHTHF->Fill(EtSum->phi());
        }
      }
    }
  }

  // Find out in which BX the first collision in train, isolated bunch, and last collision in train have fired.
  // In case of pre firing it will be in BX 1 or BX 2 and this will determine the BX shift that
  // will be applied to the timing histogram later.
  int bxShiftFirst = -999;
  int bxShiftIso = -999;
  int bxShiftLast = -999;
  for (int bx = uGtAlgs->getFirstBX(); bx <= uGtAlgs->getLastBX(); ++bx) {
    for (GlobalAlgBlkBxCollection::const_iterator itr = uGtAlgs->begin(bx); itr != uGtAlgs->end(bx); ++itr) {
      // first bunch in train
      if (algoBitFirstBxInTrain_ != -1) {
        bool bit = false;
        switch (useAlgoDecision_) {
          case 0:
            bit = itr->getAlgoDecisionInitial(algoBitFirstBxInTrain_);
            break;
          case 1:
            bit = itr->getAlgoDecisionInterm(algoBitFirstBxInTrain_);
            break;
          case 2:
            bit = itr->getAlgoDecisionFinal(algoBitFirstBxInTrain_);
            break;
        }
        if (bit) {
          bxShiftFirst = bx;
        }
      }
      // last bunch in train
      if (algoBitLastBxInTrain_ != -1) {
        bool bit = false;
        switch (useAlgoDecision_) {
          case 0:
            bit = itr->getAlgoDecisionInitial(algoBitLastBxInTrain_);
            break;
          case 1:
            bit = itr->getAlgoDecisionInterm(algoBitLastBxInTrain_);
            break;
          case 2:
            bit = itr->getAlgoDecisionFinal(algoBitLastBxInTrain_);
            break;
        }
        if (bit) {
          bxShiftLast = bx;
        }
      }
      // isolated bunch
      if (algoBitIsoBx_ != -1) {
        bool bit = false;
        switch (useAlgoDecision_) {
          case 0:
            bit = itr->getAlgoDecisionInitial(algoBitIsoBx_);
            break;
          case 1:
            bit = itr->getAlgoDecisionInterm(algoBitIsoBx_);
            break;
          case 2:
            bit = itr->getAlgoDecisionFinal(algoBitIsoBx_);
            break;
        }
        if (bit) {
          bxShiftIso = bx;
        }
      }
    }
  }

  // fill the first bunch in train maps
  if (bxShiftFirst > -999) {
    // muons
    for (int itBX = std::max(MuonBxCollection->getFirstBX(), MuonBxCollection->getFirstBX() + bxShiftFirst);
         itBX <= std::min(MuonBxCollection->getLastBX(), MuonBxCollection->getLastBX() + bxShiftFirst);
         ++itBX) {
      int index = itBX - bxShiftFirst - uGtAlgs->getFirstBX();
      if (index >= 0 and index < (int)muons_eta_phi_firstbunch.size()) {
        for (l1t::MuonBxCollection::const_iterator muon = MuonBxCollection->begin(itBX);
             muon != MuonBxCollection->end(itBX);
             ++muon) {  // Starting with Muons
          if (muon->pt() >= muonPtCut_ and muon->hwQual() >= muonQualCut_) {
            denominator_muons_firstbunch->Fill(muon->eta(), muon->phi());
            muons_eta_phi_firstbunch.at(index)->Fill(muon->eta(), muon->phi());
          }
        }
      }
    }
    // jets
    for (int itBX = std::max(JetBxCollection->getFirstBX(), JetBxCollection->getFirstBX() + bxShiftFirst);
         itBX <= std::min(JetBxCollection->getLastBX(), JetBxCollection->getLastBX() + bxShiftFirst);
         ++itBX) {
      int index = itBX - bxShiftFirst - uGtAlgs->getFirstBX();
      if (index >= 0 and index < (int)jet_eta_phi_firstbunch.size()) {
        for (l1t::JetBxCollection::const_iterator jet = JetBxCollection->begin(itBX); jet != JetBxCollection->end(itBX);
             ++jet) {
          if (jet->pt() >= jetPtCut_) {
            denominator_jet_firstbunch->Fill(jet->eta(), jet->phi());
            jet_eta_phi_firstbunch.at(index)->Fill(jet->eta(), jet->phi());
          }
        }
      }
    }
    // egammas
    for (int itBX = std::max(EGammaBxCollection->getFirstBX(), EGammaBxCollection->getFirstBX() + bxShiftFirst);
         itBX <= std::min(EGammaBxCollection->getLastBX(), EGammaBxCollection->getLastBX() + bxShiftFirst);
         ++itBX) {
      int index = itBX - bxShiftFirst - uGtAlgs->getFirstBX();
      for (l1t::EGammaBxCollection::const_iterator egamma = EGammaBxCollection->begin(itBX);
           egamma != EGammaBxCollection->end(itBX);
           ++egamma) {
        for (size_t i = 0; i < egammaPtCuts_.size(); ++i) {
          if (egamma->pt() >= egammaPtCuts_.at(i)) {
            if (index >= 0 and index < (int)egamma_eta_phi_firstbunch.size()) {
              denominator_egamma_firstbunch.at(i)->Fill(egamma->eta(), egamma->phi());
              egamma_eta_phi_firstbunch.at(i).at(index)->Fill(egamma->eta(), egamma->phi());
            }
            if ((bool)egamma->hwIso()) {
              egamma_iso_bx_ieta_firstbunch.at(i)->Fill(itBX - bxShiftFirst, egamma->hwEta());
            }
            egamma_noniso_bx_ieta_firstbunch.at(i)->Fill(itBX - bxShiftFirst, egamma->hwEta());
          }
        }
      }
    }
    // taus
    for (int itBX = std::max(TauBxCollection->getFirstBX(), TauBxCollection->getFirstBX() + bxShiftFirst);
         itBX <= std::min(TauBxCollection->getLastBX(), TauBxCollection->getLastBX() + bxShiftFirst);
         ++itBX) {
      int index = itBX - bxShiftFirst - uGtAlgs->getFirstBX();
      if (index >= 0 and index < (int)tau_eta_phi_firstbunch.size()) {
        for (l1t::TauBxCollection::const_iterator tau = TauBxCollection->begin(itBX); tau != TauBxCollection->end(itBX);
             ++tau) {
          if (tau->pt() >= tauPtCut_) {
            denominator_tau_firstbunch->Fill(tau->eta(), tau->phi());
            tau_eta_phi_firstbunch.at(index)->Fill(tau->eta(), tau->phi());
          }
        }
      }
    }
    // etsums
    for (int itBX = std::max(EtSumBxCollection->getFirstBX(), EtSumBxCollection->getFirstBX() + bxShiftFirst);
         itBX <= std::min(EtSumBxCollection->getLastBX(), EtSumBxCollection->getLastBX() + bxShiftFirst);
         ++itBX) {
      int index = itBX - bxShiftFirst - uGtAlgs->getFirstBX();
      if (index >= 0) {
        for (l1t::EtSumBxCollection::const_iterator EtSum = EtSumBxCollection->begin(itBX);
             EtSum != EtSumBxCollection->end(itBX);
             ++EtSum) {
          if (EtSum->pt() >= etsumPtCut_) {
            if (l1t::EtSum::EtSumType::kMissingEt == EtSum->getType()) {
              if (index < (int)etsum_eta_phi_MET_firstbunch.size()) {
                denominator_etsum_firstbunch_MET->Fill(EtSum->phi());
                etsum_eta_phi_MET_firstbunch.at(index)->Fill(EtSum->phi());
              }
            } else if (l1t::EtSum::EtSumType::kMissingEtHF == EtSum->getType()) {
              if (index < (int)etsum_eta_phi_METHF_firstbunch.size()) {
                denominator_etsum_firstbunch_METHF->Fill(EtSum->phi());
                etsum_eta_phi_METHF_firstbunch.at(index)->Fill(EtSum->phi());
              }
            } else if (l1t::EtSum::EtSumType::kMissingHt == EtSum->getType()) {
              if (index < (int)etsum_eta_phi_MHT_firstbunch.size()) {
                denominator_etsum_firstbunch_MHT->Fill(EtSum->phi());
                etsum_eta_phi_MHT_firstbunch.at(index)->Fill(EtSum->phi());
              }
            } else if (l1t::EtSum::EtSumType::kMissingHtHF == EtSum->getType()) {
              if (index < (int)etsum_eta_phi_MHTHF_firstbunch.size()) {
                denominator_etsum_firstbunch_MHTHF->Fill(EtSum->phi());
                etsum_eta_phi_MHTHF_firstbunch.at(index)->Fill(EtSum->phi());
              }
            }
          }
        }
      }
    }
  }

  // fill the last bunch in train maps
  if (bxShiftLast > -999) {
    // muons
    for (int itBX = std::max(MuonBxCollection->getFirstBX(), MuonBxCollection->getFirstBX() + bxShiftLast);
         itBX <= std::min(MuonBxCollection->getLastBX(), MuonBxCollection->getLastBX() + bxShiftLast);
         ++itBX) {
      auto correctedBx = itBX - bxShiftLast;
      if (correctedBx >= 0 and correctedBx < (int)muons_eta_phi_lastbunch.size()) {
        for (l1t::MuonBxCollection::const_iterator muon = MuonBxCollection->begin(itBX);
             muon != MuonBxCollection->end(itBX);
             ++muon) {  // Starting with Muons
          if (muon->pt() >= muonPtCut_ and muon->hwQual() >= muonQualCut_) {
            denominator_muons_lastbunch->Fill(muon->eta(), muon->phi());
            muons_eta_phi_lastbunch.at(correctedBx)->Fill(muon->eta(), muon->phi());
          }
        }
      }
    }
    // jets
    for (int itBX = std::max(JetBxCollection->getFirstBX(), JetBxCollection->getFirstBX() + bxShiftLast);
         itBX <= std::min(JetBxCollection->getLastBX(), JetBxCollection->getLastBX() + bxShiftLast);
         ++itBX) {
      auto correctedBx = itBX - bxShiftLast;
      if (correctedBx >= 0 and correctedBx < (int)jet_eta_phi_lastbunch.size()) {
        for (l1t::JetBxCollection::const_iterator jet = JetBxCollection->begin(itBX); jet != JetBxCollection->end(itBX);
             ++jet) {
          if (jet->pt() >= jetPtCut_) {
            denominator_jet_lastbunch->Fill(jet->eta(), jet->phi());
            jet_eta_phi_lastbunch.at(correctedBx)->Fill(jet->eta(), jet->phi());
          }
        }
      }
    }
    // egammas
    for (int itBX = std::max(EGammaBxCollection->getFirstBX(), EGammaBxCollection->getFirstBX() + bxShiftLast);
         itBX <= std::min(EGammaBxCollection->getLastBX(), EGammaBxCollection->getLastBX() + bxShiftLast);
         ++itBX) {
      auto correctedBx = itBX - bxShiftLast;
      for (l1t::EGammaBxCollection::const_iterator egamma = EGammaBxCollection->begin(itBX);
           egamma != EGammaBxCollection->end(itBX);
           ++egamma) {
        for (size_t i = 0; i < egammaPtCuts_.size(); ++i) {
          if (egamma->pt() >= egammaPtCuts_.at(i)) {
            if (correctedBx >= 0 and correctedBx < (int)egamma_eta_phi_lastbunch.size()) {
              denominator_egamma_lastbunch.at(i)->Fill(egamma->eta(), egamma->phi());
              egamma_eta_phi_lastbunch.at(i).at(correctedBx)->Fill(egamma->eta(), egamma->phi());
            }
            if ((bool)egamma->hwIso()) {
              egamma_iso_bx_ieta_lastbunch.at(i)->Fill(correctedBx, egamma->hwEta());
            }
            egamma_noniso_bx_ieta_lastbunch.at(i)->Fill(correctedBx, egamma->hwEta());
          }
        }
      }
    }
    // taus
    for (int itBX = std::max(TauBxCollection->getFirstBX(), TauBxCollection->getFirstBX() + bxShiftLast);
         itBX <= std::min(TauBxCollection->getLastBX(), TauBxCollection->getLastBX() + bxShiftLast);
         ++itBX) {
      auto correctedBx = itBX - bxShiftLast;
      if (correctedBx >= 0 and correctedBx < (int)tau_eta_phi_lastbunch.size()) {
        for (l1t::TauBxCollection::const_iterator tau = TauBxCollection->begin(itBX); tau != TauBxCollection->end(itBX);
             ++tau) {
          if (tau->pt() >= tauPtCut_) {
            denominator_tau_lastbunch->Fill(tau->eta(), tau->phi());
            tau_eta_phi_lastbunch.at(correctedBx)->Fill(tau->eta(), tau->phi());
          }
        }
      }
    }
    // etsums
    for (int itBX = std::max(EtSumBxCollection->getFirstBX(), EtSumBxCollection->getFirstBX() + bxShiftLast);
         itBX <= std::min(EtSumBxCollection->getLastBX(), EtSumBxCollection->getLastBX() + bxShiftLast);
         ++itBX) {
      auto correctedBx = itBX - bxShiftLast;
      if (correctedBx >= 0) {
        for (l1t::EtSumBxCollection::const_iterator EtSum = EtSumBxCollection->begin(itBX);
             EtSum != EtSumBxCollection->end(itBX);
             ++EtSum) {
          if (EtSum->pt() >= etsumPtCut_) {
            if (l1t::EtSum::EtSumType::kMissingEt == EtSum->getType()) {
              if (correctedBx < (int)etsum_eta_phi_MET_lastbunch.size()) {
                denominator_etsum_lastbunch_MET->Fill(EtSum->phi());
                etsum_eta_phi_MET_lastbunch.at(correctedBx)->Fill(EtSum->phi());
              }
            } else if (l1t::EtSum::EtSumType::kMissingEtHF == EtSum->getType()) {
              if (correctedBx < (int)etsum_eta_phi_METHF_lastbunch.size()) {
                denominator_etsum_lastbunch_METHF->Fill(EtSum->phi());
                etsum_eta_phi_METHF_lastbunch.at(correctedBx)->Fill(EtSum->phi());
              }
            } else if (l1t::EtSum::EtSumType::kMissingHt == EtSum->getType()) {
              if (correctedBx < (int)etsum_eta_phi_MHT_lastbunch.size()) {
                denominator_etsum_lastbunch_MHT->Fill(EtSum->phi());
                etsum_eta_phi_MHT_lastbunch.at(correctedBx)->Fill(EtSum->phi());
              }
            } else if (l1t::EtSum::EtSumType::kMissingHtHF == EtSum->getType()) {
              if (correctedBx < (int)etsum_eta_phi_MHTHF_lastbunch.size()) {
                denominator_etsum_lastbunch_MHTHF->Fill(EtSum->phi());
                etsum_eta_phi_MHTHF_lastbunch.at(correctedBx)->Fill(EtSum->phi());
              }
            }
          }
        }
      }
    }
  }

  // fill the isolated bunch
  if (bxShiftIso > -999) {
    // muons
    for (int itBX = std::max(MuonBxCollection->getFirstBX(), MuonBxCollection->getFirstBX() + bxShiftIso);
         itBX <= std::min(MuonBxCollection->getLastBX(), MuonBxCollection->getLastBX() + bxShiftIso);
         ++itBX) {
      int index = itBX - bxShiftIso - uGtAlgs->getFirstBX();
      if (index >= 0 and index < (int)muons_eta_phi_isolated.size()) {
        for (l1t::MuonBxCollection::const_iterator muon = MuonBxCollection->begin(itBX);
             muon != MuonBxCollection->end(itBX);
             ++muon) {  // Starting with Muons
          if (muon->pt() >= muonPtCut_ and muon->hwQual() >= muonQualCut_) {
            denominator_muons_isolated->Fill(muon->eta(), muon->phi());
            muons_eta_phi_isolated.at(index)->Fill(muon->eta(), muon->phi());
          }
        }
      }
    }
    // jets
    for (int itBX = std::max(JetBxCollection->getFirstBX(), JetBxCollection->getFirstBX() + bxShiftIso);
         itBX <= std::min(JetBxCollection->getLastBX(), JetBxCollection->getLastBX() + bxShiftIso);
         ++itBX) {
      int index = itBX - bxShiftIso - uGtAlgs->getFirstBX();
      if (index >= 0 and index < (int)jet_eta_phi_isolated.size()) {
        for (l1t::JetBxCollection::const_iterator jet = JetBxCollection->begin(itBX); jet != JetBxCollection->end(itBX);
             ++jet) {
          if (jet->pt() >= jetPtCut_) {
            denominator_jet_isolated->Fill(jet->eta(), jet->phi());
            jet_eta_phi_isolated.at(index)->Fill(jet->eta(), jet->phi());
          }
        }
      }
    }
    // egammas
    for (int itBX = std::max(EGammaBxCollection->getFirstBX(), EGammaBxCollection->getFirstBX() + bxShiftIso);
         itBX <= std::min(EGammaBxCollection->getLastBX(), EGammaBxCollection->getLastBX() + bxShiftIso);
         ++itBX) {
      int index = itBX - bxShiftIso - uGtAlgs->getFirstBX();
      for (l1t::EGammaBxCollection::const_iterator egamma = EGammaBxCollection->begin(itBX);
           egamma != EGammaBxCollection->end(itBX);
           ++egamma) {
        for (size_t i = 0; i < egammaPtCuts_.size(); ++i) {
          if (egamma->pt() >= egammaPtCuts_.at(i)) {
            if (index >= 0 and index < (int)egamma_eta_phi_isolated.size()) {
              denominator_egamma_isolated.at(i)->Fill(egamma->eta(), egamma->phi());
              egamma_eta_phi_isolated.at(i).at(index)->Fill(egamma->eta(), egamma->phi());
            }
            if ((bool)egamma->hwIso()) {
              egamma_iso_bx_ieta_isolated.at(i)->Fill(itBX - bxShiftIso, egamma->hwEta());
            }
            egamma_noniso_bx_ieta_isolated.at(i)->Fill(itBX - bxShiftIso, egamma->hwEta());
          }
        }
      }
    }
    // taus
    for (int itBX = std::max(TauBxCollection->getFirstBX(), TauBxCollection->getFirstBX() + bxShiftIso);
         itBX <= std::min(TauBxCollection->getLastBX(), TauBxCollection->getLastBX() + bxShiftIso);
         ++itBX) {
      int index = itBX - bxShiftIso - uGtAlgs->getFirstBX();
      if (index >= 0 and index < (int)tau_eta_phi_isolated.size()) {
        for (l1t::TauBxCollection::const_iterator tau = TauBxCollection->begin(itBX); tau != TauBxCollection->end(itBX);
             ++tau) {
          if (tau->pt() >= tauPtCut_) {
            denominator_tau_isolated->Fill(tau->eta(), tau->phi());
            tau_eta_phi_isolated.at(index)->Fill(tau->eta(), tau->phi());
          }
        }
      }
    }
    // etsums
    for (int itBX = std::max(EtSumBxCollection->getFirstBX(), EtSumBxCollection->getFirstBX() + bxShiftIso);
         itBX <= std::min(EtSumBxCollection->getLastBX(), EtSumBxCollection->getLastBX() + bxShiftIso);
         ++itBX) {
      int index = itBX - bxShiftIso - uGtAlgs->getFirstBX();
      if (index >= 0) {
        for (l1t::EtSumBxCollection::const_iterator EtSum = EtSumBxCollection->begin(itBX);
             EtSum != EtSumBxCollection->end(itBX);
             ++EtSum) {
          if (EtSum->pt() >= etsumPtCut_) {
            if (l1t::EtSum::EtSumType::kMissingEt == EtSum->getType()) {
              if (index < (int)etsum_eta_phi_MET_isolated.size()) {
                denominator_etsum_isolated_MET->Fill(EtSum->phi());
                etsum_eta_phi_MET_isolated.at(index)->Fill(EtSum->phi());
              }
            } else if (l1t::EtSum::EtSumType::kMissingEtHF == EtSum->getType()) {
              if (index < (int)etsum_eta_phi_METHF_isolated.size()) {
                denominator_etsum_isolated_METHF->Fill(EtSum->phi());
                etsum_eta_phi_METHF_isolated.at(index)->Fill(EtSum->phi());
              }
            } else if (l1t::EtSum::EtSumType::kMissingHt == EtSum->getType()) {
              if (index < (int)etsum_eta_phi_MHT_isolated.size()) {
                denominator_etsum_isolated_MHT->Fill(EtSum->phi());
                etsum_eta_phi_MHT_isolated.at(index)->Fill(EtSum->phi());
              }
            } else if (l1t::EtSum::EtSumType::kMissingHtHF == EtSum->getType()) {
              if (index < (int)etsum_eta_phi_MHTHF_isolated.size()) {
                denominator_etsum_isolated_MHTHF->Fill(EtSum->phi());
                etsum_eta_phi_MHTHF_isolated.at(index)->Fill(EtSum->phi());
              }
            }
          }
        }
      }
    }
  }
}