SiStripMonitorTrack.cc

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#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "FWCore/Utilities/interface/Transition.h"
 
#include "Geometry/CommonDetUnit/interface/GluedGeomDet.h"
 
#include "DataFormats/DetId/interface/DetId.h"
#include "DataFormats/SiStripDetId/interface/StripSubdetector.h"
#include "DataFormats/TrackerRecHit2D/interface/SiStripRecHit2D.h"
#include "DataFormats/TrackerRecHit2D/interface/SiStripRecHit1D.h"
#include "DataFormats/TrackerRecHit2D/interface/ProjectedSiStripRecHit2D.h"
#include "DataFormats/TrackerRecHit2D/interface/SiStripMatchedRecHit2D.h"
#include "TrackingTools/TrajectoryState/interface/TrajectoryStateTransform.h"
#include "CalibTracker/SiStripCommon/interface/SiStripDCSStatus.h"
#include "CommonTools/TriggerUtils/interface/GenericTriggerEventFlag.h"
#include "DataFormats/TrackReco/interface/HitPattern.h"
#include "DQM/SiStripMonitorTrack/interface/SiStripMonitorTrack.h"
 
#include "DQM/SiStripCommon/interface/SiStripHistoId.h"
#include "TMath.h"
 
#include "RecoLocalTracker/ClusterParameterEstimator/interface/StripClusterParameterEstimator.h"
#include "RecoLocalTracker/Records/interface/TkStripCPERecord.h"
 
SiStripMonitorTrack::SiStripMonitorTrack(const edm::ParameterSet& conf)
    : conf_(conf),
      siStripClusterInfo_(consumesCollector()),
      trackerGeometryToken_(esConsumes<TrackerGeometry, TrackerDigiGeometryRecord, edm::Transition::BeginRun>()),
      siStripDetCablingToken_(esConsumes<SiStripDetCabling, SiStripDetCablingRcd, edm::Transition::BeginRun>()),
      trackerTopologyRunToken_(esConsumes<TrackerTopology, TrackerTopologyRcd, edm::Transition::BeginRun>()),
      tkDetMapToken_(esConsumes<TkDetMap, TrackerTopologyRcd, edm::Transition::BeginRun>()),
      trackerTopologyEventToken_(esConsumes<TrackerTopology, TrackerTopologyRcd>()),
      tracksCollection_in_EventTree(true),
      firstEvent(-1),
      genTriggerEventFlag_(new GenericTriggerEventFlag(
          conf.getParameter<edm::ParameterSet>("genericTriggerEventPSet"), consumesCollector(), *this)) {
  Cluster_src_ = conf.getParameter<edm::InputTag>("Cluster_src");
  Mod_On_ = conf.getParameter<bool>("Mod_On");
  Trend_On_ = conf.getParameter<bool>("Trend_On");
  TkHistoMap_On_ = conf.getParameter<bool>("TkHistoMap_On");
  clchCMoriginTkHmap_On_ = conf.getParameter<bool>("clchCMoriginTkHmap_On");
 
  TrackProducer_ = conf_.getParameter<std::string>("TrackProducer");
  TrackLabel_ = conf_.getParameter<std::string>("TrackLabel");
 
  topFolderName_ = conf_.getParameter<std::string>("TopFolderName");
 
  digiToken_ = consumes<edm::DetSetVector<SiStripDigi>>(conf.getParameter<edm::InputTag>("ADCDigi_src"));
  clusterToken_ = consumes<edmNew::DetSetVector<SiStripCluster>>(Cluster_src_);
  trackToken_ = consumes<reco::TrackCollection>(edm::InputTag(TrackProducer_, TrackLabel_));
 
  // cluster quality conditions
  edm::ParameterSet cluster_condition = conf_.getParameter<edm::ParameterSet>("ClusterConditions");
  applyClusterQuality_ = cluster_condition.getParameter<bool>("On");
  sToNLowerLimit_ = cluster_condition.getParameter<double>("minStoN");
  sToNUpperLimit_ = cluster_condition.getParameter<double>("maxStoN");
  widthLowerLimit_ = cluster_condition.getParameter<double>("minWidth");
  widthUpperLimit_ = cluster_condition.getParameter<double>("maxWidth");
 
  // Create DCS Status
  bool checkDCS = conf_.getParameter<bool>("UseDCSFiltering");
  if (checkDCS)
    dcsStatus_ = new SiStripDCSStatus(consumesCollector());
  else
    dcsStatus_ = nullptr;
}
 
//------------------------------------------------------------------------
SiStripMonitorTrack::~SiStripMonitorTrack() {
  if (dcsStatus_)
    delete dcsStatus_;
  if (genTriggerEventFlag_)
    delete genTriggerEventFlag_;
}
 
//------------------------------------------------------------------------
void SiStripMonitorTrack::dqmBeginRun(const edm::Run& run, const edm::EventSetup& iSetup) {
  tkgeom_ = &iSetup.getData(trackerGeometryToken_);
  LogDebug("SiStripMonitorTrack") << "[SiStripMonitorTrack::beginRun] There are " << tkgeom_->detUnits().size()
                                  << " detectors instantiated in the geometry" << std::endl;
  siStripDetCabling_ = &iSetup.getData(siStripDetCablingToken_);
 
  // Initialize the GenericTriggerEventFlag
  if (genTriggerEventFlag_->on())
    genTriggerEventFlag_->initRun(run, iSetup);
}
 
//------------------------------------------------------------------------
void SiStripMonitorTrack::bookHistograms(DQMStore::IBooker& ibooker,
                                         const edm::Run& run,
                                         const edm::EventSetup& iSetup) {
  const TrackerTopology* trackerTopology = &iSetup.getData(trackerTopologyRunToken_);
  const TkDetMap* tkDetMap = &iSetup.getData(tkDetMapToken_);
 
  book(ibooker, trackerTopology, tkDetMap);
}
 
// ------------ method called to produce the data  ------------
void SiStripMonitorTrack::analyze(const edm::Event& e, const edm::EventSetup& iSetup) {
  siStripClusterInfo_.initEvent(iSetup);
 
  // Filter out events if DCS checking is requested
  if (dcsStatus_ && !dcsStatus_->getStatus(e, iSetup))
    return;
 
  // Filter out events if Trigger Filtering is requested
  if (genTriggerEventFlag_->on() && !genTriggerEventFlag_->accept(e, iSetup))
    return;
 
  //initialization of global quantities
  LogDebug("SiStripMonitorTrack") << "[SiStripMonitorTrack::analyse]  "
                                  << "Run " << e.id().run() << " Event " << e.id().event() << std::endl;
  eventNb = e.id().event();
  vPSiStripCluster.clear();
 
  iLumisection = e.orbitNumber() / 262144.0;
 
  // initialise # of clusters
  for (std::map<std::string, SubDetMEs>::iterator iSubDet = SubDetMEsMap.begin(); iSubDet != SubDetMEsMap.end();
       iSubDet++) {
    iSubDet->second.totNClustersOnTrack = 0;
    iSubDet->second.totNClustersOffTrack = 0;
  }
 
  trackerTopology_ = &iSetup.getData(trackerTopologyEventToken_);
 
  //Perform track study
  trackStudy(e);
 
  //Perform Cluster Study (irrespectively to tracks)
 
  AllClusters(e);  //analyzes the off Track Clusters
 
  //Summary Counts of clusters
  std::map<std::string, MonitorElement*>::iterator iME;
  std::map<std::string, LayerMEs>::iterator iLayerME;
 
  if (!(topFolderName_.find("IsolatedBunches") != std::string::npos)) {
    fillControlViewHistos(e);
  }
 
  if (Trend_On_) {
    // for (std::map<std::string, SubDetMEs>::iterator iSubDet = SubDetMEsMap.begin(), iterEnd=SubDetMEsMaps.end();
    //      iSubDet != iterEnd; ++iSubDet) {
    for (auto const& iSubDet : SubDetMEsMap) {
      SubDetMEs subdet_mes = iSubDet.second;
      if (subdet_mes.totNClustersOnTrack > 0) {
        fillME(subdet_mes.nClustersOnTrack, subdet_mes.totNClustersOnTrack);
      }
      fillME(subdet_mes.nClustersOffTrack, subdet_mes.totNClustersOffTrack);
      fillME(subdet_mes.nClustersTrendOnTrack, iLumisection, subdet_mes.totNClustersOnTrack);
      fillME(subdet_mes.nClustersTrendOffTrack, iLumisection, subdet_mes.totNClustersOffTrack);
    }
  } else {
    for (auto const& iSubDet : SubDetMEsMap) {
      SubDetMEs subdet_mes = iSubDet.second;
      if (subdet_mes.totNClustersOnTrack > 0) {
        fillME(subdet_mes.nClustersOnTrack, subdet_mes.totNClustersOnTrack);
      }
      fillME(subdet_mes.nClustersOffTrack, subdet_mes.totNClustersOffTrack);
    }
  }
}
 
//------------------------------------------------------------------------
void SiStripMonitorTrack::book(DQMStore::IBooker& ibooker, const TrackerTopology* tTopo, const TkDetMap* tkDetMap) {
  SiStripFolderOrganizer folder_organizer;
  folder_organizer.setSiStripFolderName(topFolderName_);
  //******** TkHistoMaps
  if (TkHistoMap_On_) {
    tkhisto_StoNCorrOnTrack =
        std::make_unique<TkHistoMap>(tkDetMap, topFolderName_, "TkHMap_StoNCorrOnTrack", 0.0, true);
    tkhisto_NumOnTrack =
        std::make_unique<TkHistoMap>(tkDetMap, topFolderName_, "TkHMap_NumberOfOnTrackCluster", 0.0, true);
    tkhisto_NumOffTrack =
        std::make_unique<TkHistoMap>(tkDetMap, topFolderName_, "TkHMap_NumberOfOfffTrackCluster", 0.0, true);
    tkhisto_ClChPerCMfromTrack =
        std::make_unique<TkHistoMap>(tkDetMap, topFolderName_, "TkHMap_ChargePerCMfromTrack", 0.0, true);
    tkhisto_NumMissingHits =
        std::make_unique<TkHistoMap>(tkDetMap, topFolderName_, "TkHMap_NumberMissingHits", 0.0, true, true);
    tkhisto_NumberInactiveHits =
        std::make_unique<TkHistoMap>(tkDetMap, topFolderName_, "TkHMap_NumberInactiveHits", 0.0, true, true);
    tkhisto_NumberValidHits =
        std::make_unique<TkHistoMap>(tkDetMap, topFolderName_, "TkHMap_NumberValidHits", 0.0, true, true);
    tkhisto_NoiseOnTrack = std::make_unique<TkHistoMap>(tkDetMap, topFolderName_, "TkHMap_NoiseOnTrack", 0.0, true);
    tkhisto_NoiseOffTrack = std::make_unique<TkHistoMap>(tkDetMap, topFolderName_, "TkHMap_NoiseOffTrack", 0.0, true);
    tkhisto_ClusterWidthOnTrack =
        std::make_unique<TkHistoMap>(tkDetMap, topFolderName_, "TkHMap_ClusterWidthOnTrack", 0.0, true);
    tkhisto_ClusterWidthOffTrack =
        std::make_unique<TkHistoMap>(tkDetMap, topFolderName_, "TkHMap_ClusterWidthOffTrack", 0.0, true);
  }
  if (clchCMoriginTkHmap_On_)
    tkhisto_ClChPerCMfromOrigin =
        std::make_unique<TkHistoMap>(tkDetMap, topFolderName_, "TkHMap_ChargePerCMfromOrigin", 0.0, true);
  //******** TkHistoMaps
 
  std::vector<uint32_t> vdetId_;
  siStripDetCabling_->addActiveDetectorsRawIds(vdetId_);
  const char* tec = "TEC";
  const char* tid = "TID";
  //Histos for each detector, layer and module
  SiStripHistoId hidmanager;
 
  if (Mod_On_) {
    for (std::vector<uint32_t>::const_iterator detid_iter = vdetId_.begin(), detid_end = vdetId_.end();
         detid_iter != detid_end;
         ++detid_iter) {  //loop on all the active detid
      uint32_t detid = *detid_iter;
 
      if (detid < 1) {
        edm::LogError("SiStripMonitorTrack") << "[" << __PRETTY_FUNCTION__ << "] invalid detid " << detid << std::endl;
        continue;
      }
 
      //std::string name;
 
      // book Layer and RING plots
      std::pair<std::string, int32_t> det_layer_pair = folder_organizer.GetSubDetAndLayer(detid, tTopo, false);
      /*
      std::string thickness;
      std::pair<std::string,int32_t> det_layer_pair_test = folder_organizer.GetSubDetAndLayerThickness(detid,tTopo,thickness);
      std::cout << "[SiStripMonitorTrack::book] det_layer_pair " << det_layer_pair.first << " " << det_layer_pair.second << " " << thickness << std::endl;
      */
 
      std::string layer_id = hidmanager.getSubdetid(detid, tTopo, false);
 
      std::map<std::string, LayerMEs>::iterator iLayerME = LayerMEsMap.find(layer_id);
      if (iLayerME == LayerMEsMap.end()) {
        folder_organizer.setLayerFolder(detid, tTopo, det_layer_pair.second, false);
        bookLayerMEs(ibooker, detid, layer_id);
      }
 
      const char* subdet = det_layer_pair.first.c_str();
      if (std::strstr(subdet, tec) != nullptr || std::strstr(subdet, tid) != nullptr) {
        std::string ring_id = hidmanager.getSubdetid(detid, tTopo, true);
        std::map<std::string, RingMEs>::iterator iRingME = RingMEsMap.find(ring_id);
        if (iRingME == RingMEsMap.end()) {
          std::pair<std::string, int32_t> det_ring_pair = folder_organizer.GetSubDetAndLayer(detid, tTopo, true);
          folder_organizer.setLayerFolder(detid, tTopo, det_ring_pair.second, true);
          bookRingMEs(ibooker, detid, ring_id);
        }
      }
 
      // book sub-detector plots
      std::pair<std::string, std::string> sdet_pair = folder_organizer.getSubDetFolderAndTag(detid, tTopo);
      if (SubDetMEsMap.find(sdet_pair.second) == SubDetMEsMap.end()) {
        ibooker.setCurrentFolder(sdet_pair.first);
        bookSubDetMEs(ibooker, sdet_pair.second);
      }
      // book module plots
      folder_organizer.setDetectorFolder(detid, tTopo);
      bookModMEs(ibooker, *detid_iter);
    }  //end loop on detectors detid
  } else {
    for (std::vector<uint32_t>::const_iterator detid_iter = vdetId_.begin(), detid_end = vdetId_.end();
         detid_iter != detid_end;
         ++detid_iter) {  //loop on all the active detid
      uint32_t detid = *detid_iter;
 
      if (detid < 1) {
        edm::LogError("SiStripMonitorTrack") << "[" << __PRETTY_FUNCTION__ << "] invalid detid " << detid << std::endl;
        continue;
      }
 
      //std::string name;
 
      // book Layer and RING plots
      std::pair<std::string, int32_t> det_layer_pair = folder_organizer.GetSubDetAndLayer(detid, tTopo, false);
      /*
      std::string thickness;
      std::pair<std::string,int32_t> det_layer_pair_test = folder_organizer.GetSubDetAndLayerThickness(detid,tTopo,thickness);
      std::cout << "[SiStripMonitorTrack::book] det_layer_pair " << det_layer_pair.first << " " << det_layer_pair.second << " " << thickness << std::endl;
      */
 
      std::string layer_id = hidmanager.getSubdetid(detid, tTopo, false);
 
      std::map<std::string, LayerMEs>::iterator iLayerME = LayerMEsMap.find(layer_id);
      if (iLayerME == LayerMEsMap.end()) {
        folder_organizer.setLayerFolder(detid, tTopo, det_layer_pair.second, false);
        bookLayerMEs(ibooker, detid, layer_id);
      }
 
      const char* subdet = det_layer_pair.first.c_str();
      if (std::strstr(subdet, tec) != nullptr || std::strstr(subdet, tid) != nullptr) {
        std::string ring_id = hidmanager.getSubdetid(detid, tTopo, true);
        std::map<std::string, RingMEs>::iterator iRingME = RingMEsMap.find(ring_id);
        if (iRingME == RingMEsMap.end()) {
          std::pair<std::string, int32_t> det_ring_pair = folder_organizer.GetSubDetAndLayer(detid, tTopo, true);
          folder_organizer.setLayerFolder(detid, tTopo, det_ring_pair.second, true);
          bookRingMEs(ibooker, detid, ring_id);
        }
      }
 
      // book sub-detector plots
      std::pair<std::string, std::string> sdet_pair = folder_organizer.getSubDetFolderAndTag(detid, tTopo);
      if (SubDetMEsMap.find(sdet_pair.second) == SubDetMEsMap.end()) {
        ibooker.setCurrentFolder(sdet_pair.first);
        bookSubDetMEs(ibooker, sdet_pair.second);
      }
    }  //end loop on detectors detid
  }
 
  //book control view plots
  if (!(topFolderName_.find("IsolatedBunches") != std::string::npos)) {
    ibooker.setCurrentFolder(topFolderName_ + "/ControlView/");
 
    ClusterStoNCorr_OnTrack_TIBTID =
        ibooker.book1D("ClusterStoNCorr_OnTrack_TIBTID", "TIB/TID [FECCrate=1] (OnTrack)", 100, 0., 100.);
    ClusterStoNCorr_OnTrack_TIBTID->setAxisTitle("S/N", 1);
 
    ClusterStoNCorr_OnTrack_TOB =
        ibooker.book1D("ClusterStoNCorr_OnTrack_TOB", "TOB [FECCrate=4] (OnTrack)", 100, 0., 100.);
    ClusterStoNCorr_OnTrack_TOB->setAxisTitle("S/N", 1);
 
    ClusterStoNCorr_OnTrack_TECM =
        ibooker.book1D("ClusterStoNCorr_OnTrack_TECM", "TECM [FECCrate=3] (OnTrack)", 100, 0., 100.);
    ClusterStoNCorr_OnTrack_TECM->setAxisTitle("S/N", 1);
 
    ClusterStoNCorr_OnTrack_TECP =
        ibooker.book1D("ClusterStoNCorr_OnTrack_TECP", "TECP [FECCrate=2] (OnTrack)", 100, 0., 100.);
    ClusterStoNCorr_OnTrack_TECP->setAxisTitle("S/N", 1);
 
    ClusterStoNCorr_OnTrack_FECCratevsFECSlot =
        ibooker.book2D("ClusterStoNCorr_OnTrack_FECCratevsFECSlot", " S/N (On track)", 22, 0.5, 22.5, 4, 0.5, 4.5);
    ClusterStoNCorr_OnTrack_FECCratevsFECSlot->setAxisTitle("FEC Slot", 1);
    ClusterStoNCorr_OnTrack_FECCratevsFECSlot->setAxisTitle("FEC Crate (TTC partition)", 2);
    ClusterStoNCorr_OnTrack_FECCratevsFECSlot->setBinLabel(1, "TIB/TID", 2);
    ClusterStoNCorr_OnTrack_FECCratevsFECSlot->setBinLabel(2, "TEC+", 2);
    ClusterStoNCorr_OnTrack_FECCratevsFECSlot->setBinLabel(3, "TEC-", 2);
    ClusterStoNCorr_OnTrack_FECCratevsFECSlot->setBinLabel(4, "TOB", 2);
 
    ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TIBTID = ibooker.book2D("ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TIBTID",
                                                                     "TIB/TID [FECCrate=1] (OnTrack)",
                                                                     10,
                                                                     -0.5,
                                                                     9.5,
                                                                     22,
                                                                     0.5,
                                                                     22.5);
    ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TIBTID->setAxisTitle("FEC Ring", 1);
    ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TIBTID->setAxisTitle("FEC Slot", 2);
 
    ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TOB = ibooker.book2D(
        "ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TOB", "TOB [FECCrate=4] (OnTrack)", 10, -0.5, 9.5, 22, 0.5, 22.5);
    ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TOB->setAxisTitle("FEC Ring", 1);
    ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TOB->setAxisTitle("FEC Slot", 2);
 
    ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TECM = ibooker.book2D(
        "ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TECM", "TEC- [FECCrate=3] (OnTrack)", 10, -0.5, 9.5, 22, 0.5, 22.5);
    ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TECM->setAxisTitle("FEC Ring", 1);
    ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TECM->setAxisTitle("FEC Slot", 2);
 
    ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TECP = ibooker.book2D(
        "ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TECP", "TEC- [FECCrate=2] (OnTrack)", 10, -0.5, 9.5, 22, 0.5, 22.5);
    ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TECP->setAxisTitle("FEC Ring", 1);
    ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TECP->setAxisTitle("FEC Slot", 2);
 
    //----------------------------------------
    // for conting the number of clusters, for the mean S/N calculation
    //book control view plots
 
    ClusterCount_OnTrack_FECCratevsFECSlot =
        ibooker.book2D("ClusterCount_OnTrack_FECCratevsFECSlot", " S/N (On track)", 22, 0.5, 22.5, 4, 0.5, 4.5);
    ClusterCount_OnTrack_FECCratevsFECSlot->setAxisTitle("FEC Slot", 1);
    ClusterCount_OnTrack_FECCratevsFECSlot->setAxisTitle("FEC Crate (TTC partition)", 2);
    ClusterCount_OnTrack_FECCratevsFECSlot->setBinLabel(1, "TIB/TID", 2);
    ClusterCount_OnTrack_FECCratevsFECSlot->setBinLabel(2, "TEC+", 2);
    ClusterCount_OnTrack_FECCratevsFECSlot->setBinLabel(3, "TEC-", 2);
    ClusterCount_OnTrack_FECCratevsFECSlot->setBinLabel(4, "TOB", 2);
 
    ClusterCount_OnTrack_FECSlotVsFECRing_TIBTID = ibooker.book2D(
        "ClusterCount_OnTrack_FECSlotVsFECRing_TIBTID", "TIB/TID [FECCrate=1] (OnTrack)", 10, -0.5, 9.5, 22, 0.5, 22.5);
    ClusterCount_OnTrack_FECSlotVsFECRing_TIBTID->setAxisTitle("FEC Ring", 1);
    ClusterCount_OnTrack_FECSlotVsFECRing_TIBTID->setAxisTitle("FEC Slot", 2);
 
    ClusterCount_OnTrack_FECSlotVsFECRing_TOB = ibooker.book2D(
        "ClusterCount_OnTrack_FECSlotVsFECRing_TOB", "TOB [FECCrate=4] (OnTrack)", 10, -0.5, 9.5, 22, 0.5, 22.5);
    ClusterCount_OnTrack_FECSlotVsFECRing_TOB->setAxisTitle("FEC Ring", 1);
    ClusterCount_OnTrack_FECSlotVsFECRing_TOB->setAxisTitle("FEC Slot", 2);
 
    ClusterCount_OnTrack_FECSlotVsFECRing_TECM = ibooker.book2D(
        "ClusterCount_OnTrack_FECSlotVsFECRing_TECM", "TEC- [FECCrate=3] (OnTrack)", 10, -0.5, 9.5, 22, 0.5, 22.5);
    ClusterCount_OnTrack_FECSlotVsFECRing_TECM->setAxisTitle("FEC Ring", 1);
    ClusterCount_OnTrack_FECSlotVsFECRing_TECM->setAxisTitle("FEC Slot", 2);
 
    ClusterCount_OnTrack_FECSlotVsFECRing_TECP = ibooker.book2D(
        "ClusterCount_OnTrack_FECSlotVsFECRing_TECP", "TEC- [FECCrate=2] (OnTrack)", 10, -0.5, 9.5, 22, 0.5, 22.5);
    ClusterCount_OnTrack_FECSlotVsFECRing_TECP->setAxisTitle("FEC Ring", 1);
    ClusterCount_OnTrack_FECSlotVsFECRing_TECP->setAxisTitle("FEC Slot", 2);
  }
}
 
//--------------------------------------------------------------------------------
void SiStripMonitorTrack::bookModMEs(DQMStore::IBooker& ibooker, const uint32_t id)  //Histograms at MODULE level
{
  std::string name = "det";
  SiStripHistoId hidmanager;
  std::string hid = hidmanager.createHistoId("", name, id);
  std::map<std::string, ModMEs>::iterator iModME = ModMEsMap.find(hid);
  if (iModME == ModMEsMap.end()) {
    ModMEs theModMEs;
 
    // Cluster Width
    theModMEs.ClusterWidth =
        bookME1D(ibooker, "TH1ClusterWidth", hidmanager.createHistoId("ClusterWidth_OnTrack", name, id).c_str());
    // Cluster Gain
    theModMEs.ClusterGain =
        bookME1D(ibooker, "TH1ClusterGain", hidmanager.createHistoId("ClusterGain", name, id).c_str());
    // Cluster Charge
    theModMEs.ClusterCharge =
        bookME1D(ibooker, "TH1ClusterCharge", hidmanager.createHistoId("ClusterCharge_OnTrack", name, id).c_str());
    // Cluster Charge Raw (no gain )
    theModMEs.ClusterChargeRaw = bookME1D(
        ibooker, "TH1ClusterChargeRaw", hidmanager.createHistoId("ClusterChargeRaw_OnTrack", name, id).c_str());
    // Cluster Charge Corrected
    theModMEs.ClusterChargeCorr = bookME1D(
        ibooker, "TH1ClusterChargeCorr", hidmanager.createHistoId("ClusterChargeCorr_OnTrack", name, id).c_str());
    // Cluster StoN Corrected
    theModMEs.ClusterStoNCorr = bookME1D(
        ibooker, "TH1ClusterStoNCorrMod", hidmanager.createHistoId("ClusterStoNCorr_OnTrack", name, id).c_str());
    // Cluster Position
    short total_nr_strips = siStripDetCabling_->nApvPairs(id) * 2 * 128;
    theModMEs.ClusterPos = ibooker.book1D(hidmanager.createHistoId("ClusterPosition_OnTrack", name, id).c_str(),
                                          hidmanager.createHistoId("ClusterPosition_OnTrack", name, id).c_str(),
                                          total_nr_strips,
                                          0.5,
                                          total_nr_strips + 0.5);
    // Cluster PGV
    theModMEs.ClusterPGV =
        bookMEProfile(ibooker, "TProfileClusterPGV", hidmanager.createHistoId("PGV_OnTrack", name, id).c_str());
    // Cluster Charge per cm
    theModMEs.ClusterChargePerCMfromTrack = bookME1D(
        ibooker, "TH1ClusterChargePerCM", hidmanager.createHistoId("ClusterChargePerCMfromTrack", name, id).c_str());
 
    theModMEs.ClusterChargePerCMfromOrigin = bookME1D(
        ibooker, "TH1ClusterChargePerCM", hidmanager.createHistoId("ClusterChargePerCMfromOrigin", name, id).c_str());
 
    ModMEsMap[hid] = theModMEs;
  }
}
 
SiStripMonitorTrack::MonitorElement* SiStripMonitorTrack::handleBookMEs(DQMStore::IBooker& ibooker,
                                                                        std::string& viewParameter,
                                                                        std::string& id,
                                                                        std::string& histoParameters,
                                                                        std::string& histoName) {
  MonitorElement* me = nullptr;
  bool view = false;
  view = (conf_.getParameter<edm::ParameterSet>(histoParameters.c_str())).getParameter<bool>(viewParameter.c_str());
  if (id.find("TEC") == std::string::npos && id.find("TID") == std::string::npos) {
    me = bookME1D(ibooker, histoParameters.c_str(), histoName.c_str());
  } else {
    if (view) {
      //      histoName = histoName + "__" + thickness;
      me = bookME1D(ibooker, histoParameters.c_str(), histoName.c_str());
    }
  }
  return me;
}
 
//
// -- Book Layer Level Histograms and Trend plots
//
//------------------------------------------------------------------------
void SiStripMonitorTrack::bookLayerMEs(DQMStore::IBooker& ibooker, const uint32_t mod_id, std::string& layer_id) {
  std::string name = "layer";
  std::string view = "layerView";
  std::string hname;
  std::string hpar;
  SiStripHistoId hidmanager;
 
  LayerMEs theLayerMEs;
 
  // Signal/Noise (w/ cluster harge corrected)
  hname = hidmanager.createHistoLayer("Summary_ClusterStoNCorr", name, layer_id, "OnTrack");
  hpar = "TH1ClusterStoNCorr";
  theLayerMEs.ClusterStoNCorrOnTrack = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  // Cluster Gain
  hname = hidmanager.createHistoLayer("Summary_ClusterGain", name, layer_id, "");
  hpar = "TH1ClusterGain";
  theLayerMEs.ClusterGain = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  // Cluster Charge Corrected
  hname = hidmanager.createHistoLayer("Summary_ClusterChargeCorr", name, layer_id, "OnTrack");
  hpar = "TH1ClusterChargeCorr";
  theLayerMEs.ClusterChargeCorrOnTrack = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  // Cluster Charge (On and Off Track)
  hname = hidmanager.createHistoLayer("Summary_ClusterCharge", name, layer_id, "OnTrack");
  hpar = "TH1ClusterCharge";
  theLayerMEs.ClusterChargeOnTrack = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterCharge", name, layer_id, "OffTrack");
  hpar = "TH1ClusterCharge";
  theLayerMEs.ClusterChargeOffTrack = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  // Cluster Charge Raw (On and Off Track)
  hname = hidmanager.createHistoLayer("Summary_ClusterChargeRaw", name, layer_id, "OnTrack");
  hpar = "TH1ClusterChargeRaw";
  theLayerMEs.ClusterChargeRawOnTrack = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterChargeRaw", name, layer_id, "OffTrack");
  hpar = "TH1ClusterChargeRaw";
  theLayerMEs.ClusterChargeRawOffTrack = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  // Cluster Noise (On and Off Track)
  hname = hidmanager.createHistoLayer("Summary_ClusterNoise", name, layer_id, "OnTrack");
  hpar = "TH1ClusterNoise";
  theLayerMEs.ClusterNoiseOnTrack = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterNoise", name, layer_id, "OffTrack");
  hpar = "TH1ClusterNoise";
  theLayerMEs.ClusterNoiseOffTrack = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  // Cluster Width (On and Off Track)
  hname = hidmanager.createHistoLayer("Summary_ClusterWidth", name, layer_id, "OnTrack");
  hpar = "TH1ClusterWidth";
  theLayerMEs.ClusterWidthOnTrack = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterWidth", name, layer_id, "OffTrack");
  hpar = "TH1ClusterWidth";
  theLayerMEs.ClusterWidthOffTrack = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  //Cluster Position
  short total_nr_strips = siStripDetCabling_->nApvPairs(mod_id) * 2 * 128;
  if (layer_id.find("TEC") != std::string::npos)
    total_nr_strips = 3 * 2 * 128;
 
  hname = hidmanager.createHistoLayer("Summary_ClusterPosition", name, layer_id, "OnTrack");
  hpar = "TH1ClusterPos";
  if (layer_id.find("TIB") != std::string::npos || layer_id.find("TOB") != std::string::npos ||
      (conf_.getParameter<edm::ParameterSet>(hpar.c_str())).getParameter<bool>(view.c_str()))
    theLayerMEs.ClusterPosOnTrack = ibooker.book1D(hname, hname, total_nr_strips, 0.5, total_nr_strips + 0.5);
 
  //----------------------
  //add 2D z-phi map per layer
  hname = hidmanager.createHistoLayer("Summary_ClusterPosition2D", name, layer_id, "OnTrack");
  hpar = "TH2ClusterPosTOB";
  if (layer_id.find("TOB") != std::string::npos)
    theLayerMEs.ClusterPosOnTrack2D = ibooker.book2D(hname, hname, 12, -110, 110, 300, -3.2, 3.2);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterPosition2D", name, layer_id, "OnTrack");
  hpar = "TH2ClusterPosTIB";
  if (layer_id.find("TIB") != std::string::npos)
    theLayerMEs.ClusterPosOnTrack2D = ibooker.book2D(hname, hname, 12, -65, 65, 450, -3.2, 3.2);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterPosition2D", name, layer_id, "OnTrack");
  hpar = "TH2ClusterPosTEC";
  if (layer_id.find("TEC") != std::string::npos) {
    static constexpr int nbinR = 8;
    static constexpr float rval[9] = {0, 21.2, 30.8, 40.4, 50.0, 60.0, 75.0, 90.0, 110.0};
    static constexpr int nmodulesPhi = 40 * 6;  //max number of APV  for a ring
    float phival[nmodulesPhi];
    for (int i = 0; i < nmodulesPhi; i++)
      phival[i] = -3.2 + 2 * i * 3.2 / nmodulesPhi;
 
    TH2F* temp = new TH2F("tmp", "tmp", nbinR, rval, nmodulesPhi - 1, phival);
    theLayerMEs.ClusterPosOnTrack2D = ibooker.book2D(hname, temp);
  }
 
  hname = hidmanager.createHistoLayer("Summary_ClusterPosition2D", name, layer_id, "OnTrack");
  hpar = "TH2ClusterPosTID";
  if (layer_id.find("TID") != std::string::npos) {
    static constexpr int nbinR = 4;
    static constexpr float rval[5] = {0, 21.2, 30.8, 40.4, 50.0};
    static constexpr int nmodulesPhi = 80 * 4;  //max number of APV  for a ring
    float phival[nmodulesPhi];
    for (int i = 0; i < nmodulesPhi; i++)
      phival[i] = -3.2 + i * 2 * 3.2 / nmodulesPhi;
 
    TH2F* temp = new TH2F("tmp", "tmp", nbinR, rval, nmodulesPhi - 1, phival);
    theLayerMEs.ClusterPosOnTrack2D = ibooker.book2D(hname, temp);
  }
 
  hname = hidmanager.createHistoLayer("Summary_ClusterPosition", name, layer_id, "OffTrack");
  hpar = "TH1ClusterPos";
  if (layer_id.find("TIB") != std::string::npos || layer_id.find("TOB") != std::string::npos ||
      (conf_.getParameter<edm::ParameterSet>(hpar.c_str())).getParameter<bool>(view.c_str()))
    theLayerMEs.ClusterPosOffTrack = ibooker.book1D(hname, hname, total_nr_strips, 0.5, total_nr_strips + 0.5);
 
  // dQ/dx
  hname = hidmanager.createHistoLayer("Summary_ClusterChargePerCMfromTrack", name, layer_id, "");
  hpar = "TH1ClusterChargePerCM";
  theLayerMEs.ClusterChargePerCMfromTrack = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterChargePerCMfromOrigin", name, layer_id, "OnTrack");
  hpar = "TH1ClusterChargePerCM";
  theLayerMEs.ClusterChargePerCMfromOriginOnTrack = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterChargePerCMfromOrigin", name, layer_id, "OffTrack");
  hpar = "TH1ClusterChargePerCM";
  theLayerMEs.ClusterChargePerCMfromOriginOffTrack = handleBookMEs(ibooker, view, layer_id, hpar, hname);
 
  //bookeeping
  LayerMEsMap[layer_id] = theLayerMEs;
}
 
void SiStripMonitorTrack::bookRingMEs(DQMStore::IBooker& ibooker, const uint32_t mod_id, std::string& ring_id) {
  std::string name = "ring";
  std::string view = "ringView";
  std::string hname;
  std::string hpar;
  SiStripHistoId hidmanager;
 
  RingMEs theRingMEs;
 
  hname = hidmanager.createHistoLayer("Summary_ClusterStoNCorr", name, ring_id, "OnTrack");
  hpar = "TH1ClusterStoNCorr";
  theRingMEs.ClusterStoNCorrOnTrack = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  // Cluster Gain
  hname = hidmanager.createHistoLayer("Summary_ClusterGain", name, ring_id, "");
  hpar = "TH1ClusterGain";
  theRingMEs.ClusterGain = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  // Cluster Charge Corrected
  hname = hidmanager.createHistoLayer("Summary_ClusterChargeCorr", name, ring_id, "OnTrack");
  hpar = "TH1ClusterChargeCorr";
  theRingMEs.ClusterChargeCorrOnTrack = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  // Cluster Charge (On and Off Track)
  hname = hidmanager.createHistoLayer("Summary_ClusterCharge", name, ring_id, "OnTrack");
  hpar = "TH1ClusterCharge";
  theRingMEs.ClusterChargeOnTrack = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterCharge", name, ring_id, "OffTrack");
  hpar = "TH1ClusterCharge";
  theRingMEs.ClusterChargeOffTrack = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  // Cluster Charge Raw (no-gain), On and off track
  hname = hidmanager.createHistoLayer("Summary_ClusterChargeRaw", name, ring_id, "OnTrack");
  hpar = "TH1ClusterChargeRaw";
  theRingMEs.ClusterChargeRawOnTrack = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterChargeRaw", name, ring_id, "OffTrack");
  hpar = "TH1ClusterChargeRaw";
  theRingMEs.ClusterChargeRawOffTrack = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  // Cluster Noise (On and Off Track)
  hname = hidmanager.createHistoLayer("Summary_ClusterNoise", name, ring_id, "OnTrack");
  hpar = "TH1ClusterNoise";
  theRingMEs.ClusterNoiseOnTrack = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterNoise", name, ring_id, "OffTrack");
  hpar = "TH1ClusterNoise";
  theRingMEs.ClusterNoiseOffTrack = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  // Cluster Width (On and Off Track)
  hname = hidmanager.createHistoLayer("Summary_ClusterWidth", name, ring_id, "OnTrack");
  hpar = "TH1ClusterWidth";
  theRingMEs.ClusterWidthOnTrack = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterWidth", name, ring_id, "OffTrack");
  hpar = "TH1ClusterWidth";
  theRingMEs.ClusterWidthOffTrack = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  //Cluster Position
  short total_nr_strips = siStripDetCabling_->nApvPairs(mod_id) * 2 * 128;
  if (ring_id.find("TEC") != std::string::npos)
    total_nr_strips = 3 * 2 * 128;
 
  hname = hidmanager.createHistoLayer("Summary_ClusterPosition", name, ring_id, "OnTrack");
  hpar = "TH1ClusterPos";
  if ((conf_.getParameter<edm::ParameterSet>(hpar.c_str())).getParameter<bool>(view.c_str()))
    theRingMEs.ClusterPosOnTrack = ibooker.book1D(hname, hname, total_nr_strips, 0.5, total_nr_strips + 0.5);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterPosition", name, ring_id, "OffTrack");
  hpar = "TH1ClusterPos";
  if ((conf_.getParameter<edm::ParameterSet>(hpar.c_str())).getParameter<bool>(view.c_str()))
    theRingMEs.ClusterPosOffTrack = ibooker.book1D(hname, hname, total_nr_strips, 0.5, total_nr_strips + 0.5);
 
  // dQ/dx
  hname = hidmanager.createHistoLayer("Summary_ClusterChargePerCMfromTrack", name, ring_id, "");
  hpar = "TH1ClusterChargePerCM";
  theRingMEs.ClusterChargePerCMfromTrack = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterChargePerCMfromOrigin", name, ring_id, "OnTrack");
  hpar = "TH1ClusterChargePerCM";
  theRingMEs.ClusterChargePerCMfromOriginOnTrack = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  hname = hidmanager.createHistoLayer("Summary_ClusterChargePerCMfromOrigin", name, ring_id, "OffTrack");
  hpar = "TH1ClusterChargePerCM";
  theRingMEs.ClusterChargePerCMfromOriginOffTrack = handleBookMEs(ibooker, view, ring_id, hpar, hname);
 
  //bookeeping
  RingMEsMap[ring_id] = theRingMEs;
}
//------------------------------------------------------------------------
//
// -- Book Histograms at Sub-Detector Level
//
void SiStripMonitorTrack::bookSubDetMEs(DQMStore::IBooker& ibooker, std::string& name) {
  std::string subdet_tag;
  subdet_tag = "__" + name;
  std::string completeName;
  std::string axisName;
 
  SubDetMEs theSubDetMEs;
 
  // TotalNumber of Cluster OnTrack
  completeName = "Summary_TotalNumberOfClusters_OnTrack" + subdet_tag;
  axisName = "Number of on-track clusters in " + name;
  theSubDetMEs.nClustersOnTrack = bookME1D(ibooker, "TH1nClustersOn", completeName.c_str());
  theSubDetMEs.nClustersOnTrack->setAxisTitle(axisName);
  theSubDetMEs.nClustersOnTrack->setStatOverflows(kTRUE);
 
  // TotalNumber of Cluster OffTrack
  completeName = "Summary_TotalNumberOfClusters_OffTrack" + subdet_tag;
  axisName = "Number of off-track clusters in " + name;
  theSubDetMEs.nClustersOffTrack = bookME1D(ibooker, "TH1nClustersOff", completeName.c_str());
  theSubDetMEs.nClustersOffTrack->setAxisTitle(axisName);
 
  double xmaximum = 0;
  if (name.find("TIB") != std::string::npos) {
    xmaximum = 40000.0;
    theSubDetMEs.nClustersOffTrack->setAxisRange(0.0, xmaximum, 1);
  }
  if (name.find("TOB") != std::string::npos) {
    xmaximum = 40000.0;
    theSubDetMEs.nClustersOffTrack->setAxisRange(0.0, xmaximum, 1);
  }
  if (name.find("TID") != std::string::npos) {
    xmaximum = 10000.0;
    theSubDetMEs.nClustersOffTrack->setAxisRange(0.0, xmaximum, 1);
  }
  if (name.find("TEC") != std::string::npos) {
    xmaximum = 40000.0;
    theSubDetMEs.nClustersOffTrack->setAxisRange(0.0, xmaximum, 1);
  }
 
  theSubDetMEs.nClustersOffTrack->setStatOverflows(kTRUE);
 
  // Cluster Gain
  completeName = "Summary_ClusterGain" + subdet_tag;
  theSubDetMEs.ClusterGain = bookME1D(ibooker, "TH1ClusterGain", completeName.c_str());
 
  // Cluster StoN On Track
  completeName = "Summary_ClusterStoNCorr_OnTrack" + subdet_tag;
  theSubDetMEs.ClusterStoNCorrOnTrack = bookME1D(ibooker, "TH1ClusterStoNCorr", completeName.c_str());
 
  completeName = "Summary_ClusterStoNCorrThin_OnTrack" + subdet_tag;
  if (subdet_tag.find("TEC") != std::string::npos)
    theSubDetMEs.ClusterStoNCorrThinOnTrack = bookME1D(ibooker, "TH1ClusterStoNCorr", completeName.c_str());
 
  completeName = "Summary_ClusterStoNCorrThick_OnTrack" + subdet_tag;
  if (subdet_tag.find("TEC") != std::string::npos)
    theSubDetMEs.ClusterStoNCorrThickOnTrack = bookME1D(ibooker, "TH1ClusterStoNCorr", completeName.c_str());
 
  // Cluster Charge Corrected
  completeName = "Summary_ClusterChargeCorr_OnTrack" + subdet_tag;
  theSubDetMEs.ClusterChargeCorrOnTrack = bookME1D(ibooker, "TH1ClusterChargeCorr", completeName.c_str());
 
  completeName = "Summary_ClusterChargeCorrThin_OnTrack" + subdet_tag;
  if (subdet_tag.find("TEC") != std::string::npos)
    theSubDetMEs.ClusterChargeCorrThinOnTrack = bookME1D(ibooker, "TH1ClusterChargeCorr", completeName.c_str());
 
  completeName = "Summary_ClusterChargeCorrThick_OnTrack" + subdet_tag;
  if (subdet_tag.find("TEC") != std::string::npos)
    theSubDetMEs.ClusterChargeCorrThickOnTrack = bookME1D(ibooker, "TH1ClusterChargeCorr", completeName.c_str());
 
  // Cluster Charge On Track
  completeName = "Summary_ClusterCharge_OnTrack" + subdet_tag;
  theSubDetMEs.ClusterChargeOnTrack = bookME1D(ibooker, "TH1ClusterCharge", completeName.c_str());
 
  // Cluster Charge On Track, Raw (no-gain)
  completeName = "Summary_ClusterChargeRaw_OnTrack" + subdet_tag;
  theSubDetMEs.ClusterChargeRawOnTrack = bookME1D(ibooker, "TH1ClusterChargeRaw", completeName.c_str());
 
  // Cluster Charge Off Track
  completeName = "Summary_ClusterCharge_OffTrack" + subdet_tag;
  theSubDetMEs.ClusterChargeOffTrack = bookME1D(ibooker, "TH1ClusterCharge", completeName.c_str());
 
  // Cluster Charge Off Track, Raw (no-gain)
  completeName = "Summary_ClusterChargeRaw_OffTrack" + subdet_tag;
  theSubDetMEs.ClusterChargeRawOffTrack = bookME1D(ibooker, "TH1ClusterChargeRaw", completeName.c_str());
 
  // Cluster Charge StoN Off Track
  completeName = "Summary_ClusterStoN_OffTrack" + subdet_tag;
  theSubDetMEs.ClusterStoNOffTrack = bookME1D(ibooker, "TH1ClusterStoN", completeName.c_str());
 
  // cluster charge per cm on track
  completeName = "Summary_ClusterChargePerCMfromTrack" + subdet_tag;
  theSubDetMEs.ClusterChargePerCMfromTrack = bookME1D(ibooker, "TH1ClusterChargePerCM", completeName.c_str());
 
  // cluster charge per cm on track
  completeName = "Summary_ClusterChargePerCMfromOrigin_OnTrack" + subdet_tag;
  theSubDetMEs.ClusterChargePerCMfromOriginOnTrack = bookME1D(ibooker, "TH1ClusterChargePerCM", completeName.c_str());
 
  // cluster charge per cm off track
  completeName = "Summary_ClusterChargePerCMfromOrigin_OffTrack" + subdet_tag;
  theSubDetMEs.ClusterChargePerCMfromOriginOffTrack = bookME1D(ibooker, "TH1ClusterChargePerCM", completeName.c_str());
 
  if (Trend_On_) {
    // TotalNumber of Cluster
    completeName = "Trend_TotalNumberOfClusters_OnTrack" + subdet_tag;
    theSubDetMEs.nClustersTrendOnTrack = bookMETrend(ibooker, completeName.c_str());
    completeName = "Trend_TotalNumberOfClusters_OffTrack" + subdet_tag;
    theSubDetMEs.nClustersTrendOffTrack = bookMETrend(ibooker, completeName.c_str());
  }
 
  //bookeeping
  SubDetMEsMap[name] = theSubDetMEs;
}
//--------------------------------------------------------------------------------
 
SiStripMonitorTrack::MonitorElement* SiStripMonitorTrack::bookME1D(DQMStore::IBooker& ibooker,
                                                                   const char* ParameterSetLabel,
                                                                   const char* HistoName) {
  Parameters = conf_.getParameter<edm::ParameterSet>(ParameterSetLabel);
  return ibooker.book1D(HistoName,
                        HistoName,
                        Parameters.getParameter<int32_t>("Nbinx"),
                        Parameters.getParameter<double>("xmin"),
                        Parameters.getParameter<double>("xmax"));
}
 
//--------------------------------------------------------------------------------
SiStripMonitorTrack::MonitorElement* SiStripMonitorTrack::bookME2D(DQMStore::IBooker& ibooker,
                                                                   const char* ParameterSetLabel,
                                                                   const char* HistoName) {
  Parameters = conf_.getParameter<edm::ParameterSet>(ParameterSetLabel);
  return ibooker.book2D(HistoName,
                        HistoName,
                        Parameters.getParameter<int32_t>("Nbinx"),
                        Parameters.getParameter<double>("xmin"),
                        Parameters.getParameter<double>("xmax"),
                        Parameters.getParameter<int32_t>("Nbiny"),
                        Parameters.getParameter<double>("ymin"),
                        Parameters.getParameter<double>("ymax"));
}
 
//--------------------------------------------------------------------------------
SiStripMonitorTrack::MonitorElement* SiStripMonitorTrack::bookME3D(DQMStore::IBooker& ibooker,
                                                                   const char* ParameterSetLabel,
                                                                   const char* HistoName) {
  Parameters = conf_.getParameter<edm::ParameterSet>(ParameterSetLabel);
  return ibooker.book3D(HistoName,
                        HistoName,
                        Parameters.getParameter<int32_t>("Nbinx"),
                        Parameters.getParameter<double>("xmin"),
                        Parameters.getParameter<double>("xmax"),
                        Parameters.getParameter<int32_t>("Nbiny"),
                        Parameters.getParameter<double>("ymin"),
                        Parameters.getParameter<double>("ymax"),
                        Parameters.getParameter<int32_t>("Nbinz"),
                        Parameters.getParameter<double>("zmin"),
                        Parameters.getParameter<double>("zmax"));
}
 
//--------------------------------------------------------------------------------
SiStripMonitorTrack::MonitorElement* SiStripMonitorTrack::bookMEProfile(DQMStore::IBooker& ibooker,
                                                                        const char* ParameterSetLabel,
                                                                        const char* HistoName) {
  Parameters = conf_.getParameter<edm::ParameterSet>(ParameterSetLabel);
  return ibooker.bookProfile(HistoName,
                             HistoName,
                             Parameters.getParameter<int32_t>("Nbinx"),
                             Parameters.getParameter<double>("xmin"),
                             Parameters.getParameter<double>("xmax"),
                             Parameters.getParameter<int32_t>("Nbiny"),
                             Parameters.getParameter<double>("ymin"),
                             Parameters.getParameter<double>("ymax"),
                             "");
}
 
//--------------------------------------------------------------------------------
SiStripMonitorTrack::MonitorElement* SiStripMonitorTrack::bookMETrend(DQMStore::IBooker& ibooker,
                                                                      const char* HistoName) {
  edm::ParameterSet ParametersTrend = conf_.getParameter<edm::ParameterSet>("Trending");
  MonitorElement* me = ibooker.bookProfile(HistoName,
                                           HistoName,
                                           ParametersTrend.getParameter<int32_t>("Nbins"),
                                           ParametersTrend.getParameter<double>("xmin"),
                                           ParametersTrend.getParameter<double>("xmax"),
                                           0,
                                           0,
                                           "");
  if (me->kind() == MonitorElement::Kind::TPROFILE)
    me->setCanExtend(TH1::kAllAxes);
 
  if (!me)
    return me;
  me->setAxisTitle("Lumisection", 1);
  return me;
}
 
//------------------------------------------------------------------------------------------
void SiStripMonitorTrack::trajectoryStudy(const reco::Track& track,
                                          const edm::DetSetVector<SiStripDigi>& digilist,
                                          const edm::Event& ev,
                                          bool track_ok) {
  auto const& trajParams = track.extra()->trajParams();
  assert(trajParams.size() == track.recHitsSize());
  auto hb = track.recHitsBegin();
  for (unsigned int h = 0; h < track.recHitsSize(); h++) {
    auto ttrh = *(hb + h);
 
    if (TkHistoMap_On_) {
      uint32_t thedetid = ttrh->rawId();
      if (SiStripDetId(thedetid).subDetector() >= 3 &&
          SiStripDetId(thedetid).subDetector() <= 6) {  //TIB/TID + TOB + TEC only
        if ((ttrh->getType() == 1))
          tkhisto_NumMissingHits->fill(thedetid, 1.);
        if ((ttrh->getType() == 2))
          tkhisto_NumberInactiveHits->fill(thedetid, 1.);
        if ((ttrh->getType() == 0))
          tkhisto_NumberValidHits->fill(thedetid, 1.);
      }
    }
 
    if (!ttrh->isValid())
      continue;
 
    //trajectory local direction and position on detector
    auto statedirection = trajParams[h].momentum();
 
    const ProjectedSiStripRecHit2D* projhit = dynamic_cast<const ProjectedSiStripRecHit2D*>(ttrh->hit());
    const SiStripMatchedRecHit2D* matchedhit = dynamic_cast<const SiStripMatchedRecHit2D*>(ttrh->hit());
    const SiStripRecHit2D* hit2D = dynamic_cast<const SiStripRecHit2D*>(ttrh->hit());
    const SiStripRecHit1D* hit1D = dynamic_cast<const SiStripRecHit1D*>(ttrh->hit());
 
    //      RecHitType type=Single;
 
    if (matchedhit) {
      LogTrace("SiStripMonitorTrack") << "\nMatched recHit found" << std::endl;
      //    type=Matched;
 
      const GluedGeomDet* gdet = static_cast<const GluedGeomDet*>(tkgeom_->idToDet(matchedhit->geographicalId()));
      GlobalVector gtrkdirup = gdet->toGlobal(statedirection);
      //mono side
      const GeomDetUnit* monodet = gdet->monoDet();
      statedirection = monodet->toLocal(gtrkdirup);
      SiStripRecHit2D m = matchedhit->monoHit();
      //      if(statedirection.mag() != 0)   RecHitInfo<SiStripRecHit2D>(&m,statedirection,trackref);
      if (statedirection.mag())
        RecHitInfo<SiStripRecHit2D>(&m, statedirection, digilist, ev, track_ok);
      //stereo side
      const GeomDetUnit* stereodet = gdet->stereoDet();
      statedirection = stereodet->toLocal(gtrkdirup);
      SiStripRecHit2D s = matchedhit->stereoHit();
      //      if(statedirection.mag() != 0)   RecHitInfo<SiStripRecHit2D>(&s,statedirection,trackref);
      if (statedirection.mag())
        RecHitInfo<SiStripRecHit2D>(&s, statedirection, digilist, ev, track_ok);
    } else if (projhit) {
      LogTrace("SiStripMonitorTrack") << "\nProjected recHit found" << std::endl;
      //    type=Projected;
      const GluedGeomDet* gdet = static_cast<const GluedGeomDet*>(tkgeom_->idToDet(projhit->geographicalId()));
 
      GlobalVector gtrkdirup = gdet->toGlobal(statedirection);
      const SiStripRecHit2D originalhit = projhit->originalHit();
      const GeomDetUnit* det;
      if (!StripSubdetector(originalhit.geographicalId().rawId()).stereo()) {
        //mono side
        LogTrace("SiStripMonitorTrack") << "\nProjected recHit found  MONO" << std::endl;
        det = gdet->monoDet();
        statedirection = det->toLocal(gtrkdirup);
        if (statedirection.mag())
          RecHitInfo<SiStripRecHit2D>(&(originalhit), statedirection, digilist, ev, track_ok);
      } else {
        LogTrace("SiStripMonitorTrack") << "\nProjected recHit found STEREO" << std::endl;
        //stereo side
        det = gdet->stereoDet();
        statedirection = det->toLocal(gtrkdirup);
        if (statedirection.mag())
          RecHitInfo<SiStripRecHit2D>(&(originalhit), statedirection, digilist, ev, track_ok);
      }
    } else if (hit2D) {
      if (statedirection.mag())
        RecHitInfo<SiStripRecHit2D>(hit2D, statedirection, digilist, ev, track_ok);
    } else if (hit1D) {
      if (statedirection.mag())
        RecHitInfo<SiStripRecHit1D>(hit1D, statedirection, digilist, ev, track_ok);
    } else {
      LogDebug("SiStripMonitorTrack") << " LocalMomentum: " << statedirection
                                      << "\nLocal x-z plane angle: " << atan2(statedirection.x(), statedirection.z());
    }
  }
}
//------------------------------------------------------------------------
void SiStripMonitorTrack::hitStudy(const edm::Event& ev,
                                   const edm::DetSetVector<SiStripDigi>& digilist,
                                   const ProjectedSiStripRecHit2D* projhit,
                                   const SiStripMatchedRecHit2D* matchedhit,
                                   const SiStripRecHit2D* hit2D,
                                   const SiStripRecHit1D* hit1D,
                                   LocalVector localMomentum,
                                   const bool track_ok) {
  LocalVector statedirection;
  if (matchedhit) {  // type=Matched;
    LogTrace("SiStripMonitorTrack") << "\nMatched recHit found" << std::endl;
 
    const GluedGeomDet* gdet = static_cast<const GluedGeomDet*>(tkgeom_->idToDet(matchedhit->geographicalId()));
 
    GlobalVector gtrkdirup = gdet->toGlobal(localMomentum);
 
    //mono side
    const GeomDetUnit* monodet = gdet->monoDet();
    statedirection = monodet->toLocal(gtrkdirup);
    SiStripRecHit2D m = matchedhit->monoHit();
    if (statedirection.mag())
      RecHitInfo<SiStripRecHit2D>(&m, statedirection, digilist, ev, track_ok);
 
    //stereo side
    const GeomDetUnit* stereodet = gdet->stereoDet();
    statedirection = stereodet->toLocal(gtrkdirup);
    SiStripRecHit2D s = matchedhit->stereoHit();
    if (statedirection.mag())
      RecHitInfo<SiStripRecHit2D>(&s, statedirection, digilist, ev, track_ok);
  } else if (projhit) {  // type=Projected;
    LogTrace("SiStripMonitorTrack") << "\nProjected recHit found" << std::endl;
 
    const GluedGeomDet* gdet = static_cast<const GluedGeomDet*>(tkgeom_->idToDet(projhit->geographicalId()));
 
    GlobalVector gtrkdirup = gdet->toGlobal(localMomentum);
    const SiStripRecHit2D originalhit = projhit->originalHit();
 
    const GeomDetUnit* det;
    if (!StripSubdetector(originalhit.geographicalId().rawId()).stereo()) {
      //mono side
      LogTrace("SiStripMonitorTrack") << "\nProjected recHit found  MONO" << std::endl;
      det = gdet->monoDet();
      statedirection = det->toLocal(gtrkdirup);
      if (statedirection.mag())
        RecHitInfo<SiStripRecHit2D>(&(originalhit), statedirection, digilist, ev, track_ok);
    } else {
      LogTrace("SiStripMonitorTrack") << "\nProjected recHit found STEREO" << std::endl;
      //stereo side
      det = gdet->stereoDet();
      statedirection = det->toLocal(gtrkdirup);
      if (statedirection.mag())
        RecHitInfo<SiStripRecHit2D>(&(originalhit), statedirection, digilist, ev, track_ok);
    }
  } else if (hit2D) {  // type=2D
    statedirection = localMomentum;
    if (statedirection.mag())
      RecHitInfo<SiStripRecHit2D>(hit2D, statedirection, digilist, ev, track_ok);
  } else if (hit1D) {  // type=1D
    statedirection = localMomentum;
    if (statedirection.mag())
      RecHitInfo<SiStripRecHit1D>(hit1D, statedirection, digilist, ev, track_ok);
  } else {
    LogDebug("SiStripMonitorTrack") << " LocalMomentum: " << statedirection
                                    << "\nLocal x-z plane angle: " << atan2(statedirection.x(), statedirection.z());
  }
}
//------------------------------------------------------------------------
void SiStripMonitorTrack::trackStudy(const edm::Event& ev) {
  using namespace std;
  using namespace edm;
  using namespace reco;
 
  //    edm::Handle<std::vector<Trajectory> > trajectories;
  //    ev.getByToken(trajectoryToken_, trajectories);
 
  // track input
  edm::Handle<reco::TrackCollection> trackCollectionHandle;
  ev.getByToken(trackToken_, trackCollectionHandle);  //takes the track collection
 
  // digis list
  edm::Handle<edm::DetSetVector<SiStripDigi>> digihandle;
  ev.getByToken(digiToken_, digihandle);
  edm::DetSetVector<SiStripDigi> dummy;
  auto& digilist = digihandle.isValid() ? *(digihandle.product()) : dummy;
 
  if (trackCollectionHandle.isValid()) {
    trackStudyFromTrajectory(trackCollectionHandle, digilist, ev);
  } else {
    edm::LogError("SiStripMonitorTrack") << "also Track Collection is not valid !! " << TrackLabel_ << std::endl;
    return;
  }
}
 
//------------------------------------------------------------------------
// Should return true if the track is good, false if it should be discarded.
bool SiStripMonitorTrack::trackFilter(const reco::Track& track) {
  if (track.pt() < 0.8)
    return false;
  if (track.p() < 2.0)
    return false;
  if (track.hitPattern().numberOfValidTrackerHits() <= 6)
    return false;
  if (track.normalizedChi2() > 10.0)
    return false;
  return true;
}
//------------------------------------------------------------------------
void SiStripMonitorTrack::trackStudyFromTrack(edm::Handle<reco::TrackCollection> trackCollectionHandle,
                                              const edm::DetSetVector<SiStripDigi>& digilist,
                                              const edm::Event& ev) {
  //numTracks = trackCollectionHandle->size();
  reco::TrackCollection trackCollection = *trackCollectionHandle;
  for (reco::TrackCollection::const_iterator track = trackCollection.begin(), etrack = trackCollection.end();
       track != etrack;
       ++track) {
    bool track_ok = trackFilter(*track);
    //    const reco::TransientTrack transientTrack = transientTrackBuilder->build(track);
 
    for (trackingRecHit_iterator hit = track->recHitsBegin(), ehit = track->recHitsEnd(); hit != ehit; ++hit) {
      if (TkHistoMap_On_) {
        uint32_t thedetid = (*hit)->rawId();
        if (SiStripDetId(thedetid).subDetector() >= 3 &&
            SiStripDetId(thedetid).subDetector() <= 6) {  //TIB/TID + TOB + TEC only
          if (((*hit)->getType() == 1))
            tkhisto_NumMissingHits->add(thedetid, 1.);
          if (((*hit)->getType() == 2))
            tkhisto_NumberInactiveHits->add(thedetid, 1.);
          if (((*hit)->getType() == 0))
            tkhisto_NumberValidHits->add(thedetid, 1.);
        }
      }
 
      if (!(*hit)->isValid())
        continue;
      DetId detID = (*hit)->geographicalId();
      if (detID.det() != DetId::Tracker)
        continue;
      const TrackingRecHit* theHit = (*hit);
      const ProjectedSiStripRecHit2D* projhit = dynamic_cast<const ProjectedSiStripRecHit2D*>((theHit));
      const SiStripMatchedRecHit2D* matchedhit = dynamic_cast<const SiStripMatchedRecHit2D*>((theHit));
      const SiStripRecHit2D* hit2D = dynamic_cast<const SiStripRecHit2D*>((theHit));
      const SiStripRecHit1D* hit1D = dynamic_cast<const SiStripRecHit1D*>((theHit));
 
      //      GlobalPoint globalPoint = hit->globalPosition();
      //      reco::TrajectoryStateOnSurface stateOnSurface = transientTrack->stateOnSurface(globalPoint);
 
      LocalVector localMomentum;
      hitStudy(ev, digilist, projhit, matchedhit, hit2D, hit1D, localMomentum, track_ok);
    }
 
    // hit pattern of the track
    // const reco::HitPattern & hitsPattern = track->hitPattern();
    // loop over the hits of the track
    //    for (int i=0; i<hitsPattern.numberOfAllHits(); i++) {
    // for (int i=0; i<hitsPattern.numberOfAllHits(reco::HitPattern::TRACK_HITS); i++) {
    //   uint32_t hit = hitsPattern.getHitPattern(reco::HitPattern::TRACK_HITS,i);
 
    // if the hit is valid and in pixel barrel, print out the layer
    //   if (hitsPattern.validHitFilter(hit) && hitsPattern.pixelBarrelHitFilter(hit))
 
    //   if (!hitsPattern.validHitFilter(hit)) continue;
    //      if (hitsPattern.pixelHitFilter(hit))       std::cout << "pixel"        << std::endl;       // pixel
    //      if (hitsPattern.pixelBarrelHitFilter(hit)) std::cout << "pixel barrel" << std::endl; // pixel barrel
    //      if (hitsPattern.pixelEndcapHitFilter(hit)) std::cout << "pixel endcap" << std::endl; // pixel endcap
    //      if (hitsPattern.stripHitFilter(hit))       std::cout << "strip" << std::endl;       // strip
    //      if (hitsPattern.stripTIBHitFilter(hit))    std::cout << "TIB" << std::endl;    // strip TIB
    //      if (hitsPattern.stripTIDHitFilter(hit))    std::cout << "TID" << std::endl;    // strip TID
    //      if (hitsPattern.stripTOBHitFilter(hit))    std::cout << "TOB" << std::endl;    // strip TOB
    //      if (hitsPattern.stripTECHitFilter(hit))    std::cout << "TEC" << std::endl;    // strip TEC
    //      if (hitsPattern.muonDTHitFilter(hit))      std::cout << "DT"  << std::endl;      // muon DT
    //      if (hitsPattern.muonCSCHitFilter(hit))     std::cout << "CSC" << std::endl;     // muon CSC
    //      if (hitsPattern.muonRPCHitFilter(hit))     std::cout << "RPC" << std::endl;     // muon RPC
    //
    //      // expert level: printout the hit in 10-bit binary format
    //      std::cout << "hit in 10-bit binary format = ";
    //      for (int j=9; j>=0; j--) {
    //        int bit = (hit >> j) & 0x1;
    //        std::cout << bit;
    //      }
    //      std::cout << std::endl;
    // }
  }
}
//------------------------------------------------------------------------
void SiStripMonitorTrack::trackStudyFromTrajectory(edm::Handle<reco::TrackCollection> trackCollectionHandle,
                                                   const edm::DetSetVector<SiStripDigi>& digilist,
                                                   const edm::Event& ev) {
  //Perform track study
  int i = 0;
  reco::TrackCollection trackCollection = *trackCollectionHandle;
  numTracks = trackCollection.size();
  for (reco::TrackCollection::const_iterator track = trackCollection.begin(), etrack = trackCollection.end();
       track != etrack;
       ++track) {
    LogDebug("SiStripMonitorTrack") << "Track number " << ++i << std::endl;
    //      << "\n\tmomentum: " << trackref->momentum()
    //      << "\n\tPT: " << trackref->pt()
    //      << "\n\tvertex: " << trackref->vertex()
    //      << "\n\timpact parameter: " << trackref->d0()
    //      << "\n\tcharge: " << trackref->charge()
    //      << "\n\tnormalizedChi2: " << trackref->normalizedChi2()
    //      <<"\n\tFrom EXTRA : "
    //      <<"\n\t\touter PT "<< trackref->outerPt()<<std::endl;
 
    //    trajectoryStudy(traj_iterator,trackref);
    bool track_ok = trackFilter(*track);
    trajectoryStudy(*track, digilist, ev, track_ok);
  }
}
//------------------------------------------------------------------------
template <class T>
void SiStripMonitorTrack::RecHitInfo(const T* tkrecHit,
                                     LocalVector LV,
                                     const edm::DetSetVector<SiStripDigi>& digilist,
                                     const edm::Event& ev,
                                     bool track_ok) {
  if (!tkrecHit->isValid()) {
    LogTrace("SiStripMonitorTrack") << "\t\t Invalid Hit " << std::endl;
    return;
  }
 
  const uint32_t& detid = tkrecHit->geographicalId().rawId();
 
  LogTrace("SiStripMonitorTrack")
      << "\n\t\tRecHit on det " << detid << "\n\t\tRecHit in LP " << tkrecHit->localPosition() << "\n\t\tRecHit in GP "
      << tkgeom_->idToDet(tkrecHit->geographicalId())->surface().toGlobal(tkrecHit->localPosition())
      << "\n\t\tRecHit trackLocal vector " << LV.x() << " " << LV.y() << " " << LV.z() << std::endl;
 
  //Get SiStripCluster from SiStripRecHit
  if (tkrecHit != nullptr && tkrecHit->isValid()) {
    const DetId detid = tkrecHit->geographicalId();
    int subDet = detid.subdetId();
    //std::cout << __LINE__ << std::endl;
    float clust_Pos1 = -1000;
    float clust_Pos2 = -1000;
 
    GlobalPoint theGlobalPos =
        tkgeom_->idToDet(tkrecHit->geographicalId())->surface().toGlobal(tkrecHit->localPosition());
    if (subDet == SiStripDetId::TIB || subDet == SiStripDetId::TOB) {
      clust_Pos1 = theGlobalPos.z();
      clust_Pos2 = theGlobalPos.phi();
    } else {
      clust_Pos1 = pow(theGlobalPos.x() * theGlobalPos.x() + theGlobalPos.y() * theGlobalPos.y(), 0.5);
      clust_Pos2 = theGlobalPos.phi();
    }
 
    const SiStripCluster* SiStripCluster_ = &*(tkrecHit->cluster());
    siStripClusterInfo_.setCluster(*SiStripCluster_, detid);
 
    const Det2MEs MEs = findMEs(trackerTopology_, detid);
    if (clusterInfos(&siStripClusterInfo_,
                     detid,
                     OnTrack,
                     track_ok,
                     LV,
                     MEs,
                     trackerTopology_,
                     siStripClusterInfo_.siStripGain(),
                     siStripClusterInfo_.siStripQuality(),
                     digilist,
                     clust_Pos1,
                     clust_Pos2)) {
      vPSiStripCluster.insert(SiStripCluster_);
    }
  } else {
    edm::LogError("SiStripMonitorTrack") << "NULL hit" << std::endl;
  }
}
 
//------------------------------------------------------------------------
void SiStripMonitorTrack::AllClusters(const edm::Event& ev) {
  const TrackerTopology* tTopo = trackerTopology_;
 
  edm::Handle<edm::DetSetVector<SiStripDigi>> digihandle;
  ev.getByToken(digiToken_, digihandle);
 
  edm::DetSetVector<SiStripDigi> dummy;
  auto& digilist = digihandle.isValid() ? *(digihandle.product()) : dummy;
 
  edm::Handle<edmNew::DetSetVector<SiStripCluster>> siStripClusterHandle;
  ev.getByToken(clusterToken_, siStripClusterHandle);
 
  /*edm::ESHandle<StripClusterParameterEstimator> parameterestimator;
  es.get<TkStripCPERecord>().get("StripCPEfromTrackAngle", parameterestimator); 
  const StripClusterParameterEstimator &stripcpe(*parameterestimator);*/
 
  if (siStripClusterHandle.isValid()) {
    //Loop on Dets
    for (edmNew::DetSetVector<SiStripCluster>::const_iterator DSViter = siStripClusterHandle->begin(),
                                                              DSVEnd = siStripClusterHandle->end();
         DSViter != DSVEnd;
         ++DSViter) {
      uint32_t detid = DSViter->id();
      const Det2MEs MEs = findMEs(tTopo, detid);
 
      LogDebug("SiStripMonitorTrack") << "on detid " << detid << " N Cluster= " << DSViter->size();
 
      //Loop on Clusters
      for (edmNew::DetSet<SiStripCluster>::const_iterator ClusIter = DSViter->begin(), ClusEnd = DSViter->end();
           ClusIter != ClusEnd;
           ++ClusIter) {
        if (vPSiStripCluster.find(&*ClusIter) == vPSiStripCluster.end()) {
          siStripClusterInfo_.setCluster(*ClusIter, detid);
 
          /*const StripGeomDetUnit * stripdet = (const StripGeomDetUnit*) tkgeom->idToDetUnit(detid);
          StripClusterParameterEstimator::LocalValues parameters=stripcpe.localParameters(*ClusIter, *stripdet);
          LocalPoint lp = parameters.first;
      const Surface& surface = tracker->idToDet(detid)->surface();
      GlobalPoint gp = surface.toGlobal(lp);*/
 
          clusterInfos(&siStripClusterInfo_,
                       detid,
                       OffTrack,
                       /*track_ok*/ false,
                       LV,
                       MEs,
                       tTopo,
                       siStripClusterInfo_.siStripGain(),
                       siStripClusterInfo_.siStripQuality(),
                       digilist,
                       0,
                       0);
        }
      }
    }
  } else {
    edm::LogError("SiStripMonitorTrack") << "ClusterCollection is not valid!!" << std::endl;
    return;
  }
}
 
//------------------------------------------------------------------------
SiStripMonitorTrack::Det2MEs SiStripMonitorTrack::findMEs(const TrackerTopology* tTopo, const uint32_t detid) {
  SiStripHistoId hidmanager1;
 
  std::string layer_id = hidmanager1.getSubdetid(detid, tTopo, false);
  std::string ring_id = hidmanager1.getSubdetid(detid, tTopo, true);
  std::string sdet_tag = folderOrganizer_.getSubDetFolderAndTag(detid, tTopo).second;
 
  Det2MEs me;
  me.iLayer = nullptr;
  me.iRing = nullptr;
  me.iSubdet = nullptr;
 
  std::map<std::string, LayerMEs>::iterator iLayer = LayerMEsMap.find(layer_id);
  if (iLayer != LayerMEsMap.end()) {
    me.iLayer = &(iLayer->second);
  }
 
  std::map<std::string, RingMEs>::iterator iRing = RingMEsMap.find(ring_id);
  if (iRing != RingMEsMap.end()) {
    me.iRing = &(iRing->second);
  }
 
  std::map<std::string, SubDetMEs>::iterator iSubdet = SubDetMEsMap.find(sdet_tag);
  if (iSubdet != SubDetMEsMap.end()) {
    me.iSubdet = &(iSubdet->second);
  }
 
  return me;
}
 
bool SiStripMonitorTrack::fillControlViewHistos(const edm::Event& ev) {
  const TrackerTopology* tTopo = trackerTopology_;
 
  edm::Handle<reco::TrackCollection> tracks;
  ev.getByToken(trackToken_, tracks);  //takes the track collection
 
  //check that tracks are valid
  if (!tracks.isValid())
    return false;
 
  // loop over the tracks
  for (const auto& track : *tracks) {
    // loop over the rechits of this track
    for (trackingRecHit_iterator hit = track.recHitsBegin(), ehit = track.recHitsEnd(); hit != ehit; ++hit) {
      uint32_t thedetid = (*hit)->rawId();
      if (!(DetId(thedetid).subdetId() >= 3 && DetId(thedetid).subdetId() <= 6)) {
        continue;
      }
 
      if (!(*hit)->isValid())
        continue;
 
      const TrackingRecHit* theHit = (*hit);
      if (theHit == nullptr) {
        continue;
      }
 
      const SiStripRecHit1D* hit1D = dynamic_cast<const SiStripRecHit1D*>(theHit);
      const SiStripRecHit2D* hit2D = dynamic_cast<const SiStripRecHit2D*>(theHit);
 
      float sovn = -1.;
      if (hit1D && !hit2D) {
        const SiStripCluster* SiStripCluster_ = &*(hit1D->cluster());
        siStripClusterInfo_.setCluster(*SiStripCluster_, thedetid);
        sovn = siStripClusterInfo_.signalOverNoise();
      }
 
      else if (!hit1D && hit2D) {
        const SiStripCluster* SiStripCluster_ = &*(hit2D->cluster());
        siStripClusterInfo_.setCluster(*SiStripCluster_, thedetid);
        sovn = siStripClusterInfo_.signalOverNoise();
      }
 
      std::vector<const FedChannelConnection*> getFedChanConnections;
      getFedChanConnections = siStripDetCabling_->getConnections(thedetid);
 
      //      SiStripFolderOrganizer folder_organizer;
      //      std::string sistripsubdet = folder_organizer.getSubDetFolderAndTag(thedetid, tTopo).second;
 
      // loop over the fed chan connections
      for (const auto& getFedChanConnection : getFedChanConnections) {
        if (getFedChanConnection == nullptr) {
          continue;
        }
 
        int binfeccrate = getFedChanConnection->fecCrate();
        int binfecslot = getFedChanConnection->fecSlot();
        int binfecring = getFedChanConnection->fecRing();
        //int binccuchan  = getFedChanConnections[i0]->ccuChan(); //will be used in a new PR
        //int binccuadd   = getFedChanConnections[i0]->ccuAddr(); //will be used in a new PR
 
        return2DME(ClusterStoNCorr_OnTrack_FECCratevsFECSlot,
                   ClusterCount_OnTrack_FECCratevsFECSlot,
                   binfecslot,
                   binfeccrate,
                   sovn);
 
        // TIB/TID
        //        if ((sistripsubdet.find("TIB")) || (sistripsubdet.find("TID"))) {
        if ((DetId(thedetid).subdetId() == SiStripDetId::TIB) || ((DetId(thedetid).subdetId() == SiStripDetId::TID))) {
          ClusterStoNCorr_OnTrack_TIBTID->Fill(sovn);
          return2DME(ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TIBTID,
                     ClusterCount_OnTrack_FECSlotVsFECRing_TIBTID,
                     binfecring,
                     binfecslot,
                     sovn);
        }
 
        // TOB
        if (DetId(thedetid).subdetId() == SiStripDetId::TOB) {
          ClusterStoNCorr_OnTrack_TOB->Fill(sovn);
          return2DME(ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TOB,
                     ClusterCount_OnTrack_FECSlotVsFECRing_TOB,
                     binfecring,
                     binfecslot,
                     sovn);
        }
 
        // TECM
        if ((DetId(thedetid).subdetId() == SiStripDetId::TEC) && (tTopo->tecSide(thedetid) == 1)) {
          ClusterStoNCorr_OnTrack_TECM->Fill(sovn);
          return2DME(ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TECM,
                     ClusterCount_OnTrack_FECSlotVsFECRing_TECM,
                     binfecring,
                     binfecslot,
                     sovn);
        }
 
        // TECP
        if ((DetId(thedetid).subdetId() == SiStripDetId::TEC) && (tTopo->tecSide(thedetid) == 2)) {
          ClusterStoNCorr_OnTrack_TECP->Fill(sovn);
          return2DME(ClusterStoNCorr_OnTrack_FECSlotVsFECRing_TECP,
                     ClusterCount_OnTrack_FECSlotVsFECRing_TECP,
                     binfecring,
                     binfecslot,
                     sovn);
        }
 
      }  // end of looping over the fed chan connections
    }    // end of looping over the rechits of the track
  }      // end of looping over the tracks
 
  return true;
}
 
void SiStripMonitorTrack::return2DME(MonitorElement* input1, MonitorElement* input2, int binx, int biny, double value) {
  if (input1->getBinContent(binx, biny) == 0.) {
    input1->setBinContent(binx, biny, value);
    input2->setBinContent(binx, biny, 1);
  } else {
    double nentries = input2->getBinContent(binx, biny);
    double theMeanSoN = (input1->getBinContent(binx, biny) * nentries + value) / (nentries + 1);
    //input1->setBinContent(binx,biny,((input1->getBinContent(binx,biny)+value)/2.));
    input1->setBinContent(binx, biny, theMeanSoN);
    input2->setBinContent(binx, biny, input2->getBinContent(binx, biny) + 1);
  }
}
 
//------------------------------------------------------------------------
#include "DataFormats/SiStripCluster/interface/SiStripClusterTools.h"
bool SiStripMonitorTrack::clusterInfos(SiStripClusterInfo* cluster,
                                       const uint32_t detid,
                                       enum ClusterFlags flag,
                                       bool track_ok,
                                       const LocalVector LV,
                                       const Det2MEs& MEs,
                                       const TrackerTopology* tTopo,
                                       const SiStripGain* stripGain,
                                       const SiStripQuality* stripQuality,
                                       const edm::DetSetVector<SiStripDigi>& digilist,
                                       float valX,
                                       float valY) {
  if (cluster == nullptr)
    return false;
  // if one imposes a cut on the clusters, apply it
  if ((applyClusterQuality_) &&
      (cluster->signalOverNoise() < sToNLowerLimit_ || cluster->signalOverNoise() > sToNUpperLimit_ ||
       cluster->width() < widthLowerLimit_ || cluster->width() > widthUpperLimit_))
    return false;
  // start of the analysis
 
  float cosRZ = -2;
  LogDebug("SiStripMonitorTrack") << "\n\tLV " << LV.x() << " " << LV.y() << " " << LV.z() << " " << LV.mag()
                                  << std::endl;
  if (LV.mag()) {
    cosRZ = fabs(LV.z()) / LV.mag();
    LogDebug("SiStripMonitorTrack") << "\n\t cosRZ " << cosRZ << std::endl;
  }
 
  // Filling SubDet/Layer Plots (on Track + off Track)
  float StoN = cluster->signalOverNoise();
  float noise = cluster->noiseRescaledByGain();
  uint16_t charge = cluster->charge();
  uint16_t width = cluster->width();
  float position = cluster->baryStrip();
 
  // Getting raw charge with strip gain.
  double chargeraw = 0;
  double clustergain = 0;
  auto digi_it = digilist.find(detid);  //(digilist.isValid() ? digilist.find(detid) : digilist.end());
  // SiStripClusterInfo.stripCharges() <==> SiStripCluster.amplitudes()
  for (size_t chidx = 0; chidx < cluster->stripCharges().size(); ++chidx) {
    if (cluster->stripCharges()[chidx] <= 0) {
      continue;
    }  // nonzero amplitude
    if (stripQuality->IsStripBad(stripQuality->getRange(detid), cluster->firstStrip() + chidx)) {
      continue;
    }
    clustergain += stripGain->getStripGain(cluster->firstStrip() + chidx, stripGain->getRange(detid));
    // Getting raw adc charge from digi collections
    if (digi_it == digilist.end()) {
      continue;
    }  // skipping if not found
    for (const auto& digiobj : *digi_it) {
      if (digiobj.strip() == cluster->firstStrip() + chidx) {
        chargeraw += digiobj.adc();
      }
    }
  }
 
  clustergain /= double(cluster->stripCharges().size());  // calculating average gain inside cluster
 
  // new dE/dx (chargePerCM)
  // https://indico.cern.ch/event/342236/session/5/contribution/10/material/slides/0.pdf
  float dQdx_fromTrack = siStripClusterTools::chargePerCM(detid, *cluster, LV);
  // from straigth line origin-sensor centre
  const StripGeomDetUnit* DetUnit = static_cast<const StripGeomDetUnit*>(tkgeom_->idToDetUnit(DetId(detid)));
  LocalPoint locVtx = DetUnit->toLocal(GlobalPoint(0.0, 0.0, 0.0));
  LocalVector locDir(locVtx.x(), locVtx.y(), locVtx.z());
  float dQdx_fromOrigin = siStripClusterTools::chargePerCM(detid, *cluster, locDir);
 
  if (TkHistoMap_On_ && (flag == OnTrack)) {
    uint32_t adet = cluster->detId();
    if (track_ok)
      tkhisto_ClChPerCMfromTrack->fill(adet, dQdx_fromTrack);
  }
  if (clchCMoriginTkHmap_On_ && (flag == OffTrack)) {
    uint32_t adet = cluster->detId();
    if (track_ok)
      tkhisto_ClChPerCMfromOrigin->fill(adet, dQdx_fromOrigin);
  }
 
  if (flag == OnTrack) {
    if (MEs.iSubdet != nullptr)
      MEs.iSubdet->totNClustersOnTrack++;
    // layerMEs
    if (MEs.iLayer != nullptr) {
      if (noise > 0.0)
        fillME(MEs.iLayer->ClusterStoNCorrOnTrack, StoN * cosRZ);
      if (noise == 0.0)
        LogDebug("SiStripMonitorTrack") << "Module " << detid << " in Event " << eventNb << " noise "
                                        << cluster->noiseRescaledByGain() << std::endl;
      fillME(MEs.iLayer->ClusterGain, clustergain);
      fillME(MEs.iLayer->ClusterChargeCorrOnTrack, charge * cosRZ);
      fillME(MEs.iLayer->ClusterChargeOnTrack, charge);
      fillME(MEs.iLayer->ClusterChargeRawOnTrack, chargeraw);
      fillME(MEs.iLayer->ClusterNoiseOnTrack, noise);
      fillME(MEs.iLayer->ClusterWidthOnTrack, width);
      fillME(MEs.iLayer->ClusterPosOnTrack, position);
      //auto clustgp = cluster->globalPosition();
 
      fillME(MEs.iLayer->ClusterPosOnTrack2D, valX, valY);
 
      if (track_ok)
        fillME(MEs.iLayer->ClusterChargePerCMfromTrack, dQdx_fromTrack);
      if (track_ok)
        fillME(MEs.iLayer->ClusterChargePerCMfromOriginOnTrack, dQdx_fromOrigin);
    }
    // ringMEs
    if (MEs.iRing != nullptr) {
      if (noise > 0.0)
        fillME(MEs.iRing->ClusterStoNCorrOnTrack, StoN * cosRZ);
      if (noise == 0.0)
        LogDebug("SiStripMonitorTrack") << "Module " << detid << " in Event " << eventNb << " noise "
                                        << cluster->noiseRescaledByGain() << std::endl;
      fillME(MEs.iRing->ClusterGain, clustergain);
      fillME(MEs.iRing->ClusterChargeCorrOnTrack, charge * cosRZ);
      fillME(MEs.iRing->ClusterChargeOnTrack, charge);
      fillME(MEs.iRing->ClusterChargeRawOnTrack, chargeraw);
      fillME(MEs.iRing->ClusterNoiseOnTrack, noise);
      fillME(MEs.iRing->ClusterWidthOnTrack, width);
      fillME(MEs.iRing->ClusterPosOnTrack, position);
      if (track_ok)
        fillME(MEs.iRing->ClusterChargePerCMfromTrack, dQdx_fromTrack);
      if (track_ok)
        fillME(MEs.iRing->ClusterChargePerCMfromOriginOnTrack, dQdx_fromOrigin);
    }
    // subdetMEs
    if (MEs.iSubdet != nullptr) {
      fillME(MEs.iSubdet->ClusterGain, clustergain);
      fillME(MEs.iSubdet->ClusterChargeOnTrack, charge);
      fillME(MEs.iSubdet->ClusterChargeRawOnTrack, chargeraw);
      if (noise > 0.0)
        fillME(MEs.iSubdet->ClusterStoNCorrOnTrack, StoN * cosRZ);
      fillME(MEs.iSubdet->ClusterChargeCorrOnTrack, charge * cosRZ);
      if (track_ok)
        fillME(MEs.iSubdet->ClusterChargePerCMfromTrack, dQdx_fromTrack);
      if (track_ok)
        fillME(MEs.iSubdet->ClusterChargePerCMfromOriginOnTrack, dQdx_fromOrigin);
      if (tTopo->moduleGeometry(detid) == SiStripModuleGeometry::W5 ||
          tTopo->moduleGeometry(detid) == SiStripModuleGeometry::W6 ||
          tTopo->moduleGeometry(detid) == SiStripModuleGeometry::W7) {
        if (noise > 0.0)
          fillME(MEs.iSubdet->ClusterStoNCorrThickOnTrack, StoN * cosRZ);
        fillME(MEs.iSubdet->ClusterChargeCorrThickOnTrack, charge * cosRZ);
      } else {
        if (noise > 0.0)
          fillME(MEs.iSubdet->ClusterStoNCorrThinOnTrack, StoN * cosRZ);
        fillME(MEs.iSubdet->ClusterChargeCorrThinOnTrack, charge * cosRZ);
      }
    }
    //******** TkHistoMaps
    if (TkHistoMap_On_) {
      uint32_t adet = cluster->detId();
      tkhisto_NumOnTrack->add(adet, 1.);
      if (noise > 0.0)
        tkhisto_StoNCorrOnTrack->fill(adet, cluster->signalOverNoise() * cosRZ);
      if (noise == 0.0)
        LogDebug("SiStripMonitorTrack") << "Module " << detid << " in Event " << eventNb << " noise " << noise
                                        << std::endl;
    }
    if (TkHistoMap_On_ && (flag == OnTrack)) {
      uint32_t adet = cluster->detId();
      tkhisto_ClusterWidthOnTrack->fill(adet, cluster->width());
      if (noise > 0.0)
        tkhisto_NoiseOnTrack->fill(adet, cluster->noiseRescaledByGain() * cosRZ);
    }
 
    // Module plots filled only for onTrack Clusters
    if (Mod_On_) {
      SiStripHistoId hidmanager2;
      std::string name = hidmanager2.createHistoId("", "det", detid);
      //fillModMEs
      std::map<std::string, ModMEs>::iterator iModME = ModMEsMap.find(name);
      if (iModME != ModMEsMap.end()) {
        if (noise > 0.0)
          fillME(iModME->second.ClusterStoNCorr, StoN * cosRZ);
        if (noise == 0.0)
          LogDebug("SiStripMonitorTrack")
              << "Module " << name << " in Event " << eventNb << " noise " << noise << std::endl;
        fillME(iModME->second.ClusterGain, clustergain);
        fillME(iModME->second.ClusterCharge, charge);
        fillME(iModME->second.ClusterChargeRaw, chargeraw);
 
        fillME(iModME->second.ClusterChargeCorr, charge * cosRZ);
 
        fillME(iModME->second.ClusterWidth, width);
        fillME(iModME->second.ClusterPos, position);
 
        if (track_ok)
          fillME(iModME->second.ClusterChargePerCMfromTrack, dQdx_fromTrack);
        if (track_ok)
          fillME(iModME->second.ClusterChargePerCMfromOrigin, dQdx_fromOrigin);
 
        //fill the PGV histo
        float PGVmax = cluster->maxCharge();
        int PGVposCounter = cluster->maxIndex();
        for (int i = int(conf_.getParameter<edm::ParameterSet>("TProfileClusterPGV").getParameter<double>("xmin"));
             i < PGVposCounter;
             ++i)
          fillME(iModME->second.ClusterPGV, i, 0.);
        for (auto it = cluster->stripCharges().begin(); it < cluster->stripCharges().end(); ++it) {
          fillME(iModME->second.ClusterPGV, PGVposCounter++, (*it) / PGVmax);
        }
        for (int i = PGVposCounter;
             i < int(conf_.getParameter<edm::ParameterSet>("TProfileClusterPGV").getParameter<double>("xmax"));
             ++i)
          fillME(iModME->second.ClusterPGV, i, 0.);
        //end fill the PGV histo
      }
    }
  } else {
    if (flag == OffTrack) {
      if (MEs.iSubdet != nullptr)
        MEs.iSubdet->totNClustersOffTrack++;
      //******** TkHistoMaps
      if (TkHistoMap_On_) {
        uint32_t adet = cluster->detId();
        tkhisto_NumOffTrack->add(adet, 1.);
        if (charge > 250) {
          LogDebug("SiStripMonitorTrack") << "Module firing " << detid << " in Event " << eventNb << std::endl;
        }
      }
      if (TkHistoMap_On_) {
        uint32_t adet = cluster->detId();
        tkhisto_ClusterWidthOffTrack->fill(adet, cluster->width());
        if (noise > 0.0)
          tkhisto_NoiseOffTrack->fill(adet, cluster->noiseRescaledByGain());
      }
    }
    // layerMEs
    if (MEs.iLayer != nullptr) {
      fillME(MEs.iLayer->ClusterGain, clustergain);
      fillME(MEs.iLayer->ClusterChargeOffTrack, charge);
      fillME(MEs.iLayer->ClusterChargeRawOffTrack, chargeraw);
      fillME(MEs.iLayer->ClusterNoiseOffTrack, noise);
      fillME(MEs.iLayer->ClusterWidthOffTrack, width);
      fillME(MEs.iLayer->ClusterPosOffTrack, position);
      fillME(MEs.iLayer->ClusterChargePerCMfromOriginOffTrack, dQdx_fromOrigin);
    }
    // ringMEs
    if (MEs.iRing != nullptr) {
      fillME(MEs.iRing->ClusterGain, clustergain);
      fillME(MEs.iRing->ClusterChargeOffTrack, charge);
      fillME(MEs.iRing->ClusterChargeRawOffTrack, chargeraw);
      fillME(MEs.iRing->ClusterNoiseOffTrack, noise);
      fillME(MEs.iRing->ClusterWidthOffTrack, width);
      fillME(MEs.iRing->ClusterPosOffTrack, position);
      fillME(MEs.iRing->ClusterChargePerCMfromOriginOffTrack, dQdx_fromOrigin);
    }
    // subdetMEs
    if (MEs.iSubdet != nullptr) {
      fillME(MEs.iSubdet->ClusterGain, clustergain);
      fillME(MEs.iSubdet->ClusterChargeOffTrack, charge);
      fillME(MEs.iSubdet->ClusterChargeRawOffTrack, chargeraw);
      if (noise > 0.0)
        fillME(MEs.iSubdet->ClusterStoNOffTrack, StoN);
      fillME(MEs.iSubdet->ClusterChargePerCMfromOriginOffTrack, dQdx_fromOrigin);
    }
  }
  return true;
}
//--------------------------------------------------------------------------------