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// -*- C++ -*-
//
// Package: Phase2TrackerMonitorDigi
// Class: Phase2TrackerMonitorDigi
//
/**\class Phase2TrackerMonitorDigi Phase2TrackerMonitorDigi.cc
Description: It generates various histograms of digi properties. Manual switching is enabled for each histogram. Seperate Histograms are there for P type and S type sensors of the outer Tracker
*/
//
// Author: Suchandra Dutta, Gourab Saha, Suvankar Roy Chowdhury, Subir Sarkar
// Date: January 29, 2016
// Date: November 8, 2019 (Modified for adding in phase2 DQM Offline)
//
// system include files
#include <memory>
// user includes
#include "DQM/SiTrackerPhase2/interface/TrackerPhase2DQMUtil.h"
#include "DQMServices/Core/interface/DQMEDAnalyzer.h"
#include "DQMServices/Core/interface/MonitorElement.h"
#include "DataFormats/Common/interface/DetSetVector.h"
#include "DataFormats/Common/interface/Handle.h"
#include "DataFormats/DetId/interface/DetId.h"
#include "DataFormats/Phase2TrackerDigi/interface/Phase2TrackerDigi.h"
#include "DataFormats/SiPixelDigi/interface/PixelDigi.h"
#include "DataFormats/SiPixelDigi/interface/PixelDigiCollection.h"
#include "DataFormats/TrackerCommon/interface/TrackerTopology.h"
#include "FWCore/Framework/interface/ESHandle.h"
#include "FWCore/Framework/interface/ESWatcher.h"
#include "FWCore/Framework/interface/Event.h"
#include "FWCore/Framework/interface/Frameworkfwd.h"
#include "FWCore/Framework/interface/MakerMacros.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "FWCore/ParameterSet/interface/ParameterSet.h"
#include "FWCore/ServiceRegistry/interface/Service.h"
#include "FWCore/Utilities/interface/InputTag.h"
#include "Geometry/CommonDetUnit/interface/GeomDet.h"
#include "Geometry/CommonDetUnit/interface/PixelGeomDetType.h"
#include "Geometry/CommonDetUnit/interface/PixelGeomDetUnit.h"
#include "Geometry/Records/interface/TrackerDigiGeometryRecord.h"
#include "Geometry/TrackerGeometryBuilder/interface/TrackerGeometry.h"
using Phase2TrackerGeomDetUnit = PixelGeomDetUnit;
class Phase2TrackerMonitorDigi : public DQMEDAnalyzer {
public:
explicit Phase2TrackerMonitorDigi(const edm::ParameterSet&);
~Phase2TrackerMonitorDigi() override;
void bookHistograms(DQMStore::IBooker& ibooker, edm::Run const& iRun, edm::EventSetup const& iSetup) override;
void analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup) override;
void dqmBeginRun(const edm::Run& iRun, const edm::EventSetup& iSetup) override;
std::string getHistoId(uint32_t det_id, bool flag);
struct DigiMEs {
MonitorElement* NumberOfDigisPerDet;
MonitorElement* DigiOccupancyP;
MonitorElement* DigiOccupancyS;
MonitorElement* ChargeXYMap;
MonitorElement* PositionOfDigisP;
MonitorElement* PositionOfDigisS;
MonitorElement* ChargeOfDigis;
MonitorElement* ChargeOfDigisVsWidth;
MonitorElement* TotalNumberOfDigisPerLayer;
MonitorElement* NumberOfHitDetectorsPerLayer;
MonitorElement* NumberOfClustersPerDet;
MonitorElement* ClusterWidth;
MonitorElement* ClusterPositionP;
MonitorElement* ClusterPositionS;
MonitorElement* FractionOfOvTBits;
MonitorElement* FractionOfOvTBitsVsEta;
MonitorElement* EtaOccupancyProfP;
MonitorElement* EtaOccupancyProfS;
unsigned int nDigiPerLayer;
unsigned int nHitDetsPerLayer;
};
struct Ph2DigiCluster {
int charge;
int position;
int width;
int column;
};
MonitorElement* XYPositionMap;
MonitorElement* RZPositionMap;
MonitorElement* XYOccupancyMap;
MonitorElement* RZOccupancyMap;
private:
void bookLayerHistos(DQMStore::IBooker& ibooker, unsigned int det_id);
void fillITPixelDigiHistos(const edm::Handle<edm::DetSetVector<PixelDigi>> handle);
void fillOTDigiHistos(const edm::Handle<edm::DetSetVector<Phase2TrackerDigi>> handle);
void fillDigiClusters(DigiMEs& mes, std::vector<Ph2DigiCluster>& digi_clusters);
const edm::ParameterSet config_;
std::map<std::string, DigiMEs> layerMEs;
const bool pixelFlag_;
const bool clsFlag_;
const std::string geomType_;
const edm::InputTag otDigiSrc_;
const edm::InputTag itPixelDigiSrc_;
const edm::EDGetTokenT<edm::DetSetVector<Phase2TrackerDigi>> otDigiToken_;
const edm::EDGetTokenT<edm::DetSetVector<PixelDigi>> itPixelDigiToken_;
const edm::ESGetToken<TrackerGeometry, TrackerDigiGeometryRecord> geomToken_;
const edm::ESGetToken<TrackerTopology, TrackerTopologyRcd> topoToken_;
const TrackerGeometry* tkGeom_ = nullptr;
const TrackerTopology* tTopo_ = nullptr;
};
//
// constructors
//
Phase2TrackerMonitorDigi::Phase2TrackerMonitorDigi(const edm::ParameterSet& iConfig)
: config_(iConfig),
pixelFlag_(config_.getParameter<bool>("PixelPlotFillingFlag")),
clsFlag_(config_.getParameter<bool>("StandAloneClusteriserFlag")),
geomType_(config_.getParameter<std::string>("GeometryType")),
otDigiSrc_(config_.getParameter<edm::InputTag>("OuterTrackerDigiSource")),
itPixelDigiSrc_(config_.getParameter<edm::InputTag>("InnerPixelDigiSource")),
otDigiToken_(consumes<edm::DetSetVector<Phase2TrackerDigi>>(otDigiSrc_)),
itPixelDigiToken_(consumes<edm::DetSetVector<PixelDigi>>(itPixelDigiSrc_)),
geomToken_(esConsumes<TrackerGeometry, TrackerDigiGeometryRecord, edm::Transition::BeginRun>()),
topoToken_(esConsumes<TrackerTopology, TrackerTopologyRcd, edm::Transition::BeginRun>()) {
LogDebug("Phase2TrackerMonitorDigi") << ">>> Construct Phase2TrackerMonitorDigi ";
}
//
// destructor
//
Phase2TrackerMonitorDigi::~Phase2TrackerMonitorDigi() {
// do anything here that needs to be done at desctruction time
// (e.g. close files, deallocate resources etc.)
LogDebug("Phase2TrackerMonitorDigi") << ">>> Destroy Phase2TrackerMonitorDigi ";
}
void Phase2TrackerMonitorDigi::dqmBeginRun(const edm::Run& iRun, const edm::EventSetup& iSetup) {
tkGeom_ = &iSetup.getData(geomToken_);
tTopo_ = &iSetup.getData(topoToken_);
}
// -- Analyze
//
void Phase2TrackerMonitorDigi::analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup) {
using namespace edm;
// Get digis
const auto& pixDigiHandle = iEvent.getHandle(itPixelDigiToken_);
const auto& otDigiHandle = iEvent.getHandle(otDigiToken_);
// Tracker Topology
edm::ESWatcher<TrackerDigiGeometryRecord> theTkDigiGeomWatcher;
if (theTkDigiGeomWatcher.check(iSetup)) {
if (pixelFlag_)
fillITPixelDigiHistos(pixDigiHandle);
else
fillOTDigiHistos(otDigiHandle);
}
}
void Phase2TrackerMonitorDigi::fillITPixelDigiHistos(const edm::Handle<edm::DetSetVector<PixelDigi>> handle) {
const edm::DetSetVector<PixelDigi>* digis = handle.product();
for (typename edm::DetSetVector<PixelDigi>::const_iterator DSViter = digis->begin(); DSViter != digis->end();
DSViter++) {
unsigned int rawid = DSViter->id;
LogDebug("Phase2TrackerMonitorDigi") << " Det Id = " << rawid;
int layer = tTopo_->getITPixelLayerNumber(rawid);
if (layer < 0)
continue;
const DetId detId(rawid);
std::string key = getHistoId(rawid, pixelFlag_);
std::map<std::string, DigiMEs>::iterator pos = layerMEs.find(key);
if (pos == layerMEs.end())
continue;
if (DetId(detId).det() != DetId::Detector::Tracker)
continue;
const GeomDetUnit* gDetUnit = tkGeom_->idToDetUnit(detId);
const GeomDet* geomDet = tkGeom_->idToDet(detId);
const Phase2TrackerGeomDetUnit* tkDetUnit = dynamic_cast<const Phase2TrackerGeomDetUnit*>(gDetUnit);
int nRows = tkDetUnit->specificTopology().nrows();
int nColumns = tkDetUnit->specificTopology().ncolumns();
if (nRows * nColumns == 0)
continue;
DigiMEs& local_mes = pos->second;
local_mes.nHitDetsPerLayer++;
int nDigi = 0;
int row_last = -1;
int col_last = -1;
std::vector<Ph2DigiCluster> digiClusters;
for (typename edm::DetSet<PixelDigi>::const_iterator di = DSViter->begin(); di != DSViter->end(); di++) {
int col = di->column(); // column
int row = di->row(); // row
int adc = di->adc(); // digi charge
if (geomDet) {
MeasurementPoint mp(row + 0.5, col + 0.5);
GlobalPoint pdPos = geomDet->surface().toGlobal(gDetUnit->topology().localPosition(mp));
if (XYPositionMap)
XYPositionMap->Fill(pdPos.x() * 10., pdPos.y() * 10.);
if (RZPositionMap)
RZPositionMap->Fill(pdPos.z() * 10., std::hypot(pdPos.x(), pdPos.y()) * 10.);
}
nDigi++;
LogDebug("Phase2TrackerMonitorDigi") << " column " << col << " row " << row << std::dec << std::endl;
if (local_mes.ChargeXYMap)
local_mes.ChargeXYMap->Fill(col, row, adc);
if (local_mes.PositionOfDigisP)
local_mes.PositionOfDigisP->Fill(row + 1, col + 1);
if (local_mes.ChargeOfDigis)
local_mes.ChargeOfDigis->Fill(adc);
if (clsFlag_) {
if (row_last == -1 || abs(row - row_last) != 1 || col != col_last) {
Ph2DigiCluster dClus;
dClus.position = row + 1;
dClus.column = col;
dClus.width = 1;
dClus.charge = 255;
digiClusters.push_back(dClus);
} else {
int pos = digiClusters.back().position + row + 1;
int width = digiClusters.back().width + 1;
pos /= width;
digiClusters.back().position = pos;
digiClusters.back().width += 1;
}
LogDebug("Phase2TrackerMonitorDigi") << " row " << row << " col " << col << " row_last " << row_last
<< " col_last " << col_last << " width " << digiClusters.back().width;
row_last = row;
col_last = col;
}
}
if (local_mes.NumberOfDigisPerDet)
local_mes.NumberOfDigisPerDet->Fill(nDigi);
if (clsFlag_)
fillDigiClusters(local_mes, digiClusters);
local_mes.nDigiPerLayer += nDigi;
float occupancy = 1.0;
if (nRows * nColumns > 0)
occupancy = nDigi * 1.0 / (nRows * nColumns);
if (geomDet) {
GlobalPoint gp = geomDet->surface().toGlobal(
gDetUnit->topology().localPosition(MeasurementPoint(nRows / 2.0, nColumns / 2.0)));
if (XYOccupancyMap)
XYOccupancyMap->Fill(gp.x() * 10., gp.y() * 10, occupancy);
if (RZOccupancyMap)
RZOccupancyMap->Fill(gp.z() * 10., std::hypot(gp.x(), gp.y()) * 10., occupancy);
if (local_mes.EtaOccupancyProfP)
local_mes.EtaOccupancyProfP->Fill(gp.eta(), occupancy);
}
if (local_mes.DigiOccupancyP)
local_mes.DigiOccupancyP->Fill(occupancy);
}
// Fill histograms after loop over digis are complete
for (auto& ilayer : layerMEs) {
DigiMEs& local_mes = ilayer.second;
if (local_mes.TotalNumberOfDigisPerLayer)
local_mes.TotalNumberOfDigisPerLayer->Fill(local_mes.nDigiPerLayer);
if (local_mes.NumberOfHitDetectorsPerLayer)
local_mes.NumberOfHitDetectorsPerLayer->Fill(local_mes.nHitDetsPerLayer);
local_mes.nDigiPerLayer = 0;
local_mes.nHitDetsPerLayer = 0;
}
}
void Phase2TrackerMonitorDigi::fillOTDigiHistos(const edm::Handle<edm::DetSetVector<Phase2TrackerDigi>> handle) {
const edm::DetSetVector<Phase2TrackerDigi>* digis = handle.product();
for (typename edm::DetSetVector<Phase2TrackerDigi>::const_iterator DSViter = digis->begin(); DSViter != digis->end();
DSViter++) {
unsigned int rawid = DSViter->id;
DetId detId(rawid);
LogDebug("Phase2TrackerMonitorDigi") << " Det Id = " << rawid;
int layer = tTopo_->getOTLayerNumber(rawid);
if (layer < 0)
continue;
std::string key = getHistoId(rawid, pixelFlag_);
std::map<std::string, DigiMEs>::iterator pos = layerMEs.find(key);
if (pos == layerMEs.end())
continue;
DigiMEs& local_mes = pos->second;
local_mes.nHitDetsPerLayer++;
if (DetId(detId).det() != DetId::Detector::Tracker)
continue;
const GeomDetUnit* gDetUnit = tkGeom_->idToDetUnit(detId);
const GeomDet* geomDet = tkGeom_->idToDet(detId);
const Phase2TrackerGeomDetUnit* tkDetUnit = dynamic_cast<const Phase2TrackerGeomDetUnit*>(gDetUnit);
int nRows = tkDetUnit->specificTopology().nrows();
int nColumns = tkDetUnit->specificTopology().ncolumns();
if (nRows * nColumns == 0)
continue;
int nDigi = 0;
int row_last = -1;
int col_last = -1;
float frac_ot = 0.;
std::vector<Ph2DigiCluster> digiClusters;
for (typename edm::DetSet<Phase2TrackerDigi>::const_iterator di = DSViter->begin(); di != DSViter->end(); di++) {
int col = di->column(); // column
int row = di->row(); // row
const DetId detId(rawid);
if (geomDet) {
MeasurementPoint mp(row + 0.5, col + 0.5);
GlobalPoint pdPos = geomDet->surface().toGlobal(gDetUnit->topology().localPosition(mp));
if (XYPositionMap)
XYPositionMap->Fill(pdPos.x() * 10., pdPos.y() * 10.);
if (RZPositionMap)
RZPositionMap->Fill(pdPos.z() * 10., std::hypot(pdPos.x(), pdPos.y()) * 10.);
}
nDigi++;
if (di->overThreshold())
frac_ot++;
LogDebug("Phase2TrackerMonitorDigi") << " column " << col << " row " << row << std::dec << std::endl;
if (nColumns > 2 && local_mes.PositionOfDigisP)
local_mes.PositionOfDigisP->Fill(row + 1, col + 1);
if (nColumns <= 2 && local_mes.PositionOfDigisS)
local_mes.PositionOfDigisS->Fill(row + 1, col + 1);
if (clsFlag_) {
if (row_last == -1 || abs(row - row_last) != 1 || col != col_last) {
Ph2DigiCluster dClus;
dClus.position = row + 1;
dClus.column = col;
dClus.width = 1;
dClus.charge = 255;
digiClusters.push_back(dClus);
} else {
int pos = digiClusters.back().position + row + 1;
int width = digiClusters.back().width + 1;
pos /= width;
digiClusters.back().position = pos;
digiClusters.back().width += 1;
}
row_last = row;
col_last = col;
LogDebug("Phase2TrackerMonitorDigi") << " row " << row << " col " << col << " row_last " << row_last
<< " col_last " << col_last << " width " << digiClusters.back().width;
}
}
if (local_mes.NumberOfDigisPerDet)
local_mes.NumberOfDigisPerDet->Fill(nDigi);
if (clsFlag_)
fillDigiClusters(local_mes, digiClusters);
local_mes.nDigiPerLayer += nDigi;
if (nDigi)
frac_ot /= nDigi;
if (local_mes.FractionOfOvTBits && nColumns <= 2)
local_mes.FractionOfOvTBits->Fill(frac_ot);
float occupancy = 1.0;
if (nRows * nColumns > 0)
occupancy = nDigi * 1.0 / (nRows * nColumns);
if (geomDet) {
GlobalPoint gp = geomDet->surface().toGlobal(gDetUnit->topology().localPosition(MeasurementPoint(0.0, 0.0)));
if (XYOccupancyMap)
XYOccupancyMap->Fill(gp.x() * 10., gp.y() * 10., occupancy);
if (RZOccupancyMap)
RZOccupancyMap->Fill(gp.z() * 10., std::hypot(gp.x(), gp.y()) * 10., occupancy);
if (nColumns > 2) {
if (local_mes.DigiOccupancyP)
local_mes.DigiOccupancyP->Fill(occupancy);
if (local_mes.EtaOccupancyProfP)
local_mes.EtaOccupancyProfP->Fill(gp.eta(), occupancy);
} else {
if (local_mes.DigiOccupancyS)
local_mes.DigiOccupancyS->Fill(occupancy);
if (local_mes.EtaOccupancyProfS)
local_mes.EtaOccupancyProfS->Fill(gp.eta(), occupancy);
if (local_mes.FractionOfOvTBitsVsEta)
local_mes.FractionOfOvTBitsVsEta->Fill(gp.eta(), frac_ot);
}
}
}
// Fill histograms after loop over digis are complete
for (auto& ilayer : layerMEs) {
DigiMEs& local_mes = ilayer.second;
if (local_mes.TotalNumberOfDigisPerLayer)
local_mes.TotalNumberOfDigisPerLayer->Fill(local_mes.nDigiPerLayer);
if (local_mes.NumberOfHitDetectorsPerLayer)
local_mes.NumberOfHitDetectorsPerLayer->Fill(local_mes.nHitDetsPerLayer);
local_mes.nDigiPerLayer = 0;
local_mes.nHitDetsPerLayer = 0;
}
}
//
// -- Book Histograms
//
void Phase2TrackerMonitorDigi::bookHistograms(DQMStore::IBooker& ibooker,
edm::Run const& iRun,
edm::EventSetup const& iSetup) {
std::string top_folder = config_.getParameter<std::string>("TopFolderName");
edm::ESWatcher<TrackerDigiGeometryRecord> theTkDigiGeomWatcher;
if (theTkDigiGeomWatcher.check(iSetup)) {
for (auto const& det_u : tkGeom_->detUnits()) {
unsigned int detId_raw = det_u->geographicalId().rawId();
bookLayerHistos(ibooker, detId_raw);
}
}
ibooker.cd();
std::stringstream folder_name;
folder_name << top_folder << "/"
<< "DigiMonitor";
ibooker.setCurrentFolder(folder_name.str());
edm::ParameterSet Parameters = config_.getParameter<edm::ParameterSet>("XYPositionMapH");
edm::ParameterSet ParametersOcc = config_.getParameter<edm::ParameterSet>("DigiOccupancyPH");
if (Parameters.getParameter<bool>("switch"))
XYPositionMap = ibooker.book2D("DigiXPosVsYPos",
"DigiXPosVsYPos",
Parameters.getParameter<int32_t>("Nxbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"),
Parameters.getParameter<int32_t>("Nybins"),
Parameters.getParameter<double>("ymin"),
Parameters.getParameter<double>("ymax"));
else
XYPositionMap = nullptr;
if (Parameters.getParameter<bool>("switch") && ParametersOcc.getParameter<bool>("switch"))
XYOccupancyMap = ibooker.bookProfile2D("OccupancyInXY",
"OccupancyInXY",
Parameters.getParameter<int32_t>("Nxbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"),
Parameters.getParameter<int32_t>("Nybins"),
Parameters.getParameter<double>("ymin"),
Parameters.getParameter<double>("ymax"),
ParametersOcc.getParameter<double>("xmin"),
ParametersOcc.getParameter<double>("xmax"));
else
XYOccupancyMap = nullptr;
Parameters = config_.getParameter<edm::ParameterSet>("RZPositionMapH");
if (Parameters.getParameter<bool>("switch"))
RZPositionMap = ibooker.book2D("DigiRPosVsZPos",
"DigiRPosVsZPos",
Parameters.getParameter<int32_t>("Nxbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"),
Parameters.getParameter<int32_t>("Nybins"),
Parameters.getParameter<double>("ymin"),
Parameters.getParameter<double>("ymax"));
else
RZPositionMap = nullptr;
if (Parameters.getParameter<bool>("switch") && ParametersOcc.getParameter<bool>("switch"))
RZOccupancyMap = ibooker.bookProfile2D("OccupancyInRZ",
"OccupancyInRZ",
Parameters.getParameter<int32_t>("Nxbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"),
Parameters.getParameter<int32_t>("Nybins"),
Parameters.getParameter<double>("ymin"),
Parameters.getParameter<double>("ymax"),
ParametersOcc.getParameter<double>("xmin"),
ParametersOcc.getParameter<double>("xmax"));
else
RZOccupancyMap = nullptr;
}
//
// -- Book Layer Histograms
//
void Phase2TrackerMonitorDigi::bookLayerHistos(DQMStore::IBooker& ibooker, unsigned int det_id) {
int layer;
if (pixelFlag_)
layer = tTopo_->getITPixelLayerNumber(det_id);
else
layer = tTopo_->getOTLayerNumber(det_id);
if (layer < 0)
return;
std::string key = getHistoId(det_id, pixelFlag_);
std::map<std::string, DigiMEs>::iterator pos = layerMEs.find(key);
if (pos == layerMEs.end()) {
std::string top_folder = config_.getParameter<std::string>("TopFolderName");
std::stringstream folder_name;
//For endCap: P-type sensors are present only upto ring 10 for discs 1&2 (TEDD-1) and upto ring 7 for discs 3,4&5 (TEDD-2)
bool isPStypeModForTEDD_1 =
(!pixelFlag_ && layer > 100 && tTopo_->tidWheel(det_id) < 3 && tTopo_->tidRing(det_id) <= 10) ? true : false;
bool isPStypeModForTEDD_2 =
(!pixelFlag_ && layer > 100 && tTopo_->tidWheel(det_id) >= 3 && tTopo_->tidRing(det_id) <= 7) ? true : false;
bool isPtypeSensor =
(pixelFlag_ || (layer < 4 || (layer > 6 && (isPStypeModForTEDD_1 || isPStypeModForTEDD_2)))) ? true : false;
ibooker.cd();
ibooker.setCurrentFolder(top_folder + "/DigiMonitor/" + key);
LogDebug("Phase2TrackerMonitorDigi") << " Booking Histograms in : " << key;
std::ostringstream HistoName;
DigiMEs local_mes;
local_mes.nDigiPerLayer = 0;
local_mes.nHitDetsPerLayer = 0;
edm::ParameterSet Parameters = config_.getParameter<edm::ParameterSet>("NumberOfDigisPerDetH");
edm::ParameterSet EtaParameters = config_.getParameter<edm::ParameterSet>("EtaH");
HistoName.str("");
HistoName << "NumberOfDigisPerDet";
if (Parameters.getParameter<bool>("switch"))
local_mes.NumberOfDigisPerDet = ibooker.book1D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"));
else
local_mes.NumberOfDigisPerDet = nullptr;
Parameters = config_.getParameter<edm::ParameterSet>("TotalNumberOfDigisPerLayerH");
HistoName.str("");
HistoName << "TotalNumberOfDigisPerLayer";
if (Parameters.getParameter<bool>("switch"))
local_mes.TotalNumberOfDigisPerLayer = ibooker.book1D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"));
else
local_mes.TotalNumberOfDigisPerLayer = nullptr;
Parameters = config_.getParameter<edm::ParameterSet>("NumberOfHitDetsPerLayerH");
HistoName.str("");
HistoName << "NumberOfHitDetectorsPerLayer";
if (Parameters.getParameter<bool>("switch"))
local_mes.NumberOfHitDetectorsPerLayer = ibooker.book1D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"));
else
local_mes.NumberOfHitDetectorsPerLayer = nullptr;
// Plots only for the inner pixel
if (pixelFlag_) {
Parameters = config_.getParameter<edm::ParameterSet>("ChargeXYMapH");
HistoName.str("");
HistoName << "ChargeXYMap";
if (Parameters.getParameter<bool>("switch"))
local_mes.ChargeXYMap = ibooker.book2D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nxbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"),
Parameters.getParameter<int32_t>("Nybins"),
Parameters.getParameter<double>("ymin"),
Parameters.getParameter<double>("ymax"));
else
local_mes.ChargeXYMap = nullptr;
Parameters = config_.getParameter<edm::ParameterSet>("DigiChargeH");
HistoName.str("");
HistoName << "ChargeOfDigis";
if (Parameters.getParameter<bool>("switch"))
local_mes.ChargeOfDigis = ibooker.book1D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"));
else
local_mes.ChargeOfDigis = nullptr;
// For standalone clusteriser
if (clsFlag_) {
edm::ParameterSet WidthParameters = config_.getParameter<edm::ParameterSet>("ClusterWidthH");
HistoName.str("");
HistoName << "ChargeOfDigisVsWidth";
if (Parameters.getParameter<bool>("switch") && WidthParameters.getParameter<bool>("switch"))
local_mes.ChargeOfDigisVsWidth = ibooker.book2D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"),
WidthParameters.getParameter<int32_t>("Nbins"),
WidthParameters.getParameter<double>("xmin"),
WidthParameters.getParameter<double>("xmax"));
else
local_mes.ChargeOfDigisVsWidth = nullptr;
}
}
// For outer tracker modules (S-type histograms)
else {
Parameters = config_.getParameter<edm::ParameterSet>("DigiOccupancySH");
HistoName.str("");
HistoName << "DigiOccupancyS";
if (Parameters.getParameter<bool>("switch"))
local_mes.DigiOccupancyS = ibooker.book1D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"));
else
local_mes.DigiOccupancyS = nullptr;
HistoName.str("");
HistoName << "DigiOccupancyVsEtaS";
if (Parameters.getParameter<bool>("switch") && EtaParameters.getParameter<bool>("switch"))
local_mes.EtaOccupancyProfS = ibooker.bookProfile(HistoName.str(),
HistoName.str(),
EtaParameters.getParameter<int32_t>("Nbins"),
EtaParameters.getParameter<double>("xmin"),
EtaParameters.getParameter<double>("xmax"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"),
"");
else
local_mes.EtaOccupancyProfS = nullptr;
Parameters = config_.getParameter<edm::ParameterSet>("PositionOfDigisSH");
HistoName.str("");
HistoName << "PositionOfDigisS";
if (Parameters.getParameter<bool>("switch"))
local_mes.PositionOfDigisS = ibooker.book2D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nxbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"),
Parameters.getParameter<int32_t>("Nybins"),
Parameters.getParameter<double>("ymin"),
Parameters.getParameter<double>("ymax"));
else
local_mes.PositionOfDigisS = nullptr;
// For standalone clusteriser
if (clsFlag_) {
Parameters = config_.getParameter<edm::ParameterSet>("ClusterPositionSH");
HistoName.str("");
HistoName << "ClusterPositionS";
if (Parameters.getParameter<bool>("switch"))
local_mes.ClusterPositionS = ibooker.book2D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nxbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"),
Parameters.getParameter<int32_t>("Nybins"),
Parameters.getParameter<double>("ymin"),
Parameters.getParameter<double>("ymax"));
else
local_mes.ClusterPositionS = nullptr;
}
// Only for the S-type sensor of PS module
// FracOfOverThresholdBits is only available for S-type sensor of PS module
if (isPStypeModForTEDD_1 || isPStypeModForTEDD_2) {
HistoName.str("");
HistoName << "FractionOfOverThresholdDigis";
local_mes.FractionOfOvTBits = ibooker.book1D(HistoName.str(), HistoName.str(), 11, -0.05, 1.05);
Parameters = config_.getParameter<edm::ParameterSet>("NumberOfDigisPerDetH");
HistoName.str("");
HistoName << "FractionOfOverThresholdDigisVaEta";
if (Parameters.getParameter<bool>("switch") && EtaParameters.getParameter<bool>("switch"))
local_mes.FractionOfOvTBitsVsEta = ibooker.bookProfile(HistoName.str(),
HistoName.str(),
EtaParameters.getParameter<int32_t>("Nbins"),
EtaParameters.getParameter<double>("xmin"),
EtaParameters.getParameter<double>("xmax"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"),
"");
else
local_mes.FractionOfOvTBitsVsEta = nullptr;
}
}
// Plots for P-type sensor (Pixel or P-side of PS module)
if (isPtypeSensor) {
Parameters = config_.getParameter<edm::ParameterSet>("DigiOccupancyPH");
HistoName.str("");
HistoName << "DigiOccupancyP";
if (Parameters.getParameter<bool>("switch"))
local_mes.DigiOccupancyP = ibooker.book1D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"));
else
local_mes.DigiOccupancyP = nullptr;
HistoName.str("");
HistoName << "DigiOccupancyVsEtaP";
if (Parameters.getParameter<bool>("switch") && EtaParameters.getParameter<bool>("switch"))
local_mes.EtaOccupancyProfP = ibooker.bookProfile(HistoName.str(),
HistoName.str(),
EtaParameters.getParameter<int32_t>("Nbins"),
EtaParameters.getParameter<double>("xmin"),
EtaParameters.getParameter<double>("xmax"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"),
"");
else
local_mes.EtaOccupancyProfP = nullptr;
Parameters = config_.getParameter<edm::ParameterSet>("PositionOfDigisPH");
HistoName.str("");
HistoName << "PositionOfDigisP";
if (Parameters.getParameter<bool>("switch"))
local_mes.PositionOfDigisP = ibooker.book2D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nxbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"),
Parameters.getParameter<int32_t>("Nybins"),
Parameters.getParameter<double>("ymin"),
Parameters.getParameter<double>("ymax"));
else
local_mes.PositionOfDigisP = nullptr;
if (clsFlag_) {
Parameters = config_.getParameter<edm::ParameterSet>("ClusterPositionPH");
HistoName.str("");
HistoName << "ClusterPositionP";
if (Parameters.getParameter<bool>("switch"))
local_mes.ClusterPositionP = ibooker.book2D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nxbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"),
Parameters.getParameter<int32_t>("Nybins"),
Parameters.getParameter<double>("ymin"),
Parameters.getParameter<double>("ymax"));
else
local_mes.ClusterPositionP = nullptr;
}
}
// Plots for Standalone clusters (Can be switched on from configs)
if (clsFlag_) {
Parameters = config_.getParameter<edm::ParameterSet>("NumberOfClustersPerDetH");
HistoName.str("");
HistoName << "NumberOfClustersPerDet";
if (Parameters.getParameter<bool>("switch"))
local_mes.NumberOfClustersPerDet = ibooker.book1D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"));
else
local_mes.NumberOfClustersPerDet = nullptr;
Parameters = config_.getParameter<edm::ParameterSet>("ClusterWidthH");
HistoName.str("");
HistoName << "ClusterWidth";
if (Parameters.getParameter<bool>("switch"))
local_mes.ClusterWidth = ibooker.book1D(HistoName.str(),
HistoName.str(),
Parameters.getParameter<int32_t>("Nbins"),
Parameters.getParameter<double>("xmin"),
Parameters.getParameter<double>("xmax"));
else
local_mes.ClusterWidth = nullptr;
}
layerMEs.insert(std::make_pair(key, local_mes));
}
}
std::string Phase2TrackerMonitorDigi::getHistoId(uint32_t det_id, bool flag) {
if (flag)
return phase2tkutil::getITHistoId(det_id, tTopo_);
else
return phase2tkutil::getOTHistoId(det_id, tTopo_);
}
void Phase2TrackerMonitorDigi::fillDigiClusters(DigiMEs& mes, std::vector<Ph2DigiCluster>& digi_clusters) {
int nclus = digi_clusters.size();
if (mes.NumberOfClustersPerDet)
mes.NumberOfClustersPerDet->Fill(nclus);
for (auto& iclus : digi_clusters) {
if (mes.ClusterWidth)
mes.ClusterWidth->Fill(iclus.width);
if (pixelFlag_ && mes.ChargeOfDigisVsWidth)
mes.ChargeOfDigisVsWidth->Fill(iclus.charge, iclus.width);
if (mes.ClusterPositionP)
mes.ClusterPositionP->Fill(iclus.position, iclus.column + 1);
if (!pixelFlag_ && mes.ClusterPositionS && iclus.column <= 2)
mes.ClusterPositionS->Fill(iclus.position, iclus.column + 1);
}
}
//define this as a plug-in
DEFINE_FWK_MODULE(Phase2TrackerMonitorDigi);
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