phot::PhotonLibraryAnalyzer Class Reference

Inheritance diagram for phot::PhotonLibraryAnalyzer:

Public Types
using	ModuleType = EDAnalyzer

Public Member Functions
	PhotonLibraryAnalyzer (fhicl::ParameterSet const &pset)
void	beginJob ()
void	analyze (const art::Event &evt)
void	doBeginJob (SharedResources const &resources)
void	doEndJob ()
void	doRespondToOpenInputFile (FileBlock const &fb)
void	doRespondToCloseInputFile (FileBlock const &fb)
void	doRespondToOpenOutputFiles (FileBlock const &fb)
void	doRespondToCloseOutputFiles (FileBlock const &fb)
bool	doBeginRun (RunPrincipal &rp, ModuleContext const &mc)
bool	doEndRun (RunPrincipal &rp, ModuleContext const &mc)
bool	doBeginSubRun (SubRunPrincipal &srp, ModuleContext const &mc)
bool	doEndSubRun (SubRunPrincipal &srp, ModuleContext const &mc)
bool	doEvent (EventPrincipal &ep, ModuleContext const &mc, std::atomic< std::size_t > &counts_run, std::atomic< std::size_t > &counts_passed, std::atomic< std::size_t > &counts_failed)
ModuleDescription const &	moduleDescription () const
void	setModuleDescription (ModuleDescription const &)
std::array< std::vector< ProductInfo >, NumBranchTypes > const &	getConsumables () const
void	sortConsumables (std::string const &current_process_name)
std::unique_ptr< Worker >	makeWorker (WorkerParams const &wp)
template<typename T , BranchType BT>
ViewToken< T >	consumesView (InputTag const &tag)
template<typename T , BranchType BT>
ViewToken< T >	mayConsumeView (InputTag const &tag)

Protected Member Functions
std::string const &	processName () const
bool	wantAllEvents () const noexcept
bool	wantEvent (ScheduleID id, Event const &e) const
Handle< TriggerResults >	getTriggerResults (Event const &e) const
ConsumesCollector &	consumesCollector ()
template<typename T , BranchType = InEvent>
ProductToken< T >	consumes (InputTag const &)
template<typename Element , BranchType = InEvent>
ViewToken< Element >	consumesView (InputTag const &)
template<typename T , BranchType = InEvent>
void	consumesMany ()
template<typename T , BranchType = InEvent>
ProductToken< T >	mayConsume (InputTag const &)
template<typename Element , BranchType = InEvent>
ViewToken< Element >	mayConsumeView (InputTag const &)
template<typename T , BranchType = InEvent>
void	mayConsumeMany ()

Private Attributes
std::string	fAltXAxis
int	fOpDet
bool	fEachSlice
bool	fEachDetector

Detailed Description

Definition at line 28 of file PhotonLibraryAnalyzer_module.cc.

Member Typedef Documentation

using art::EDAnalyzer::ModuleType = EDAnalyzer

inherited

Definition at line 22 of file EDAnalyzer.h.

Constructor & Destructor Documentation

phot::PhotonLibraryAnalyzer::PhotonLibraryAnalyzer ( fhicl::ParameterSet const &  pset )

explicit

Definition at line 51 of file PhotonLibraryAnalyzer_module.cc.

References fEachDetector, fEachSlice, fOpDet, and fhicl::ParameterSet::get().

    : EDAnalyzer(pset)
    , fAltXAxis{pset.get<std::string>("alt_x_axis")}
    , fOpDet{pset.get<int>("opdet")}
    , fEachSlice{pset.get<bool>("each_slice")}
    , fEachDetector{pset.get<bool>("each_detector")}
  {
    std::cout << "Photon library analyzer constructor " << std::endl;
  }

Member Function Documentation

void phot::PhotonLibraryAnalyzer::analyze

(

const art::Event &

evt

)

Definition at line 253 of file PhotonLibraryAnalyzer_module.cc.

References DEFINE_ART_MODULE.

{}

void phot::PhotonLibraryAnalyzer::beginJob ( )

virtual

Reimplemented from art::EDAnalyzer.

Definition at line 62 of file PhotonLibraryAnalyzer_module.cc.

References fAltXAxis, fEachDetector, fEachSlice, Fill(), fOpDet, sim::PhotonVoxelDef::GetNVoxels(), sim::PhotonVoxelDef::GetRegionLowerCorner(), sim::PhotonVoxelDef::GetRegionUpperCorner(), sim::PhotonVoxelDef::GetSteps(), sim::PhotonVoxelDef::GetVoxelCoords(), and lar::dump::vector3D().

  {
    mf::LogInfo("PhotonLibraryAnalyzer") << "Analyzing photon library - begin" << std::endl;

    art::ServiceHandle<art::TFileService const> tfs;
    art::ServiceHandle<PhotonVisibilityService const> pvs;
    art::ServiceHandle<geo::Geometry const> geom;

    int NOpDet = pvs->NOpChannels();

    sim::PhotonVoxelDef TheVoxelDef = pvs->GetVoxelDef();
    auto const& UpperCorner = TheVoxelDef.GetRegionUpperCorner();
    auto const& LowerCorner = TheVoxelDef.GetRegionLowerCorner();

    mf::LogInfo("PhotonLibraryAnalyzer")
      << "UpperCorner: " << lar::dump::vector3D(UpperCorner) << "\n"
      << "LowerCorner: " << lar::dump::vector3D(LowerCorner);

    auto const [XSteps, YSteps, ZSteps] = TheVoxelDef.GetSteps(); // unsigned int

    // for c2: FullVolume is unused, just call tfs->make
    // TH3D *FullVolume = tfs->make<TH3D>("FullVolume","FullVolume",
    tfs->make<TH3D>("FullVolume",
                    "FullVolume",
                    XSteps,
                    LowerCorner.X(),
                    UpperCorner.X(),
                    YSteps,
                    LowerCorner.Y(),
                    UpperCorner.Y(),
                    ZSteps,
                    LowerCorner.Z(),
                    UpperCorner.Z());

    int reportnum = 10000;

    int newX, newY;
    if (fAltXAxis == "Z") {
      newX = 2; // Z
      newY = 1; // Y
    }
    else {
      newX = 1; // Y
      newY = 2; // Z
    }

    mf::LogInfo("PhotonLibraryAnalyzer")
      << "Analyzing photon library - making historams" << std::endl;

    TH2D* XProjection;
    if (fAltXAxis == "Z")
      XProjection =
        tfs->make<TH2D>("XProjection", "XProjection", ZSteps, 0, ZSteps, YSteps, 0, YSteps);
    else
      XProjection =
        tfs->make<TH2D>("XProjection", "XProjection", YSteps, 0, YSteps, ZSteps, 0, ZSteps);
    TH2D* YProjection =
      tfs->make<TH2D>("YProjection", "YProjection", XSteps, 0, XSteps, ZSteps, 0, ZSteps);
    TH2D* ZProjection =
      tfs->make<TH2D>("ZProjection", "ZProjection", XSteps, 0, XSteps, YSteps, 0, YSteps);

    //    TH1D * PMTsNoVisibility = tfs->make<TH1D>("PMTsNoVisibility","PMTsNoVisibility", NOpDet,0,NOpDet);

    TH1D* VisByN = tfs->make<TH1D>("VisByN", "VisByN", NOpDet, 0, NOpDet);

    TH2D* XInvisibles;
    if (fAltXAxis == "Z")
      XInvisibles =
        tfs->make<TH2D>("XInvisibles", "XInvisibles", ZSteps, 0, ZSteps, YSteps, 0, YSteps);
    else
      XInvisibles =
        tfs->make<TH2D>("XInvisibles", "XInvisibles", YSteps, 0, YSteps, ZSteps, 0, ZSteps);
    TH2D* YInvisibles =
      tfs->make<TH2D>("YInvisibles", "YInvisibles", XSteps, 0, XSteps, ZSteps, 0, ZSteps);
    TH2D* ZInvisibles =
      tfs->make<TH2D>("ZInvisibles", "ZInvisibles", XSteps, 0, XSteps, YSteps, 0, YSteps);

    std::vector<TH2D*> TheXCrossSections;
    std::vector<TH2D*> TheYCrossSections;
    std::vector<TH2D*> TheZCrossSections;
    if (fEachSlice) {

      for (unsigned int i = 0; i != XSteps; ++i) {
        std::stringstream ss("");
        ss.flush();
        ss << "projX" << i;
        if (fAltXAxis == "Z")
          TheXCrossSections.push_back(tfs->make<TH2D>(
            ss.str().c_str(), ss.str().c_str(), ZSteps, 0, ZSteps, YSteps, 0, YSteps));
        else
          TheXCrossSections.push_back(tfs->make<TH2D>(
            ss.str().c_str(), ss.str().c_str(), YSteps, 0, YSteps, ZSteps, 0, ZSteps));
      }

      for (unsigned int i = 0; i != YSteps; ++i) {
        std::stringstream ss("");
        ss.flush();
        ss << "projY" << i;
        TheYCrossSections.push_back(tfs->make<TH2D>(
          ss.str().c_str(), ss.str().c_str(), XSteps, 0, XSteps, ZSteps, 0, ZSteps));
      }

      for (unsigned int i = 0; i != ZSteps; ++i) {
        std::stringstream ss("");
        ss.flush();
        ss << "projZ" << i;
        TheZCrossSections.push_back(tfs->make<TH2D>(
          ss.str().c_str(), ss.str().c_str(), XSteps, 0, XSteps, YSteps, 0, YSteps));
      }
    }

    std::vector<TH2D*> TheXProjections;
    std::vector<TH2D*> TheYProjections;
    std::vector<TH2D*> TheZProjections;

    if (fEachDetector) {

      mf::LogInfo("PhotonLibraryAnalyzer")
        << "Making projections for each of " << NOpDet << " photon detectors" << std::endl;

      for (int i = 0; i < NOpDet; ++i) {
        char ss[99];

        sprintf(ss, "ProjXOpDet%d", i);
        if (fAltXAxis == "Z")
          TheXProjections.push_back(tfs->make<TH2D>(ss, ss, ZSteps, 0, ZSteps, YSteps, 0, YSteps));
        else
          TheXProjections.push_back(tfs->make<TH2D>(ss, ss, YSteps, 0, YSteps, ZSteps, 0, ZSteps));

        sprintf(ss, "ProjYOpDet%d", i);
        TheYProjections.push_back(tfs->make<TH2D>(ss, ss, XSteps, 0, XSteps, ZSteps, 0, ZSteps));

        sprintf(ss, "ProjZOpDet%d", i);
        TheZProjections.push_back(tfs->make<TH2D>(ss, ss, XSteps, 0, XSteps, YSteps, 0, YSteps));
      }
    }

    mf::LogInfo("PhotonLibraryAnalyzer")
      << "Analyzing photon library - running through voxels " << std::endl;

    for (unsigned int i = 0; i != TheVoxelDef.GetNVoxels(); ++i) {
      if (i % reportnum == 0) std::cout << "Photon library analyzer at voxel " << i << std::endl;

      auto const Coords = TheVoxelDef.GetVoxelCoords(i);

      const float* Visibilities = pvs->GetLibraryEntries(i);
      size_t NOpChannels = pvs->NOpChannels();

      float TotalVis = 0;
      if (fOpDet < 0) {
        for (size_t ichan = 0; ichan != NOpChannels; ++ichan) {
          TotalVis += Visibilities[ichan];
        }
      }
      else {
        TotalVis = Visibilities[fOpDet];
      }

      VisByN->Fill(NOpChannels);

      if (TotalVis == 0) {
        XInvisibles->Fill(Coords[newX], Coords[newY]);
        YInvisibles->Fill(Coords[0], Coords[2]);
        ZInvisibles->Fill(Coords[0], Coords[1]);
      }

      if (fEachSlice) {
        TheXCrossSections.at(Coords.at(0))->Fill(Coords[newX], Coords[newY], TotalVis);
        TheYCrossSections.at(Coords.at(1))->Fill(Coords[0], Coords[2], TotalVis);
        TheZCrossSections.at(Coords.at(2))->Fill(Coords[0], Coords[1], TotalVis);
      }

      if (fEachDetector) {
        for (size_t ichan = 0; ichan != NOpChannels; ++ichan) {
          TheXProjections.at(ichan)->Fill(Coords[newX], Coords[newY], Visibilities[ichan]);
          TheYProjections.at(ichan)->Fill(Coords[0], Coords[2], Visibilities[ichan]);
          TheZProjections.at(ichan)->Fill(Coords[0], Coords[1], Visibilities[ichan]);
        }
      }

      // Always make the summed projections
      XProjection->Fill(Coords[newX], Coords[newY], TotalVis);
      YProjection->Fill(Coords[0], Coords[2], TotalVis);
      ZProjection->Fill(Coords[0], Coords[1], TotalVis);
    }

    mf::LogInfo("PhotonLibraryAnalyzer") << "Analyzing photon library - end" << std::endl;
  }

template<typename T , BranchType BT>

ProductToken< T > art::ModuleBase::consumes ( InputTag const &  tag )

protectedinherited

Definition at line 61 of file ModuleBase.h.

References art::ModuleBase::collector_, and art::ConsumesCollector::consumes().

  {
    return collector_.consumes<T, BT>(tag);
  }

ConsumesCollector & art::ModuleBase::consumesCollector ( )

protectedinherited

Definition at line 57 of file ModuleBase.cc.

References art::ModuleBase::collector_.

  {
    return collector_;
  }

template<typename T , BranchType BT>

void art::ModuleBase::consumesMany ( )

protectedinherited

Definition at line 75 of file ModuleBase.h.

References art::ModuleBase::collector_, and art::ConsumesCollector::consumesMany().

  {
    collector_.consumesMany<T, BT>();
  }

template<typename Element , BranchType = InEvent>

ViewToken<Element> art::ModuleBase::consumesView ( InputTag const &  )

protectedinherited

template<typename T , BranchType BT>

ViewToken<T> art::ModuleBase::consumesView ( InputTag const &  tag )

inherited

Definition at line 68 of file ModuleBase.h.

References art::ModuleBase::collector_, and art::ConsumesCollector::consumesView().

  {
    return collector_.consumesView<T, BT>(tag);
  }

void art::detail::Analyzer::doBeginJob ( SharedResources const &  resources )

inherited

Definition at line 25 of file Analyzer.cc.

Referenced by art::detail::Analyzer::Analyzer().

  {
    setupQueues(resources);
    ProcessingFrame const frame{ScheduleID{}};
    beginJobWithFrame(frame);
  }

bool art::detail::Analyzer::doBeginRun ( RunPrincipal &  rp, ModuleContext const &  mc  )

inherited

Definition at line 68 of file Analyzer.cc.

References art::ModuleContext::scheduleID().

Referenced by art::detail::Analyzer::Analyzer().

  {
    ProcessingFrame const frame{mc.scheduleID()};
    beginRunWithFrame(std::as_const(rp).makeRun(mc), frame);
    return true;
  }

bool art::detail::Analyzer::doBeginSubRun ( SubRunPrincipal &  srp, ModuleContext const &  mc  )

inherited

Definition at line 84 of file Analyzer.cc.

References art::ModuleContext::scheduleID().

Referenced by art::detail::Analyzer::Analyzer().

  {
    ProcessingFrame const frame{mc.scheduleID()};
    beginSubRunWithFrame(std::as_const(srp).makeSubRun(mc), frame);
    return true;
  }

void art::detail::Analyzer::doEndJob ( )

inherited

Definition at line 33 of file Analyzer.cc.

Referenced by art::detail::Analyzer::Analyzer().

  {
    ProcessingFrame const frame{ScheduleID{}};
    endJobWithFrame(frame);
  }

bool art::detail::Analyzer::doEndRun ( RunPrincipal &  rp, ModuleContext const &  mc  )

inherited

Definition at line 76 of file Analyzer.cc.

References art::ModuleContext::scheduleID().

Referenced by art::detail::Analyzer::Analyzer().

  {
    ProcessingFrame const frame{mc.scheduleID()};
    endRunWithFrame(std::as_const(rp).makeRun(mc), frame);
    return true;
  }

bool art::detail::Analyzer::doEndSubRun ( SubRunPrincipal &  srp, ModuleContext const &  mc  )

inherited

Definition at line 92 of file Analyzer.cc.

References art::ModuleContext::scheduleID().

Referenced by art::detail::Analyzer::Analyzer().

  {
    ProcessingFrame const frame{mc.scheduleID()};
    endSubRunWithFrame(std::as_const(srp).makeSubRun(mc), frame);
    return true;
  }

bool art::detail::Analyzer::doEvent ( EventPrincipal &  ep, ModuleContext const &  mc, std::atomic< std::size_t > &  counts_run, std::atomic< std::size_t > &  counts_passed, std::atomic< std::size_t > &  counts_failed  )

inherited

Definition at line 100 of file Analyzer.cc.

References e, and art::ModuleContext::scheduleID().

Referenced by art::detail::Analyzer::Analyzer().

  {
    auto const e = std::as_const(ep).makeEvent(mc);
    if (wantEvent(mc.scheduleID(), e)) {
      ++counts_run;
      ProcessingFrame const frame{mc.scheduleID()};
      analyzeWithFrame(e, frame);
      ++counts_passed;
    }
    return true;
  }

void art::detail::Analyzer::doRespondToCloseInputFile ( FileBlock const &  fb )

inherited

Definition at line 47 of file Analyzer.cc.

Referenced by art::detail::Analyzer::Analyzer().

  {
    ProcessingFrame const frame{ScheduleID{}};
    respondToCloseInputFileWithFrame(fb, frame);
  }

void art::detail::Analyzer::doRespondToCloseOutputFiles ( FileBlock const &  fb )

inherited

Definition at line 61 of file Analyzer.cc.

Referenced by art::detail::Analyzer::Analyzer().

  {
    ProcessingFrame const frame{ScheduleID{}};
    respondToCloseOutputFilesWithFrame(fb, frame);
  }

void art::detail::Analyzer::doRespondToOpenInputFile ( FileBlock const &  fb )

inherited

Definition at line 40 of file Analyzer.cc.

Referenced by art::detail::Analyzer::Analyzer().

  {
    ProcessingFrame const frame{ScheduleID{}};
    respondToOpenInputFileWithFrame(fb, frame);
  }

void art::detail::Analyzer::doRespondToOpenOutputFiles ( FileBlock const &  fb )

inherited

Definition at line 54 of file Analyzer.cc.

Referenced by art::detail::Analyzer::Analyzer().

  {
    ProcessingFrame const frame{ScheduleID{}};
    respondToOpenOutputFilesWithFrame(fb, frame);
  }

std::array< std::vector< ProductInfo >, NumBranchTypes > const & art::ModuleBase::getConsumables ( ) const

inherited

Definition at line 43 of file ModuleBase.cc.

References art::ModuleBase::collector_, and art::ConsumesCollector::getConsumables().

  {
    return collector_.getConsumables();
  }

Handle< TriggerResults > art::Observer::getTriggerResults ( Event const &  e ) const

protectedinherited

Definition at line 75 of file Observer.cc.

References art::ProductRetriever::get(), and art::Observer::selectors_.

Referenced by art::OutputModule::doWriteEvent(), and art::Observer::wantAllEvents().

  {
    if (selectors_) {
      return selectors_->getOneTriggerResults(e);
    }

    // The following applies for cases where no SelectEvents entries
    // exist.
    Handle<TriggerResults> h;
    if (e.get(empty_process_name, h)) {
      return h;
    }
    return Handle<TriggerResults>{};
  }

std::unique_ptr< Worker > art::ModuleBase::makeWorker ( WorkerParams const &  wp )

inherited

Definition at line 37 of file ModuleBase.cc.

References art::ModuleBase::doMakeWorker(), and art::NumBranchTypes.

  {
    return doMakeWorker(wp);
  }

template<typename T , BranchType BT>

ProductToken< T > art::ModuleBase::mayConsume ( InputTag const &  tag )

protectedinherited

Definition at line 82 of file ModuleBase.h.

References art::ModuleBase::collector_, and art::ConsumesCollector::mayConsume().

  {
    return collector_.mayConsume<T, BT>(tag);
  }

template<typename T , BranchType BT>

void art::ModuleBase::mayConsumeMany ( )

protectedinherited

Definition at line 96 of file ModuleBase.h.

References art::ModuleBase::collector_, and art::ConsumesCollector::mayConsumeMany().

  {
    collector_.mayConsumeMany<T, BT>();
  }

template<typename Element , BranchType = InEvent>

ViewToken<Element> art::ModuleBase::mayConsumeView ( InputTag const &  )

protectedinherited

template<typename T , BranchType BT>

ViewToken<T> art::ModuleBase::mayConsumeView ( InputTag const &  tag )

inherited

Definition at line 89 of file ModuleBase.h.

References art::ModuleBase::collector_, and art::ConsumesCollector::mayConsumeView().

  {
    return collector_.mayConsumeView<T, BT>(tag);
  }

ModuleDescription const & art::ModuleBase::moduleDescription ( ) const

inherited

Definition at line 13 of file ModuleBase.cc.

References art::errors::LogicError.

Referenced by art::OutputModule::doRespondToOpenInputFile(), art::OutputModule::doWriteEvent(), art::Modifier::fillProductDescriptions(), art::OutputModule::makePlugins_(), art::OutputWorker::OutputWorker(), reco::shower::LArPandoraModularShowerCreation::produce(), art::Modifier::registerProducts(), and art::OutputModule::registerProducts().

  {
    if (md_.has_value()) {
      return *md_;
    }

    throw Exception{errors::LogicError,
                    "There was an error while calling moduleDescription().\n"}
      << "The moduleDescription() base-class member function cannot be called\n"
         "during module construction.  To determine which module is "
         "responsible\n"
         "for calling it, find the '<module type>:<module "
         "label>@Construction'\n"
         "tag in the message prefix above.  Please contact artists@fnal.gov\n"
         "for guidance.\n";
  }

string const & art::Observer::processName ( ) const

protectedinherited

Definition at line 57 of file Observer.cc.

References art::Observer::process_name_.

Referenced by art::FileDumperOutput::printPrincipal().

  {
    return process_name_;
  }

void art::ModuleBase::setModuleDescription ( ModuleDescription const &  md )

inherited

Definition at line 31 of file ModuleBase.cc.

References art::ModuleBase::md_.

  {
    md_ = md;
  }

void art::ModuleBase::sortConsumables ( std::string const &  current_process_name )

inherited

Definition at line 49 of file ModuleBase.cc.

References art::ModuleBase::collector_, and art::ConsumesCollector::sortConsumables().

  {
    // Now that we know we have seen all the consumes declarations,
    // sort the results for fast lookup later.
    collector_.sortConsumables(current_process_name);
  }

bool art::Observer::wantAllEvents ( ) const

inlineprotectednoexceptinherited

Definition at line 31 of file Observer.h.

References e, art::Observer::getTriggerResults(), art::Observer::wantAllEvents_, and art::Observer::wantEvent().

    {
      return wantAllEvents_;
    }

bool art::Observer::wantEvent ( ScheduleID  id, Event const &  e  ) const

protectedinherited

Definition at line 63 of file Observer.cc.

References art::Observer::rejectors_, art::Observer::selectors_, and art::Observer::wantAllEvents_.

Referenced by art::OutputModule::doEvent(), art::OutputModule::doWriteEvent(), and art::Observer::wantAllEvents().

  {
    if (wantAllEvents_) {
      return true;
    }
    bool const select_event = selectors_ ? selectors_->matchEvent(id, e) : true;
    bool const reject_event =
      rejectors_ ? rejectors_->matchEvent(id, e) : false;
    return select_event and not reject_event;
  }

Member Data Documentation

std::string phot::PhotonLibraryAnalyzer::fAltXAxis

private

Definition at line 40 of file PhotonLibraryAnalyzer_module.cc.

Referenced by beginJob().

bool phot::PhotonLibraryAnalyzer::fEachDetector

private

Definition at line 43 of file PhotonLibraryAnalyzer_module.cc.

Referenced by beginJob(), and PhotonLibraryAnalyzer().

bool phot::PhotonLibraryAnalyzer::fEachSlice

private

Definition at line 42 of file PhotonLibraryAnalyzer_module.cc.

Referenced by beginJob(), and PhotonLibraryAnalyzer().

int phot::PhotonLibraryAnalyzer::fOpDet

private

Definition at line 41 of file PhotonLibraryAnalyzer_module.cc.

Referenced by beginJob(), and PhotonLibraryAnalyzer().

---

The documentation for this class was generated from the following file:

• larsim/v09_43_00/source/larsim/PhotonPropagation/PhotonLibraryAnalyzer_module.cc