caldata::CalWire Class Reference

Inheritance diagram for caldata::CalWire:

Public Types
using	ModuleType = EDProducer
using	WorkerType = WorkerT< EDProducer >
template<typename UserConfig , typename KeysToIgnore = void>
using	Table = ProducerBase::Table< UserConfig, KeysToIgnore >

Public Member Functions
	CalWire (fhicl::ParameterSet const &pset)
virtual	~CalWire ()
void	produce (art::Event &evt)
void	beginJob ()
void	endJob ()
void	reconfigure (fhicl::ParameterSet const &p)
template<typename PROD , BranchType B = InEvent>
ProductID	getProductID (std::string const &instanceName={}) const
template<typename PROD , BranchType B>
ProductID	getProductID (ModuleDescription const &moduleDescription, std::string const &instanceName) const
bool	modifiesEvent () const
template<typename T , BranchType = InEvent>
ProductToken< T >	consumes (InputTag const &)
template<typename T , art::BranchType BT>
art::ProductToken< T >	consumes (InputTag const &it)
template<typename T , BranchType = InEvent>
void	consumesMany ()
template<typename Element , BranchType = InEvent>
ViewToken< Element >	consumesView (InputTag const &)
template<typename T , art::BranchType BT>
art::ViewToken< T >	consumesView (InputTag const &it)
template<typename T , BranchType = InEvent>
ProductToken< T >	mayConsume (InputTag const &)
template<typename T , art::BranchType BT>
art::ProductToken< T >	mayConsume (InputTag const &it)
template<typename T , BranchType = InEvent>
void	mayConsumeMany ()
template<typename Element , BranchType = InEvent>
ViewToken< Element >	mayConsumeView (InputTag const &)
template<typename T , art::BranchType BT>
art::ViewToken< T >	mayConsumeView (InputTag const &it)
base_engine_t &	createEngine (seed_t seed)
base_engine_t &	createEngine (seed_t seed, std::string const &kind_of_engine_to_make)
base_engine_t &	createEngine (seed_t seed, std::string const &kind_of_engine_to_make, label_t const &engine_label)
seed_t	get_seed_value (fhicl::ParameterSet const &pset, char const key[]="seed", seed_t const implicit_seed=-1)

Static Public Member Functions
static cet::exempt_ptr< Consumer >	non_module_context ()

Protected Member Functions
CurrentProcessingContext const *	currentContext () const
void	validateConsumedProduct (BranchType const bt, ProductInfo const &pi)
void	prepareForJob (fhicl::ParameterSet const &pset)
void	showMissingConsumes () const

Private Attributes
std::string	fResponseFile
int	fExpEndBins
	number of end bins to consider for tail fit More...
int	fPostsample
	number of postsample bins More...
std::string	fDigitModuleLabel
	module that made digits More...
std::vector< std::vector< TComplex > >	fKernelR
std::vector< std::vector< TComplex > >	fKernelS
std::vector< double >	fDecayConstsR
std::vector< double >	fDecayConstsS
std::vector< int >	fKernMapR
std::vector< int >	fKernMapS

Detailed Description

Definition at line 45 of file CalWire_module.cc.

Member Typedef Documentation

using art::EDProducer::ModuleType = EDProducer

inherited

Definition at line 34 of file EDProducer.h.

template<typename UserConfig , typename KeysToIgnore = void>

using art::EDProducer::Table = ProducerBase::Table<UserConfig, KeysToIgnore>

inherited

Definition at line 43 of file EDProducer.h.

using art::EDProducer::WorkerType = WorkerT<EDProducer>

inherited

Definition at line 35 of file EDProducer.h.

Constructor & Destructor Documentation

caldata::CalWire::CalWire ( fhicl::ParameterSet const &  pset )

explicit

Definition at line 89 of file CalWire_module.cc.

References reconfigure().

  {
    this->reconfigure(pset);
    
    produces< std::vector<recob::Wire> >();
    produces<art::Assns<raw::RawDigit, recob::Wire>>();
    
  }

caldata::CalWire::~CalWire ( )

virtual

Definition at line 99 of file CalWire_module.cc.

  {
  }

Member Function Documentation

void caldata::CalWire::beginJob ( )

virtual

Reimplemented from art::EDProducer.

Definition at line 114 of file CalWire_module.cc.

References bin, f, fDecayConstsR, fDecayConstsS, fKernelR, fKernelS, fKernMapR, fKernMapS, fResponseFile, and LOG_DEBUG.

  {  
    
    LOG_DEBUG("CalWire") << "CalWire_plugin: Opening  Electronics Response File: " 
                         << fResponseFile.c_str();
    
    TFile f(fResponseFile.c_str());
    if( f.IsZombie() )
      mf::LogWarning("CalWire") << "Cannot open response file " 
                                << fResponseFile.c_str();
    
    TH2D *respRe       = dynamic_cast<TH2D*>(f.Get("real/RespRe")   );
    TH2D *respIm       = dynamic_cast<TH2D*>(f.Get("real/RespIm")   );
    TH1D *decayHist    = dynamic_cast<TH1D*>(f.Get("real/decayHist"));
    unsigned int wires = decayHist->GetNbinsX();
    unsigned int bins  = respRe->GetYaxis()->GetNbins();
    unsigned int bin   = 0;
    unsigned int wire  = 0;
    fDecayConstsR.resize(wires);
    fKernMapR.resize(wires);
    fKernelR.resize(respRe->GetXaxis()->GetNbins());
    const TArrayD *edges = respRe->GetXaxis()->GetXbins();
    for(int i = 0; i < respRe->GetXaxis()->GetNbins(); ++i)  {
      fKernelR[i].resize(bins);
      for(bin = 0; bin < bins; ++bin) {  
        
        const TComplex a(respRe->GetBinContent(i+1,bin+1), 
                         respIm->GetBinContent(i+1,bin+1));
        fKernelR[i][bin]=a;
      }
      for(; wire < (*edges)[i+1]; ++wire) {
        fKernMapR[wire]=i;
        fDecayConstsR[wire]=decayHist->GetBinContent(wire+1); 
      }
    }
    respRe       = dynamic_cast<TH2D*>(f.Get("sim/RespRe")   );
    respIm       = dynamic_cast<TH2D*>(f.Get("sim/RespIm")   );
    decayHist    = dynamic_cast<TH1D*>(f.Get("sim/decayHist"));
    wires = decayHist->GetNbinsX();
    bins  = respRe->GetYaxis()->GetNbins();
    fDecayConstsS.resize(wires);
    fKernMapS.resize(wires);
    fKernelS.resize(respRe->GetXaxis()->GetNbins()); 
    const TArrayD *edges1 = respRe->GetXaxis()->GetXbins();
    wire =0;
    for(int i = 0; i < respRe->GetXaxis()->GetNbins(); ++i)  {
      fKernelS[i].resize(bins);
      for(bin = 0; bin < bins; ++bin) {  
        const TComplex b(respRe->GetBinContent(i+1,bin+1), 
                         respIm->GetBinContent(i+1,bin+1));
        fKernelS[i][bin]=b;
      }
      for(; wire < (*edges1)[i+1]; ++wire) {
        fKernMapS[wire]=i;
        fDecayConstsS[wire]=decayHist->GetBinContent(wire+1); 
      }
    }
   
    f.Close();
  }

template<typename T , BranchType = InEvent>

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

inherited

template<typename T , art::BranchType BT>

art::ProductToken<T> art::Consumer::consumes ( InputTag const &  it )

inherited

Definition at line 147 of file Consumer.h.

References art::InputTag::instance(), art::InputTag::label(), and art::InputTag::process().

{
  if (!moduleContext_)
    return ProductToken<T>::invalid();

  consumables_[BT].emplace_back(ConsumableType::Product,
                                TypeID{typeid(T)},
                                it.label(),
                                it.instance(),
                                it.process());
  return ProductToken<T>{it};
}

template<typename T , art::BranchType BT>

void art::Consumer::consumesMany ( )

inherited

Definition at line 162 of file Consumer.h.

{
  if (!moduleContext_)
    return;

  consumables_[BT].emplace_back(ConsumableType::Many, TypeID{typeid(T)});
}

template<typename Element , BranchType = InEvent>

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

inherited

template<typename T , art::BranchType BT>

art::ViewToken<T> art::Consumer::consumesView ( InputTag const &  it )

inherited

Definition at line 172 of file Consumer.h.

References art::InputTag::instance(), art::InputTag::label(), and art::InputTag::process().

{
  if (!moduleContext_)
    return ViewToken<T>::invalid();

  consumables_[BT].emplace_back(ConsumableType::ViewElement,
                                TypeID{typeid(T)},
                                it.label(),
                                it.instance(),
                                it.process());
  return ViewToken<T>{it};
}

EngineCreator::base_engine_t & EngineCreator::createEngine ( seed_t  seed )

inherited

Definition at line 26 of file EngineCreator.cc.

References art::EngineCreator::rng().

Referenced by evgen::CosmicsGen::CosmicsGen(), rndm::NuRandomService::createEngine(), cluster::fuzzyCluster::fuzzyCluster(), cluster::HoughLineFinder::HoughLineFinder(), art::MixFilter< T >::initEngine_(), larg4::LArG4::LArG4(), evgen::LightSource::LightSource(), evgen::NeutronOsc::NeutronOsc(), evgen::NucleonDecay::NucleonDecay(), opdet::OpMCDigi::OpMCDigi(), opdet::OptDetDigitizer::OptDetDigitizer(), phot::PhotonLibraryPropagation::PhotonLibraryPropagation(), detsim::SimDriftElectrons::SimDriftElectrons(), evgen::SingleGen::SingleGen(), evgen::SNNueAr40CCGen::SNNueAr40CCGen(), ToyOneShowerGen::ToyOneShowerGen(), and trkf::Track3DKalman::Track3DKalman().

{
  return rng()->createEngine(placeholder_schedule_id(), seed);
}

EngineCreator::base_engine_t & EngineCreator::createEngine ( seed_t  seed, std::string const &  kind_of_engine_to_make  )

inherited

Definition at line 32 of file EngineCreator.cc.

References art::EngineCreator::rng().

{
  return rng()->createEngine(
    placeholder_schedule_id(), seed, kind_of_engine_to_make);
}

EngineCreator::base_engine_t & EngineCreator::createEngine ( seed_t  seed, std::string const &  kind_of_engine_to_make, label_t const &  engine_label  )

inherited

Definition at line 40 of file EngineCreator.cc.

References art::EngineCreator::rng().

{
  return rng()->createEngine(
    placeholder_schedule_id(), seed, kind_of_engine_to_make, engine_label);
}

CurrentProcessingContext const * art::EDProducer::currentContext ( ) const

protectedinherited

Definition at line 120 of file EDProducer.cc.

References art::EDProducer::current_context_.

  {
    return current_context_.get();
  }

void caldata::CalWire::endJob ( )

virtual

Reimplemented from art::EDProducer.

Definition at line 176 of file CalWire_module.cc.

  {  
  }

EngineCreator::seed_t EngineCreator::get_seed_value ( fhicl::ParameterSet const &  pset, char const  key[] = "seed", seed_t const  implicit_seed = -1  )

inherited

Definition at line 49 of file EngineCreator.cc.

References fhicl::ParameterSet::get().

Referenced by art::MixFilter< T >::initEngine_().

{
  auto const& explicit_seeds = pset.get<std::vector<int>>(key, {});
  return explicit_seeds.empty() ? implicit_seed : explicit_seeds.front();
}

template<typename PROD , BranchType B>

ProductID art::EDProducer::getProductID ( std::string const &  instanceName = {} ) const

inlineinherited

Definition at line 123 of file EDProducer.h.

References art::EDProducer::moduleDescription_.

  {
    return ProducerBase::getProductID<PROD, B>(moduleDescription_,
                                               instanceName);
  }

template<typename PROD , BranchType B>

ProductID art::ProducerBase::getProductID ( ModuleDescription const &  moduleDescription, std::string const &  instanceName  ) const

inherited

Definition at line 56 of file ProducerBase.h.

References B, and art::ModuleDescription::moduleLabel().

Referenced by art::ProducerBase::modifiesEvent().

  {
    auto const& pd =
      get_ProductDescription<PROD>(B, md.moduleLabel(), instanceName);
    return pd.productID();
  }

template<typename T , BranchType = InEvent>

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

inherited

template<typename T , art::BranchType BT>

art::ProductToken<T> art::Consumer::mayConsume ( InputTag const &  it )

inherited

Definition at line 190 of file Consumer.h.

References art::InputTag::instance(), art::InputTag::label(), and art::InputTag::process().

{
  if (!moduleContext_)
    return ProductToken<T>::invalid();

  consumables_[BT].emplace_back(ConsumableType::Product,
                                TypeID{typeid(T)},
                                it.label(),
                                it.instance(),
                                it.process());
  return ProductToken<T>{it};
}

template<typename T , art::BranchType BT>

void art::Consumer::mayConsumeMany ( )

inherited

Definition at line 205 of file Consumer.h.

{
  if (!moduleContext_)
    return;

  consumables_[BT].emplace_back(ConsumableType::Many, TypeID{typeid(T)});
}

template<typename Element , BranchType = InEvent>

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

inherited

template<typename T , art::BranchType BT>

art::ViewToken<T> art::Consumer::mayConsumeView ( InputTag const &  it )

inherited

Definition at line 215 of file Consumer.h.

References art::InputTag::instance(), art::InputTag::label(), and art::InputTag::process().

{
  if (!moduleContext_)
    return ViewToken<T>::invalid();

  consumables_[BT].emplace_back(ConsumableType::ViewElement,
                                TypeID{typeid(T)},
                                it.label(),
                                it.instance(),
                                it.process());
  return ViewToken<T>{it};
}

bool art::ProducerBase::modifiesEvent ( ) const

inlineinherited

Definition at line 40 of file ProducerBase.h.

References art::ProducerBase::getProductID().

    {
      return true;
    }

cet::exempt_ptr< art::Consumer > art::Consumer::non_module_context ( )

staticinherited

Definition at line 76 of file Consumer.cc.

Referenced by art::RootOutput::beginSubRun(), art::OutputModule::doBeginRun(), art::OutputModule::doBeginSubRun(), art::OutputModule::doEndRun(), art::OutputModule::doEndSubRun(), art::ProducingService::doPostReadEvent(), art::ProducingService::doPostReadRun(), art::ProducingService::doPostReadSubRun(), art::OutputModule::doWriteEvent(), art::ProcessPackage< L >::postScheduleSignal(), art::BeginEndPackage< Level::Run >::Begin::postScheduleSignal(), art::BeginEndPackage< Level::Run >::End::postScheduleSignal(), art::BeginEndPackage< Level::SubRun >::Begin::postScheduleSignal(), art::BeginEndPackage< Level::SubRun >::End::postScheduleSignal(), art::ProcessPackage< L >::preScheduleSignal(), art::BeginEndPackage< Level::Run >::Begin::preScheduleSignal(), art::BeginEndPackage< Level::SubRun >::Begin::preScheduleSignal(), art::EventProcessor::readEvent(), art::EventProcessor::readRun(), art::EmptyEvent::readRun_(), art::EventProcessor::readSubRun(), and art::EmptyEvent::readSubRun_().

{
  static Consumer invalid{InvalidTag{}};
  return &invalid;
}

void art::Consumer::prepareForJob ( fhicl::ParameterSet const &  pset )

protectedinherited

Definition at line 89 of file Consumer.cc.

References fhicl::ParameterSet::get_if_present().

Referenced by art::EDProducer::doBeginJob(), art::EDFilter::doBeginJob(), and art::EDAnalyzer::doBeginJob().

{
  if (!moduleContext_)
    return;

  pset.get_if_present("errorOnMissingConsumes", requireConsumes_);
  for (auto& consumablesPerBranch : consumables_) {
    cet::sort_all(consumablesPerBranch);
  }
}

void caldata::CalWire::produce ( art::Event &  evt )

virtual

Implements art::EDProducer.

Definition at line 181 of file CalWire_module.cc.

References raw::RawDigit::ADCs(), bin, raw::RawDigit::Channel(), raw::RawDigit::Compression(), util::LArFFT::Convolute(), util::CreateAssn(), DEFINE_ART_MODULE, e, fDecayConstsR, fDecayConstsS, fDigitModuleLabel, fExpEndBins, util::LArFFT::FFTSize(), fKernelR, fKernelS, fKernMapR, fKernMapS, fPostsample, art::DataViewImpl::getByLabel(), raw::RawDigit::GetPedestal(), raw::InvalidChannelID, art::Event::isRealData(), geo::kCollection, art::Ptr< T >::key(), geo::kInduction, art::errors::ProductRegistrationFailure, art::Event::put(), raw::RawDigit::Samples(), geo::GeometryCore::SignalType(), and raw::Uncompress().

  {
    
      
    // get the geometry
    art::ServiceHandle<geo::Geometry> geom;

    std::vector<double> decayConsts;  
    std::vector<int> kernMap;
    std::vector<std::vector<TComplex> > kernel; 
    //Put correct response functions and decay constants in place
    if(evt.isRealData()) {
      decayConsts=fDecayConstsR;
      kernMap=fKernMapR;
      kernel=fKernelR;
    }
    else {
      decayConsts=fDecayConstsS;
      kernMap=fKernMapS;
      kernel=fKernelS;
    }

    // get the FFT service to have access to the FFT size
    art::ServiceHandle<util::LArFFT> fFFT;

    // make a collection of Wires
    std::unique_ptr<std::vector<recob::Wire> > wirecol(new std::vector<recob::Wire>);
    // ... and an association set
    std::unique_ptr<art::Assns<raw::RawDigit,recob::Wire> > WireDigitAssn
      (new art::Assns<raw::RawDigit,recob::Wire>);
    
    // Read in the digit List object(s). 
    art::Handle< std::vector<raw::RawDigit> > digitVecHandle;
    evt.getByLabel(fDigitModuleLabel, digitVecHandle);

    if (!digitVecHandle->size())  return;
    mf::LogInfo("CalWire") << "CalWire:: digitVecHandle size is " << digitVecHandle->size();

    // Use the handle to get a particular (0th) element of collection.
    art::Ptr<raw::RawDigit> digitVec0(digitVecHandle, 0);
        
    unsigned int dataSize = digitVec0->Samples(); //size of raw data vectors
    
    int transformSize = fFFT->FFTSize();
    raw::ChannelID_t channel(raw::InvalidChannelID); // channel number
    unsigned int bin(0);     // time bin loop variable
    
    double decayConst = 0.;  // exponential decay constant of electronics shaping
    double fitAmplitude    = 0.;  //This is the seed value for the amplitude in the exponential tail fit 
    std::vector<float> holder;                // holds signal data
    std::vector<short> rawadc(transformSize);  // vector holding uncompressed adc values
    std::vector<TComplex> freqHolder(transformSize+1); // temporary frequency data
    
    // loop over all wires    
    for(unsigned int rdIter = 0; rdIter < digitVecHandle->size(); ++rdIter){ // ++ move
      holder.clear();
      
      art::Ptr<raw::RawDigit> digitVec(digitVecHandle, rdIter);
      channel = digitVec->Channel();

      holder.resize(transformSize);
      
      // uncompress the data
      raw::Uncompress(digitVec->ADCs(), rawadc, digitVec->Compression());
      
      for(bin = 0; bin < dataSize; ++bin) 
        holder[bin]=(rawadc[bin]-digitVec->GetPedestal());
      // fExpEndBins only nonzero for detectors needing exponential tail fitting
      if(fExpEndBins && std::abs(decayConsts[channel]) > 0.0){
        
        TH1D expTailData("expTailData","Tail data for fit",
                         fExpEndBins,dataSize-fExpEndBins,dataSize);
        TF1  expFit("expFit","[0]*exp([1]*x)");
        
        for(bin = 0; bin < (unsigned int)fExpEndBins; ++bin) 
          expTailData.Fill(dataSize-fExpEndBins+bin,holder[dataSize-fExpEndBins+bin]);
        decayConst = decayConsts[channel];
        fitAmplitude = holder[dataSize-fExpEndBins]/exp(decayConst*(dataSize-fExpEndBins));
        expFit.FixParameter(1,decayConst);
        expFit.SetParameter(0,fitAmplitude);
        expTailData.Fit(&expFit,"QWN","",dataSize-fExpEndBins,dataSize);
        expFit.SetRange(dataSize,transformSize);
        for(bin = 0; bin < dataSize; ++bin)
          holder[dataSize+bin]= expFit.Eval(bin+dataSize);
      }
      // This is actually deconvolution, by way of convolution with the inverted 
      // kernel.  This code assumes the response function has already been
      // been transformed and inverted.  This way a complex multiplication, rather
      // than a complex division is performed saving 2 multiplications and 
      // 2 divsions
      
      // the example below is for MicroBooNE, experiments should 
      // adapt as appropriate
      
      // Figure out which kernel to use (0=induction, 1=collection).
      geo::SigType_t sigtype = geom->SignalType(channel);
      size_t k;
      if(sigtype == geo::kInduction)
        k = 0;
      else if(sigtype == geo::kCollection)
        k = 1;
      else
        throw cet::exception("CalWire") << "Bad signal type = " << sigtype << "\n";
      if (k >= kernel.size())
        throw cet::exception("CalWire") << "kernel size < " << k << "!\n";
      
      fFFT->Convolute(holder,kernel[k]);
    
      holder.resize(dataSize,1e-5);
      //This restores the DC component to signal removed by the deconvolution.
      if(fPostsample) {
        double average=0.0;
        for(bin=0; bin < (unsigned int)fPostsample; ++bin) 
          average+=holder[holder.size()-1-bin]/(double)fPostsample;
        for(bin = 0; bin < holder.size(); ++bin) holder[bin]-=average;
      }
      wirecol->push_back(recob::WireCreator(holder,*digitVec).move());
      // add an association between the last object in wirecol
      // (that we just inserted) and digitVec
      if (!util::CreateAssn(*this, evt, *wirecol, digitVec, *WireDigitAssn)) {
        throw art::Exception(art::errors::ProductRegistrationFailure)
          << "Can't associate wire #" << (wirecol->size() - 1)
          << " with raw digit #" << digitVec.key();
      } // if failed to add association
    } // for raw digits

    if(wirecol->size() == 0)
      mf::LogWarning("CalWire") << "No wires made for this event.";
    
    evt.put(std::move(wirecol));
    evt.put(std::move(WireDigitAssn));
    
    return;
  }

void caldata::CalWire::reconfigure

(

fhicl::ParameterSet const &

p

)

Definition at line 104 of file CalWire_module.cc.

References fDigitModuleLabel, fExpEndBins, fPostsample, fResponseFile, and fhicl::ParameterSet::get().

Referenced by CalWire().

  {
    fDigitModuleLabel = p.get< std::string >("DigitModuleLabel", "daq");
    cet::search_path sp("FW_SEARCH_PATH");
    sp.find_file(p.get<std::string>("ResponseFile"), fResponseFile);
    fExpEndBins       = p.get< int >        ("ExponentialEndBins");
    fPostsample       = p.get< int >        ("PostsampleBins");
  }

void art::Consumer::showMissingConsumes ( ) const

protectedinherited

Definition at line 125 of file Consumer.cc.

Referenced by art::EDProducer::doEndJob(), art::EDFilter::doEndJob(), art::EDAnalyzer::doEndJob(), and art::RootOutput::endJob().

{
  if (!moduleContext_)
    return;

  // If none of the branches have missing consumes statements, exit early.
  if (std::all_of(cbegin(missingConsumes_),
                  cend(missingConsumes_),
                  [](auto const& perBranch) { return perBranch.empty(); }))
    return;

  constexpr cet::HorizontalRule rule{60};
  mf::LogPrint log{"MTdiagnostics"};
  log << '\n'
      << rule('=') << '\n'
      << "The following consumes (or mayConsume) statements are missing from\n"
      << module_context(moduleDescription_) << '\n'
      << rule('-') << '\n';

  cet::for_all_with_index(
    missingConsumes_, [&log](std::size_t const i, auto const& perBranch) {
      for (auto const& pi : perBranch) {
        log << "  "
            << assemble_consumes_statement(static_cast<BranchType>(i), pi)
            << '\n';
      }
    });
  log << rule('=');
}

void art::Consumer::validateConsumedProduct ( BranchType const  bt, ProductInfo const &  pi  )

protectedinherited

Definition at line 101 of file Consumer.cc.

References art::errors::ProductRegistrationFailure.

{
  // Early exits if consumes tracking has been disabled or if the
  // consumed product is an allowed consumable.
  if (!moduleContext_)
    return;

  if (cet::binary_search_all(consumables_[bt], pi))
    return;

  if (requireConsumes_) {
    throw Exception(errors::ProductRegistrationFailure,
                    "Consumer: an error occurred during validation of a "
                    "retrieved product\n\n")
      << "The following consumes (or mayConsume) statement is missing from\n"
      << module_context(moduleDescription_) << ":\n\n"
      << "  " << assemble_consumes_statement(bt, pi) << "\n\n";
  }

  missingConsumes_[bt].insert(pi);
}

Member Data Documentation

std::vector<double> caldata::CalWire::fDecayConstsR

private

vector holding RC decay constants

Definition at line 73 of file CalWire_module.cc.

Referenced by beginJob(), and produce().

std::vector<double> caldata::CalWire::fDecayConstsS

private

vector holding RC decay constants

Definition at line 75 of file CalWire_module.cc.

Referenced by beginJob(), and produce().

std::string caldata::CalWire::fDigitModuleLabel

private

module that made digits

Definition at line 67 of file CalWire_module.cc.

Referenced by produce(), and reconfigure().

int caldata::CalWire::fExpEndBins

private

number of end bins to consider for tail fit

Definition at line 65 of file CalWire_module.cc.

Referenced by produce(), and reconfigure().

std::vector<std::vector<TComplex> > caldata::CalWire::fKernelR

private

holds transformed induction response function

Definition at line 69 of file CalWire_module.cc.

Referenced by beginJob(), and produce().

std::vector<std::vector<TComplex> > caldata::CalWire::fKernelS

private

holds transformed induction response function

Definition at line 71 of file CalWire_module.cc.

Referenced by beginJob(), and produce().

std::vector<int> caldata::CalWire::fKernMapR

private

map telling which channels have which response functions

Definition at line 77 of file CalWire_module.cc.

Referenced by beginJob(), and produce().

std::vector<int> caldata::CalWire::fKernMapS

private

map telling which channels have which response functions

Definition at line 79 of file CalWire_module.cc.

Referenced by beginJob(), and produce().

int caldata::CalWire::fPostsample

private

number of postsample bins

Definition at line 66 of file CalWire_module.cc.

Referenced by produce(), and reconfigure().

std::string caldata::CalWire::fResponseFile

private

response file containing transformed shape histograms and decay constants

Definition at line 61 of file CalWire_module.cc.

Referenced by beginJob(), and reconfigure().

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

• /cvmfs/larsoft.opensciencegrid.org/products/larevt/v07_02_01/source/larevt/CalData/CalWire_module.cc