LArSoft  v06_85_00
Liquid Argon Software toolkit - http://larsoft.org/
opdet::LEDCalibrationAna Class Reference
Inheritance diagram for opdet::LEDCalibrationAna:
art::EDAnalyzer art::EventObserverBase art::Consumer art::EngineCreator

Public Types

using WorkerType = WorkerT< EDAnalyzer >
 
using ModuleType = EDAnalyzer
 

Public Member Functions

 LEDCalibrationAna (const fhicl::ParameterSet &)
 
virtual ~LEDCalibrationAna ()
 
void beginJob ()
 
void endJob ()
 
void analyze (const art::Event &)
 
std::string workerType () const
 
bool modifiesEvent () const
 
void registerProducts (MasterProductRegistry &, ProductDescriptions &, ModuleDescription const &)
 
std::string const & processName () const
 
bool wantAllEvents () const
 
bool wantEvent (Event const &e)
 
fhicl::ParameterSetID selectorConfig () const
 
art::Handle< art::TriggerResultsgetTriggerResults (Event const &e) 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_tcreateEngine (seed_t seed)
 
base_engine_tcreateEngine (seed_t seed, std::string const &kind_of_engine_to_make)
 
base_engine_tcreateEngine (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< Consumernon_module_context ()
 

Protected Member Functions

CurrentProcessingContext const * currentContext () const
 
detail::CachedProducts & cachedProducts ()
 
void validateConsumedProduct (BranchType const bt, ProductInfo const &pi)
 
void prepareForJob (fhicl::ParameterSet const &pset)
 
void showMissingConsumes () const
 

Private Member Functions

uint32_t ShaperToChannel (uint32_t Shaper)
 

Private Attributes

std::string fInputModule
 
uint32_t fTriggerChannel
 
float fCoincThreshold
 
float fMaxTimeMean
 
float fMaxTimeThresh
 
float fAreaDivs
 
float fAreaMin
 
float fAreaMax
 
float fTriggerDelay
 
pmtana::PulseRecoManager fPulseRecoMgr
 
pmtana::AlgoThreshold fThreshAlg
 
pmtana::PedAlgoEdges fPedAlg
 
TTree * fPulseTree
 
TTree * fPulseTreeNonCoinc
 
Float_t fPeak
 
Float_t fPedRMS
 
Float_t fPedMean
 
Float_t fArea
 
Float_t fTBegin
 
Float_t fTEnd
 
Float_t fTMax
 
Float_t fOffset
 
Int_t fEventID
 
Int_t fRunID
 
Int_t fChannel
 
Int_t fShaper
 
bool fMakeNonCoincTree
 
std::map< uint32_t, std::vector< double > > fAreas
 

Detailed Description

Definition at line 52 of file LEDCalibrationAna_module.cc.

Member Typedef Documentation

Definition at line 39 of file EDAnalyzer.h.

Definition at line 38 of file EDAnalyzer.h.

Constructor & Destructor Documentation

opdet::LEDCalibrationAna::LEDCalibrationAna ( const fhicl::ParameterSet )

Definition at line 116 of file LEDCalibrationAna_module.cc.

References pmtana::PulseRecoManager::AddRecoAlgo(), fArea, fAreaDivs, fAreaMax, fAreaMin, fChannel, fCoincThreshold, fEventID, fInputModule, fMakeNonCoincTree, fMaxTimeMean, fMaxTimeThresh, fOffset, fPeak, fPedAlg, fPedMean, fPedRMS, fPulseRecoMgr, fPulseTree, fPulseTreeNonCoinc, fRunID, fShaper, fTBegin, fTEnd, fThreshAlg, fTMax, fTriggerChannel, fTriggerDelay, fhicl::ParameterSet::get(), art::TFileDirectory::make(), and pmtana::PulseRecoManager::SetDefaultPedAlgo().

117  : EDAnalyzer(pset),
118  fPulseRecoMgr(),
119  fThreshAlg(),
120  fPedAlg()
121  {
122  // Indicate that the Input Module comes from .fcl
123  fInputModule = pset.get<std::string>("InputModule");
124  fTriggerChannel = pset.get<uint32_t> ("TriggerChannel");
125  fTriggerDelay = pset.get<uint32_t> ("TriggerDelay");
126  fCoincThreshold = pset.get<float> ("CoincThreshold");
127  fMaxTimeThresh = pset.get<float> ("MaxTimeThresh");
128  fMaxTimeMean = pset.get<float> ("MaxTimeMean");
129  fAreaMin = pset.get<float> ("AreaMin");
130  fAreaMax = pset.get<float> ("AreaMax");
131  fAreaDivs = pset.get<float> ("AreaDivs");
132  fMakeNonCoincTree=pset.get<bool> ("MakeNonCoincTree");
133 
136 
138 
139  fPulseTree = tfs->make<TTree>("fPulseTree","fPulseTree");
140  fPulseTree->Branch("Area", &fArea, "Area/F");
141  fPulseTree->Branch("Peak", &fPeak, "Peak/F");
142  fPulseTree->Branch("TBegin", &fTBegin, "TBegin/F");
143  fPulseTree->Branch("TEnd", &fTEnd, "TEnd/F");
144  fPulseTree->Branch("TMax", &fTMax, "TMax/F");
145  fPulseTree->Branch("Channel", &fChannel, "Channel/I");
146  fPulseTree->Branch("Shaper", &fShaper, "Shaper/I");
147  fPulseTree->Branch("PedMean", &fPedMean, "PedMean/F");
148  fPulseTree->Branch("PedRMS", &fPedRMS, "PedRMS/F");
149  fPulseTree->Branch("Offset", &fOffset, "Offset/F");
150  fPulseTree->Branch("EventID", &fEventID, "EventID/I");
151  fPulseTree->Branch("RunID", &fRunID, "RunID/I");
152 
153  fPulseTreeNonCoinc = tfs->make<TTree>("fPulseTreeNonCoinc","fPulseTreeNonCoinc");
154  fPulseTreeNonCoinc->Branch("Area", &fArea, "Area/F");
155  fPulseTreeNonCoinc->Branch("Peak", &fPeak, "Peak/F");
156  fPulseTreeNonCoinc->Branch("TBegin", &fTBegin, "TBegin/F");
157  fPulseTreeNonCoinc->Branch("TEnd", &fTEnd, "TEnd/F");
158  fPulseTreeNonCoinc->Branch("TMax", &fTMax, "TMax/F");
159  fPulseTreeNonCoinc->Branch("Channel", &fChannel, "Channel/I");
160  fPulseTreeNonCoinc->Branch("Shaper", &fShaper, "Shaper/I");
161  fPulseTreeNonCoinc->Branch("PedMean", &fPedMean, "PedMean/F");
162  fPulseTreeNonCoinc->Branch("PedRMS", &fPedRMS, "PedRMS/F");
163  fPulseTreeNonCoinc->Branch("EventID", &fEventID, "EventID/I");
164  fPulseTreeNonCoinc->Branch("RunID", &fRunID, "RunID/I");
165 
166  }
pmtana::AlgoThreshold fThreshAlg
void AddRecoAlgo(pmtana::PMTPulseRecoBase *algo, PMTPedestalBase *ped_algo=nullptr)
A method to set pulse reconstruction algorithm.
pmtana::PulseRecoManager fPulseRecoMgr
EDAnalyzer(Table< Config > const &config)
Definition: EDAnalyzer.h:100
T * make(ARGS...args) const
void SetDefaultPedAlgo(pmtana::PMTPedestalBase *algo)
A method to set a choice of pedestal estimation method.
opdet::LEDCalibrationAna::~LEDCalibrationAna ( )
virtual

Definition at line 170 of file LEDCalibrationAna_module.cc.

171  {}

Member Function Documentation

void opdet::LEDCalibrationAna::analyze ( const art::Event evt)

Definition at line 250 of file LEDCalibrationAna_module.cc.

References pmtana::pulse_param::area, art::Event::event(), fArea, fAreas, fChannel, fCoincThreshold, fEventID, fInputModule, fMakeNonCoincTree, fMaxTimeMean, fMaxTimeThresh, fOffset, fPeak, fPedMean, fPedRMS, fPulseRecoMgr, fPulseTree, fPulseTreeNonCoinc, fRunID, fShaper, fTBegin, fTEnd, fThreshAlg, fTMax, fTriggerChannel, fTriggerDelay, art::DataViewImpl::getByLabel(), pmtana::PMTPulseRecoBase::GetNPulse(), pmtana::PMTPulseRecoBase::GetPulse(), pmtana::pulse_param::peak, pmtana::pulse_param::ped_mean, pmtana::pulse_param::ped_sigma, pmtana::PulseRecoManager::Reconstruct(), art::Event::run(), ShaperToChannel(), pmtana::pulse_param::t_end, pmtana::pulse_param::t_max, and pmtana::pulse_param::t_start.

251  {
252 
253  auto const* ts = lar::providerFrom<detinfo::DetectorClocksService>();
254 
255 
256  fRunID=evt.run();
257  fEventID=evt.event();
258 
260 
261  // Create a handle for our vector of pulses
263 
264  // Read in WaveformHandle
265  evt.getByLabel(fInputModule, OpDetWaveformHandle);
266 
267  std::map<uint32_t, std::vector<int> > OrgOpDigitByChannel;
268 
269  for(size_t i=0; i!=OpDetWaveformHandle->size(); ++i)
270  {
271  OrgOpDigitByChannel[ShaperToChannel(OpDetWaveformHandle->at(i).ChannelNumber())].push_back(i);
272  }
273 
274  std::vector<uint32_t> FrameNumbersForTrig;
275  std::vector<uint32_t> TimeSlicesForTrig;
276 
277  for(size_t i=0; i!=OrgOpDigitByChannel[fTriggerChannel].size(); ++i)
278  {
279  double TimeStamp = OpDetWaveformHandle->at(OrgOpDigitByChannel[ fTriggerChannel][i] ).TimeStamp();
280  uint32_t Frame = ts->OpticalClock().Frame(TimeStamp);
281  uint32_t TimeSlice = ts->OpticalClock().Sample(TimeStamp);
282  FrameNumbersForTrig.push_back(Frame);
283  TimeSlicesForTrig.push_back(TimeSlice);
284  }
285 
286  for(size_t i=0; i!=OpDetWaveformHandle->size(); ++i)
287  {
288  double TimeStamp = OpDetWaveformHandle->at(i).TimeStamp();
289  uint32_t Frame = ts->OpticalClock().Frame(TimeStamp);
290  uint32_t TimeSlice = ts->OpticalClock().Sample(TimeStamp);
291  fShaper = OpDetWaveformHandle->at(i).ChannelNumber();
293 
294 
295  if(uint32_t(fChannel) != fTriggerChannel)
296  {
297  for(size_t j=0; j!=FrameNumbersForTrig.size(); ++j)
298  {
299  if( (Frame == FrameNumbersForTrig.at(j))
300  && (fabs(TimeSlice - TimeSlicesForTrig.at(j) - fTriggerDelay)<fCoincThreshold))
301  {
302 
303 
304  const raw::OpDetWaveform& wf = OpDetWaveformHandle->at(i);
305 
306  //fPulseRecoMgr.RecoPulse(wf);
308 
309  size_t NPulses = fThreshAlg.GetNPulse();
310 
311  fOffset = TimeSlice-TimeSlicesForTrig.at(j);
312  //fPedMean = fThreshAlg.PedMean();
313  //fPedRMS = fThreshAlg.PedRms();
314 
315  for(size_t k=0; k!=NPulses; ++k)
316  {
318  {
319 
327 
328  fPulseTree->Fill();
329 
330  fAreas[fChannel].push_back(fArea);
331  }
332  else if(fMakeNonCoincTree)
333  {
339 
340  fPulseTreeNonCoinc->Fill();
341  }
342  }
343  }
344  }
345  }
346  }
347 
348  }
pmtana::AlgoThreshold fThreshAlg
size_t GetNPulse() const
A getter for the number of reconstructed pulses from the input waveform.
pmtana::PulseRecoManager fPulseRecoMgr
bool Reconstruct(const pmtana::Waveform_t &) const
Implementation of ana_base::analyze method.
EventNumber_t event() const
Definition: Event.h:67
bool getByLabel(std::string const &label, std::string const &productInstanceName, Handle< PROD > &result) const
Definition: DataViewImpl.h:344
std::map< uint32_t, std::vector< double > > fAreas
uint32_t ShaperToChannel(uint32_t Shaper)
RunNumber_t run() const
Definition: Event.h:77
const pulse_param & GetPulse(size_t index=0) const
void opdet::LEDCalibrationAna::beginJob ( )
virtual

Reimplemented from art::EDAnalyzer.

Definition at line 174 of file LEDCalibrationAna_module.cc.

175  {
176  }
detail::CachedProducts& art::EventObserverBase::cachedProducts ( )
inlineprotectedinherited

Definition at line 79 of file EventObserverBase.h.

References art::EventObserverBase::selectors_.

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

80  {
81  return selectors_;
82  }
detail::CachedProducts selectors_
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().

148 {
149  if (!moduleContext_)
150  return ProductToken<T>::invalid();
151 
152  consumables_[BT].emplace_back(ConsumableType::Product,
153  TypeID{typeid(T)},
154  it.label(),
155  it.instance(),
156  it.process());
157  return ProductToken<T>{it};
158 }
static ProductToken< T > invalid()
Definition: ProductToken.h:47
ConsumableProducts consumables_
Definition: Consumer.h:138
bool moduleContext_
Definition: Consumer.h:136
template<typename T , art::BranchType BT>
void art::Consumer::consumesMany ( )
inherited

Definition at line 162 of file Consumer.h.

163 {
164  if (!moduleContext_)
165  return;
166 
167  consumables_[BT].emplace_back(ConsumableType::Many, TypeID{typeid(T)});
168 }
ConsumableProducts consumables_
Definition: Consumer.h:138
bool moduleContext_
Definition: Consumer.h:136
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().

173 {
174  if (!moduleContext_)
175  return ViewToken<T>::invalid();
176 
177  consumables_[BT].emplace_back(ConsumableType::ViewElement,
178  TypeID{typeid(T)},
179  it.label(),
180  it.instance(),
181  it.process());
182  return ViewToken<T>{it};
183 }
static ViewToken< Element > invalid()
Definition: ProductToken.h:75
ConsumableProducts consumables_
Definition: Consumer.h:138
bool moduleContext_
Definition: Consumer.h:136
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().

34 {
35  return rng()->createEngine(
36  placeholder_schedule_id(), seed, kind_of_engine_to_make);
37 }
long seed
Definition: chem4.cc:68
static art::ServiceHandle< art::RandomNumberGenerator > & rng()
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().

43 {
44  return rng()->createEngine(
45  placeholder_schedule_id(), seed, kind_of_engine_to_make, engine_label);
46 }
long seed
Definition: chem4.cc:68
static art::ServiceHandle< art::RandomNumberGenerator > & rng()
CurrentProcessingContext const * art::EDAnalyzer::currentContext ( ) const
protectedinherited

Definition at line 114 of file EDAnalyzer.cc.

References art::EDAnalyzer::current_context_.

Referenced by art::EDAnalyzer::workerType().

115  {
116  return current_context_.get();
117  }
CPC_exempt_ptr current_context_
Definition: EDAnalyzer.h:179
void opdet::LEDCalibrationAna::endJob ( )
virtual

Reimplemented from art::EDAnalyzer.

Definition at line 179 of file LEDCalibrationAna_module.cc.

References fAreaDivs, fAreaMax, fAreaMin, fAreas, and art::TFileDirectory::make().

180  {
182 
183  for(auto it = fAreas.begin(); it!=fAreas.end(); ++it)
184  {
185  uint32_t Channel = it->first;
186 
187  std::stringstream histname;
188  histname.flush();
189  histname<<"ch"<<Channel<<"area";
190 
191  TH1D * HistArea = tfs->make<TH1D>(histname.str().c_str(), histname.str().c_str(), fAreaDivs, fAreaMin, fAreaMax);
192 
193  for(size_t j=0; j!=it->second.size(); ++j)
194  {
195  HistArea->Fill(it->second.at(j));
196  }
197 
198  std::stringstream fitname;
199  fitname.flush();
200  fitname<<"ch"<<Channel<<"fit";
201 
202  double Max = HistArea->GetMaximum();
203  double Mid = HistArea->GetBinContent(fAreaDivs/2.);
204 
205  TF1 * GausFit = new TF1(fitname.str().c_str(),
206  "gaus(0)+gaus(3)+gaus(6)",
207  fAreaMin,
208  fAreaMax);
209 
210  GausFit->SetParameters(Mid, (fAreaMin+fAreaMax)/2., (fAreaMax-fAreaMin)/2.,
211  Max, 0, (fAreaMin+fAreaMax)/8.,
212  Max/5., 0, (fAreaMin+fAreaMax)/4.);
213 
214 
215  GausFit->SetParLimits(0,0,1.1*Max);
216  GausFit->SetParLimits(1,0,fAreaMax);
217  GausFit->SetParLimits(2,0,fAreaMax);
218 
219  GausFit->SetParLimits(3,0,1.1*Max);
220  GausFit->FixParameter(4,0);
221  GausFit->SetParLimits(5,0,(fAreaMin+fAreaMax)/2.);
222 
223  GausFit->SetParLimits(6,0,1.1*Max);
224  GausFit->FixParameter(7,0);
225  GausFit->SetParLimits(8,0,(fAreaMin+fAreaMax)/2.);
226 
227 
228  HistArea->Fit(GausFit);
229 
230  double Mean = GausFit->GetParameter(1);
231  double Width = GausFit->GetParameter(2);
232 
233  double MeanErr = GausFit->GetParError(1);
234  double WidthErr = GausFit->GetParError(2);
235 
236  double NPE = pow(Mean,2)/pow(Width,2);
237  double SPEScale = Mean / NPE;
238 
239  double NPEError = NPE * pow(2.*(pow(MeanErr/Mean,2) + pow(WidthErr/Width,2)),0.5);
240  double SPEError = SPEScale * pow(2.*pow(WidthErr/Width,2) + pow(MeanErr/Mean,2),0.5);
241 
242  std::cout <<"Channel " << Channel<< ":\tSPE Scale \t"<<SPEScale<<"\t +/- \t" << SPEError<<",\t NPE \t" << NPE<<"\t +/- \t"<< NPEError <<std::endl;
243  }
244 
245  }
T * make(ARGS...args) const
std::map< uint32_t, std::vector< double > > fAreas
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_().

52 {
53  auto const& explicit_seeds = pset.get<std::vector<int>>(key, {});
54  return explicit_seeds.empty() ? implicit_seed : explicit_seeds.front();
55 }
art::Handle<art::TriggerResults> art::EventObserverBase::getTriggerResults ( Event const &  e) const
inlineinherited

Definition at line 61 of file EventObserverBase.h.

References art::detail::CachedProducts::getOneTriggerResults(), and art::EventObserverBase::selectors_.

Referenced by art::OutputModule::doWriteEvent().

62  {
64  }
detail::CachedProducts selectors_
art::Handle< art::TriggerResults > getOneTriggerResults(Event const &) const
Float_t e
Definition: plot.C:34
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().

191 {
192  if (!moduleContext_)
193  return ProductToken<T>::invalid();
194 
195  consumables_[BT].emplace_back(ConsumableType::Product,
196  TypeID{typeid(T)},
197  it.label(),
198  it.instance(),
199  it.process());
200  return ProductToken<T>{it};
201 }
static ProductToken< T > invalid()
Definition: ProductToken.h:47
ConsumableProducts consumables_
Definition: Consumer.h:138
bool moduleContext_
Definition: Consumer.h:136
template<typename T , art::BranchType BT>
void art::Consumer::mayConsumeMany ( )
inherited

Definition at line 205 of file Consumer.h.

206 {
207  if (!moduleContext_)
208  return;
209 
210  consumables_[BT].emplace_back(ConsumableType::Many, TypeID{typeid(T)});
211 }
ConsumableProducts consumables_
Definition: Consumer.h:138
bool moduleContext_
Definition: Consumer.h:136
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().

216 {
217  if (!moduleContext_)
218  return ViewToken<T>::invalid();
219 
220  consumables_[BT].emplace_back(ConsumableType::ViewElement,
221  TypeID{typeid(T)},
222  it.label(),
223  it.instance(),
224  it.process());
225  return ViewToken<T>{it};
226 }
static ViewToken< Element > invalid()
Definition: ProductToken.h:75
ConsumableProducts consumables_
Definition: Consumer.h:138
bool moduleContext_
Definition: Consumer.h:136
bool art::EventObserverBase::modifiesEvent ( ) const
inlineinherited

Definition at line 25 of file EventObserverBase.h.

26  {
27  return false;
28  }
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().

90 {
91  if (!moduleContext_)
92  return;
93 
94  pset.get_if_present("errorOnMissingConsumes", requireConsumes_);
95  for (auto& consumablesPerBranch : consumables_) {
96  cet::sort_all(consumablesPerBranch);
97  }
98 }
bool requireConsumes_
Definition: Consumer.h:137
ConsumableProducts consumables_
Definition: Consumer.h:138
bool moduleContext_
Definition: Consumer.h:136
std::string const& art::EventObserverBase::processName ( ) const
inlineinherited
void art::EventObserverBase::registerProducts ( MasterProductRegistry ,
ProductDescriptions ,
ModuleDescription const &   
)
inlineinherited

Definition at line 33 of file EventObserverBase.h.

36  {}
fhicl::ParameterSetID art::EventObserverBase::selectorConfig ( ) const
inlineinherited

Definition at line 56 of file EventObserverBase.h.

References art::EventObserverBase::selector_config_id_.

Referenced by art::RootOutputFile::writeOne().

57  {
58  return selector_config_id_;
59  }
fhicl::ParameterSetID selector_config_id_
uint32_t opdet::LEDCalibrationAna::ShaperToChannel ( uint32_t  Shaper)
private

Definition at line 351 of file LEDCalibrationAna_module.cc.

References DEFINE_ART_MODULE.

Referenced by analyze().

352  {
353  static std::map<uint32_t, uint32_t> ShaperToChannelMap;
354  if(ShaperToChannelMap.size()==0)
355  {
356 
357  // temporary
358  for(size_t i=0; i!=40; ++i)
359  {
360  ShaperToChannelMap[i]=i;
361  }
362  }
363 
364  return ShaperToChannelMap[Shaper];
365  }
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().

126 {
127  if (!moduleContext_)
128  return;
129 
130  // If none of the branches have missing consumes statements, exit early.
131  if (std::all_of(cbegin(missingConsumes_),
132  cend(missingConsumes_),
133  [](auto const& perBranch) { return perBranch.empty(); }))
134  return;
135 
136  constexpr cet::HorizontalRule rule{60};
137  mf::LogPrint log{"MTdiagnostics"};
138  log << '\n'
139  << rule('=') << '\n'
140  << "The following consumes (or mayConsume) statements are missing from\n"
141  << module_context(moduleDescription_) << '\n'
142  << rule('-') << '\n';
143 
144  cet::for_all_with_index(
145  missingConsumes_, [&log](std::size_t const i, auto const& perBranch) {
146  for (auto const& pi : perBranch) {
147  log << " "
148  << assemble_consumes_statement(static_cast<BranchType>(i), pi)
149  << '\n';
150  }
151  });
152  log << rule('=');
153 }
cet::exempt_ptr< ModuleDescription const > moduleDescription_
Definition: Consumer.h:140
constexpr T pi()
Returns the constant pi (up to 35 decimal digits of precision)
bool moduleContext_
Definition: Consumer.h:136
ConsumableProductSets missingConsumes_
Definition: Consumer.h:139
void art::Consumer::validateConsumedProduct ( BranchType const  bt,
ProductInfo const &  pi 
)
protectedinherited

Definition at line 101 of file Consumer.cc.

References art::errors::ProductRegistrationFailure.

103 {
104  // Early exits if consumes tracking has been disabled or if the
105  // consumed product is an allowed consumable.
106  if (!moduleContext_)
107  return;
108 
109  if (cet::binary_search_all(consumables_[bt], pi))
110  return;
111 
112  if (requireConsumes_) {
114  "Consumer: an error occurred during validation of a "
115  "retrieved product\n\n")
116  << "The following consumes (or mayConsume) statement is missing from\n"
117  << module_context(moduleDescription_) << ":\n\n"
118  << " " << assemble_consumes_statement(bt, pi) << "\n\n";
119  }
120 
121  missingConsumes_[bt].insert(pi);
122 }
cet::exempt_ptr< ModuleDescription const > moduleDescription_
Definition: Consumer.h:140
bool requireConsumes_
Definition: Consumer.h:137
cet::coded_exception< errors::ErrorCodes, ExceptionDetail::translate > Exception
Definition: Exception.h:66
constexpr T pi()
Returns the constant pi (up to 35 decimal digits of precision)
ConsumableProducts consumables_
Definition: Consumer.h:138
bool moduleContext_
Definition: Consumer.h:136
ConsumableProductSets missingConsumes_
Definition: Consumer.h:139
bool art::EventObserverBase::wantAllEvents ( ) const
inlineinherited
bool art::EventObserverBase::wantEvent ( Event const &  e)
inlineinherited
std::string art::EDAnalyzer::workerType ( ) const
inlineinherited

Definition at line 109 of file EDAnalyzer.h.

References art::EDAnalyzer::currentContext().

110  {
111  return "WorkerT<EDAnalyzer>";
112  }

Member Data Documentation

Float_t opdet::LEDCalibrationAna::fArea
private

Definition at line 87 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

float opdet::LEDCalibrationAna::fAreaDivs
private

Definition at line 74 of file LEDCalibrationAna_module.cc.

Referenced by endJob(), and LEDCalibrationAna().

float opdet::LEDCalibrationAna::fAreaMax
private

Definition at line 76 of file LEDCalibrationAna_module.cc.

Referenced by endJob(), and LEDCalibrationAna().

float opdet::LEDCalibrationAna::fAreaMin
private

Definition at line 75 of file LEDCalibrationAna_module.cc.

Referenced by endJob(), and LEDCalibrationAna().

std::map<uint32_t, std::vector<double> > opdet::LEDCalibrationAna::fAreas
private

Definition at line 101 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and endJob().

Int_t opdet::LEDCalibrationAna::fChannel
private

Definition at line 94 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

float opdet::LEDCalibrationAna::fCoincThreshold
private

Definition at line 71 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

Int_t opdet::LEDCalibrationAna::fEventID
private

Definition at line 92 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

std::string opdet::LEDCalibrationAna::fInputModule
private

Definition at line 69 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

bool opdet::LEDCalibrationAna::fMakeNonCoincTree
private

Definition at line 99 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

float opdet::LEDCalibrationAna::fMaxTimeMean
private

Definition at line 72 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

float opdet::LEDCalibrationAna::fMaxTimeThresh
private

Definition at line 73 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

Float_t opdet::LEDCalibrationAna::fOffset
private

Definition at line 91 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

Float_t opdet::LEDCalibrationAna::fPeak
private

Definition at line 84 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

pmtana::PedAlgoEdges opdet::LEDCalibrationAna::fPedAlg
private

Definition at line 81 of file LEDCalibrationAna_module.cc.

Referenced by LEDCalibrationAna().

Float_t opdet::LEDCalibrationAna::fPedMean
private

Definition at line 86 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

Float_t opdet::LEDCalibrationAna::fPedRMS
private

Definition at line 85 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

pmtana::PulseRecoManager opdet::LEDCalibrationAna::fPulseRecoMgr
private

Definition at line 79 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

TTree* opdet::LEDCalibrationAna::fPulseTree
private

Definition at line 82 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

TTree* opdet::LEDCalibrationAna::fPulseTreeNonCoinc
private

Definition at line 83 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

Int_t opdet::LEDCalibrationAna::fRunID
private

Definition at line 93 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

Int_t opdet::LEDCalibrationAna::fShaper
private

Definition at line 95 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

Float_t opdet::LEDCalibrationAna::fTBegin
private

Definition at line 88 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

Float_t opdet::LEDCalibrationAna::fTEnd
private

Definition at line 89 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

pmtana::AlgoThreshold opdet::LEDCalibrationAna::fThreshAlg
private

Definition at line 80 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

Float_t opdet::LEDCalibrationAna::fTMax
private

Definition at line 90 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

uint32_t opdet::LEDCalibrationAna::fTriggerChannel
private

Definition at line 70 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().

float opdet::LEDCalibrationAna::fTriggerDelay
private

Definition at line 77 of file LEDCalibrationAna_module.cc.

Referenced by analyze(), and LEDCalibrationAna().


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