SVDEventT0PerformanceTTreeModule Class Reference

The module is used to create a TTree to study SVD EventT0. More...

#include <SVDEventT0PerformanceTTreeModule.h>

Inheritance diagram for SVDEventT0PerformanceTTreeModule:

Public Types
enum	EModulePropFlags {   c_Input = 1 ,   c_Output = 2 ,   c_ParallelProcessingCertified = 4 ,   c_HistogramManager = 8 ,   c_InternalSerializer = 16 ,   c_TerminateInAllProcesses = 32 ,   c_DontCollectStatistics = 64 }
	Each module can be tagged with property flags, which indicate certain features of the module. More...
typedef ModuleCondition::EAfterConditionPath	EAfterConditionPath
	Forward the EAfterConditionPath definition from the ModuleCondition.

Public Member Functions
	SVDEventT0PerformanceTTreeModule ()
	Constructor.
void	initialize () override
	Register input and output data.
void	terminate () override
	Write the TTree to the file.
void	event () override
	Compute the variables and fill the tree.
virtual std::vector< std::string >	getFileNames (bool outputFiles)
	Return a list of output filenames for this modules.
virtual void	beginRun ()
	Called when entering a new run.
virtual void	endRun ()
	This method is called if the current run ends.
const std::string &	getName () const
	Returns the name of the module.
const std::string &	getType () const
	Returns the type of the module (i.e.
const std::string &	getPackage () const
	Returns the package this module is in.
const std::string &	getDescription () const
	Returns the description of the module.
void	setName (const std::string &name)
	Set the name of the module.
void	setPropertyFlags (unsigned int propertyFlags)
	Sets the flags for the module properties.
LogConfig &	getLogConfig ()
	Returns the log system configuration.
void	setLogConfig (const LogConfig &logConfig)
	Set the log system configuration.
void	setLogLevel (int logLevel)
	Configure the log level.
void	setDebugLevel (int debugLevel)
	Configure the debug messaging level.
void	setAbortLevel (int abortLevel)
	Configure the abort log level.
void	setLogInfo (int logLevel, unsigned int logInfo)
	Configure the printed log information for the given level.
void	if_value (const std::string &expression, const std::shared_ptr< Path > &path, EAfterConditionPath afterConditionPath=EAfterConditionPath::c_End)
	Add a condition to the module.
void	if_false (const std::shared_ptr< Path > &path, EAfterConditionPath afterConditionPath=EAfterConditionPath::c_End)
	A simplified version to add a condition to the module.
void	if_true (const std::shared_ptr< Path > &path, EAfterConditionPath afterConditionPath=EAfterConditionPath::c_End)
	A simplified version to set the condition of the module.
bool	hasCondition () const
	Returns true if at least one condition was set for the module.
const ModuleCondition *	getCondition () const
	Return a pointer to the first condition (or nullptr, if none was set)
const std::vector< ModuleCondition > &	getAllConditions () const
	Return all set conditions for this module.
bool	evalCondition () const
	If at least one condition was set, it is evaluated and true returned if at least one condition returns true.
std::shared_ptr< Path >	getConditionPath () const
	Returns the path of the last true condition (if there is at least one, else reaturn a null pointer).
Module::EAfterConditionPath	getAfterConditionPath () const
	What to do after the conditional path is finished.
std::vector< std::shared_ptr< Path > >	getAllConditionPaths () const
	Return all condition paths currently set (no matter if the condition is true or not).
bool	hasProperties (unsigned int propertyFlags) const
	Returns true if all specified property flags are available in this module.
bool	hasUnsetForcedParams () const
	Returns true and prints error message if the module has unset parameters which the user has to set in the steering file.
const ModuleParamList &	getParamList () const
	Return module param list.
template<typename T >
ModuleParam< T > &	getParam (const std::string &name) const
	Returns a reference to a parameter.
bool	hasReturnValue () const
	Return true if this module has a valid return value set.
int	getReturnValue () const
	Return the return value set by this module.
std::shared_ptr< PathElement >	clone () const override
	Create an independent copy of this module.
std::shared_ptr< boost::python::list >	getParamInfoListPython () const
	Returns a python list of all parameters.

Static Public Member Functions
static void	exposePythonAPI ()
	Exposes methods of the Module class to Python.

Protected Member Functions
virtual void	def_initialize ()
	Wrappers to make the methods without "def_" prefix callable from Python.
virtual void	def_beginRun ()
	Wrapper method for the virtual function beginRun() that has the implementation to be used in a call from Python.
virtual void	def_event ()
	Wrapper method for the virtual function event() that has the implementation to be used in a call from Python.
virtual void	def_endRun ()
	This method can receive that the current run ends as a call from the Python side.
virtual void	def_terminate ()
	Wrapper method for the virtual function terminate() that has the implementation to be used in a call from Python.
void	setDescription (const std::string &description)
	Sets the description of the module.
void	setType (const std::string &type)
	Set the module type.
template<typename T >
void	addParam (const std::string &name, T &paramVariable, const std::string &description, const T &defaultValue)
	Adds a new parameter to the module.
template<typename T >
void	addParam (const std::string &name, T &paramVariable, const std::string &description)
	Adds a new enforced parameter to the module.
void	setReturnValue (int value)
	Sets the return value for this module as integer.
void	setReturnValue (bool value)
	Sets the return value for this module as bool.
void	setParamList (const ModuleParamList &params)
	Replace existing parameter list.

Private Member Functions
std::list< ModulePtr >	getModules () const override
	no submodules, return empty list
std::string	getPathString () const override
	return the module name.
void	setParamPython (const std::string &name, const boost::python::object &pyObj)
	Implements a method for setting boost::python objects.
void	setParamPythonDict (const boost::python::dict &dictionary)
	Implements a method for reading the parameter values from a boost::python dictionary.

Private Attributes
StoreObjPtr< EventT0 >	m_EventT0
	event T0
StoreArray< SVDCluster >	m_clusters
	svd clusters
std::string	m_rootFileName = ""
	root file name
TFile *	m_rootFilePtr = nullptr
	pointer at root file used for storing histograms
std::string	m_recoTracksStoreArrayName = ""
	storeArray name of the input and output RecoTracks
TTree *	m_t = nullptr
	tree containing info related to the clusters related to tracks
std::vector< float >	m_svdClCharge
	cluster charge
std::vector< float >	m_svdClSNR
	cluster SNR
std::vector< float >	m_svdClTime
	cluster time
std::vector< float >	m_svdClTimeErr
	cluster time error
std::vector< float >	m_svdClPos
	cluster position
std::vector< float >	m_svdClPosErr
	cluster position error
std::vector< float >	m_svdTrueTime
	true time
std::vector< int >	m_svdTrkPXDHits
	number of PXD hits on the track
std::vector< int >	m_svdTrkSVDHits
	number of SVD hits on the track
std::vector< int >	m_svdTrkCDCHits
	number of CDC hits on the track
std::vector< float >	m_svdTrkd0
	d0 of the track
std::vector< float >	m_svdTrkz0
	z0 of the track
std::vector< float >	m_svdTrkp
	p of the track
std::vector< float >	m_svdTrkpT
	pT of the track
std::vector< float >	m_svdTrkpCM
	pCM of the track
std::vector< float >	m_svdTrkTheta
	polar angle of the track
std::vector< float >	m_svdTrkPhi
	azimuthal angle of the track
std::vector< float >	m_svdTrkCharge
	charge of the track
std::vector< float >	m_svdTrkPValue
	pValue of the track
std::vector< float >	m_svdTrkNDF
	pValue of the track
std::vector< int >	m_svdLayer
	layer
std::vector< int >	m_svdLadder
	ladder
std::vector< int >	m_svdSensor
	sensor
std::vector< int >	m_svdSize
	cluster size
std::vector< int >	m_svdisUside
	is U-cluster side
std::vector< int >	m_trkNumber
	track number in the event
float	m_eventT0 = std::numeric_limits<float>::quiet_NaN()
	final event T0
float	m_eventT0Err = std::numeric_limits<float>::quiet_NaN()
	final event T0 error
float	m_svdEventT0 = std::numeric_limits<float>::quiet_NaN()
	SVD event T0.
float	m_svdEventT0Err = std::numeric_limits<float>::quiet_NaN()
	SVD event T0 Error.
float	m_svdOnlineEventT0 = std::numeric_limits<float>::quiet_NaN()
	SVD online event T0.
float	m_svdOnlineEventT0Err = std::numeric_limits<float>::quiet_NaN()
	SVD online event T0 Error.
float	m_cdcEventT0 = std::numeric_limits<float>::quiet_NaN()
	CDC event T0.
float	m_cdcEventT0Err = std::numeric_limits<float>::quiet_NaN()
	CDC event T0 Error.
float	m_cdcOnlineEventT0 = std::numeric_limits<float>::quiet_NaN()
	CDC online event T0.
float	m_cdcOnlineEventT0Err = std::numeric_limits<float>::quiet_NaN()
	CDC online event T0 Error.
float	m_topEventT0 = std::numeric_limits<float>::quiet_NaN()
	TOP event T0.
float	m_topEventT0Err = std::numeric_limits<float>::quiet_NaN()
	TOP event T0 Error.
float	m_topOnlineEventT0 = std::numeric_limits<float>::quiet_NaN()
	TOP online event T0.
float	m_topOnlineEventT0Err = std::numeric_limits<float>::quiet_NaN()
	TOP online event T0 Error.
float	m_eclEventT0 = std::numeric_limits<float>::quiet_NaN()
	ECL event T0.
float	m_eclEventT0Err = std::numeric_limits<float>::quiet_NaN()
	ECL event T0 Error.
float	m_eclOnlineEventT0 = std::numeric_limits<float>::quiet_NaN()
	ECL online event T0.
float	m_eclOnlineEventT0Err = std::numeric_limits<float>::quiet_NaN()
	ECL online event T0 Error.
int	m_eclTCEmax = std::numeric_limits<int>::quiet_NaN()
	ECal TC Emax
int	m_eclTCid = std::numeric_limits<int>::quiet_NaN()
	ECal TC id
int	m_nTracks = 0
	number of tracks in the event
int	m_svdTB = -1
	trigger bin
float	m_trueEventT0 = std::numeric_limits<float>::quiet_NaN()
	true event t0
int	m_exp = -99
	experiment number
int	m_run = -99
	run number
int	m_event = -99
	event number
std::string	m_name
	The name of the module, saved as a string (user-modifiable)
std::string	m_type
	The type of the module, saved as a string.
std::string	m_package
	Package this module is found in (may be empty).
std::string	m_description
	The description of the module.
unsigned int	m_propertyFlags
	The properties of the module as bitwise or (with |) of EModulePropFlags.
LogConfig	m_logConfig
	The log system configuration of the module.
ModuleParamList	m_moduleParamList
	List storing and managing all parameter of the module.
bool	m_hasReturnValue
	True, if the return value is set.
int	m_returnValue
	The return value.
std::vector< ModuleCondition >	m_conditions
	Module condition, only non-null if set.

Detailed Description

The module is used to create a TTree to study SVD EventT0.

Definition at line 29 of file SVDEventT0PerformanceTTreeModule.h.

Member Typedef Documentation

EAfterConditionPath

typedef ModuleCondition::EAfterConditionPath EAfterConditionPath

inherited

Forward the EAfterConditionPath definition from the ModuleCondition.

Definition at line 88 of file Module.h.

Member Enumeration Documentation

EModulePropFlags

enum EModulePropFlags

inherited

Each module can be tagged with property flags, which indicate certain features of the module.

Enumerator
c_Input	This module is an input module (reads data).
c_Output	This module is an output module (writes data).
c_ParallelProcessingCertified	This module can be run in parallel processing mode safely (All I/O must be done through the data store, in particular, the module must not write any files.)
c_HistogramManager	This module is used to manage histograms accumulated by other modules.
c_InternalSerializer	This module is an internal serializer/deserializer for parallel processing.
c_TerminateInAllProcesses	When using parallel processing, call this module's terminate() function in all processes(). This will also ensure that there is exactly one process (single-core if no parallel modules found) or at least one input, one main and one output process.
c_DontCollectStatistics	No statistics is collected for this module.

Definition at line 77 of file Module.h.

                          {
      c_Input                       = 1,  
      c_Output                      = 2,  
      c_ParallelProcessingCertified = 4,  
      c_HistogramManager            = 8, 
      c_InternalSerializer          = 16,  
      c_TerminateInAllProcesses     = 32,  
      c_DontCollectStatistics       = 64,  
    };

Constructor & Destructor Documentation

SVDEventT0PerformanceTTreeModule()

SVDEventT0PerformanceTTreeModule

(

)

Constructor.

Definition at line 50 of file SVDEventT0PerformanceTTreeModule.cc.

                                                                   : Module()
{
  //Set module properties
  setDescription("This module is used to create a TTree to study SVD eventT0 using clusters associated to tracks.");
  //Parameter to take only specific RecoTracks as input
  addParam("outputFileName", m_rootFileName, "Name of output root file.", std::string("SVDEventT0PerformanceTTree.root"));
  addParam("recoTracksStoreArrayName", m_recoTracksStoreArrayName, "StoreArray name of the input and output RecoTracks.",
           m_recoTracksStoreArrayName);
}

Member Function Documentation

beginRun()

virtual void beginRun ( void  )

inlinevirtualinherited

Called when entering a new run.

Called at the beginning of each run, the method gives you the chance to change run dependent constants like alignment parameters, etc.

This method can be implemented by subclasses.

Reimplemented in ARICHBackgroundModule, BeamabortModule, BgoModule, CaveModule, ClawModule, CLAWSModule, DosiModule, FANGSModule, He3tubeModule, MicrotpcModule, Ph1bpipeModule, Ph1sustrModule, PindiodeModule, PlumeModule, QcsmonitorModule, SrsensorModule, GetEventFromSocketModule, CalibrationCollectorModule, EventsOfDoomBusterModule, CosmicsAlignmentValidationModule, EnergyBiasCorrectionModule, ChargedPidMVAModule, ChargedPidMVAMulticlassModule, CurlTaggerModule, LowEnergyPi0IdentificationExpertModule, LowEnergyPi0VetoExpertModule, ParticleVertexFitterModule, PhotonEfficiencySystematicsModule, TagVertexModule, TreeFitterModule, arichBtestModule, ARICHDigitizerModule, ARICHDQMModule, ARICHRateCalModule, ARICHReconstructorModule, B2BIIMCParticlesMonitorModule, B2BIIConvertBeamParamsModule, B2BIIConvertMdstModule, B2BIIFixMdstModule, B2BIIMdstInputModule, BelleMCOutputModule, BeamBkgGeneratorModule, BeamBkgHitRateMonitorModule, BeamBkgMixerModule, BeamBkgTagSetterModule, 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TRGTOPDQMModule, TRGTOPTRD2TTSConverterModule, TRGTOPUnpackerModule, TRGTOPUnpackerWaveformModule, TRGTOPWaveformPlotterModule, TRGRAWDATAModule, VXDMisalignmentModule, DQMHistAnalysisARICHModule, DQMHistAnalysisCDCDedxModule, DQMHistAnalysisCDCEpicsModule, DQMHistAnalysisCDCMonObjModule, DQMHistAnalysisDAQMonObjModule, DQMHistAnalysisECLModule, DQMHistAnalysisECLConnectedRegionsModule, DQMHistAnalysisECLShapersModule, DQMHistAnalysisECLSummaryModule, DQMHistAnalysisEpicsExampleModule, DQMHistAnalysisEventT0EfficiencyModule, DQMHistAnalysisEventT0TriggerJitterModule, DQMHistAnalysisExampleModule, DQMHistAnalysisExampleFlagsModule, DQMHistAnalysisHLTModule, DQMHistAnalysisInput2Module, DQMHistAnalysisInputPVSrvModule, DQMHistAnalysisInputRootFileModule, DQMHistAnalysisInputTestModule, DQMHistAnalysisKLMModule, DQMHistAnalysisKLM2Module, DQMHistAnalysisMiraBelleModule, DQMHistAnalysisOutputMonObjModule, DQMHistAnalysisOutputRelayMsgModule, DQMHistAnalysisPeakModule, DQMHistAnalysisPXDERModule, DQMHistAnalysisPXDFitsModule, DQMHistAnalysisSVDClustersOnTrackModule, DQMHistAnalysisSVDDoseModule, DQMHistAnalysisSVDEfficiencyModule, DQMHistAnalysisSVDGeneralModule, DQMHistAnalysisSVDOccupancyModule, DQMHistAnalysisSVDOnMiraBelleModule, DQMHistAnalysisSVDUnpackerModule, DQMHistAnalysisTOPModule, DQMHistAnalysisTrackingAbortModule, DQMHistAnalysisTrackingHLTModule, DQMHistAnalysisTRGECLModule, DQMHistAutoCanvasModule, DQMHistComparitorModule, DQMHistDeltaHistoModule, DQMHistReferenceModule, DQMHistSnapshotsModule, DAQMonitorModule, DelayDQMModule, V0ObjectsDQMModule, ECLDQMInjectionModule, PyModule, PXDBgTupleProducerModule, PXDMCBgTupleProducerModule, PXDDAQDQMModule, PXDDQMClustersModule, PXDDQMCorrModule, PXDDQMEfficiencyModule, PXDDQMEfficiencySelftrackModule, PXDDQMExpressRecoModule, PXDGatedDHCDQMModule, PXDGatedModeDQMModule, PXDInjectionDQMModule, PXDRawDQMCorrModule, PXDRawDQMModule, PXDROIDQMModule, PXDTrackClusterDQMModule, PXDDigitizerModule, PXDPackerModule, PXDUnpackerModule, TTDDQMModule, SVDDQMClustersOnTrackModule, SVDDQMDoseModule, SVDDQMExpressRecoModule, SVDDQMInjectionModule, SVDUnpackerDQMModule, PXDclusterFilterModule, PXDdigiFilterModule, PXDROIFinderAnalysisModule, TrackingAbortDQMModule, VXDDQMExpressRecoModule, vxdDigitMaskingModule, DQMHistAnalysisDeltaEpicsMonObjExampleModule, DQMHistAnalysisDeltaTestModule, DQMHistAnalysisEpicsOutputModule, DQMHistAnalysisPhysicsModule, DQMHistAnalysisPXDChargeModule, DQMHistAnalysisPXDCMModule, DQMHistAnalysisPXDDAQModule, DQMHistAnalysisPXDEffModule, DQMHistAnalysisPXDInjectionModule, DQMHistAnalysisPXDReductionModule, DQMHistAnalysisPXDTrackChargeModule, DQMHistAnalysisRooFitExampleModule, DQMHistAnalysisRunNrModule, DQMHistAnalysisTRGModule, DQMHistInjectionModule, and DQMHistOutputToEPICSModule.

Definition at line 147 of file Module.h.

{};

clone()

std::shared_ptr< PathElement > clone ( ) const

overridevirtualinherited

Create an independent copy of this module.

Note that parameters are shared, so changing them on a cloned module will also affect the original module.

Implements PathElement.

Definition at line 179 of file Module.cc.

{
  ModulePtr newModule = ModuleManager::Instance().registerModule(getType());
  newModule->m_moduleParamList.setParameters(getParamList());
  newModule->setName(getName());
  newModule->m_package = m_package;
  newModule->m_propertyFlags = m_propertyFlags;
  newModule->m_logConfig = m_logConfig;
  newModule->m_conditions = m_conditions;
 
  return newModule;
}

def_beginRun()

virtual void def_beginRun ( )

inlineprotectedvirtualinherited

Wrapper method for the virtual function beginRun() that has the implementation to be used in a call from Python.

Reimplemented in PyModule.

Definition at line 426 of file Module.h.

{ beginRun(); }

def_endRun()

virtual void def_endRun ( )

inlineprotectedvirtualinherited

This method can receive that the current run ends as a call from the Python side.

For regular C++-Modules that forwards the call to the regular endRun() method.

Reimplemented in PyModule.

Definition at line 439 of file Module.h.

{ endRun(); }

def_event()

virtual void def_event ( )

inlineprotectedvirtualinherited

Wrapper method for the virtual function event() that has the implementation to be used in a call from Python.

Reimplemented in PyModule.

Definition at line 432 of file Module.h.

{ event(); }

def_initialize()

virtual void def_initialize ( )

inlineprotectedvirtualinherited

Wrappers to make the methods without "def_" prefix callable from Python.

Overridden in PyModule. Wrapper method for the virtual function initialize() that has the implementation to be used in a call from Python.

Reimplemented in PyModule.

Definition at line 420 of file Module.h.

{ initialize(); }

def_terminate()

virtual void def_terminate ( )

inlineprotectedvirtualinherited

Wrapper method for the virtual function terminate() that has the implementation to be used in a call from Python.

Reimplemented in PyModule.

Definition at line 445 of file Module.h.

{ terminate(); }

endRun()

virtual void endRun ( void  )

inlinevirtualinherited

This method is called if the current run ends.

Use this method to store information, which should be aggregated over one run.

This method can be implemented by subclasses.

Reimplemented in BeamabortModule, BgoModule, CaveModule, ClawModule, CLAWSModule, DosiModule, FANGSModule, He3tubeModule, MicrotpcModule, Ph1bpipeModule, Ph1sustrModule, PindiodeModule, PlumeModule, QcsmonitorModule, SrsensorModule, GetEventFromSocketModule, CalibrationCollectorModule, AlignDQMModule, CosmicsAlignmentValidationModule, CurlTaggerModule, LowEnergyPi0IdentificationExpertModule, LowEnergyPi0VetoExpertModule, arichBtestModule, ARICHDQMModule, B2BIIMCParticlesMonitorModule, B2BIIConvertMdstModule, B2BIIMdstInputModule, BelleMCOutputModule, BeamBkgGeneratorModule, BeamBkgHitRateMonitorModule, BeamBkgMixerModule, BeamBkgTagSetterModule, BGOverlayInputModule, AnalysisPhase1StudyModule, NtuplePhase1_v6Module, ReprocessorModule, BeamabortStudyModule, BeamDigitizerModule, BgoDigitizerModule, BgoStudyModule, ClawDigitizerModule, ClawStudyModule, ClawsDigitizerModule, ClawsStudyModule, CsiDigitizer_v2Module, CsIDigitizerModule, CsiModule, CsiStudy_v2Module, CsIStudyModule, DosiDigitizerModule, DosiStudyModule, FANGSDigitizerModule, FANGSStudyModule, He3DigitizerModule, He3tubeStudyModule, MicrotpcStudyModule, TpcDigitizerModule, TPCStudyModule, PinDigitizerModule, PindiodeStudyModule, PlumeDigitizerModule, QcsmonitorDigitizerModule, QcsmonitorStudyModule, CDCCosmicAnalysisModule, CDCCRTestModule, cdcDQM7Module, CDCDQMModule, CDCPackerModule, CDCRecoTrackFilterModule, CDCUnpackerModule, DAQPerfModule, RxSocketModule, TxSocketModule, DqmHistoManagerModule, MonitorDataModule, TrackAnaModule, Ds2SampleModule, ReceiveEventModule, HLTDQM2ZMQModule, HLTDs2ZMQModule, ElapsedTimeModule, DeSerializerPXDModule, GenRawSendModule, Root2RawModule, SerializerModule, CertifyParallelModule, Ds2RawModule, Ds2RbufModule, EvReductionModule, FastRbuf2DsModule, Raw2DsModule, RawInputModule, Rbuf2DsModule, Rbuf2RbufModule, Ds2RawFileModule, PartialSeqRootReaderModule, SeqRootMergerModule, StorageDeserializerModule, StorageRootOutputModule, StorageSerializerModule, PhysicsObjectsDQMModule, PhysicsObjectsMiraBelleBhabhaModule, PhysicsObjectsMiraBelleDst2Module, PhysicsObjectsMiraBelleDstModule, PhysicsObjectsMiraBelleHadronModule, PhysicsObjectsMiraBelleModule, ECLBackgroundModule, ECLChargedPIDModule, ECLChargedPIDDataAnalysisModule, ECLChargedPIDDataAnalysisValidationModule, ECLClusterPSDModule, ECLCovarianceMatrixModule, ECLCRFinderModule, ECLDataAnalysisModule, ECLDigitCalibratorModule, ECLDigitizerModule, ECLDigitizerPureCsIModule, EclDisplayModule, ECLDQMModule, ECLDQMEXTENDEDModule, ECLDQMOutOfTimeDigitsModule, ECLFinalizerModule, ECLHitDebugModule, ECLLocalMaximumFinderModule, ECLLocalRunCalibratorModule, ECLLOMModule, ECLPackerModule, ECLShowerCorrectorModule, ECLShowerShapeModule, ECLSplitterN1Module, ECLSplitterN2Module, ECLUnpackerModule, ECLWaveformFitModule, HistoModule, SubEventModule, SwitchDataStoreModule, EventInfoPrinterModule, RandomBarrierModule, HistoManagerModule, StatisticsSummaryModule, SeqRootInputModule, SeqRootOutputModule, RxModule, TxModule, ZMQTxInputModule, ZMQTxWorkerModule, EvtGenDecayModule, OverrideGenerationFlagsModule, BKLMAnaModule, BKLMDigitAnalyzerModule, BKLMSimHistogrammerModule, BKLMTrackingModule, EKLMDataCheckerModule, KLMClusterEfficiencyModule, KLMClustersReconstructorModule, KLMDigitizerModule, KLMDQMModule, KLMDQM2Module, KLMPackerModule, KLMReconstructorModule, KLMScintillatorSimulatorModule, KLMUnpackerModule, AWESOMEBasicModule, PXDBackgroundModule, PXDClustersFromTracksModule, PXDPerformanceModule, Convert2RawDetModule, PrintDataModule, PrintEventRateModule, Root2BinaryModule, CDCDedxDQMModule, CDCDedxValidationModule, EventT0ValidationModule, DataWriterModule, KlongValidationModule, KLMMuonIDDNNExpertModule, FullSimModule, SVDBackgroundModule, SVDClusterCalibrationsMonitorModule, SVDHotStripFinderModule, SVDLatencyCalibrationModule, SVDLocalCalibrationsMonitorModule, SVDPositionErrorScaleFactorImporterModule, SVDTimeCalibrationsMonitorModule, svdDumpModule, SVDPackerModule, SVDB4CommissioningPlotsModule, SVDClusterEvaluationModule, SVDClusterEvaluationTrueInfoModule, SVDClusterFilterModule, SVDOccupancyAnalysisModule, SVDPerformanceModule, SVDShaperDigitsFromTracksModule, SVDClusterizerModule, SVDCoGTimeEstimatorModule, SVDDataFormatCheckModule, SVDRecoDigitCreatorModule, SVD3SamplesEmulatorModule, SVDTriggerQualityGeneratorModule, SVDUnpackerModule, TOPBackgroundModule, TOPChannelT0MCModule, TOPTriggerDigitizerModule, TOPDoublePulseGeneratorModule, TOPGainEfficiencyCalculatorModule, TOPLaserHitSelectorModule, TOPInterimFENtupleModule, TOPLaserCalibratorModule, TOPMCTrackMakerModule, TOPNtupleModule, TOPPackerModule, TOPRawDigitConverterModule, TOPTBCComparatorModule, TOPTimeBaseCalibratorModule, TOPUnpackerModule, TOPWaveformFeatureExtractorModule, TOPWaveformQualityPlotterModule, TOPXTalkChargeShareSetterModule, ExtModule, GenfitVisModule, MCV0MatcherModule, MCTrackCandClassifierModule, MuidModule, MCSlowPionPXDROICreatorModule, PXDROIFinderModule, SVDROIDQMModule, SVDROIFinderAnalysisModule, SVDROIFinderModule, RT2SPTCConverterModule, SPTCmomentumSeedRetrieverModule, SPTCvirtualIPRemoverModule, TrackFinderMCTruthRecoTracksModule, EffPlotsModule, HitXPModule, TrackingPerformanceEvaluationModule, V0findingPerformanceEvaluationModule, SecMapTrainerBaseModule, SecMapTrainerVXDTFModule, TrackFinderVXDAnalizerModule, VXDSimpleClusterizerModule, NoKickCutsEvalModule, SectorMapBootstrapModule, VXDTFTrainingDataCollectorModule, FindletModule< AFindlet >, FindletModule< HitBasedT0Extractor >, FindletModule< CKFToSVDSeedFindlet >, FindletModule< CKFToSVDFindlet >, FindletModule< CosmicsTrackMergerFindlet >, FindletModule< DATCONFPGAFindlet >, FindletModule< MCVXDCDCTrackMergerFindlet >, FindletModule< vxdHoughTracking::SVDHoughTracking >, FindletModule< CKFToCDCFindlet >, FindletModule< CKFToCDCFromEclFindlet >, FindletModule< CKFToPXDFindlet >, FindletModule< AsicBackgroundLibraryCreator >, FindletModule< CDCTrackingEventLevelMdstInfoFillerFromHitsFindlet >, FindletModule< CDCTrackingEventLevelMdstInfoFillerFromSegmentsFindlet >, FindletModule< AxialSegmentPairCreator >, FindletModule< AxialStraightTrackFinder >, FindletModule< AxialTrackCreatorMCTruth >, FindletModule< AxialTrackCreatorSegmentHough >, FindletModule< AxialTrackFinderHough >, FindletModule< AxialTrackFinderLegendre >, FindletModule< ClusterBackgroundDetector >, FindletModule< ClusterPreparer >, FindletModule< ClusterRefiner< BridgingWireHitRelationFilter > >, FindletModule< FacetCreator >, FindletModule< HitReclaimer >, FindletModule< MonopoleAxialTrackFinderLegendre >, FindletModule< MonopoleStereoHitFinder >, FindletModule< MonopoleStereoHitFinderQuadratic >, FindletModule< SegmentCreatorFacetAutomaton >, FindletModule< SegmentCreatorMCTruth >, FindletModule< SegmentFinderFacetAutomaton >, FindletModule< SegmentFitter >, FindletModule< SegmentLinker >, FindletModule< SegmentOrienter >, FindletModule< SegmentPairCreator >, FindletModule< SegmentRejecter >, FindletModule< SegmentTrackCombiner >, FindletModule< SegmentTripleCreator >, FindletModule< StereoHitFinder >, FindletModule< SuperClusterCreator >, FindletModule< TrackCombiner >, FindletModule< TrackCreatorSegmentPairAutomaton >, FindletModule< TrackCreatorSegmentTripleAutomaton >, FindletModule< TrackCreatorSingleSegments >, FindletModule< TrackExporter >, FindletModule< TrackFinderAutomaton >, FindletModule< TrackFinderCosmics >, FindletModule< TrackFinder >, FindletModule< TrackFinderSegmentPairAutomaton >, FindletModule< TrackFinderSegmentTripleAutomaton >, FindletModule< TrackFlightTimeAdjuster >, FindletModule< TrackLinker >, FindletModule< TrackOrienter >, FindletModule< TrackQualityAsserter >, FindletModule< TrackQualityEstimator >, FindletModule< TrackRejecter >, FindletModule< WireHitBackgroundDetector >, FindletModule< WireHitCreator >, FindletModule< WireHitPreparer >, CDCTriggerNeuroDQMModule, CDCTriggerNeuroDQMOnlineModule, CDCTriggerNDFinderModule, TRGCDCModule, TRGCDCETFUnpackerModule, TRGCDCT2DDQMModule, TRGCDCT3DConverterModule, TRGCDCT3DDQMModule, TRGCDCT3DUnpackerModule, TRGCDCTSFDQMModule, TRGCDCTSFUnpackerModule, TRGCDCTSStreamModule, MCMatcherTRGECLModule, TRGECLFAMModule, TRGECLModule, TRGECLBGTCHitModule, TRGECLDQMModule, TRGECLQAMModule, TRGECLRawdataAnalysisModule, TRGECLTimingCalModule, TRGECLUnpackerModule, TRGGDLModule, TRGGDLDQMModule, TRGGDLDSTModule, TRGGDLSummaryModule, TRGGDLUnpackerModule, TRGGRLMatchModule, TRGGRLModule, TRGGRLProjectsModule, TRGGRLDQMModule, TRGGRLUnpackerModule, KLMTriggerModule, TRGTOPDQMModule, TRGTOPTRD2TTSConverterModule, TRGTOPUnpackerModule, TRGTOPUnpackerWaveformModule, TRGTOPWaveformPlotterModule, TRGRAWDATAModule, DQMHistAnalysisARICHModule, DQMHistAnalysisARICHMonObjModule, DQMHistAnalysisCDCDedxModule, DQMHistAnalysisCDCEpicsModule, DQMHistAnalysisCDCMonObjModule, DQMHistAnalysisDAQMonObjModule, DQMHistAnalysisECLModule, DQMHistAnalysisECLConnectedRegionsModule, DQMHistAnalysisECLOutOfTimeDigitsModule, DQMHistAnalysisECLShapersModule, DQMHistAnalysisECLSummaryModule, DQMHistAnalysisEpicsExampleModule, DQMHistAnalysisExampleModule, DQMHistAnalysisExampleFlagsModule, DQMHistAnalysisHLTMonObjModule, DQMHistAnalysisInput2Module, DQMHistAnalysisInputPVSrvModule, DQMHistAnalysisInputTestModule, DQMHistAnalysisKLMModule, DQMHistAnalysisKLM2Module, DQMHistAnalysisMiraBelleModule, DQMHistAnalysisMonObjModule, DQMHistAnalysisOutputFileModule, DQMHistAnalysisOutputMonObjModule, DQMHistAnalysisOutputRelayMsgModule, DQMHistAnalysisPXDFitsModule, DQMHistAnalysisSVDClustersOnTrackModule, DQMHistAnalysisSVDDoseModule, DQMHistAnalysisSVDEfficiencyModule, DQMHistAnalysisSVDGeneralModule, DQMHistAnalysisSVDOccupancyModule, DQMHistAnalysisSVDOnMiraBelleModule, DQMHistAnalysisSVDUnpackerModule, DQMHistAnalysisTOPModule, DQMHistAnalysisTRGECLModule, DQMHistAnalysisTRGGDLModule, DQMHistComparitorModule, DQMHistDeltaHistoModule, DQMHistReferenceModule, DQMHistSnapshotsModule, PyModule, SVDUnpackerDQMModule, TrackSetEvaluatorHopfieldNNDEVModule, vxdDigitMaskingModule, DQMHistAnalysisDeltaEpicsMonObjExampleModule, DQMHistAnalysisDeltaTestModule, DQMHistAnalysisEpicsOutputModule, DQMHistAnalysisPhysicsModule, DQMHistAnalysisPXDChargeModule, DQMHistAnalysisPXDTrackChargeModule, DQMHistAnalysisRooFitExampleModule, DQMHistAnalysisTRGModule, and DQMHistOutputToEPICSModule.

Definition at line 166 of file Module.h.

{};

evalCondition()

bool evalCondition ( ) const

inherited

If at least one condition was set, it is evaluated and true returned if at least one condition returns true.

If no condition or result value was defined, the method returns false. Otherwise, the condition is evaluated and true returned, if at least one condition returns true. To speed up the evaluation, the condition strings were already parsed in the method if_value().

Returns

True if at least one condition and return value exists and at least one condition expression was evaluated to true.

Definition at line 96 of file Module.cc.

{
  if (m_conditions.empty()) return false;
 
  //okay, a condition was set for this Module...
  if (!m_hasReturnValue) {
    B2FATAL("A condition was set for '" << getName() << "', but the module did not set a return value!");
  }
 
  for (const auto& condition : m_conditions) {
    if (condition.evaluate(m_returnValue)) {
      return true;
    }
  }
  return false;
}

event()

void event ( void  )

overridevirtual

Compute the variables and fill the tree.

Reimplemented from Module.

Definition at line 131 of file SVDEventT0PerformanceTTreeModule.cc.

{
  m_trueEventT0         = std::numeric_limits<float>::quiet_NaN();
  m_eventT0             = std::numeric_limits<float>::quiet_NaN();
  m_eventT0Err          = std::numeric_limits<float>::quiet_NaN();
  m_svdEventT0          = std::numeric_limits<float>::quiet_NaN();
  m_svdEventT0Err       = std::numeric_limits<float>::quiet_NaN();
  m_svdOnlineEventT0    = std::numeric_limits<float>::quiet_NaN();
  m_svdOnlineEventT0Err = std::numeric_limits<float>::quiet_NaN();
  m_cdcEventT0          = std::numeric_limits<float>::quiet_NaN();
  m_cdcEventT0Err       = std::numeric_limits<float>::quiet_NaN();
  m_cdcOnlineEventT0    = std::numeric_limits<float>::quiet_NaN();
  m_cdcOnlineEventT0Err = std::numeric_limits<float>::quiet_NaN();
  m_topEventT0          = std::numeric_limits<float>::quiet_NaN();
  m_topEventT0Err       = std::numeric_limits<float>::quiet_NaN();
  m_topOnlineEventT0    = std::numeric_limits<float>::quiet_NaN();
  m_topOnlineEventT0Err = std::numeric_limits<float>::quiet_NaN();
  m_eclEventT0          = std::numeric_limits<float>::quiet_NaN();
  m_eclEventT0Err       = std::numeric_limits<float>::quiet_NaN();
  m_eclOnlineEventT0    = std::numeric_limits<float>::quiet_NaN();
  m_eclOnlineEventT0Err = std::numeric_limits<float>::quiet_NaN();
  m_eclTCEmax           = std::numeric_limits<int>::quiet_NaN();
  m_eclTCid             = std::numeric_limits<int>::quiet_NaN();
 
  StoreObjPtr<EventMetaData> evtMetaData;
  m_exp = evtMetaData->getExperiment();
  m_run = evtMetaData->getRun();
  m_event = evtMetaData->getEvent();
 
  if (m_EventT0.isValid())
    if (m_EventT0->hasEventT0()) {
      m_eventT0 = (float)m_EventT0->getEventT0();
      m_eventT0Err = (float)m_EventT0->getEventT0Uncertainty();
 
      if (m_EventT0->hasTemporaryEventT0(Const::EDetector::SVD)) {
        const auto bestSVDEvtT0 = m_EventT0->getBestSVDTemporaryEventT0();
        m_svdEventT0 = bestSVDEvtT0->eventT0 ;
        m_svdEventT0Err = bestSVDEvtT0->eventT0Uncertainty;
      }
 
      if (m_EventT0->hasTemporaryEventT0(Const::EDetector::CDC)) {
        const auto bestCDCEvtT0 = m_EventT0->getBestCDCTemporaryEventT0();
        m_cdcEventT0 = bestCDCEvtT0->eventT0 ;
        m_cdcEventT0Err = bestCDCEvtT0->eventT0Uncertainty;
      }
 
      if (m_EventT0->hasTemporaryEventT0(Const::EDetector::TOP)) {
        const auto bestTOPEvtT0 = m_EventT0->getBestTOPTemporaryEventT0();
        m_topEventT0 = bestTOPEvtT0->eventT0 ;
        m_topEventT0Err = bestTOPEvtT0->eventT0Uncertainty;
      }
 
      if (m_EventT0->hasTemporaryEventT0(Const::EDetector::ECL)) {
        const auto bestECLEvtT0 = m_EventT0->getBestECLTemporaryEventT0();
        m_eclEventT0 = bestECLEvtT0->eventT0 ;
        m_eclEventT0Err = bestECLEvtT0->eventT0Uncertainty;
      }
    }
 
  StoreArray<OnlineEventT0> onlineEventT0;
  for (auto& evt : onlineEventT0) {
    if (evt.getOnlineEventT0Detector() == Const::EDetector::SVD) {
      B2DEBUG(40, "OnlineEventT0 given by SVD");
      m_svdOnlineEventT0    = evt.getOnlineEventT0();
      m_svdOnlineEventT0Err = evt.getOnlineEventT0Uncertainty();
    }
 
    if (evt.getOnlineEventT0Detector() == Const::EDetector::CDC) {
      B2DEBUG(40, "OnlineEventT0 given by CDC");
      m_cdcOnlineEventT0    = evt.getOnlineEventT0();
      m_cdcOnlineEventT0Err = evt.getOnlineEventT0Uncertainty();
    }
 
    if (evt.getOnlineEventT0Detector() == Const::EDetector::ECL) {
      B2DEBUG(40, "OnlineEventT0 given by ECL");
      m_eclOnlineEventT0    = evt.getOnlineEventT0();
      m_eclOnlineEventT0Err = evt.getOnlineEventT0Uncertainty();
    }
 
    if (evt.getOnlineEventT0Detector() == Const::EDetector::TOP) {
      B2DEBUG(40, "OnlineEventT0 given by TOP");
      m_topOnlineEventT0    = evt.getOnlineEventT0();
      m_topOnlineEventT0Err = evt.getOnlineEventT0Uncertainty();
    }
  }
 
 
  // clear all vectors
  m_trkNumber.clear();
  m_svdisUside.clear();
  m_svdSize.clear();
  m_svdSensor.clear();
  m_svdLadder.clear();
  m_svdLadder.clear();
  m_svdTrkPhi.clear();
  m_svdTrkTheta.clear();
  m_svdTrkpCM.clear();
  m_svdTrkp.clear();
  m_svdTrkpT.clear();
  m_svdTrkz0.clear();
  m_svdTrkd0.clear();
  m_svdTrkPValue.clear();
  m_svdTrkCharge.clear();
  m_svdTrkNDF.clear();
  m_svdTrkCDCHits.clear();
  m_svdTrkSVDHits.clear();
  m_svdTrkPXDHits.clear();
  m_svdTrueTime.clear();
  m_svdClPosErr.clear();
  m_svdClPos.clear();
  m_svdClTimeErr.clear();
  m_svdClTime.clear();
  m_svdClSNR.clear();
  m_svdClCharge.clear();
 
 
  //first check SVDEventInfo name
  StoreObjPtr<SVDEventInfo> temp_eventinfo("SVDEventInfo");
  std::string m_svdEventInfoName = "SVDEventInfo";
  if (!temp_eventinfo.isValid())
    m_svdEventInfoName = "SVDEventInfoSim";
  StoreObjPtr<SVDEventInfo> eventinfo(m_svdEventInfoName);
  if (!eventinfo) B2ERROR("No SVDEventInfo!");
  m_svdTB = eventinfo->getModeByte().getTriggerBin();
 
  bool isMC = Environment::Instance().isMC();
 
  int trkNumber = 0;
  StoreArray<RecoTrack> recoTracks(m_recoTracksStoreArrayName);
  m_nTracks = recoTracks.getEntries();
  for (const auto& trk : recoTracks) {
    if (! trk.wasFitSuccessful()) {
      m_nTracks -= 1;
      continue;
    }
 
 
    RelationVector<Track> theTK = DataStore::getRelationsWithObj<Track>(&trk);
 
    if (theTK.size() == 0) {
      m_nTracks -= 1;
      continue;
    }
 
    trkNumber ++;
 
    const vector<SVDCluster* > svdClusters = trk.getSVDHitList();
    B2DEBUG(40, "FITTED TRACK:   NUMBER OF SVD HITS = " << svdClusters.size());
 
    for (unsigned int i = 0; i < svdClusters.size(); i++) {
 
      const TrackFitResult*  tfr = theTK[0]->getTrackFitResultWithClosestMass(Const::pion);
 
      if (tfr) {
        m_svdTrkTheta.push_back(tfr->getMomentum().Theta());
        m_svdTrkPhi.push_back(tfr->getMomentum().Phi());
        m_svdTrkd0.push_back(tfr->getD0());
        m_svdTrkz0.push_back(tfr->getZ0());
        m_svdTrkp.push_back(tfr->getMomentum().R());
        m_svdTrkpT.push_back(tfr->getMomentum().Rho());
        m_svdTrkPValue.push_back(tfr->getPValue());
        m_svdTrkCharge.push_back(tfr->getChargeSign());
        m_svdTrkNDF.push_back(tfr->getNDF());
        ROOT::Math::PxPyPzEVector pStar = tfr->get4Momentum();
        ROOT::Math::BoostZ boost(3. / 11);
        pStar = boost(pStar);
        m_svdTrkpCM.push_back(pStar.P());
      }
 
 
 
      m_svdTrkPXDHits.push_back((trk.getPXDHitList()).size());
      m_svdTrkSVDHits.push_back((trk.getSVDHitList()).size());
      m_svdTrkCDCHits.push_back((trk.getCDCHitList()).size());
      m_trkNumber.push_back(trkNumber);
 
      const SVDCluster* svd_1 = svdClusters[i];
 
      //get true hits, used only if isMC
      RelationVector<SVDTrueHit> trueHit_1 = DataStore::getRelationsWithObj<SVDTrueHit>(svd_1);
 
 
 
 
      const RecoHitInformation* infoSVD_1 = trk.getRecoHitInformation(svd_1);
      if (!infoSVD_1) {
        continue;
      }
 
      const VxdID svd_id_1 = svd_1->getSensorID();
      m_svdLayer.push_back(svd_id_1.getLayerNumber());
      m_svdLadder.push_back(svd_id_1.getLadderNumber());
      m_svdSensor.push_back(svd_id_1.getSensorNumber());
 
      m_svdisUside.push_back(svd_1->isUCluster());
 
      m_svdSize.push_back(svd_1->getSize());
 
      m_svdClTime.push_back(svd_1->getClsTime());
      m_svdClTimeErr.push_back(svd_1->getClsTimeSigma());
      m_svdClSNR.push_back(svd_1->getSNR());
      m_svdClCharge.push_back(svd_1->getCharge());
      m_svdClPos.push_back(svd_1->getPosition());
      m_svdClPosErr.push_back(svd_1->getPositionSigma());
      if (isMC && trueHit_1.size() > 0) {
 
        m_svdTrueTime.push_back(trueHit_1[0]->getGlobalTime());
 
        RelationVector<MCParticle> mcParticle_1 = trueHit_1[0]->getRelationsFrom<MCParticle>();
        if (mcParticle_1.size() > 0) {
          if (mcParticle_1[0]->isPrimaryParticle())
            m_trueEventT0 = mcParticle_1[0]->getProductionTime();
        }
      } else
        m_svdTrueTime.push_back(std::numeric_limits<float>::quiet_NaN());
    }
  }
 
  StoreArray<TRGECLUnpackerStore> TRGECLData;
  for (const auto& trgHit : TRGECLData) {
    int hitWin   = trgHit.getHitWin();
    B2DEBUG(40, "hitWin = " << hitWin);
    if (hitWin != 3 && hitWin != 4) { continue; }
    if (trgHit.getTCEnergy() > m_eclTCEmax) {
      m_eclTCid      = trgHit.getTCId();
      m_eclTCEmax    = trgHit.getTCEnergy();
    }
  }
 
  m_t->Fill();
 
}

exposePythonAPI()

void exposePythonAPI ( )

staticinherited

Exposes methods of the Module class to Python.

Definition at line 325 of file Module.cc.

{
  // to avoid confusion between std::arg and boost::python::arg we want a shorthand namespace as well
  namespace bp = boost::python;
 
  docstring_options options(true, true, false); //userdef, py sigs, c++ sigs
 
  void (Module::*setReturnValueInt)(int) = &Module::setReturnValue;
 
  enum_<Module::EAfterConditionPath>("AfterConditionPath",
                                     R"(Determines execution behaviour after a conditional path has been executed:
 
.. attribute:: END
 
  End processing of this path after the conditional path. (this is the default for if_value() etc.)
 
.. attribute:: CONTINUE
 
  After the conditional path, resume execution after this module.)")
  .value("END", Module::EAfterConditionPath::c_End)
  .value("CONTINUE", Module::EAfterConditionPath::c_Continue)
  ;
 
  /* Do not change the names of >, <, ... we use them to serialize conditional pathes */
  enum_<Belle2::ModuleCondition::EConditionOperators>("ConditionOperator")
  .value(">", Belle2::ModuleCondition::EConditionOperators::c_GT)
  .value("<", Belle2::ModuleCondition::EConditionOperators::c_ST)
  .value(">=", Belle2::ModuleCondition::EConditionOperators::c_GE)
  .value("<=", Belle2::ModuleCondition::EConditionOperators::c_SE)
  .value("==", Belle2::ModuleCondition::EConditionOperators::c_EQ)
  .value("!=", Belle2::ModuleCondition::EConditionOperators::c_NE)
  ;
 
  enum_<Module::EModulePropFlags>("ModulePropFlags",
                                  R"(Flags to indicate certain low-level features of modules, see :func:`Module.set_property_flags()`, :func:`Module.has_properties()`. Most useful flags are:
 
.. attribute:: PARALLELPROCESSINGCERTIFIED
 
    This module can be run in parallel processing mode safely (All I/O must be done through the data store, in particular, the module must not write any files.)
 
.. attribute:: HISTOGRAMMANAGER
 
  This module is used to manage histograms accumulated by other modules
 
.. attribute:: TERMINATEINALLPROCESSES
 
  When using parallel processing, call this module's terminate() function in all processes. This will also ensure that there is exactly one process (single-core if no parallel modules found) or at least one input, one main and one output process.
)")
  .value("INPUT", Module::EModulePropFlags::c_Input)
  .value("OUTPUT", Module::EModulePropFlags::c_Output)
  .value("PARALLELPROCESSINGCERTIFIED", Module::EModulePropFlags::c_ParallelProcessingCertified)
  .value("HISTOGRAMMANAGER", Module::EModulePropFlags::c_HistogramManager)
  .value("INTERNALSERIALIZER", Module::EModulePropFlags::c_InternalSerializer)
  .value("TERMINATEINALLPROCESSES", Module::EModulePropFlags::c_TerminateInAllProcesses)
  ;
 
  //Python class definition
  class_<Module, PyModule> module("Module", R"(
Base class for Modules.
 
A module is the smallest building block of the framework.
A typical event processing chain consists of a Path containing
modules. By inheriting from this base class, various types of
modules can be created. To use a module, please refer to
:func:`Path.add_module()`.  A list of modules is available by running
``basf2 -m`` or ``basf2 -m package``, detailed information on parameters is
given by e.g. ``basf2 -m RootInput``.
 
The 'Module Development' section in the manual provides detailed information
on how to create modules, setting parameters, or using return values/conditions:
https://confluence.desy.de/display/BI/Software+Basf2manual#Module_Development
 
)");
  module
  .def("__str__", &Module::getPathString)
  .def("name", &Module::getName, return_value_policy<copy_const_reference>(),
       "Returns the name of the module. Can be changed via :func:`set_name() <Module.set_name()>`, use :func:`type() <Module.type()>` for identifying a particular module class.")
  .def("type", &Module::getType, return_value_policy<copy_const_reference>(),
       "Returns the type of the module (i.e. class name minus 'Module')")
  .def("set_name", &Module::setName, args("name"), R"(
Set custom name, e.g. to distinguish multiple modules of the same type.
 
>>> path.add_module('EventInfoSetter')
>>> ro = path.add_module('RootOutput', branchNames=['EventMetaData'])
>>> ro.set_name('RootOutput_metadata_only')
>>> print(path)
[EventInfoSetter -> RootOutput_metadata_only]
 
)")
  .def("description", &Module::getDescription, return_value_policy<copy_const_reference>(),
       "Returns the description of this module.")
  .def("package", &Module::getPackage, return_value_policy<copy_const_reference>(),
       "Returns the package this module belongs to.")
  .def("available_params", &_getParamInfoListPython,
       "Return list of all module parameters as `ModuleParamInfo` instances")
  .def("has_properties", &Module::hasProperties, (bp::arg("properties")),
       R"DOCSTRING(Allows to check if the module has the given properties out of `ModulePropFlags` set.
 
>>> if module.has_properties(ModulePropFlags.PARALLELPROCESSINGCERTIFIED):
>>>     ...
 
Parameters:
  properties (int): bitmask of `ModulePropFlags` to check for.
)DOCSTRING")
  .def("set_property_flags", &Module::setPropertyFlags, args("property_mask"),
       "Set module properties in the form of an OR combination of `ModulePropFlags`.");
  {
    // python signature is too crowded, make ourselves
    docstring_options subOptions(true, false, false); //userdef, py sigs, c++ sigs
    module
    .def("if_value", &Module::if_value,
         (bp::arg("expression"), bp::arg("condition_path"), bp::arg("after_condition_path")= Module::EAfterConditionPath::c_End),
         R"DOCSTRING(if_value(expression, condition_path, after_condition_path=AfterConditionPath.END)
 
Sets a conditional sub path which will be executed after this
module if the return value set in the module passes the given ``expression``.
 
Modules can define a return value (int or bool) using ``setReturnValue()``,
which can be used in the steering file to split the Path based on this value, for example
 
>>> module_with_condition.if_value("<1", another_path)
 
In case the return value of the ``module_with_condition`` for a given event is
less than 1, the execution will be diverted into ``another_path`` for this event.
 
You could for example set a special return value if an error occurs, and divert
the execution into a path containing :b2:mod:`RootOutput` if it is found;
saving only the data producing/produced by the error.
 
After a conditional path has executed, basf2 will by default stop processing
the path for this event. This behaviour can be changed by setting the
``after_condition_path`` argument.
 
Parameters:
  expression (str): Expression to determine if the conditional path should be executed.
      This should be one of the comparison operators ``<``, ``>``, ``<=``,
      ``>=``, ``==``, or ``!=`` followed by a numerical value for the return value
  condition_path (Path): path to execute in case the expression is fulfilled
  after_condition_path (AfterConditionPath): What to do once the ``condition_path`` has been executed.
)DOCSTRING")
    .def("if_false", &Module::if_false,
         (bp::arg("condition_path"), bp::arg("after_condition_path")= Module::EAfterConditionPath::c_End),
         R"DOC(if_false(condition_path, after_condition_path=AfterConditionPath.END)
 
Sets a conditional sub path which will be executed after this module if
the return value of the module evaluates to False. This is equivalent to
calling `if_value` with ``expression=\"<1\"``)DOC")
    .def("if_true", &Module::if_true,
         (bp::arg("condition_path"), bp::arg("after_condition_path")= Module::EAfterConditionPath::c_End),
         R"DOC(if_true(condition_path, after_condition_path=AfterConditionPath.END)
 
Sets a conditional sub path which will be executed after this module if
the return value of the module evaluates to True. It is equivalent to
calling `if_value` with ``expression=\">=1\"``)DOC");
  }
  module
  .def("has_condition", &Module::hasCondition,
       "Return true if a conditional path has been set for this module "
       "using `if_value`, `if_true` or `if_false`")
  .def("get_all_condition_paths", &_getAllConditionPathsPython,
       "Return a list of all conditional paths set for this module using "
       "`if_value`, `if_true` or `if_false`")
  .def("get_all_conditions", &_getAllConditionsPython,
       "Return a list of all conditional path expressions set for this module using "
       "`if_value`, `if_true` or `if_false`")
  .add_property("logging", make_function(&Module::getLogConfig, return_value_policy<reference_existing_object>()),
                &Module::setLogConfig)

getAfterConditionPath()

Module::EAfterConditionPath getAfterConditionPath ( ) const

inherited

What to do after the conditional path is finished.

(defaults to c_End if no condition is set)

Definition at line 133 of file Module.cc.

{
  if (m_conditions.empty()) return EAfterConditionPath::c_End;
 
  //okay, a condition was set for this Module...
  if (!m_hasReturnValue) {
    B2FATAL("A condition was set for '" << getName() << "', but the module did not set a return value!");
  }
 
  for (const auto& condition : m_conditions) {
    if (condition.evaluate(m_returnValue)) {
      return condition.getAfterConditionPath();
    }
  }
 
  return EAfterConditionPath::c_End;
}

getAllConditionPaths()

std::vector< std::shared_ptr< Path > > getAllConditionPaths ( ) const

inherited

Return all condition paths currently set (no matter if the condition is true or not).

Definition at line 150 of file Module.cc.

{
  std::vector<std::shared_ptr<Path>> allConditionPaths;
  for (const auto& condition : m_conditions) {
    allConditionPaths.push_back(condition.getPath());
  }
 
  return allConditionPaths;
}

getAllConditions()

const std::vector< ModuleCondition > & getAllConditions ( ) const

inlineinherited

Return all set conditions for this module.

Definition at line 324 of file Module.h.

    {
      return m_conditions;
    }

getCondition()

const ModuleCondition * getCondition ( ) const

inlineinherited

Return a pointer to the first condition (or nullptr, if none was set)

Definition at line 314 of file Module.h.

    {
      if (m_conditions.empty()) {
        return nullptr;
      } else {
        return &m_conditions.front();
      }
    }

getConditionPath()

std::shared_ptr< Path > getConditionPath ( ) const

inherited

Returns the path of the last true condition (if there is at least one, else reaturn a null pointer).

Definition at line 113 of file Module.cc.

{
  PathPtr p;
  if (m_conditions.empty()) return p;
 
  //okay, a condition was set for this Module...
  if (!m_hasReturnValue) {
    B2FATAL("A condition was set for '" << getName() << "', but the module did not set a return value!");
  }
 
  for (const auto& condition : m_conditions) {
    if (condition.evaluate(m_returnValue)) {
      return condition.getPath();
    }
  }
 
  // if none of the conditions were true, return a null pointer.
  return p;
}

getDescription()

const std::string & getDescription ( ) const

inlineinherited

Returns the description of the module.

Definition at line 202 of file Module.h.

{return m_description;}

getFileNames()

virtual std::vector< std::string > getFileNames ( bool  outputFiles )

inlinevirtualinherited

Return a list of output filenames for this modules.

This will be called when basf2 is run with "--dry-run" if the module has set either the c_Input or c_Output properties.

If the parameter outputFiles is false (for modules with c_Input) the list of input filenames should be returned (if any). If outputFiles is true (for modules with c_Output) the list of output files should be returned (if any).

If a module has sat both properties this member is called twice, once for each property.

The module should return the actual list of requested input or produced output filenames (including handling of input/output overrides) so that the grid system can handle input/output files correctly.

This function should return the same value when called multiple times. This is especially important when taking the input/output overrides from Environment as they get consumed when obtained so the finalized list of output files should be stored for subsequent calls.

Reimplemented in RootInputModule, StorageRootOutputModule, and RootOutputModule.

Definition at line 134 of file Module.h.

    {
      return std::vector<std::string>();
    }

getLogConfig()

LogConfig & getLogConfig ( )

inlineinherited

Returns the log system configuration.

Definition at line 225 of file Module.h.

{return m_logConfig;}

getModules()

std::list< ModulePtr > getModules ( ) const

inlineoverrideprivatevirtualinherited

no submodules, return empty list

Implements PathElement.

Definition at line 506 of file Module.h.

{ return std::list<ModulePtr>(); }

getName()

const std::string & getName ( ) const

inlineinherited

Returns the name of the module.

This can be changed via e.g. set_name() in the steering file to give more useful names if there is more than one module of the same type.

For identifying the type of a module, using getType() (or type() in Python) is recommended.

Definition at line 187 of file Module.h.

{return m_name;}

getPackage()

const std::string & getPackage ( ) const

inlineinherited

Returns the package this module is in.

Definition at line 197 of file Module.h.

{return m_package;}

getParamInfoListPython()

std::shared_ptr< boost::python::list > getParamInfoListPython ( ) const

inherited

Returns a python list of all parameters.

Each item in the list consists of the name of the parameter, a string describing its type, a python list of all default values and the description of the parameter.

Returns

A python list containing the parameters of this parameter list.

Definition at line 279 of file Module.cc.

{
  return m_moduleParamList.getParamInfoListPython();
}

getParamList()

const ModuleParamList & getParamList ( ) const

inlineinherited

Return module param list.

Definition at line 363 of file Module.h.

{ return m_moduleParamList; }

getPathString()

std::string getPathString ( ) const

overrideprivatevirtualinherited

return the module name.

Implements PathElement.

Definition at line 192 of file Module.cc.

{
 
  std::string output = getName();
 
  for (const auto& condition : m_conditions) {
    output += condition.getString();
  }
 
  return output;
}

getReturnValue()

int getReturnValue ( ) const

inlineinherited

Return the return value set by this module.

This value is only meaningful if hasReturnValue() is true

Definition at line 381 of file Module.h.

{ return m_returnValue; }

getType()

const std::string & getType ( ) const

inherited

Returns the type of the module (i.e.

class name minus 'Module')

Definition at line 41 of file Module.cc.

{
  if (m_type.empty())
    B2FATAL("Module type not set for " << getName());
  return m_type;
}

hasCondition()

bool hasCondition ( ) const

inlineinherited

Returns true if at least one condition was set for the module.

Definition at line 311 of file Module.h.

{ return not m_conditions.empty(); };

hasProperties()

bool hasProperties ( unsigned int  propertyFlags ) const

inherited

Returns true if all specified property flags are available in this module.

Parameters

propertyFlags

Ored EModulePropFlags which should be compared with the module flags.

Definition at line 160 of file Module.cc.

{
  return (propertyFlags & m_propertyFlags) == propertyFlags;
}

hasReturnValue()

bool hasReturnValue ( ) const

inlineinherited

Return true if this module has a valid return value set.

Definition at line 378 of file Module.h.

{ return m_hasReturnValue; }

hasUnsetForcedParams()

bool hasUnsetForcedParams ( ) const

inherited

Returns true and prints error message if the module has unset parameters which the user has to set in the steering file.

Definition at line 166 of file Module.cc.

{
  auto missing = m_moduleParamList.getUnsetForcedParams();
  std::string allMissing = "";
  for (const auto& s : missing)
    allMissing += s + " ";
  if (!missing.empty())
    B2ERROR("The following required parameters of Module '" << getName() << "' were not specified: " << allMissing <<
            "\nPlease add them to your steering file.");
  return !missing.empty();
}

if_false()

void if_false ( const std::shared_ptr< Path > &  path, EAfterConditionPath  afterConditionPath = EAfterConditionPath::c_End  )

inherited

A simplified version to add a condition to the module.

Please note that successive calls of this function will add more than one condition to the module. If more than one condition results in true, only the last of them will be used.

Please be careful: Avoid creating cyclic paths, e.g. by linking a condition to a path which is processed before the path where this module is located in.

It is equivalent to the if_value() method, using the expression "<1". This method is meant to be used together with the setReturnValue(bool value) method.

Parameters

path	Shared pointer to the Path which will be executed if the return value is false.
afterConditionPath	What to do after executing 'path'.

Definition at line 85 of file Module.cc.

{
  if_value("<1", path, afterConditionPath);
}

if_true()

void if_true ( const std::shared_ptr< Path > &  path, EAfterConditionPath  afterConditionPath = EAfterConditionPath::c_End  )

inherited

A simplified version to set the condition of the module.

Please note that successive calls of this function will add more than one condition to the module. If more than one condition results in true, only the last of them will be used.

Please be careful: Avoid creating cyclic paths, e.g. by linking a condition to a path which is processed before the path where this module is located in.

It is equivalent to the if_value() method, using the expression ">=1". This method is meant to be used together with the setReturnValue(bool value) method.

Parameters

path	Shared pointer to the Path which will be executed if the return value is true.
afterConditionPath	What to do after executing 'path'.

Definition at line 90 of file Module.cc.

{
  if_value(">=1", path, afterConditionPath);
}

if_value()

void if_value ( const std::string &  expression, const std::shared_ptr< Path > &  path, EAfterConditionPath  afterConditionPath = EAfterConditionPath::c_End  )

inherited

Add a condition to the module.

Please note that successive calls of this function will add more than one condition to the module. If more than one condition results in true, only the last of them will be used.

See https://confluence.desy.de/display/BI/Software+ModCondTut or ModuleCondition for a description of the syntax.

Please be careful: Avoid creating cyclic paths, e.g. by linking a condition to a path which is processed before the path where this module is located in.

Parameters

expression	The expression of the condition.
path	Shared pointer to the Path which will be executed if the condition is evaluated to true.
afterConditionPath	What to do after executing 'path'.

Definition at line 79 of file Module.cc.

{
  m_conditions.emplace_back(expression, path, afterConditionPath);
}

initialize()

void initialize ( void  )

overridevirtual

Register input and output data.

Reimplemented from Module.

Definition at line 60 of file SVDEventT0PerformanceTTreeModule.cc.

{
  StoreArray<RecoTrack> recoTracks(m_recoTracksStoreArrayName);
  recoTracks.isOptional();
  m_clusters.isRequired();
  m_EventT0.isOptional();
 
  TDirectory::TContext context;
 
  m_rootFilePtr = new TFile(m_rootFileName.c_str(), "RECREATE");
 
  //Tree for SVD clusters
  //one fill per event!
  m_t = new TTree("tree", "Tree for SVD clusters related to tracks");
  m_t->Branch("exp", &m_exp, "exp/i");
  m_t->Branch("run", &m_run, "run/i");
  m_t->Branch("event", &m_event, "event/i");
  m_t->Branch("trueEventT0", &m_trueEventT0, "trueEventT0/F");
  m_t->Branch("eventT0", &m_eventT0, "eventT0/F");
  m_t->Branch("eventT0Err", &m_eventT0Err, "eventT0Err/F");
  m_t->Branch("svdEventT0", &m_svdEventT0, "svdEventT0/F");
  m_t->Branch("svdEventT0Err", &m_svdEventT0Err, "svdEventT0Err/F");
  m_t->Branch("svdOnlineEventT0", &m_svdOnlineEventT0, "svdOnlineEventT0/F");
  m_t->Branch("svdOnlineEventT0Err", &m_svdOnlineEventT0Err, "svdOnlineEventT0Err/F");
  m_t->Branch("cdcEventT0", &m_cdcEventT0, "cdcEventT0/F");
  m_t->Branch("cdcEventT0Err", &m_cdcEventT0Err, "cdcEventT0Err/F");
  m_t->Branch("cdcOnlineEventT0", &m_cdcOnlineEventT0, "cdcOnlineEventT0/F");
  m_t->Branch("cdcOnlineEventT0Err", &m_cdcOnlineEventT0Err, "cdcOnlineEventT0Err/F");
  m_t->Branch("topEventT0", &m_topEventT0, "topEventT0/F");
  m_t->Branch("topEventT0Err", &m_topEventT0Err, "topEventT0Err/F");
  m_t->Branch("topOnlineEventT0", &m_topOnlineEventT0, "topOnlineEventT0/F");
  m_t->Branch("topOnlineEventT0Err", &m_topOnlineEventT0Err, "topOnlineEventT0Err/F");
  m_t->Branch("eclEventT0", &m_eclEventT0, "eclEventT0/F");
  m_t->Branch("eclEventT0Err", &m_eclEventT0Err, "eclEventT0Err/F");
  m_t->Branch("eclOnlineEventT0", &m_eclOnlineEventT0, "eclOnlineEventT0/F");
  m_t->Branch("eclOnlineEventT0Err", &m_eclOnlineEventT0Err, "eclOnlineEventT0Err/F");
  m_t->Branch("eclTCEmax", &m_eclTCEmax, "eclTCEmax/I");
  m_t->Branch("eclTCid", &m_eclTCid, "eclTCid/I");
  m_t->Branch("totTracks", &m_nTracks, "totTracks/i");
  m_t->Branch("TB", &m_svdTB, "TB/i");
  m_t->Branch("trkNumb", &m_trkNumber);
  m_t->Branch("trkd0", &m_svdTrkd0);
  m_t->Branch("trkz0", &m_svdTrkz0);
  m_t->Branch("trkp", &m_svdTrkp);
  m_t->Branch("trkpT", &m_svdTrkpT);
  m_t->Branch("trkpCM", &m_svdTrkpCM);
  m_t->Branch("trkTheta", &m_svdTrkTheta);
  m_t->Branch("trkPhi", &m_svdTrkPhi);
  m_t->Branch("trkCharge", &m_svdTrkCharge);
  m_t->Branch("trkPValue", &m_svdTrkPValue);
  m_t->Branch("trkNDF", &m_svdTrkNDF);
  m_t->Branch("trkPXDHits", &m_svdTrkPXDHits);
  m_t->Branch("trkSVDHits", &m_svdTrkSVDHits);
  m_t->Branch("trkCDCHits", &m_svdTrkCDCHits);
  m_t->Branch("layer", &m_svdLayer);
  m_t->Branch("ladder", &m_svdLadder);
  m_t->Branch("sensor", &m_svdSensor);
  m_t->Branch("clsSize", &m_svdSize);
  m_t->Branch("clsIsU", &m_svdisUside);
  m_t->Branch("clsCharge", &m_svdClCharge);
  m_t->Branch("clsSNR", &m_svdClSNR);
  m_t->Branch("clsPos", &m_svdClPos);
  m_t->Branch("clsPosErr", &m_svdClPosErr);
  m_t->Branch("clsTime", &m_svdClTime);
  m_t->Branch("clsTimeErr", &m_svdClTimeErr);
  m_t->Branch("trueTime", &m_svdTrueTime);
 
 
 
}

setAbortLevel()

void setAbortLevel ( int  abortLevel )

inherited

Configure the abort log level.

Definition at line 67 of file Module.cc.

{
  m_logConfig.setAbortLevel(static_cast<LogConfig::ELogLevel>(abortLevel));
}

setDebugLevel()

void setDebugLevel ( int  debugLevel )

inherited

Configure the debug messaging level.

Definition at line 61 of file Module.cc.

{
  m_logConfig.setDebugLevel(debugLevel);
}

setDescription()

void setDescription ( const std::string &  description )

protectedinherited

Sets the description of the module.

Parameters

description

A description of the module.

Definition at line 214 of file Module.cc.

{
  m_description = description;
}

setLogConfig()

void setLogConfig ( const LogConfig &  logConfig )

inlineinherited

Set the log system configuration.

Definition at line 230 of file Module.h.

{m_logConfig = logConfig;}

setLogInfo()

void setLogInfo ( int  logLevel, unsigned int  logInfo  )

inherited

Configure the printed log information for the given level.

Parameters

logLevel	The log level (one of LogConfig::ELogLevel)
logInfo	What kind of info should be printed? ORed combination of LogConfig::ELogInfo flags.

Definition at line 73 of file Module.cc.

{
  m_logConfig.setLogInfo(static_cast<LogConfig::ELogLevel>(logLevel), logInfo);
}

setLogLevel()

void setLogLevel ( int  logLevel )

inherited

Configure the log level.

Definition at line 55 of file Module.cc.

{
  m_logConfig.setLogLevel(static_cast<LogConfig::ELogLevel>(logLevel));
}

setName()

void setName ( const std::string &  name )

inlineinherited

Set the name of the module.

Note

The module name is set when using the REG_MODULE macro, but the module can be renamed before calling process() using the set_name() function in your steering file.

Parameters

name	The name of the module

Definition at line 214 of file Module.h.

{ m_name = name; };

setParamList()

void setParamList ( const ModuleParamList &  params )

inlineprotectedinherited

Replace existing parameter list.

Definition at line 501 of file Module.h.

{ m_moduleParamList = params; }

setParamPython()

void setParamPython ( const std::string &  name, const boost::python::object &  pyObj  )

privateinherited

Implements a method for setting boost::python objects.

The method supports the following types: list, dict, int, double, string, bool The conversion of the python object to the C++ type and the final storage of the parameter value is done in the ModuleParam class.

Parameters

name	The unique name of the parameter.
pyObj	The object which should be converted and stored as the parameter value.

Definition at line 234 of file Module.cc.

{
  LogSystem& logSystem = LogSystem::Instance();
  logSystem.updateModule(&(getLogConfig()), getName());
  try {
    m_moduleParamList.setParamPython(name, pyObj);
  } catch (std::runtime_error& e) {
    throw std::runtime_error("Cannot set parameter '" + name + "' for module '"
                             + m_name + "': " + e.what());
  }
 
  logSystem.updateModule(nullptr);
}

setParamPythonDict()

void setParamPythonDict ( const boost::python::dict &  dictionary )

privateinherited

Implements a method for reading the parameter values from a boost::python dictionary.

The key of the dictionary has to be the name of the parameter and the value has to be of one of the supported parameter types.

Parameters

dictionary

The python dictionary from which the parameter values are read.

Definition at line 249 of file Module.cc.

{
 
  LogSystem& logSystem = LogSystem::Instance();
  logSystem.updateModule(&(getLogConfig()), getName());
 
  boost::python::list dictKeys = dictionary.keys();
  int nKey = boost::python::len(dictKeys);
 
  //Loop over all keys in the dictionary
  for (int iKey = 0; iKey < nKey; ++iKey) {
    boost::python::object currKey = dictKeys[iKey];
    boost::python::extract<std::string> keyProxy(currKey);
 
    if (keyProxy.check()) {
      const boost::python::object& currValue = dictionary[currKey];
      setParamPython(keyProxy, currValue);
    } else {
      B2ERROR("Setting the module parameters from a python dictionary: invalid key in dictionary!");
    }
  }
 
  logSystem.updateModule(nullptr);
}

setPropertyFlags()

void setPropertyFlags ( unsigned int  propertyFlags )

inherited

Sets the flags for the module properties.

Parameters

propertyFlags

bitwise OR of EModulePropFlags

Definition at line 208 of file Module.cc.

{
  m_propertyFlags = propertyFlags;
}

setReturnValue() [1/2]

void setReturnValue ( bool  value )

protectedinherited

Sets the return value for this module as bool.

The bool value is saved as an integer with the convention 1 meaning true and 0 meaning false. The value can be used in the steering file to divide the analysis chain into several paths.

Parameters

value

The value of the return value.

Definition at line 227 of file Module.cc.

{
  m_hasReturnValue = true;
  m_returnValue = value;
}

setReturnValue() [2/2]

void setReturnValue ( int  value )

protectedinherited

Sets the return value for this module as integer.

The value can be used in the steering file to divide the analysis chain into several paths.

Parameters

value

The value of the return value.

Definition at line 220 of file Module.cc.

{
  m_hasReturnValue = true;
  m_returnValue = value;
}

setType()

void setType ( const std::string &  type )

protectedinherited

Set the module type.

Only for use by internal modules (which don't use the normal REG_MODULE mechanism).

Definition at line 48 of file Module.cc.

{
  if (!m_type.empty())
    B2FATAL("Trying to change module type from " << m_type << " is not allowed, the value is assumed to be fixed.");
  m_type = type;
}

terminate()

void terminate ( void  )

overridevirtual

Write the TTree to the file.

Reimplemented from Module.

Definition at line 365 of file SVDEventT0PerformanceTTreeModule.cc.

{
 
  if (m_rootFilePtr != nullptr) {
 
    TDirectory::TContext context;
 
    m_rootFilePtr->cd();
    m_t->Write();
    m_rootFilePtr->Close();
  }
}

Member Data Documentation

m_cdcEventT0

float m_cdcEventT0 = std::numeric_limits<float>::quiet_NaN()

private

CDC event T0.

Definition at line 92 of file SVDEventT0PerformanceTTreeModule.h.

m_cdcEventT0Err

float m_cdcEventT0Err = std::numeric_limits<float>::quiet_NaN()

private

CDC event T0 Error.

Definition at line 93 of file SVDEventT0PerformanceTTreeModule.h.

m_cdcOnlineEventT0

float m_cdcOnlineEventT0 = std::numeric_limits<float>::quiet_NaN()

private

CDC online event T0.

Definition at line 94 of file SVDEventT0PerformanceTTreeModule.h.

m_cdcOnlineEventT0Err

float m_cdcOnlineEventT0Err = std::numeric_limits<float>::quiet_NaN()

private

CDC online event T0 Error.

Definition at line 95 of file SVDEventT0PerformanceTTreeModule.h.

m_clusters

StoreArray<SVDCluster> m_clusters

private

svd clusters

Definition at line 46 of file SVDEventT0PerformanceTTreeModule.h.

m_conditions

std::vector<ModuleCondition> m_conditions

privateinherited

Module condition, only non-null if set.

Definition at line 521 of file Module.h.

m_description

std::string m_description

privateinherited

The description of the module.

Definition at line 511 of file Module.h.

m_eclEventT0

float m_eclEventT0 = std::numeric_limits<float>::quiet_NaN()

private

ECL event T0.

Definition at line 100 of file SVDEventT0PerformanceTTreeModule.h.

m_eclEventT0Err

float m_eclEventT0Err = std::numeric_limits<float>::quiet_NaN()

private

ECL event T0 Error.

Definition at line 101 of file SVDEventT0PerformanceTTreeModule.h.

m_eclOnlineEventT0

float m_eclOnlineEventT0 = std::numeric_limits<float>::quiet_NaN()

private

ECL online event T0.

Definition at line 102 of file SVDEventT0PerformanceTTreeModule.h.

m_eclOnlineEventT0Err

float m_eclOnlineEventT0Err = std::numeric_limits<float>::quiet_NaN()

private

ECL online event T0 Error.

Definition at line 103 of file SVDEventT0PerformanceTTreeModule.h.

m_eclTCEmax

int m_eclTCEmax = std::numeric_limits<int>::quiet_NaN()

private

ECal TC Emax

Definition at line 104 of file SVDEventT0PerformanceTTreeModule.h.

m_eclTCid

int m_eclTCid = std::numeric_limits<int>::quiet_NaN()

private

ECal TC id

Definition at line 105 of file SVDEventT0PerformanceTTreeModule.h.

m_event

int m_event = -99

private

event number

Definition at line 111 of file SVDEventT0PerformanceTTreeModule.h.

m_EventT0

StoreObjPtr<EventT0> m_EventT0

private

event T0

Definition at line 45 of file SVDEventT0PerformanceTTreeModule.h.

m_eventT0

float m_eventT0 = std::numeric_limits<float>::quiet_NaN()

private

final event T0

Definition at line 86 of file SVDEventT0PerformanceTTreeModule.h.

m_eventT0Err

float m_eventT0Err = std::numeric_limits<float>::quiet_NaN()

private

final event T0 error

Definition at line 87 of file SVDEventT0PerformanceTTreeModule.h.

m_exp

int m_exp = -99

private

experiment number

Definition at line 109 of file SVDEventT0PerformanceTTreeModule.h.

m_hasReturnValue

bool m_hasReturnValue

privateinherited

True, if the return value is set.

Definition at line 518 of file Module.h.

m_logConfig

LogConfig m_logConfig

privateinherited

The log system configuration of the module.

Definition at line 514 of file Module.h.

m_moduleParamList

ModuleParamList m_moduleParamList

privateinherited

List storing and managing all parameter of the module.

Definition at line 516 of file Module.h.

m_name

std::string m_name

privateinherited

The name of the module, saved as a string (user-modifiable)

Definition at line 508 of file Module.h.

m_nTracks

int m_nTracks = 0

private

number of tracks in the event

Definition at line 106 of file SVDEventT0PerformanceTTreeModule.h.

m_package

std::string m_package

privateinherited

Package this module is found in (may be empty).

Definition at line 510 of file Module.h.

m_propertyFlags

unsigned int m_propertyFlags

privateinherited

The properties of the module as bitwise or (with |) of EModulePropFlags.

Definition at line 512 of file Module.h.

m_recoTracksStoreArrayName

std::string m_recoTracksStoreArrayName = ""

private

storeArray name of the input and output RecoTracks

Definition at line 52 of file SVDEventT0PerformanceTTreeModule.h.

m_returnValue

int m_returnValue

privateinherited

The return value.

Definition at line 519 of file Module.h.

m_rootFileName

std::string m_rootFileName = ""

private

root file name

Definition at line 49 of file SVDEventT0PerformanceTTreeModule.h.

m_rootFilePtr

TFile* m_rootFilePtr = nullptr

private

pointer at root file used for storing histograms

Definition at line 50 of file SVDEventT0PerformanceTTreeModule.h.

m_run

int m_run = -99

private

run number

Definition at line 110 of file SVDEventT0PerformanceTTreeModule.h.

m_svdClCharge

std::vector<float> m_svdClCharge

private

cluster charge

Definition at line 57 of file SVDEventT0PerformanceTTreeModule.h.

m_svdClPos

std::vector<float> m_svdClPos

private

cluster position

Definition at line 61 of file SVDEventT0PerformanceTTreeModule.h.

m_svdClPosErr

std::vector<float> m_svdClPosErr

private

cluster position error

Definition at line 62 of file SVDEventT0PerformanceTTreeModule.h.

m_svdClSNR

std::vector<float> m_svdClSNR

private

cluster SNR

Definition at line 58 of file SVDEventT0PerformanceTTreeModule.h.

m_svdClTime

std::vector<float> m_svdClTime

private

cluster time

Definition at line 59 of file SVDEventT0PerformanceTTreeModule.h.

m_svdClTimeErr

std::vector<float> m_svdClTimeErr

private

cluster time error

Definition at line 60 of file SVDEventT0PerformanceTTreeModule.h.

m_svdEventT0

float m_svdEventT0 = std::numeric_limits<float>::quiet_NaN()

private

SVD event T0.

Definition at line 88 of file SVDEventT0PerformanceTTreeModule.h.

m_svdEventT0Err

float m_svdEventT0Err = std::numeric_limits<float>::quiet_NaN()

private

SVD event T0 Error.

Definition at line 89 of file SVDEventT0PerformanceTTreeModule.h.

m_svdisUside

std::vector<int> m_svdisUside

private

is U-cluster side

Definition at line 81 of file SVDEventT0PerformanceTTreeModule.h.

m_svdLadder

std::vector<int> m_svdLadder

private

ladder

Definition at line 78 of file SVDEventT0PerformanceTTreeModule.h.

m_svdLayer

std::vector<int> m_svdLayer

private

layer

Definition at line 77 of file SVDEventT0PerformanceTTreeModule.h.

m_svdOnlineEventT0

float m_svdOnlineEventT0 = std::numeric_limits<float>::quiet_NaN()

private

SVD online event T0.

Definition at line 90 of file SVDEventT0PerformanceTTreeModule.h.

m_svdOnlineEventT0Err

float m_svdOnlineEventT0Err = std::numeric_limits<float>::quiet_NaN()

private

SVD online event T0 Error.

Definition at line 91 of file SVDEventT0PerformanceTTreeModule.h.

m_svdSensor

std::vector<int> m_svdSensor

private

sensor

Definition at line 79 of file SVDEventT0PerformanceTTreeModule.h.

m_svdSize

std::vector<int> m_svdSize

private

cluster size

Definition at line 80 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTB

int m_svdTB = -1

private

trigger bin

Definition at line 107 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrkCDCHits

std::vector<int> m_svdTrkCDCHits

private

number of CDC hits on the track

Definition at line 66 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrkCharge

std::vector<float> m_svdTrkCharge

private

charge of the track

Definition at line 74 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrkd0

std::vector<float> m_svdTrkd0

private

d0 of the track

Definition at line 67 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrkNDF

std::vector<float> m_svdTrkNDF

private

pValue of the track

Definition at line 76 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrkp

std::vector<float> m_svdTrkp

private

p of the track

Definition at line 69 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrkpCM

std::vector<float> m_svdTrkpCM

private

pCM of the track

Definition at line 71 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrkPhi

std::vector<float> m_svdTrkPhi

private

azimuthal angle of the track

Definition at line 73 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrkpT

std::vector<float> m_svdTrkpT

private

pT of the track

Definition at line 70 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrkPValue

std::vector<float> m_svdTrkPValue

private

pValue of the track

Definition at line 75 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrkPXDHits

std::vector<int> m_svdTrkPXDHits

private

number of PXD hits on the track

Definition at line 64 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrkSVDHits

std::vector<int> m_svdTrkSVDHits

private

number of SVD hits on the track

Definition at line 65 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrkTheta

std::vector<float> m_svdTrkTheta

private

polar angle of the track

Definition at line 72 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrkz0

std::vector<float> m_svdTrkz0

private

z0 of the track

Definition at line 68 of file SVDEventT0PerformanceTTreeModule.h.

m_svdTrueTime

std::vector<float> m_svdTrueTime

private

true time

Definition at line 63 of file SVDEventT0PerformanceTTreeModule.h.

m_t

TTree* m_t = nullptr

private

tree containing info related to the clusters related to tracks

Definition at line 54 of file SVDEventT0PerformanceTTreeModule.h.

m_topEventT0

float m_topEventT0 = std::numeric_limits<float>::quiet_NaN()

private

TOP event T0.

Definition at line 96 of file SVDEventT0PerformanceTTreeModule.h.

m_topEventT0Err

float m_topEventT0Err = std::numeric_limits<float>::quiet_NaN()

private

TOP event T0 Error.

Definition at line 97 of file SVDEventT0PerformanceTTreeModule.h.

m_topOnlineEventT0

float m_topOnlineEventT0 = std::numeric_limits<float>::quiet_NaN()

private

TOP online event T0.

Definition at line 98 of file SVDEventT0PerformanceTTreeModule.h.

m_topOnlineEventT0Err

float m_topOnlineEventT0Err = std::numeric_limits<float>::quiet_NaN()

private

TOP online event T0 Error.

Definition at line 99 of file SVDEventT0PerformanceTTreeModule.h.

m_trkNumber

std::vector<int> m_trkNumber

private

track number in the event

Definition at line 82 of file SVDEventT0PerformanceTTreeModule.h.

m_trueEventT0

float m_trueEventT0 = std::numeric_limits<float>::quiet_NaN()

private

true event t0

Definition at line 108 of file SVDEventT0PerformanceTTreeModule.h.

m_type

std::string m_type

privateinherited

The type of the module, saved as a string.

Definition at line 509 of file Module.h.

---

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

• svd/modules/svdPerformance/include/SVDEventT0PerformanceTTreeModule.h
• svd/modules/svdPerformance/src/SVDEventT0PerformanceTTreeModule.cc