JfexMonitorAlgorithm Class Reference

#include <JfexMonitorAlgorithm.h>

Inheritance diagram for JfexMonitorAlgorithm:

Collaboration diagram for JfexMonitorAlgorithm:

Public Types
enum class	Environment_t {   user = 0 , online , tier0 , tier0Raw ,   tier0ESD , AOD , altprod }
	Specifies the processing environment. More...
enum class	DataType_t {   userDefined = 0 , monteCarlo , collisions , cosmics ,   heavyIonCollisions }
	Specifies what type of input data is being monitored. More...

Public Member Functions
	JfexMonitorAlgorithm (const std::string &name, ISvcLocator *pSvcLocator)
virtual	~JfexMonitorAlgorithm ()=default
virtual StatusCode	initialize () override
	initialize
virtual StatusCode	fillHistograms (const EventContext &ctx) const override
	adds event to the monitoring histograms
virtual StatusCode	execute (const EventContext &ctx) const override
	Applies filters and trigger requirements.
void	fill (const ToolHandle< GenericMonitoringTool > &groupHandle, std::vector< std::reference_wrapper< Monitored::IMonitoredVariable > > &&variables) const
	Fills a vector of variables to a group by reference.
void	fill (const ToolHandle< GenericMonitoringTool > &groupHandle, const std::vector< std::reference_wrapper< Monitored::IMonitoredVariable > > &variables) const
	Fills a vector of variables to a group by reference.
template<typename... T>
void	fill (const ToolHandle< GenericMonitoringTool > &groupHandle, T &&... variables) const
	Fills a variadic list of variables to a group by reference.
void	fill (const std::string &groupName, std::vector< std::reference_wrapper< Monitored::IMonitoredVariable > > &&variables) const
	Fills a vector of variables to a group by name.
void	fill (const std::string &groupName, const std::vector< std::reference_wrapper< Monitored::IMonitoredVariable > > &variables) const
	Fills a vector of variables to a group by name.
template<typename... T>
void	fill (const std::string &groupName, T &&... variables) const
	Fills a variadic list of variables to a group by name.
Environment_t	environment () const
	Accessor functions for the environment.
Environment_t	envStringToEnum (const std::string &str) const
	Convert the environment string from the python configuration to an enum object.
DataType_t	dataType () const
	Accessor functions for the data type.
DataType_t	dataTypeStringToEnum (const std::string &str) const
	Convert the data type string from the python configuration to an enum object.
const ToolHandle< GenericMonitoringTool > &	getGroup (const std::string &name) const
	Get a specific monitoring tool from the tool handle array.
const ToolHandle< Trig::TrigDecisionTool > &	getTrigDecisionTool () const
	Get the trigger decision tool member.
bool	trigChainsArePassed (const std::vector< std::string > &vTrigNames) const
	Check whether triggers are passed.
SG::ReadHandle< xAOD::EventInfo >	GetEventInfo (const EventContext &) const
	Return a ReadHandle for an EventInfo object (get run/event numbers, etc.)
virtual float	lbAverageInteractionsPerCrossing (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Calculate the average mu, i.e.
virtual float	lbInteractionsPerCrossing (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Calculate instantaneous number of interactions, i.e.
virtual float	lbAverageLuminosity (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Calculate average luminosity (in ub-1 s-1 => 10^30 cm-2 s-1).
virtual float	lbLuminosityPerBCID (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Calculate the instantaneous luminosity per bunch crossing.
virtual double	lbDuration (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Calculate the duration of the luminosity block (in seconds)
virtual float	lbAverageLivefraction (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Calculate the average luminosity livefraction.
virtual float	livefractionPerBCID (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Calculate the live fraction per bunch crossing ID.
virtual double	lbLumiWeight (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Calculate the average integrated luminosity multiplied by the live fraction.
virtual StatusCode	parseList (const std::string &line, std::vector< std::string > &result) const
	Parse a string into a vector.
virtual StatusCode	sysInitialize () override
	Override sysInitialize.
virtual bool	isClonable () const override
	Specify if the algorithm is clonable.
virtual unsigned int	cardinality () const override
	Cardinality (Maximum number of clones that can exist) special value 0 means that algorithm is reentrant.
virtual StatusCode	sysExecute (const EventContext &ctx) override
	Execute an algorithm.
virtual const DataObjIDColl &	extraOutputDeps () const override
	Return the list of extra output dependencies.
virtual bool	filterPassed (const EventContext &ctx) const
virtual void	setFilterPassed (bool state, const EventContext &ctx) const
ServiceHandle< StoreGateSvc > &	evtStore ()
	The standard StoreGateSvc (event store) Returns (kind of) a pointer to the StoreGateSvc.
const ServiceHandle< StoreGateSvc > &	detStore () const
	The standard StoreGateSvc/DetectorStore Returns (kind of) a pointer to the StoreGateSvc.
virtual StatusCode	sysStart () override
	Handle START transition.
virtual std::vector< Gaudi::DataHandle * >	inputHandles () const override
	Return this algorithm's input handles.
virtual std::vector< Gaudi::DataHandle * >	outputHandles () const override
	Return this algorithm's output handles.
Gaudi::Details::PropertyBase &	declareProperty (Gaudi::Property< T, V, H > &t)
void	updateVHKA (Gaudi::Details::PropertyBase &)
MsgStream &	msg () const
bool	msgLvl (const MSG::Level lvl) const

Public Attributes
	parser
	type
	int
	default
	help
	nargs
	required
	args = parser.parse_args()
	flags = initConfigFlags()
	Files
	HISTFileName
	MaxEvents
	SkipEvents
	cfg = MainServicesCfg(flags)
	JfexMonitorCfg = JfexMonitoringConfig(flags)

Protected Member Functions
void	renounceArray (SG::VarHandleKeyArray &handlesArray)
	remove all handles from I/O resolution
std::enable_if_t< std::is_void_v< std::result_of_t< decltype(&T::renounce)(T)> > &&!std::is_base_of_v< SG::VarHandleKeyArray, T > &&std::is_base_of_v< Gaudi::DataHandle, T >, void >	renounce (T &h)
void	extraDeps_update_handler (Gaudi::Details::PropertyBase &ExtraDeps)
	Add StoreName to extra input/output deps as needed.

Protected Attributes
ToolHandleArray< GenericMonitoringTool >	m_tools {this,"GMTools",{}}
	Array of Generic Monitoring Tools.
PublicToolHandle< Trig::TrigDecisionTool >	m_trigDecTool
	Tool to tell whether a specific trigger is passed.
ToolHandleArray< IDQFilterTool >	m_DQFilterTools {this,"FilterTools",{}}
	Array of Data Quality filter tools.
SG::ReadCondHandleKey< LuminosityCondData >	m_lumiDataKey {this,"LuminosityCondDataKey","LuminosityCondData","SG Key of LuminosityCondData object"}
SG::ReadCondHandleKey< LBDurationCondData >	m_lbDurationDataKey {this,"LBDurationCondDataKey","LBDurationCondData","SG Key of LBDurationCondData object"}
SG::ReadCondHandleKey< TrigLiveFractionCondData >	m_trigLiveFractionDataKey {this,"TrigLiveFractionCondDataKey","TrigLiveFractionCondData", "SG Key of TrigLiveFractionCondData object"}
AthMonitorAlgorithm::Environment_t	m_environment
	Instance of the Environment_t enum.
AthMonitorAlgorithm::DataType_t	m_dataType
	Instance of the DataType_t enum.
Gaudi::Property< std::string >	m_environmentStr {this,"Environment","user"}
	Environment string pulled from the job option and converted to enum.
Gaudi::Property< std::string >	m_dataTypeStr {this,"DataType","userDefined"}
	DataType string pulled from the job option and converted to enum.
Gaudi::Property< std::string >	m_triggerChainString {this,"TriggerChain",""}
	Trigger chain string pulled from the job option and parsed into a vector.
std::vector< std::string >	m_vTrigChainNames
	Vector of trigger chain names parsed from trigger chain string.
Gaudi::Property< std::string >	m_fileKey {this,"FileKey",""}
	Internal Athena name for file.
Gaudi::Property< bool >	m_useLumi {this,"EnableLumi",false}
	Allows use of various luminosity functions.
Gaudi::Property< float >	m_defaultLBDuration {this,"DefaultLBDuration",60.}
	Default duration of one lumi block.
Gaudi::Property< int >	m_detailLevel {this,"DetailLevel",0}
	Sets the level of detail used in the monitoring.
SG::ReadHandleKey< xAOD::EventInfo >	m_EventInfoKey {this,"EventInfoKey","EventInfo"}
	Key for retrieving EventInfo from StoreGate.

Private Types
typedef std::vector< std::reference_wrapper< Monitored::IMonitoredVariable > >	MonVarVec_t
typedef ServiceHandle< StoreGateSvc >	StoreGateSvc_t

Private Member Functions
int	binNumberFromCoordinates (float eta, float phi, const std::vector< float > &etaBinBorders) const
StatusCode	fillJetMaps (const xAOD::jFexSRJetRoI *tob, Monitored::Scalar< float > &eta, Monitored::Scalar< float > &phi, Monitored::Scalar< int > &binNumber, Monitored::Scalar< int > &lbn, Monitored::Scalar< float > &weight) const
StatusCode	fillEMMaps (const xAOD::jFexFwdElRoI *tob, Monitored::Scalar< float > &eta, Monitored::Scalar< float > &phi, Monitored::Scalar< int > &binNumber, Monitored::Scalar< int > &lbn, Monitored::Scalar< float > &weight) const
template<typename TOB>
StatusCode	fillMapsCentralAndFCAL (TOB tob, Monitored::Scalar< float > &eta, Monitored::Scalar< float > &phi, Monitored::Scalar< int > &binNumber, Monitored::Scalar< int > &lbn, const std::vector< float > &etaBinBorders, Monitored::Scalar< float > &weight) const
template<typename TOB>
StatusCode	fillMapsEndcap (TOB tob, Monitored::Scalar< float > &eta, Monitored::Scalar< float > &phi, Monitored::Scalar< int > &binNumber, Monitored::Scalar< int > &lbn, const std::vector< float > &etaBinBorders, Monitored::Scalar< float > &weight) const
StatusCode	fillMapsOverlap (const xAOD::jFexSRJetRoI *tob, Monitored::Scalar< float > &eta, Monitored::Scalar< float > &phi, Monitored::Scalar< int > &binNumber, Monitored::Scalar< int > &lbn, const std::vector< float > &etaBinBorders, Monitored::Scalar< float > &weight) const
bool	passesEnergyCut (const xAOD::jFexSRJetRoI *tob) const
bool	passesEnergyCut (const xAOD::jFexFwdElRoI *tob) const
bool	passesEnergyCut (const xAOD::jFexTauRoI *tob) const
Gaudi::Details::PropertyBase &	declareGaudiProperty (Gaudi::Property< T, V, H > &hndl, const SG::VarHandleKeyType &)
	specialization for handling Gaudi::Property<SG::VarHandleKey>

Private Attributes
std::once_flag	m_initOnce
StringProperty	m_Grouphist {this,"Grouphist","JfexMonitor","group name for histograming"}
StringProperty	m_Groupmaps {this,"Groupmaps","jFEXMaps","group name for jFEX TOB maps"}
StringProperty	m_GroupmapsHighPt {this,"GroupmapsHighPt","jFEXMapsHighPt","group name for jFEX TOB maps with higher energy thresholds"}
Gaudi::Property< std::vector< float > >	m_jJEtaBins {this,"jJEtaBins"}
Gaudi::Property< std::vector< float > >	m_jTauEtaBins {this,"jTauEtaBins"}
Gaudi::Property< std::vector< float > >	m_jEMEtaBins {this,"jEMEtaBins"}
SG::ReadHandleKey< xAOD::jFexSRJetRoIContainer >	m_jFexSRJetContainerKey {this,"jFexSRJetRoIContainer","L1_jFexSRJetRoI","SG key of the input jFex SR Jet Roi container"}
SG::ReadHandleKey< xAOD::jFexLRJetRoIContainer >	m_jFexLRJetContainerKey {this,"jFexLRJetRoIContainer","L1_jFexLRJetRoI","SG key of the input jFex LR Jet Roi container"}
SG::ReadHandleKey< xAOD::jFexTauRoIContainer >	m_jFexTauContainerKey {this,"jFexTauRoIContainer" ,"L1_jFexTauRoI" ,"SG key of the input jFex Tau Roi container"}
SG::ReadHandleKey< xAOD::jFexFwdElRoIContainer >	m_jFexFwdElContainerKey {this,"jFexFwdElRoIContainer","L1_jFexFwdElRoI","SG key of the input jFex EM Roi container"}
SG::ReadHandleKey< xAOD::jFexMETRoIContainer >	m_jFexMETContainerKey {this,"jFexMETRoIContainer" ,"L1_jFexMETRoI" ,"SG key of the input jFex MET Roi container"}
SG::ReadHandleKey< xAOD::jFexSumETRoIContainer >	m_jFexSumEtContainerKey {this,"jFexSumETRoIContainer","L1_jFexSumETRoI","SG key of the input jFex SumEt Roi container"}
std::string	m_name
std::unordered_map< std::string, size_t >	m_toolLookupMap
const ToolHandle< GenericMonitoringTool >	m_dummy
Gaudi::Property< bool >	m_enforceExpressTriggers
DataObjIDColl	m_extendedExtraObjects
	Extra output dependency collection, extended by AthAlgorithmDHUpdate to add symlinks.
StoreGateSvc_t	m_evtStore
	Pointer to StoreGate (event store by default)
StoreGateSvc_t	m_detStore
	Pointer to StoreGate (detector store by default)
std::vector< SG::VarHandleKeyArray * >	m_vhka
bool	m_varHandleArraysDeclared

Detailed Description

Definition at line 26 of file JfexMonitorAlgorithm.h.

Member Typedef Documentation

MonVarVec_t

typedef std::vector<std::reference_wrapper<Monitored::IMonitoredVariable> > AthMonitorAlgorithm::MonVarVec_t

privateinherited

Definition at line 370 of file AthMonitorAlgorithm.h.

StoreGateSvc_t

typedef ServiceHandle<StoreGateSvc> AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::StoreGateSvc_t

privateinherited

Definition at line 388 of file AthCommonDataStore.h.

Member Enumeration Documentation

DataType_t

enum class AthMonitorAlgorithm::DataType_t

stronginherited

Specifies what type of input data is being monitored.

An enumeration of the different types of data the monitoring application may be running over. This can be used to select which histograms to produce, e.g. to prevent the production of colliding-beam histograms when running on cosmic-ray data. Strings of the same names may be given as jobOptions.

Enumerator
userDefined
monteCarlo
collisions
cosmics
heavyIonCollisions

Definition at line 194 of file AthMonitorAlgorithm.h.

                          {
        userDefined = 0, 
        monteCarlo, 
        collisions, 
        cosmics, 
        heavyIonCollisions, 
    };

Environment_t

enum class AthMonitorAlgorithm::Environment_t

stronginherited

Specifies the processing environment.

The running environment may be used to select which histograms are produced, and where they are located in the output. For example, the output paths of the histograms are different for the "user", "online" and the various offline flags. Strings of the same names may be given as jobOptions.

Enumerator
user
online
tier0
tier0Raw
tier0ESD
AOD
altprod

Definition at line 175 of file AthMonitorAlgorithm.h.

                             {
        user = 0, 
        online, 
        tier0, 
        tier0Raw, 
        tier0ESD, 
        AOD, 
        altprod, 
    };

Constructor & Destructor Documentation

JfexMonitorAlgorithm()

JfexMonitorAlgorithm::JfexMonitorAlgorithm	(	const std::string &	name,
		ISvcLocator *	pSvcLocator )

Definition at line 11 of file JfexMonitorAlgorithm.cxx.

  : AthMonitorAlgorithm(name,pSvcLocator)
{
}

~JfexMonitorAlgorithm()

virtual JfexMonitorAlgorithm::~JfexMonitorAlgorithm ( )

virtualdefault

Member Function Documentation

binNumberFromCoordinates()

int JfexMonitorAlgorithm::binNumberFromCoordinates ( float eta, float phi, const std::vector< float > & etaBinBorders ) const

private

Definition at line 391 of file JfexMonitorAlgorithm.cxx.

                                                                       {
  if (etaBinBorders.size() == 0) {
    ANA_MSG_ERROR("List of eta bin borders is empty!");
    return 0;
  }
 
  int iEta = 0;
  int iPhi = 0;
 
  for (size_t i = 0; i < etaBinBorders.size() - 1; ++i) {
    if (etaBinBorders.at(i) <= eta && etaBinBorders.at(i + 1) > eta) {
      iEta = i;
      break;
    }
  }
 
  // 64 regular bins from -pi to pi
  constexpr float phiBinWidth = 2 * M_PI / 64;
  for (int i = 0; i < 64 - 1; i++) {
    if (i * phiBinWidth - M_PI <= phi && (i + 1) * phiBinWidth - M_PI > phi) {
      iPhi = i;
      break;
    }
  }
 
  // following ROOT's convention of lowest bin being number 1
  iPhi++;
 
  int binNumber = iEta * 64 + iPhi;
  return binNumber;
}

cardinality()

unsigned int AthCommonReentrantAlgorithm< Gaudi::Algorithm >::cardinality ( ) const

overridevirtualinherited

Cardinality (Maximum number of clones that can exist) special value 0 means that algorithm is reentrant.

Override this to return 0 for reentrant algorithms.

Definition at line 75 of file AthCommonReentrantAlgorithm.cxx.

{
  return 0;
}

dataType()

DataType_t AthMonitorAlgorithm::dataType ( ) const

inlineinherited

Accessor functions for the data type.

Returns

the current value of the class's DataType_t instance.

Definition at line 224 of file AthMonitorAlgorithm.h.

{ return m_dataType; }

dataTypeStringToEnum()

AthMonitorAlgorithm::DataType_t AthMonitorAlgorithm::dataTypeStringToEnum ( const std::string & str ) const

inherited

Convert the data type string from the python configuration to an enum object.

Returns

a value in the DataType_t enumeration which matches the input string.

Definition at line 144 of file AthMonitorAlgorithm.cxx.

                                                                                                    {
    // convert the string to all lowercase
    std::string lowerCaseStr = str;
    std::transform(lowerCaseStr.begin(), lowerCaseStr.end(), lowerCaseStr.begin(), ::tolower);
 
    // check if it matches one of the enum choices
    if( lowerCaseStr == "userdefined" ) {
        return DataType_t::userDefined;
    } else if( lowerCaseStr == "montecarlo" ) {
        return DataType_t::monteCarlo;
    } else if( lowerCaseStr == "collisions" ) {
        return DataType_t::collisions;
    } else if( lowerCaseStr == "cosmics" ) {
        return DataType_t::cosmics;
    } else if( lowerCaseStr == "heavyioncollisions" ) {
        return DataType_t::heavyIonCollisions;
    } else { // otherwise, warn the user and return "userDefined"
        ATH_MSG_WARNING("AthMonitorAlgorithm::dataTypeStringToEnum(): Unknown data type "
            <<str<<", returning userDefined.");
        return DataType_t::userDefined;
    }
}

declareGaudiProperty()

Gaudi::Details::PropertyBase & AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::declareGaudiProperty ( Gaudi::Property< T, V, H > & hndl, const SG::VarHandleKeyType &  )

inlineprivateinherited

specialization for handling Gaudi::Property<SG::VarHandleKey>

Definition at line 156 of file AthCommonDataStore.h.

  {
    return *AthCommonDataStore<PBASE>::declareProperty(hndl.name(),
                                                       hndl.value(), 
                                                       hndl.documentation());
 
  }

declareProperty()

Gaudi::Details::PropertyBase & AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::declareProperty ( Gaudi::Property< T, V, H > & t )

inlineinherited

Definition at line 145 of file AthCommonDataStore.h.

                                                                     {
    typedef typename SG::HandleClassifier<T>::type htype;
    return AthCommonDataStore<PBASE>::declareGaudiProperty(t, htype());
  }

detStore()

const ServiceHandle< StoreGateSvc > & AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::detStore ( ) const

inlineinherited

The standard StoreGateSvc/DetectorStore Returns (kind of) a pointer to the StoreGateSvc.

Definition at line 95 of file AthCommonDataStore.h.

{ return m_detStore; }

environment()

Environment_t AthMonitorAlgorithm::environment ( ) const

inlineinherited

Accessor functions for the environment.

Returns

the current value of the class's Environment_t instance.

Definition at line 208 of file AthMonitorAlgorithm.h.

{ return m_environment; }

envStringToEnum()

AthMonitorAlgorithm::Environment_t AthMonitorAlgorithm::envStringToEnum ( const std::string & str ) const

inherited

Convert the environment string from the python configuration to an enum object.

Returns

a value in the Environment_t enumeration which matches the input string.

Definition at line 116 of file AthMonitorAlgorithm.cxx.

                                                                                                  {
    // convert the string to all lowercase
    std::string lowerCaseStr = str;
    std::transform(lowerCaseStr.begin(), lowerCaseStr.end(), lowerCaseStr.begin(), ::tolower);
 
    // check if it matches one of the enum choices
    if( lowerCaseStr == "user" ) {
        return Environment_t::user;
    } else if( lowerCaseStr == "online" ) {
        return Environment_t::online;
    } else if( lowerCaseStr == "tier0" ) {
        return Environment_t::tier0;
    } else if( lowerCaseStr == "tier0raw" ) {
        return Environment_t::tier0Raw;
    } else if( lowerCaseStr == "tier0esd" ) {
        return Environment_t::tier0ESD;
    } else if( lowerCaseStr == "aod" ) {
        return Environment_t::AOD;
    } else if( lowerCaseStr == "altprod" ) {
        return Environment_t::altprod;
    } else { // otherwise, warn the user and return "user"
        ATH_MSG_WARNING("AthMonitorAlgorithm::envStringToEnum(): Unknown environment "
            <<str<<", returning user.");
        return Environment_t::user;
    }
}

evtStore()

ServiceHandle< StoreGateSvc > & AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::evtStore ( )

inlineinherited

The standard StoreGateSvc (event store) Returns (kind of) a pointer to the StoreGateSvc.

Definition at line 85 of file AthCommonDataStore.h.

{ return m_evtStore; }

execute()

StatusCode AthMonitorAlgorithm::execute ( const EventContext & ctx ) const

overridevirtualinherited

Applies filters and trigger requirements.

Then, calls fillHistograms().

Parameters

ctx	event context for reentrant Athena call

Returns

StatusCode

Definition at line 77 of file AthMonitorAlgorithm.cxx.

                                                                       {
 
    // Checks that all of the  DQ filters are passed. If any one of the filters
    // fails, return SUCCESS code and do not fill the histograms with the event.
    for ( const auto& filterItr : m_DQFilterTools ) {
        if (!filterItr->accept()) {
            ATH_MSG_DEBUG("Event rejected due to filter tool.");
            return StatusCode::SUCCESS;
        }
    }
 
    // Trigger: If there is a decision tool and the chains fail, skip the event.
    if ( !m_trigDecTool.empty() && !trigChainsArePassed(m_vTrigChainNames) ) {
        ATH_MSG_DEBUG("Event rejected due to trigger filter.");
        return StatusCode::SUCCESS;
    }
 
    ATH_MSG_DEBUG("Event accepted!");
    return fillHistograms(ctx);
}

extraDeps_update_handler()

void AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::extraDeps_update_handler ( Gaudi::Details::PropertyBase & ExtraDeps )

protectedinherited

Add StoreName to extra input/output deps as needed.

use the logic of the VarHandleKey to parse the DataObjID keys supplied via the ExtraInputs and ExtraOuputs Properties to add the StoreName if it's not explicitly given

extraOutputDeps()

const DataObjIDColl & AthCommonReentrantAlgorithm< Gaudi::Algorithm >::extraOutputDeps ( ) const

overridevirtualinherited

Return the list of extra output dependencies.

This list is extended to include symlinks implied by inheritance relations.

Definition at line 94 of file AthCommonReentrantAlgorithm.cxx.

{
  // If we didn't find any symlinks to add, just return the collection
  // from the base class.  Otherwise, return the extended collection.
  if (!m_extendedExtraObjects.empty()) {
    return m_extendedExtraObjects;
  }
  return BaseAlg::extraOutputDeps();
}

fillEMMaps()

StatusCode JfexMonitorAlgorithm::fillEMMaps ( const xAOD::jFexFwdElRoI * tob, Monitored::Scalar< float > & eta, Monitored::Scalar< float > & phi, Monitored::Scalar< int > & binNumber, Monitored::Scalar< int > & lbn, Monitored::Scalar< float > & weight ) const

private

Definition at line 300 of file JfexMonitorAlgorithm.cxx.

                                                                     {
  if (abs(eta) > 2.5 && abs(eta) < 3.2) {
    ANA_CHECK(
        fillMapsEndcap(tob, eta, phi, binNumber, lbn, m_jEMEtaBins, weight));
  } else {
    ANA_CHECK(fillMapsCentralAndFCAL(tob, eta, phi, binNumber, lbn,
                                     m_jEMEtaBins, weight));
  }
  return StatusCode::SUCCESS;
}

fillHistograms()

StatusCode JfexMonitorAlgorithm::fillHistograms ( const EventContext & ctx ) const

overridevirtual

adds event to the monitoring histograms

User will overwrite this function. Histogram booking is no longer done in C++. This function is called in execute once the filters are all passed.

Parameters

ctx	forwarded from execute

Returns

StatusCode

Implements AthMonitorAlgorithm.

Definition at line 39 of file JfexMonitorAlgorithm.cxx.

                                                                               {
 
    ATH_MSG_DEBUG("JfexMonitorAlgorithm::fillHistograms");
 
    bool jJ_isInValid   = false;
    bool jLJ_isInValid  = false;
    bool jTau_isInValid = false;
    bool jEM_isInValid  = false;
    bool jXE_isInValid  = false;
    bool jTE_isInValid  = false;
 
    SG::ReadHandle<xAOD::jFexSRJetRoIContainer> jFexSRJetContainer{m_jFexSRJetContainerKey, ctx};
    if(!jFexSRJetContainer.isValid()) {
        ATH_MSG_WARNING("No jFex SR Jet container found in storegate "<< m_jFexSRJetContainerKey<<". Will be skipped!");
        jJ_isInValid = true;
    }
    SG::ReadHandle<xAOD::jFexLRJetRoIContainer> jFexLRJetContainer{m_jFexLRJetContainerKey, ctx};
    if(!jFexLRJetContainer.isValid()) {
        ATH_MSG_WARNING("No jFex LR Jet container found in storegate "<< m_jFexLRJetContainerKey<<". Will be skipped!");
        jLJ_isInValid = true;
    }
    SG::ReadHandle<xAOD::jFexTauRoIContainer> jFexTauContainer{m_jFexTauContainerKey, ctx};
    if(!jFexTauContainer.isValid()) {
        ATH_MSG_WARNING("No jFex Tau container found in storegate "<< m_jFexTauContainerKey<<". Will be skipped!");
        jTau_isInValid = true;
    }
    SG::ReadHandle<xAOD::jFexFwdElRoIContainer> jFexEMContainer{m_jFexFwdElContainerKey, ctx};
    if(!jFexEMContainer.isValid()) {
        ATH_MSG_WARNING("No jFex EM container found in storegate "<< m_jFexFwdElContainerKey<<". Will be skipped!");
        jEM_isInValid =  true;
    }
    SG::ReadHandle<xAOD::jFexMETRoIContainer> jFexMETContainer{m_jFexMETContainerKey, ctx};
    if(!jFexMETContainer.isValid()) {
        ATH_MSG_WARNING("No jFex MET container found in storegate "<< m_jFexMETContainerKey<<". Will be skipped!");
        jXE_isInValid = true;
    }
    SG::ReadHandle<xAOD::jFexSumETRoIContainer> jFexSumETContainer{m_jFexSumEtContainerKey, ctx};
    if(!jFexSumETContainer.isValid()) {
        ATH_MSG_WARNING("No jFex MET container found in storegate "<< m_jFexSumEtContainerKey<<". Will be skipped!");
        jTE_isInValid = true;
    }
 
    // variables for histograms
    auto lbn = Monitored::Scalar<int>("LBN",GetEventInfo(ctx)->lumiBlock());
    // jJ
    auto jFexSRJetModule  = Monitored::Scalar<int>  ("jJ_jFexNumber",0);
    auto jFexSRJetFPGA    = Monitored::Scalar<int>  ("jJ_fpgaNumber",0);
    auto jFexSRJetEt      = Monitored::Scalar<int>  ("jJ_Et",0);
    auto jFexSRJeteta     = Monitored::Scalar<float>("jJ_Eta",0.0);
    auto jFexSRJetphi     = Monitored::Scalar<float>("jJ_Phi",0.0);
    auto jFexSRJeteta_glo = Monitored::Scalar<float>("jJ_GlobalEta",0.0);
    auto jFexSRJetphi_glo = Monitored::Scalar<float>("jJ_GlobalPhi",0.0);
    auto jFexSRJetBinNumber = Monitored::Scalar<int>("jJ_binNumber",0);
 
    // jLJ
    auto jFexLRJetModule  = Monitored::Scalar<int>  ("jLJ_jFexNumber",0);
    auto jFexLRJetFPGA    = Monitored::Scalar<int>  ("jLJ_fpgaNumber",0);
    auto jFexLRJetEt      = Monitored::Scalar<int>  ("jLJ_Et",0);
    auto jFexLRJeteta     = Monitored::Scalar<float>("jLJ_Eta",0.0);
    auto jFexLRJetphi     = Monitored::Scalar<float>("jLJ_Phi",0.0);
    auto jFexLRJeteta_glo = Monitored::Scalar<float>("jLJ_GlobalEta",0.0);
    auto jFexLRJetphi_glo = Monitored::Scalar<float>("jLJ_GlobalPhi",0.0);
 
 
    // jTau
    auto jFexTauModule  = Monitored::Scalar<int>  ("jTau_jFexNumber",0);
    auto jFexTauFPGA    = Monitored::Scalar<int>  ("jTau_fpgaNumber",0);
    auto jFexTauEt      = Monitored::Scalar<int>  ("jTau_Et",0);
    auto jFexTauIso     = Monitored::Scalar<int>  ("jTau_Iso",0);
    auto jFexTaueta     = Monitored::Scalar<float>("jTau_Eta",0.0);
    auto jFexTauphi     = Monitored::Scalar<float>("jTau_Phi",0.0);
    auto jFexTaueta_glo = Monitored::Scalar<float>("jTau_GlobalEta",0.0);
    auto jFexTauphi_glo = Monitored::Scalar<float>("jTau_GlobalPhi",0.0);
    auto jFexTauBinNumber = Monitored::Scalar<int>("jTau_binNumber",0);
 
    // jEM
    auto jFexEMModule  = Monitored::Scalar<int>  ("jEM_jFexNumber",0);
    auto jFexEMFPGA    = Monitored::Scalar<int>  ("jEM_fpgaNumber",0);
    auto jFexEMEt      = Monitored::Scalar<int>  ("jEM_Et",0);
    auto jFexEMeta     = Monitored::Scalar<float>("jEM_Eta",0.0);
    auto jFexEMphi     = Monitored::Scalar<float>("jEM_Phi",0.0);
    auto jFexEMeta_glo = Monitored::Scalar<float>("jEM_GlobalEta",0.0);
    auto jFexEMphi_glo = Monitored::Scalar<float>("jEM_GlobalPhi",0.0);
    auto jFexEMIso     = Monitored::Scalar<int>  ("jEM_Iso",0);
    auto jFexEMf1      = Monitored::Scalar<int>  ("jEM_f1",0);
    auto jFexEMf2      = Monitored::Scalar<int>  ("jEM_f2",0);
    auto jFexEMBinNumber = Monitored::Scalar<int>("jEM_binNumber",0);
 
    // jXE
    auto jFexMETX   = Monitored::Scalar<int>  ("jXE_X",0);
    auto jFexMETY   = Monitored::Scalar<int>  ("jXE_Y",0);
    auto jFexMET    = Monitored::Scalar<float>("jXE_MET",0.0);
    auto jFexMETphi = Monitored::Scalar<float>("jXE_phi",0.0);
 
    // jTE
    auto jFexSumEt_low   = Monitored::Scalar<int>  ("jTE_low",0);
    auto jFexSumEt_high  = Monitored::Scalar<int>  ("jTE_high",0);
    auto jFexSumEt_total = Monitored::Scalar<float>("jTE_SumEt",0.0);
 
    auto weight = Monitored::Scalar<float>("weight",1);
 
    // write -1 into bins in maps that are always empty
    std::call_once(m_initOnce, [&]() {
      weight = -1;
      // empty bins due to irregular structure of FCAL
      for (auto& [eta, phi] : jFEXMapEmptyBinCenters) {
          jFexSRJeteta = eta;
          jFexSRJetphi = phi;
          jFexEMeta = eta;
          jFexEMphi = phi;
          fill(m_Groupmaps,jFexSRJeteta,jFexSRJetphi,jFexEMeta,jFexEMphi,weight);
          fill(m_GroupmapsHighPt,jFexSRJeteta,jFexSRJetphi,jFexEMeta,jFexEMphi,weight);
      }
 
      for (auto& [eta, phi] : jFEXMapEmptyBinCentersJetsOnly) {
          jFexSRJeteta = eta;
          jFexSRJetphi = phi;
          fill(m_Groupmaps,jFexSRJeteta,jFexSRJetphi,weight);
          fill(m_GroupmapsHighPt,jFexSRJeteta,jFexSRJetphi,weight);
      }
 
      // central region without jEM
      for (int ieta=-23; ieta<23; ieta++){
          jFexEMeta = 0.1 * ieta + 0.05;
          for (int iphi=-32; iphi<33; iphi++){
              jFexEMphi = M_PI/32 * iphi + M_PI/64;
              fill(m_Groupmaps,jFexEMeta,jFexEMphi,weight);
              fill(m_GroupmapsHighPt,jFexEMeta,jFexEMphi,weight);
          }
      }
      weight = 1;
    });
 
    if (!jJ_isInValid) {
      for (const xAOD::jFexSRJetRoI *jFexSRJetRoI : *jFexSRJetContainer) {
        if (jFexSRJetRoI->tobWord() == 0)
          continue; // remove empty TOBs
        jFexSRJetModule = jFexSRJetRoI->jFexNumber();
        jFexSRJetFPGA = jFexSRJetRoI->fpgaNumber();
        jFexSRJetEt = jFexSRJetRoI->tobEt();
        jFexSRJeteta = jFexSRJetRoI->eta();
        jFexSRJetphi = jFexSRJetRoI->phi();
        jFexSRJeteta_glo = jFexSRJetRoI->globalEta();
        jFexSRJetphi_glo = jFexSRJetRoI->globalPhi();
        fill(m_Grouphist, jFexSRJetModule, jFexSRJetFPGA, jFexSRJetEt,
             jFexSRJeteta, jFexSRJetphi, jFexSRJeteta_glo, jFexSRJetphi_glo);
 
        ANA_CHECK(fillJetMaps(jFexSRJetRoI, jFexSRJeteta, jFexSRJetphi,
                              jFexSRJetBinNumber, lbn, weight));
      }
    }
 
    if (!jTau_isInValid) {
      for (const xAOD::jFexTauRoI *jFexTauRoI : *jFexTauContainer) {
        if (jFexTauRoI->tobWord() == 0)
          continue; // remove empty TOBs
        jFexTauModule = jFexTauRoI->jFexNumber();
        jFexTauFPGA = jFexTauRoI->fpgaNumber();
        jFexTauEt = jFexTauRoI->tobEt();
        jFexTauIso = jFexTauRoI->tobIso();
        jFexTaueta = jFexTauRoI->eta();
        jFexTauphi = jFexTauRoI->phi();
        jFexTaueta_glo = jFexTauRoI->globalEta();
        jFexTauphi_glo = jFexTauRoI->globalPhi();
        ANA_CHECK(fillMapsCentralAndFCAL(jFexTauRoI, jFexTaueta, jFexTauphi,
                                         jFexTauBinNumber, lbn, m_jTauEtaBins,
                                         weight));
      }
    }
 
    if (!jEM_isInValid) {
      for (const xAOD::jFexFwdElRoI *jFexFwdElRoI : *jFexEMContainer) {
        if (jFexFwdElRoI->tobWord() == 0)
          continue; // remove empty TOBs
        jFexEMModule = jFexFwdElRoI->jFexNumber();
        jFexEMFPGA = jFexFwdElRoI->fpgaNumber();
        jFexEMEt = jFexFwdElRoI->tobEt();
        jFexEMeta = jFexFwdElRoI->eta();
        jFexEMphi = jFexFwdElRoI->phi();
        jFexEMeta_glo = jFexFwdElRoI->globalEta();
        jFexEMphi_glo = jFexFwdElRoI->globalPhi();
        jFexEMIso = jFexFwdElRoI->tobEMIso();
        jFexEMf1 = jFexFwdElRoI->tobEMf1();
        jFexEMf2 = jFexFwdElRoI->tobEMf2();
        fill(m_Grouphist, jFexEMModule, jFexEMFPGA, jFexEMEt, jFexEMeta,
             jFexEMphi, jFexEMeta_glo, jFexEMphi_glo, jFexEMIso, jFexEMf1,
             jFexEMf2);
        ANA_CHECK(fillEMMaps(jFexFwdElRoI, jFexEMeta, jFexEMphi, jFexEMBinNumber,
                             lbn, weight));
      }
    }
 
    if(!jLJ_isInValid) {
        for(const xAOD::jFexLRJetRoI* jFexLRJetRoI : *jFexLRJetContainer) {
            if(jFexLRJetRoI->tobWord()==0) continue; //remove empty TOBs
            jFexLRJetModule=jFexLRJetRoI->jFexNumber();
            jFexLRJetFPGA=jFexLRJetRoI->fpgaNumber();
            jFexLRJetEt=jFexLRJetRoI->tobEt();
            jFexLRJeteta=jFexLRJetRoI->eta();
            jFexLRJetphi=jFexLRJetRoI->phi();
            jFexLRJeteta_glo=jFexLRJetRoI->globalEta();
            jFexLRJetphi_glo=jFexLRJetRoI->globalPhi();
            fill(m_Grouphist,jFexLRJetModule,jFexLRJetFPGA,jFexLRJetEt,jFexLRJeteta,jFexLRJetphi,jFexLRJeteta_glo,jFexLRJetphi_glo);
        }
    }
 
    if(!jXE_isInValid){
        float metx = 0;
        float mety = 0;
        for(const xAOD::jFexMETRoI* jFexMETRoI : *jFexMETContainer) {
            jFexMETX =jFexMETRoI->tobEx();
            jFexMETY =jFexMETRoI->tobEy();
            if(jFexMETRoI->tobEtScale() != 0) {
                metx += jFexMETRoI->Ex()/jFexMETRoI->tobEtScale();
                mety += jFexMETRoI->Ey()/jFexMETRoI->tobEtScale();
            }
 
            fill(m_Grouphist,jFexMETX,jFexMETY);
        }
        if(jFexMETContainer->size()>0) {
            jFexMET    = TMath::Sqrt(std::pow(metx,2)+std::pow(mety,2));
            jFexMETphi = TMath::ATan2(mety,metx);
            fill(m_Grouphist,jFexMET,jFexMETphi);
        }    
    }
 
    if(!jTE_isInValid){
        int sumEt_total = 0;
        for(const xAOD::jFexSumETRoI* jFexSumETRoI : *jFexSumETContainer) {
            jFexSumEt_low =jFexSumETRoI->tobEt_lower();
            jFexSumEt_high =jFexSumETRoI->tobEt_upper();
            sumEt_total += jFexSumETRoI->tobEt_lower()+jFexSumETRoI->tobEt_upper();
            fill(m_Grouphist,jFexSumEt_low,jFexSumEt_high);
        }
        if(jFexSumETContainer->size()>0) {
            jFexSumEt_total = sumEt_total;
            fill(m_Grouphist,jFexSumEt_total);
        }    
    }
 
  return StatusCode::SUCCESS;
}

fillJetMaps()

StatusCode JfexMonitorAlgorithm::fillJetMaps ( const xAOD::jFexSRJetRoI * tob, Monitored::Scalar< float > & eta, Monitored::Scalar< float > & phi, Monitored::Scalar< int > & binNumber, Monitored::Scalar< int > & lbn, Monitored::Scalar< float > & weight ) const

private

Definition at line 282 of file JfexMonitorAlgorithm.cxx.

                                                                     {
  if (abs(eta) > 2.5 && abs(eta) < 3.1) {
    ANA_CHECK(
        fillMapsEndcap(tob, eta, phi, binNumber, lbn, m_jJEtaBins, weight));
  } else if (abs(eta) > 3.1 && abs(eta) < 3.2) {
    ANA_CHECK(
        fillMapsOverlap(tob, eta, phi, binNumber, lbn, m_jJEtaBins, weight));
  } else {
    ANA_CHECK(fillMapsCentralAndFCAL(tob, eta, phi, binNumber, lbn, m_jJEtaBins,
                                     weight));
  }
 
  return StatusCode::SUCCESS;
}

fillMapsCentralAndFCAL()

template<typename TOB>

StatusCode JfexMonitorAlgorithm::fillMapsCentralAndFCAL ( TOB tob, Monitored::Scalar< float > & eta, Monitored::Scalar< float > & phi, Monitored::Scalar< int > & binNumber, Monitored::Scalar< int > & lbn, const std::vector< float > & etaBinBorders, Monitored::Scalar< float > & weight ) const

private

Definition at line 315 of file JfexMonitorAlgorithm.cxx.

                                                                                 {
  binNumber = binNumberFromCoordinates(eta, phi, etaBinBorders);
  fill(m_Groupmaps, eta, phi, lbn, binNumber, weight);
  if (passesEnergyCut(tob))
    fill(m_GroupmapsHighPt, eta, phi, lbn, binNumber, weight);
  return StatusCode::SUCCESS;
}

fillMapsEndcap()

template<typename TOB>

StatusCode JfexMonitorAlgorithm::fillMapsEndcap ( TOB tob, Monitored::Scalar< float > & eta, Monitored::Scalar< float > & phi, Monitored::Scalar< int > & binNumber, Monitored::Scalar< int > & lbn, const std::vector< float > & etaBinBorders, Monitored::Scalar< float > & weight ) const

private

Definition at line 327 of file JfexMonitorAlgorithm.cxx.

                                                                                 {
  float originalPhi = phi;
  phi = originalPhi - M_PI / 64;
  fill(m_Groupmaps, eta, phi, weight);
  binNumber = binNumberFromCoordinates(eta, phi, etaBinBorders);
  fill(m_Groupmaps, lbn, binNumber);
  if (passesEnergyCut(tob))
    fill(m_GroupmapsHighPt, eta, phi, lbn, binNumber, weight);
  phi = originalPhi + M_PI / 64;
  fill(m_Groupmaps, eta, phi, weight);
  binNumber = binNumberFromCoordinates(eta, phi, etaBinBorders);
  fill(m_Groupmaps, lbn, binNumber);
  if (passesEnergyCut(tob))
    fill(m_GroupmapsHighPt, eta, phi, lbn, binNumber, weight);
 
  return StatusCode::SUCCESS;
}

fillMapsOverlap()

StatusCode JfexMonitorAlgorithm::fillMapsOverlap ( const xAOD::jFexSRJetRoI * tob, Monitored::Scalar< float > & eta, Monitored::Scalar< float > & phi, Monitored::Scalar< int > & binNumber, Monitored::Scalar< int > & lbn, const std::vector< float > & etaBinBorders, Monitored::Scalar< float > & weight ) const

private

Definition at line 348 of file JfexMonitorAlgorithm.cxx.

                                          {
  binNumber = binNumberFromCoordinates(eta, phi, etaBinBorders);
  fill(m_Groupmaps, lbn, binNumber);
  float originalPhi = phi;
  uint8_t localEta = tob->tobLocalEta();
  bool isFCAL = localEta >= 13;
  if (isFCAL) {
    eta = eta > 0 ? 3.175 : -3.175;
    fill(m_Groupmaps, eta, phi, weight);
    if (passesEnergyCut(tob))
      fill(m_GroupmapsHighPt, eta, phi, lbn, binNumber, weight);
  } else {
    eta = eta > 0 ? 3.125 : -3.125;
    phi = originalPhi - M_PI / 64;
    fill(m_Groupmaps, eta, phi, weight);
    if (passesEnergyCut(tob))
      fill(m_GroupmapsHighPt, eta, phi, lbn, binNumber, weight);
    phi = originalPhi + M_PI / 64;
    fill(m_Groupmaps, eta, phi, weight);
    if (passesEnergyCut(tob))
      fill(m_GroupmapsHighPt, eta, phi, lbn, binNumber, weight);
  }
  return StatusCode::SUCCESS;
}

filterPassed()

virtual bool AthCommonReentrantAlgorithm< Gaudi::Algorithm >::filterPassed ( const EventContext & ctx ) const

inlinevirtualinherited

Definition at line 96 of file AthCommonReentrantAlgorithm.h.

                                                           {
    return execState( ctx ).filterPassed();
  }

GetEventInfo()

SG::ReadHandle< xAOD::EventInfo > AthMonitorAlgorithm::GetEventInfo ( const EventContext & ctx ) const

inherited

Return a ReadHandle for an EventInfo object (get run/event numbers, etc.)

Parameters

ctx	EventContext for the event

Returns

a SG::ReadHandle<xAOD::EventInfo>

Definition at line 111 of file AthMonitorAlgorithm.cxx.

                                                                                             {
    return SG::ReadHandle<xAOD::EventInfo>(m_EventInfoKey, ctx);
}

getGroup()

const ToolHandle< GenericMonitoringTool > & AthMonitorAlgorithm::getGroup ( const std::string & name ) const

inherited

Get a specific monitoring tool from the tool handle array.

Finds a specific GenericMonitoringTool instance from the list of monitoring tools (a ToolHandleArray). Throws a FATAL warning if the object found is empty.

Parameters

name	string name of the desired tool

Returns

reference to the desired monitoring tool

Definition at line 168 of file AthMonitorAlgorithm.cxx.

                                                                                                    {
    // get the pointer to the tool, and check that it exists
    auto idx = m_toolLookupMap.find(name);
    if (ATH_LIKELY(idx != m_toolLookupMap.end())) {
        return m_tools[idx->second];
    }
    else {
      // treat empty tool handle case as in Monitored::Group
      if (m_toolLookupMap.empty()) {
    return m_dummy;
      }
 
      if (!isInitialized()) {
        ATH_MSG_FATAL(
            "It seems that the AthMonitorAlgorithm::initialize was not called "
            "in derived class initialize method");
      } else {
        std::string available = std::accumulate(
            m_toolLookupMap.begin(), m_toolLookupMap.end(), std::string(""),
            [](const std::string& s, auto h) { return s + "," + h.first; });
        ATH_MSG_FATAL("The tool " << name << " could not be found in the tool array of the "
                      << "monitoring algorithm " << m_name << ". This probably reflects a discrepancy between "
                      << "your python configuration and c++ filling code. Note: your available groups are {"
                      << available << "}.");
        }
    }
    return m_dummy;
}

getTrigDecisionTool()

const ToolHandle< Trig::TrigDecisionTool > & AthMonitorAlgorithm::getTrigDecisionTool ( ) const

inherited

Get the trigger decision tool member.

The trigger decision tool is used to check whether a specific trigger is passed by an event.

Returns

m_trigDecTool

Definition at line 198 of file AthMonitorAlgorithm.cxx.

                                                                                       {
    return m_trigDecTool;
}

initialize()

StatusCode JfexMonitorAlgorithm::initialize ( )

overridevirtual

initialize

Returns

StatusCode

Reimplemented from AthMonitorAlgorithm.

Definition at line 16 of file JfexMonitorAlgorithm.cxx.

                                            {
 
    ATH_MSG_DEBUG("JfexMonitorAlgorith::initialize");
    ATH_MSG_DEBUG("Package Name "<< m_Grouphist);
 
    ATH_MSG_DEBUG("m_jFexLRJetContainerKey"<< m_jFexLRJetContainerKey);
    ATH_MSG_DEBUG("m_jFexSRJetContainerKey"<< m_jFexSRJetContainerKey);
    ATH_MSG_DEBUG("m_jFexTauContainerKey"  << m_jFexTauContainerKey);
    ATH_MSG_DEBUG("m_jFexFwdElContainerKey"<< m_jFexFwdElContainerKey);
    ATH_MSG_DEBUG("m_jFexMETContainerKey"  << m_jFexMETContainerKey);
    ATH_MSG_DEBUG("m_jFexSumEtContainerKey"<< m_jFexSumEtContainerKey);
 
    ATH_CHECK( m_jFexLRJetContainerKey.initialize() );
    ATH_CHECK( m_jFexSRJetContainerKey.initialize() );
    ATH_CHECK( m_jFexTauContainerKey.initialize()   );
    ATH_CHECK( m_jFexFwdElContainerKey.initialize() );
    ATH_CHECK( m_jFexMETContainerKey.initialize()   );
    ATH_CHECK( m_jFexSumEtContainerKey.initialize() );
 
 
    return AthMonitorAlgorithm::initialize();
}

inputHandles()

virtual std::vector< Gaudi::DataHandle * > AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::inputHandles ( ) const

overridevirtualinherited

Return this algorithm's input handles.

We override this to include handle instances from key arrays if they have not yet been declared. See comments on updateVHKA.

isClonable()

bool AthCommonReentrantAlgorithm< Gaudi::Algorithm >::isClonable ( ) const

overridevirtualinherited

Specify if the algorithm is clonable.

Reentrant algorithms are clonable.

Reimplemented in InDet::GNNSeedingTrackMaker, InDet::SCT_Clusterization, InDet::SiSPGNNTrackMaker, InDet::SiSPSeededTrackFinder, InDet::SiTrackerSpacePointFinder, ITkPixelCablingAlg, ITkStripCablingAlg, RoIBResultToxAOD, SCT_ByteStreamErrorsTestAlg, SCT_CablingCondAlgFromCoraCool, SCT_CablingCondAlgFromText, SCT_ConditionsParameterTestAlg, SCT_ConditionsSummaryTestAlg, SCT_ConfigurationConditionsTestAlg, SCT_FlaggedConditionTestAlg, SCT_LinkMaskingTestAlg, SCT_MajorityConditionsTestAlg, SCT_ModuleVetoTestAlg, SCT_MonitorConditionsTestAlg, SCT_PrepDataToxAOD, SCT_RawDataToxAOD, SCT_ReadCalibChipDataTestAlg, SCT_ReadCalibDataTestAlg, SCT_RODVetoTestAlg, SCT_SensorsTestAlg, SCT_SiliconConditionsTestAlg, SCT_StripVetoTestAlg, SCT_TdaqEnabledTestAlg, SCT_TestCablingAlg, SCTEventFlagWriter, SCTRawDataProvider, SCTSiLorentzAngleTestAlg, SCTSiPropertiesTestAlg, and Simulation::BeamEffectsAlg.

Definition at line 68 of file AthCommonReentrantAlgorithm.cxx.

{
  // Reentrant algorithms are clonable.
  return true;
}

msg()

MsgStream & AthCommonMsg< Gaudi::Algorithm >::msg ( ) const

inlineinherited

Definition at line 24 of file AthCommonMsg.h.

                                {
    return this->msgStream();
  }

msgLvl()

bool AthCommonMsg< Gaudi::Algorithm >::msgLvl ( const MSG::Level lvl ) const

inlineinherited

Definition at line 30 of file AthCommonMsg.h.

                                               {
    return this->msgLevel(lvl);
  }

outputHandles()

virtual std::vector< Gaudi::DataHandle * > AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::outputHandles ( ) const

overridevirtualinherited

Return this algorithm's output handles.

We override this to include handle instances from key arrays if they have not yet been declared. See comments on updateVHKA.

parseList()

StatusCode AthMonitorAlgorithm::parseList ( const std::string & line, std::vector< std::string > & result ) const

virtualinherited

Parse a string into a vector.

The input string is a single long string of all of the trigger names. It parses this string and turns it into a vector, where each element is one trigger or trigger category.

Parameters

line	The input string.
result	The parsed output vector of strings.

Returns

StatusCode

Definition at line 345 of file AthMonitorAlgorithm.cxx.

                                                                                                   {
    std::string item;
    std::stringstream ss(line);
 
    ATH_MSG_DEBUG( "AthMonitorAlgorithm::parseList()" );
 
    while ( std::getline(ss, item, ',') ) {
        std::stringstream iss(item); // remove whitespace
        iss >> item;
        result.push_back(item);
    }
 
    return StatusCode::SUCCESS;
}

passesEnergyCut() [1/3]

bool JfexMonitorAlgorithm::passesEnergyCut ( const xAOD::jFexFwdElRoI * tob ) const

private

Definition at line 382 of file JfexMonitorAlgorithm.cxx.

                                       {
  return tob->et() >= 10000;
}

passesEnergyCut() [2/3]

bool JfexMonitorAlgorithm::passesEnergyCut ( const xAOD::jFexSRJetRoI * tob ) const

private

Definition at line 377 of file JfexMonitorAlgorithm.cxx.

                                       {
  return tob->et() >= 20000;
}

passesEnergyCut() [3/3]

bool JfexMonitorAlgorithm::passesEnergyCut ( const xAOD::jFexTauRoI * tob ) const

private

Definition at line 387 of file JfexMonitorAlgorithm.cxx.

                                                                          {
  return tob->et() >= 10000;
}

renounce()

std::enable_if_t< std::is_void_v< std::result_of_t< decltype(&T::renounce)(T)> > &&!std::is_base_of_v< SG::VarHandleKeyArray, T > &&std::is_base_of_v< Gaudi::DataHandle, T >, void > AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::renounce ( T & h )

inlineprotectedinherited

Definition at line 380 of file AthCommonDataStore.h.

  {
    h.renounce();
    PBASE::renounce (h);
  }

renounceArray()

void AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::renounceArray ( SG::VarHandleKeyArray & handlesArray )

inlineprotectedinherited

remove all handles from I/O resolution

Definition at line 364 of file AthCommonDataStore.h.

                                                          {
    handlesArray.renounce();
  }

setFilterPassed()

virtual void AthCommonReentrantAlgorithm< Gaudi::Algorithm >::setFilterPassed ( bool state, const EventContext & ctx ) const

inlinevirtualinherited

Definition at line 100 of file AthCommonReentrantAlgorithm.h.

                                                                            {
    execState( ctx ).setFilterPassed( state );
  }

sysExecute()

StatusCode AthCommonReentrantAlgorithm< Gaudi::Algorithm >::sysExecute ( const EventContext & ctx )

overridevirtualinherited

Execute an algorithm.

We override this in order to work around an issue with the Algorithm base class storing the event context in a member variable that can cause crashes in MT jobs.

Definition at line 85 of file AthCommonReentrantAlgorithm.cxx.

{
  return BaseAlg::sysExecute (ctx);
}

sysInitialize()

StatusCode AthCommonReentrantAlgorithm< Gaudi::Algorithm >::sysInitialize ( )

overridevirtualinherited

Override sysInitialize.

Override sysInitialize from the base class.

Loop through all output handles, and if they're WriteCondHandles, automatically register them and this Algorithm with the CondSvc

Scan through all outputHandles, and if they're WriteCondHandles, register them with the CondSvc

Reimplemented from AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >.

Reimplemented in HypoBase, and InputMakerBase.

Definition at line 61 of file AthCommonReentrantAlgorithm.cxx.

                                                               {
  StatusCode sc=AthCommonDataStore<AthCommonMsg<BaseAlg>>::sysInitialize();
 
  if (sc.isFailure()) {
    return sc;
  }
  
  ServiceHandle<ICondSvc> cs("CondSvc",name());
  for (auto h : outputHandles()) {
    if (h->isCondition() && h->mode() == Gaudi::DataHandle::Writer) {
      // do this inside the loop so we don't create the CondSvc until needed
      if ( cs.retrieve().isFailure() ) {
        ATH_MSG_WARNING("no CondSvc found: won't autoreg WriteCondHandles");
        return StatusCode::SUCCESS;
      }      
      if (cs->regHandle(this,*h).isFailure()) {
        sc = StatusCode::FAILURE;
        ATH_MSG_ERROR("unable to register WriteCondHandle " << h->fullKey()
                      << " with CondSvc");
      }
    }
  }
  return sc;  
}

sysStart()

virtual StatusCode AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::sysStart ( )

overridevirtualinherited

Handle START transition.

We override this in order to make sure that conditions handle keys can cache a pointer to the conditions container.

trigChainsArePassed()

bool AthMonitorAlgorithm::trigChainsArePassed ( const std::vector< std::string > & vTrigNames ) const

inherited

Check whether triggers are passed.

For the event, use the trigger decision tool to check that at least one of the triggers listed in the supplied vector is passed.

Parameters

vTrigNames

List of trigger names.

Returns

If empty input, default to true. If at least one trigger is specified, returns whether at least one trigger was passed.

Definition at line 203 of file AthMonitorAlgorithm.cxx.

                                                                                            {
 
  
  // If no triggers were given, return true.
  if (vTrigNames.empty()) return true;
  
  
  // Trigger: Check if this Algorithm is being run as an Express Stream job.
  // Events are entering the express stream are chosen randomly, and by chain,
  // Hence an additional check should be aplied to see if the chain(s)
  // monitored here are responsible for the event being selected for
  // the express stream.
 
  const auto group =  m_trigDecTool->getChainGroup(vTrigNames);
  if (m_enforceExpressTriggers){  
    const auto passedBits = m_trigDecTool->isPassedBits(group);
    bool expressPass = passedBits & TrigDefs::Express_passed; //bitwise AND
    if(!expressPass) {
      return false;
    }
  }
  
  // monitor the event if any of the chains in the chain group passes the event.
  return group->isPassed();
  
}

updateVHKA()

void AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::updateVHKA ( Gaudi::Details::PropertyBase & )

inlineinherited

Definition at line 308 of file AthCommonDataStore.h.

                                               {
    // debug() << "updateVHKA for property " << p.name() << " " << p.toString() 
    //         << "  size: " << m_vhka.size() << endmsg;
    for (auto &a : m_vhka) {
      std::vector<SG::VarHandleKey*> keys = a->keys();
      for (auto k : keys) {
        k->setOwner(this);
      }
    }
  }

Member Data Documentation

args

JfexMonitorAlgorithm.args = parser.parse_args()

Definition at line 460 of file JfexMonitorAlgorithm.py.

cfg

JfexMonitorAlgorithm.cfg = MainServicesCfg(flags)

Definition at line 475 of file JfexMonitorAlgorithm.py.

default

JfexMonitorAlgorithm.default

Definition at line 457 of file JfexMonitorAlgorithm.py.

Files

JfexMonitorAlgorithm.Files

Definition at line 464 of file JfexMonitorAlgorithm.py.

flags

JfexMonitorAlgorithm.flags = initConfigFlags()

Definition at line 463 of file JfexMonitorAlgorithm.py.

help

JfexMonitorAlgorithm.help

Definition at line 457 of file JfexMonitorAlgorithm.py.

HISTFileName

JfexMonitorAlgorithm.HISTFileName

Definition at line 465 of file JfexMonitorAlgorithm.py.

int

JfexMonitorAlgorithm.int

Definition at line 457 of file JfexMonitorAlgorithm.py.

JfexMonitorCfg

JfexMonitorAlgorithm.JfexMonitorCfg = JfexMonitoringConfig(flags)

Definition at line 478 of file JfexMonitorAlgorithm.py.

m_dataType

AthMonitorAlgorithm::DataType_t AthMonitorAlgorithm::m_dataType

protectedinherited

Instance of the DataType_t enum.

Definition at line 356 of file AthMonitorAlgorithm.h.

m_dataTypeStr

Gaudi::Property<std::string> AthMonitorAlgorithm::m_dataTypeStr {this,"DataType","userDefined"}

protectedinherited

DataType string pulled from the job option and converted to enum.

Definition at line 358 of file AthMonitorAlgorithm.h.

{this,"DataType","userDefined"}; 

m_defaultLBDuration

Gaudi::Property<float> AthMonitorAlgorithm::m_defaultLBDuration {this,"DefaultLBDuration",60.}

protectedinherited

Default duration of one lumi block.

Definition at line 365 of file AthMonitorAlgorithm.h.

{this,"DefaultLBDuration",60.}; 

m_detailLevel

Gaudi::Property<int> AthMonitorAlgorithm::m_detailLevel {this,"DetailLevel",0}

protectedinherited

Sets the level of detail used in the monitoring.

Definition at line 366 of file AthMonitorAlgorithm.h.

{this,"DetailLevel",0}; 

m_detStore

StoreGateSvc_t AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::m_detStore

privateinherited

Pointer to StoreGate (detector store by default)

Definition at line 393 of file AthCommonDataStore.h.

m_DQFilterTools

ToolHandleArray<IDQFilterTool> AthMonitorAlgorithm::m_DQFilterTools {this,"FilterTools",{}}

protectedinherited

Array of Data Quality filter tools.

Definition at line 346 of file AthMonitorAlgorithm.h.

{this,"FilterTools",{}}; 

m_dummy

const ToolHandle<GenericMonitoringTool> AthMonitorAlgorithm::m_dummy

privateinherited

Definition at line 374 of file AthMonitorAlgorithm.h.

m_enforceExpressTriggers

Gaudi::Property<bool> AthMonitorAlgorithm::m_enforceExpressTriggers

privateinherited

Initial value:

{this,
                          "EnforceExpressTriggers", false,
                          "Requires that matched triggers made the event enter the express stream"}

Definition at line 377 of file AthMonitorAlgorithm.h.

                                               {this,
                          "EnforceExpressTriggers", false,
                          "Requires that matched triggers made the event enter the express stream"};

m_environment

AthMonitorAlgorithm::Environment_t AthMonitorAlgorithm::m_environment

protectedinherited

Instance of the Environment_t enum.

Definition at line 355 of file AthMonitorAlgorithm.h.

m_environmentStr

Gaudi::Property<std::string> AthMonitorAlgorithm::m_environmentStr {this,"Environment","user"}

protectedinherited

Environment string pulled from the job option and converted to enum.

Definition at line 357 of file AthMonitorAlgorithm.h.

{this,"Environment","user"}; 

m_EventInfoKey

SG::ReadHandleKey<xAOD::EventInfo> AthMonitorAlgorithm::m_EventInfoKey {this,"EventInfoKey","EventInfo"}

protectedinherited

Key for retrieving EventInfo from StoreGate.

Definition at line 367 of file AthMonitorAlgorithm.h.

{this,"EventInfoKey","EventInfo"}; 

m_evtStore

StoreGateSvc_t AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::m_evtStore

privateinherited

Pointer to StoreGate (event store by default)

Definition at line 390 of file AthCommonDataStore.h.

m_extendedExtraObjects

DataObjIDColl AthCommonReentrantAlgorithm< Gaudi::Algorithm >::m_extendedExtraObjects

privateinherited

Extra output dependency collection, extended by AthAlgorithmDHUpdate to add symlinks.

Empty if no symlinks were found.

Definition at line 114 of file AthCommonReentrantAlgorithm.h.

m_fileKey

Gaudi::Property<std::string> AthMonitorAlgorithm::m_fileKey {this,"FileKey",""}

protectedinherited

Internal Athena name for file.

Definition at line 363 of file AthMonitorAlgorithm.h.

{this,"FileKey",""}; 

m_Grouphist

StringProperty JfexMonitorAlgorithm::m_Grouphist {this,"Grouphist","JfexMonitor","group name for histograming"}

private

Definition at line 36 of file JfexMonitorAlgorithm.h.

{this,"Grouphist","JfexMonitor","group name for histograming"};

m_Groupmaps

StringProperty JfexMonitorAlgorithm::m_Groupmaps {this,"Groupmaps","jFEXMaps","group name for jFEX TOB maps"}

private

Definition at line 37 of file JfexMonitorAlgorithm.h.

{this,"Groupmaps","jFEXMaps","group name for jFEX TOB maps"};

m_GroupmapsHighPt

StringProperty JfexMonitorAlgorithm::m_GroupmapsHighPt {this,"GroupmapsHighPt","jFEXMapsHighPt","group name for jFEX TOB maps with higher energy thresholds"}

private

Definition at line 38 of file JfexMonitorAlgorithm.h.

{this,"GroupmapsHighPt","jFEXMapsHighPt","group name for jFEX TOB maps with higher energy thresholds"};

m_initOnce

std::once_flag JfexMonitorAlgorithm::m_initOnce

mutableprivate

Definition at line 34 of file JfexMonitorAlgorithm.h.

m_jEMEtaBins

Gaudi::Property<std::vector<float> > JfexMonitorAlgorithm::m_jEMEtaBins {this,"jEMEtaBins"}

private

Definition at line 41 of file JfexMonitorAlgorithm.h.

{this,"jEMEtaBins"};

m_jFexFwdElContainerKey

SG::ReadHandleKey< xAOD::jFexFwdElRoIContainer > JfexMonitorAlgorithm::m_jFexFwdElContainerKey {this,"jFexFwdElRoIContainer","L1_jFexFwdElRoI","SG key of the input jFex EM Roi container"}

private

Definition at line 48 of file JfexMonitorAlgorithm.h.

{this,"jFexFwdElRoIContainer","L1_jFexFwdElRoI","SG key of the input jFex EM Roi container"};

m_jFexLRJetContainerKey

SG::ReadHandleKey< xAOD::jFexLRJetRoIContainer > JfexMonitorAlgorithm::m_jFexLRJetContainerKey {this,"jFexLRJetRoIContainer","L1_jFexLRJetRoI","SG key of the input jFex LR Jet Roi container"}

private

Definition at line 46 of file JfexMonitorAlgorithm.h.

{this,"jFexLRJetRoIContainer","L1_jFexLRJetRoI","SG key of the input jFex LR Jet Roi container"};

m_jFexMETContainerKey

SG::ReadHandleKey< xAOD::jFexMETRoIContainer > JfexMonitorAlgorithm::m_jFexMETContainerKey {this,"jFexMETRoIContainer" ,"L1_jFexMETRoI" ,"SG key of the input jFex MET Roi container"}

private

Definition at line 49 of file JfexMonitorAlgorithm.h.

{this,"jFexMETRoIContainer"  ,"L1_jFexMETRoI"  ,"SG key of the input jFex MET Roi container"};

m_jFexSRJetContainerKey

SG::ReadHandleKey< xAOD::jFexSRJetRoIContainer > JfexMonitorAlgorithm::m_jFexSRJetContainerKey {this,"jFexSRJetRoIContainer","L1_jFexSRJetRoI","SG key of the input jFex SR Jet Roi container"}

private

Definition at line 45 of file JfexMonitorAlgorithm.h.

{this,"jFexSRJetRoIContainer","L1_jFexSRJetRoI","SG key of the input jFex SR Jet Roi container"};

m_jFexSumEtContainerKey

SG::ReadHandleKey< xAOD::jFexSumETRoIContainer > JfexMonitorAlgorithm::m_jFexSumEtContainerKey {this,"jFexSumETRoIContainer","L1_jFexSumETRoI","SG key of the input jFex SumEt Roi container"}

private

Definition at line 50 of file JfexMonitorAlgorithm.h.

{this,"jFexSumETRoIContainer","L1_jFexSumETRoI","SG key of the input jFex SumEt Roi container"};

m_jFexTauContainerKey

SG::ReadHandleKey< xAOD::jFexTauRoIContainer > JfexMonitorAlgorithm::m_jFexTauContainerKey {this,"jFexTauRoIContainer" ,"L1_jFexTauRoI" ,"SG key of the input jFex Tau Roi container"}

private

Definition at line 47 of file JfexMonitorAlgorithm.h.

{this,"jFexTauRoIContainer"  ,"L1_jFexTauRoI"  ,"SG key of the input jFex Tau Roi container"};

m_jJEtaBins

Gaudi::Property<std::vector<float> > JfexMonitorAlgorithm::m_jJEtaBins {this,"jJEtaBins"}

private

Definition at line 39 of file JfexMonitorAlgorithm.h.

{this,"jJEtaBins"};

m_jTauEtaBins

Gaudi::Property<std::vector<float> > JfexMonitorAlgorithm::m_jTauEtaBins {this,"jTauEtaBins"}

private

Definition at line 40 of file JfexMonitorAlgorithm.h.

{this,"jTauEtaBins"};

m_lbDurationDataKey

SG::ReadCondHandleKey<LBDurationCondData> AthMonitorAlgorithm::m_lbDurationDataKey {this,"LBDurationCondDataKey","LBDurationCondData","SG Key of LBDurationCondData object"}

protectedinherited

Definition at line 350 of file AthMonitorAlgorithm.h.

{this,"LBDurationCondDataKey","LBDurationCondData","SG Key of LBDurationCondData object"};

m_lumiDataKey

SG::ReadCondHandleKey<LuminosityCondData> AthMonitorAlgorithm::m_lumiDataKey {this,"LuminosityCondDataKey","LuminosityCondData","SG Key of LuminosityCondData object"}

protectedinherited

Definition at line 348 of file AthMonitorAlgorithm.h.

{this,"LuminosityCondDataKey","LuminosityCondData","SG Key of LuminosityCondData object"};

m_name

std::string AthMonitorAlgorithm::m_name

privateinherited

Definition at line 371 of file AthMonitorAlgorithm.h.

m_toolLookupMap

std::unordered_map<std::string, size_t> AthMonitorAlgorithm::m_toolLookupMap

privateinherited

Definition at line 372 of file AthMonitorAlgorithm.h.

m_tools

ToolHandleArray<GenericMonitoringTool> AthMonitorAlgorithm::m_tools {this,"GMTools",{}}

protectedinherited

Array of Generic Monitoring Tools.

Definition at line 341 of file AthMonitorAlgorithm.h.

{this,"GMTools",{}}; 

m_trigDecTool

PublicToolHandle<Trig::TrigDecisionTool> AthMonitorAlgorithm::m_trigDecTool

protectedinherited

Tool to tell whether a specific trigger is passed.

Definition at line 345 of file AthMonitorAlgorithm.h.

m_triggerChainString

Gaudi::Property<std::string> AthMonitorAlgorithm::m_triggerChainString {this,"TriggerChain",""}

protectedinherited

Trigger chain string pulled from the job option and parsed into a vector.

Definition at line 360 of file AthMonitorAlgorithm.h.

{this,"TriggerChain",""}; 

m_trigLiveFractionDataKey

SG::ReadCondHandleKey<TrigLiveFractionCondData> AthMonitorAlgorithm::m_trigLiveFractionDataKey {this,"TrigLiveFractionCondDataKey","TrigLiveFractionCondData", "SG Key of TrigLiveFractionCondData object"}

protectedinherited

Definition at line 352 of file AthMonitorAlgorithm.h.

{this,"TrigLiveFractionCondDataKey","TrigLiveFractionCondData", "SG Key of TrigLiveFractionCondData object"};

m_useLumi

Gaudi::Property<bool> AthMonitorAlgorithm::m_useLumi {this,"EnableLumi",false}

protectedinherited

Allows use of various luminosity functions.

Definition at line 364 of file AthMonitorAlgorithm.h.

{this,"EnableLumi",false}; 

m_varHandleArraysDeclared

bool AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::m_varHandleArraysDeclared

privateinherited

Definition at line 399 of file AthCommonDataStore.h.

m_vhka

std::vector<SG::VarHandleKeyArray*> AthCommonDataStore< AthCommonMsg< Gaudi::Algorithm > >::m_vhka

privateinherited

Definition at line 398 of file AthCommonDataStore.h.

m_vTrigChainNames

std::vector<std::string> AthMonitorAlgorithm::m_vTrigChainNames

protectedinherited

Vector of trigger chain names parsed from trigger chain string.

Definition at line 361 of file AthMonitorAlgorithm.h.

MaxEvents

JfexMonitorAlgorithm.MaxEvents

Definition at line 467 of file JfexMonitorAlgorithm.py.

nargs

JfexMonitorAlgorithm.nargs

Definition at line 458 of file JfexMonitorAlgorithm.py.

parser

JfexMonitorAlgorithm.parser

Initial value:

=  argparse.ArgumentParser(prog='python -m TrigT1CaloMonitoring.JfexMonitorAlgorithm',
                                     description=)

Definition at line 453 of file JfexMonitorAlgorithm.py.

required

JfexMonitorAlgorithm.required

Definition at line 458 of file JfexMonitorAlgorithm.py.

SkipEvents

JfexMonitorAlgorithm.SkipEvents

Definition at line 468 of file JfexMonitorAlgorithm.py.

type

JfexMonitorAlgorithm.type

Definition at line 457 of file JfexMonitorAlgorithm.py.

---

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

• JfexMonitorAlgorithm.h
• JfexMonitorAlgorithm.py
• JfexMonitorAlgorithm.cxx