CaloClusterVecMon Class Reference

#include <CaloClusterVecMon.h>

Inheritance diagram for CaloClusterVecMon:

Collaboration diagram for CaloClusterVecMon:

Public Types
enum	Interval_t {   file = 0, eventsBlock, lumiBlock, lowStat,   medStat, higStat, run, fill,   all }
	An enumeration describing how detailed a particular monitoring object is. More...
enum	MgmtAttr_t { ATTRIB_MANAGED = 0, ATTRIB_UNMANAGED = 1, ATTRIB_X_VS_LB = 2 }
	An enumeration describing how the class handles the histogram. More...

Public Member Functions
	CaloClusterVecMon (const std::string &type, const std::string &name, const IInterface *parent)
virtual	~CaloClusterVecMon ()
virtual StatusCode	initialize ()
virtual StatusCode	bookHistogramsRecurrent ()
	An inheriting class should either override this function, bookHists() or bookHistograms(). More...
virtual StatusCode	bookHistograms ()
	An inheriting class should either override this function or bookHists(). More...
virtual StatusCode	fillHistograms ()
	An inheriting class should either override this function or fillHists(). More...
virtual StatusCode	procHistograms ()
	An inheriting class should either override this function or finalHists(). More...
virtual StatusCode	bookBaseHists (MonGroup *group)
StatusCode	checkFilters (bool &ifPass)
virtual StreamNameFcn *	streamNameFunction ()
	Returns the function object that converts logical paramters into a physical stream name. More...
virtual StatusCode	bookHists ()
	Calls bookHists( true, true, true ) and initializes lumiBlock and run numbers. More...
virtual StatusCode	fillHists ()
	Calls fillHists( bool, bool, bool ); if an eventBlock,lumiBlock, or run has turned over, calls procHists( bool, bool, bool ) and bookHists( bool, bool, bool ). More...
virtual StatusCode	finalHists ()
	Calls procHists( true, true, true ). More...
virtual StatusCode	convertLWHists ()
	Deal with the LW histograms. More...
virtual void	setMonManager (AthenaMonManager *manager)
	Takes a pointer to a managing object to get information from it when needed. More...
virtual StatusCode	regHist (TH1 *h, const std::string &system, Interval_t interval, MgmtAttr_t histo_mgmt=ATTRIB_MANAGED, const std::string &chain="", const std::string &merge="")
	Registers a TH1 (including TH2, TH3, and TProfile) to be included in the output stream using logical parameters that describe the histogram. More...
virtual StatusCode	regHist (TH1 *h, const MonGroup &group)
	Registers a TH1 (including TH2, TH3, and TProfile) to be included in the output stream using logical parameters that describe the histogram. More...
virtual StatusCode	regHist (LWHist *h, const std::string &system, Interval_t interval, MgmtAttr_t histo_mgmt=ATTRIB_MANAGED, const std::string &chain="", const std::string &merge="")
	Support for lightweight histograms: More...
virtual StatusCode	regHist (LWHist *h, const MonGroup &group)
virtual StatusCode	getHist (TH1 *&h, const std::string &hName, const std::string &system, Interval_t interval)
	Returns a TH1 via the pointer passed as the first argument. More...
virtual StatusCode	getHist (TH1 *&h, const std::string &hName, const MonGroup &group)
	Returns a TH1 via the pointer passed as the first argument. More...
virtual StatusCode	getHist (TH2 *&h, const std::string &hName, const std::string &system, Interval_t interval)
	Returns a TH2 via the pointer passed as the first argument. More...
virtual StatusCode	getHist (TH2 *&h, const std::string &hName, const MonGroup &group)
	Returns a TH2 via the pointer passed as the first argument. More...
virtual StatusCode	getHist (LWHist *&h, const std::string &hName, const std::string &system, Interval_t interval)
virtual StatusCode	getHist (LWHist *&h, const std::string &hName, const MonGroup &group)
virtual StatusCode	regEfficiency (TEfficiency *e, const MonGroup &group)
	Registers a TEfficiency to be included in the output stream using logical parameters that describe the plot. More...
virtual StatusCode	regGraph (TGraph *g, const std::string &system, Interval_t interval, MgmtAttr_t histo_mgmt=ATTRIB_MANAGED, const std::string &chain="", const std::string &merge="")
	Registers a TGraph to be included in the output stream using logical parameters that describe the graph. More...
virtual StatusCode	regGraph (TGraph *g, const MonGroup &group)
	Registers a TGraph to be included in the output stream using logical parameters that describe the graph. More...
virtual StatusCode	regTree (TTree *t, const std::string &system, Interval_t interval, MgmtAttr_t histo_mgmt=ATTRIB_MANAGED, const std::string &chain="", const std::string &merge="")
	Registers a TTree to be included in the output stream using logical parameters that describe it. More...
virtual StatusCode	regTree (TTree *t, const MonGroup &group)
	Registers a TTree to be included in the output stream using logical parameters that describe it. More...
virtual StatusCode	deregHist (LWHist *h)
virtual StatusCode	deregHist (TH1 *h)
	De-registers a TH1 from the THistSvc, but does NOT delete the object. More...
virtual StatusCode	writeAndDelete (TH1 *h, const MonGroup &group)
	Write out histogram and delete it. More...
virtual StatusCode	deregGraph (TGraph *g)
	De-registers a TGraph from the THistSvc, but does NOT delete the object. More...
virtual StatusCode	deregObject (const std::string &objName, const std::string &system, Interval_t interval)
	De-registers a TObject from the THistSvc, but does NOT delete the object. More...
virtual StatusCode	deregObject (const std::string &objName, const MonGroup &group)
	De-registers a TObject from the THistSvc, but does NOT delete the object. More...
virtual StatusCode	setupOutputStreams (std::vector< std::string > Mapping=std::vector< std::string >())
	This implementation does nothing—streams in this class should be managed by the AthenaMonManager. More...
virtual StatusCode	runStat ()
	This implementation does nothing; equivalent functionality may be provided by procHists( true, true, true ). More...
virtual StatusCode	checkHists (bool calledFromFinalize)
	This implementation does nothing; equivalent functionality may be provided by procHists(...) with appropriate arguments. More...
virtual bool	preSelector ()
virtual float	lbAverageInteractionsPerCrossing (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Average mu, i.e. More...
virtual float	lbInteractionsPerCrossing (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Instantaneous number of interactions, i.e. More...
virtual float	lbAverageLuminosity (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Average luminosity (in ub-1 s-1 => 10^30 cm-2 s-1) More...
virtual float	lbLuminosityPerBCID (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Instantaneous luminosity. More...
virtual double	lbDuration (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Luminosity block time (in seconds) More...
virtual float	lbAverageLivefraction (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Average luminosity livefraction. More...
virtual float	livefractionPerBCID (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Livefraction per bunch crossing ID. More...
virtual double	lbLumiWeight (const EventContext &ctx=Gaudi::Hive::currentContext()) const
	Average Integrated Luminosity Live Fraction. More...
	MMTB_DEPRECATED (newLowStatInterval)
	MMTB_DEPRECATED (newMedStatInterval)
	MMTB_DEPRECATED (newHigStatInterval)
	MMTB_DEPRECATED (newLowStat)
	MMTB_DEPRECATED (newLumiBlock)
	MMTB_DEPRECATED (newRun)
	MMTB_DEPRECATED (newEventsBlock)
	MMTB_DEPRECATED (endOfEventsBlock)
	MMTB_DEPRECATED (endOfLowStat)
	MMTB_DEPRECATED (endOfLumiBlock)
	MMTB_DEPRECATED (endOfRun)
ServiceHandle< StoreGateSvc > &	evtStore ()
	The standard StoreGateSvc (event store) Returns (kind of) a pointer to the StoreGateSvc. More...
const ServiceHandle< StoreGateSvc > &	evtStore () const
	The standard StoreGateSvc (event store) Returns (kind of) a pointer to the StoreGateSvc. More...
const ServiceHandle< StoreGateSvc > &	detStore () const
	The standard StoreGateSvc/DetectorStore Returns (kind of) a pointer to the StoreGateSvc. More...
virtual StatusCode	sysInitialize () override
	Perform system initialization for an algorithm. More...
virtual StatusCode	sysStart () override
	Handle START transition. More...
virtual std::vector< Gaudi::DataHandle * >	inputHandles () const override
	Return this algorithm's input handles. More...
virtual std::vector< Gaudi::DataHandle * >	outputHandles () const override
	Return this algorithm's output handles. More...
Gaudi::Details::PropertyBase &	declareProperty (Gaudi::Property< T > &t)
Gaudi::Details::PropertyBase *	declareProperty (const std::string &name, SG::VarHandleKey &hndl, const std::string &doc, const SG::VarHandleKeyType &)
	Declare a new Gaudi property. More...
Gaudi::Details::PropertyBase *	declareProperty (const std::string &name, SG::VarHandleBase &hndl, const std::string &doc, const SG::VarHandleType &)
	Declare a new Gaudi property. More...
Gaudi::Details::PropertyBase *	declareProperty (const std::string &name, SG::VarHandleKeyArray &hndArr, const std::string &doc, const SG::VarHandleKeyArrayType &)
Gaudi::Details::PropertyBase *	declareProperty (const std::string &name, T &property, const std::string &doc, const SG::NotHandleType &)
	Declare a new Gaudi property. More...
Gaudi::Details::PropertyBase *	declareProperty (const std::string &name, T &property, const std::string &doc="none")
	Declare a new Gaudi property. More...
void	updateVHKA (Gaudi::Details::PropertyBase &)
MsgStream &	msg () const
MsgStream &	msg (const MSG::Level lvl) const
bool	msgLvl (const MSG::Level lvl) const

Static Public Member Functions
static std::string	intervalEnumToString (Interval_t interval)
	Converts a LevelOfDetail_t to a string of the same name. More...
static Interval_t	intervalStringToEnum (const std::string &str)
	Converts a string to the corresponding Interval_t. More...
static const InterfaceID &	interfaceID ()

Protected Types
typedef std::map< std::string, OutputMetadata * >	MDMap_t

Protected Member Functions
StatusCode	regManagedHistograms (std::vector< MgmtParams< TH1 > > &templateHistograms)
StatusCode	regManagedGraphs (std::vector< MgmtParams< TGraph > > &templateGraphs)
StatusCode	regManagedTrees (std::vector< MgmtParams< TTree > > &templateTrees)
StatusCode	regManagedLWHistograms (std::vector< MgmtParams< LWHist > > &templateLWHistograms)
StatusCode	regManagedEfficiencies (std::vector< MgmtParams< TEfficiency > > &templateEfficiencies)
StatusCode	parseList (const std::string &, std::vector< std::string > &)
void	updateTriggersForGroups (std::vector< std::string > &)
StatusCode	registerMetadata (const std::string &streamName, const std::string &hName, const MonGroup &group)
StatusCode	THistSvc_deReg_fixTGraph (TFile *file, TGraph *theGraph, std::string &directoryName)
	Fixes THistSvc->deReg(obj) when obj is TGraph instance. More...
unsigned int	get_nEvents () const
long	get_procNEventsProp () const
virtual bool	trigChainsArePassed (std::vector< std::string > &)
virtual StreamNameFcn *	getNewStreamNameFcn () const
bool	newLowStatIntervalFlag () const
	Flag functions allowing clients to determine when to book new and process old histograms; values are updated by fillHists() based on counting lumiBlocks, and are correctly set when fillHistograms(), bookHistograms() and procHistograms() are called. More...
bool	newMedStatIntervalFlag () const
bool	newHigStatIntervalFlag () const
bool	newLowStatFlag () const
bool	newLumiBlockFlag () const
bool	newRunFlag () const
bool	newEventsBlockFlag () const
bool	endOfEventsBlockFlag () const
bool	endOfLowStatFlag () const
bool	endOfLumiBlockFlag () const
bool	endOfRunFlag () const
void	renounceArray (SG::VarHandleKeyArray &handlesArray)
	remove all handles from I/O resolution More...
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. More...

Protected Attributes
int	m_lb
bool	m_passBeamBackgroundRemoval
TH1I *	m_h_EvtRejSumm
std::map< Interval_t, std::vector< MgmtParams< TH1 > > >	m_templateHistograms
std::map< Interval_t, std::vector< MgmtParams< TGraph > > >	m_templateGraphs
std::map< Interval_t, std::vector< MgmtParams< TTree > > >	m_templateTrees
std::map< Interval_t, std::vector< MgmtParams< LWHist > > >	m_templateLWHistograms
std::map< Interval_t, std::vector< MgmtParams< TEfficiency > > >	m_templateEfficiencies
std::vector< std::string >	m_vTrigChainNames
std::vector< std::string >	m_vTrigGroupNames
MDMap_t	m_metadataMap
std::set< LWHist * >	m_lwhists
AthenaMonManager *	m_manager
std::string	m_managerNameProp
std::string	m_fileKey
std::string	m_dataTypeStr
std::string	m_environmentStr
unsigned int	m_detailLevel
AthenaMonManager::DataType_t	m_dataType
AthenaMonManager::Environment_t	m_environment
StreamNameFcn *	m_streamNameFcn
ServiceHandle< ITHistSvc >	m_THistSvc
PublicToolHandle< Trig::ITrigDecisionTool >	m_trigDecTool {this, "TrigDecisionTool",""}
PublicToolHandle< ITriggerTranslatorTool >	m_trigTranslator {this,"TriggerTranslatorTool",""}
ToolHandleArray< IDQFilterTool >	m_DQFilterTools {this,"FilterTools",{}}
long	m_procNEventsProp
std::string	m_path
long	m_preScaleProp
std::string	m_triggerChainProp
std::string	m_triggerGroupProp
bool	m_useTrigger
unsigned int	m_lastLumiBlock
unsigned int	m_lastRun
int	m_lastLowStatInterval
int	m_lastMedStatInterval
int	m_lastHigStatInterval
unsigned int	m_nEvents
unsigned int	m_nEventsIgnoreTrigger
unsigned int	m_nLumiBlocks
bool	m_haveClearedLastEventBlock

Private Types
enum	EthreshLvl {   LOW_E = 0, LOWMED_E = 1, MED_E = 2, MEDHIGH_E = 3,   HIGH_E = 4, MAX_E = 5 }
enum	DetRegion { REGION1 = 0, REGION2 = 1, REGION3 = 2, MAX_REGION = 3 }
typedef ServiceHandle< StoreGateSvc >	StoreGateSvc_t

Private Member Functions
void	initHists ()
StatusCode	retrieveTools ()
bool	checkTimeGran (bool isNewEventsBlock, bool isNewLumiBlock, bool isNewRun, Interval_t &theinterval)
void	bookCellHists (const Interval_t theinterval)
void	bookClusterHists (const Interval_t theinterval)
void	bookClusterStatHists (const Interval_t theinterval)
void	fillTileHistRange ()
void	bookTileHists (const Interval_t theinterval)
void	initCounter ()
void	fillCellHist (const xAOD::CaloCluster *clus)
void	fillClusterEMvar (const xAOD::CaloCluster *clus)
void	fillClusterStat (const xAOD::CaloCluster *clus)
void	fillClusterHist (const xAOD::CaloCluster *clus)
void	fillClusterStatHist (const xAOD::CaloClusterContainer *clusterCont)
void	fillTileHist (const xAOD::CaloClusterContainer *clusterCont)
Gaudi::Details::PropertyBase &	declareGaudiProperty (Gaudi::Property< T > &hndl, const SG::VarHandleKeyType &)
	specialization for handling Gaudi::Property<SG::VarHandleKey> More...
Gaudi::Details::PropertyBase &	declareGaudiProperty (Gaudi::Property< T > &hndl, const SG::VarHandleKeyArrayType &)
	specialization for handling Gaudi::Property<SG::VarHandleKeyArray> More...
Gaudi::Details::PropertyBase &	declareGaudiProperty (Gaudi::Property< T > &hndl, const SG::VarHandleType &)
	specialization for handling Gaudi::Property<SG::VarHandleBase> More...
Gaudi::Details::PropertyBase &	declareGaudiProperty (Gaudi::Property< T > &t, const SG::NotHandleType &)
	specialization for handling everything that's not a Gaudi::Property<SG::VarHandleKey> or a <SG::VarHandleKeyArray> More...

Private Attributes
SG::ReadHandleKey< xAOD::CaloClusterContainer >	m_clusterContainerName { this, "CaloClusterContainer", "CaloCalTopoClusters" }
std::string	m_timeGran
float	m_Ethresh [MAX_E]
float	m_etaMin [MAX_REGION]
float	m_tWidth
float	m_Threshold
std::vector< float >	m_binRangeE
std::vector< float >	m_binRangeEta
std::vector< float >	m_binRangePhi
std::vector< float >	m_binRangeEtaPhi
const CaloIdManager *	m_caloMgr
const CaloCell_ID *	m_caloCellHelper
int	m_eventsCounter = 0
int	m_cluscount
int	m_cluscount_top
int	m_cluscount_bot
int	m_maxclusindex_top
int	m_maxclusindex_bot
float	m_maxclusene_top
float	m_maxclusene_bot
double	m_EMenergy
double	m_EMenergy_abs
double	m_EMet
double	m_EMeta
double	m_EMphi
TH1I *	m_nCells = nullptr
TH1F *	m_maxEcellToEclusterRatio = nullptr
TH2F *	m_dominantCellOccupancy_etaphi = nullptr
TProfile2D *	m_dominantCellAverageEnergy_etaphi = nullptr
TProfile2D *	m_nCellInCluster_etaphi = nullptr
TH2F *	m_clusterTimeVsEnergy = nullptr
TH1F *	m_clusterTime = nullptr
TH1F *	m_cellTime = nullptr
TH2F *	m_cellvsclust_time = nullptr
TH2F *	m_clus_etaphi_Et_thresh [MAX_E]
TProfile2D *	m_etaphi_thresh_avgEt [MAX_E]
TH1F *	m_clus_eta [MAX_E]
TH1F *	m_clus_phi [MAX_E][3]
TH1F *	m_clus_eta_Et [MAX_E]
TH1F *	m_clus_phi_Et [MAX_E][3]
TH2F *	m_etaVsPhi [MAX_E]
TProfile2D *	m_etaphi_thresh_avgenergy [MAX_E]
TH2F *	m_etaphi_thresh_Totalenergy [MAX_E]
TH2F *	m_etaVsPhiNegEn = nullptr
TProfile2D *	m_averageNegativeEnergy_etaphi = nullptr
TProfile *	m_averageEnergy_phi = nullptr
TProfile *	m_averageEnergy_eta = nullptr
TH1F *	m_clusterEnergyVsEta_barrel = nullptr
TH1F *	m_clusterEnergyVsEta_endcap = nullptr
TH1F *	m_clusterEnergyVsEta_hecfcal = nullptr
TH1F *	m_clusterEtVsEta_barrel = nullptr
TH1F *	m_clusterEtVsEta_endcap = nullptr
TH1F *	m_clusterEtVsEta_hecfcal = nullptr
TProfile2D *	m_averageEtOver500_etaphi = nullptr
TH1I *	m_nClusters = nullptr
TH2I *	m_nClustersBottomVsTop = nullptr
TProfile2D *	m_averageEnergy_etaphi_maxEclusters = nullptr
TH2F *	m_dEtaVsdPhi_maxEclustersTopVsBottom = nullptr
TProfile *	m_clustersCellsRatioEta = nullptr
TProfile *	m_clustersCellsRatioPhi = nullptr
TProfile *	m_clustersCellsRatioE = nullptr
TH1F *	m_clustersE = nullptr
TProfile *	m_clustersEta = nullptr
TProfile *	m_clustersPhi = nullptr
TH2F *	m_clustersEtaPhi = nullptr
TProfile *	m_clustersCellsE = nullptr
TProfile *	m_clustersCellsEta = nullptr
TProfile *	m_clustersCellsPhi = nullptr
bool	m_useBadLBTool
ToolHandle< IDQFilterTool >	m_BadLBTool
bool	m_useReadyFilterTool
ToolHandle< IDQFilterTool >	m_ReadyFilterTool
bool	m_useLArNoisyAlg
bool	m_useCollisionFilterTool
bool	m_useBeamBackgroundRemoval
SG::ReadHandleKey< xAOD::EventInfo >	m_EventInfoKey {this, "EventInfoKey", "EventInfo"}
SG::ReadHandleKey< LArCollisionTime >	m_LArCollisionTimeKey {this, "LArCollisionTimeKey", "LArCollisionTime"}
SG::ReadHandleKey< BeamBackgroundData >	m_beamBackgroundKey {this, "BeamBackgroundKey", "CSCBackgroundForCaloMon"}
bool	m_newLowStatInterval
bool	m_newMedStatInterval
bool	m_newHigStatInterval
bool	m_newLowStat
bool	m_newLumiBlock
bool	m_newRun
bool	m_newEventsBlock
bool	m_endOfEventsBlock
bool	m_endOfLowStat
bool	m_endOfLumiBlock
bool	m_endOfRun
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"}
bool	m_bookHistogramsInitial
bool	m_useLumi
float	m_defaultLBDuration
std::set< Interval_t >	m_supportedIntervalsForRebooking
Imp *	m_d
StoreGateSvc_t	m_evtStore
	Pointer to StoreGate (event store by default) More...
StoreGateSvc_t	m_detStore
	Pointer to StoreGate (detector store by default) More...
std::vector< SG::VarHandleKeyArray * >	m_vhka
bool	m_varHandleArraysDeclared

Detailed Description

Definition at line 43 of file CaloClusterVecMon.h.

Member Typedef Documentation

MDMap_t

typedef std::map<std::string,OutputMetadata*> ManagedMonitorToolBase::MDMap_t

protectedinherited

Definition at line 888 of file ManagedMonitorToolBase.h.

StoreGateSvc_t

typedef ServiceHandle<StoreGateSvc> AthCommonDataStore< AthCommonMsg< AlgTool > >::StoreGateSvc_t

privateinherited

Definition at line 388 of file AthCommonDataStore.h.

Member Enumeration Documentation

DetRegion

enum CaloClusterVecMon::DetRegion

private

Enumerator
REGION1
REGION2
REGION3
MAX_REGION

Definition at line 85 of file CaloClusterVecMon.h.

                  {
     REGION1 = 0, // LAr or Tile
     REGION2 = 1,
     REGION3 = 2,
     MAX_REGION = 3
   };

EthreshLvl

enum CaloClusterVecMon::EthreshLvl

private

Enumerator
LOW_E
LOWMED_E
MED_E
MEDHIGH_E
HIGH_E
MAX_E

Definition at line 76 of file CaloClusterVecMon.h.

                   {        // energy threshold levels for histos
      LOW_E = 0,
      LOWMED_E = 1,
      MED_E = 2,
      MEDHIGH_E = 3,
      HIGH_E = 4,
      MAX_E = 5
   };

Interval_t

enum ManagedMonitorToolBase::Interval_t

inherited

An enumeration describing how detailed a particular monitoring object is.

summary: used to summarize the state of the system

runstat: same as summary

shift: used to flag potential problems

expert: essential for diagnosing problems identified by shift-level objects

debug: useful for standalone debugging, but not for routine monitoring; not essential for diagnosing problems during normal running

transient: too detailed to ever be written; always summarized by the user by means of another object An enumeration describing the interval over which a particular monitoring object is filled (i.e., interval over which the method Fill(...) is called). This information may be stored with the monitoring object if an application is only able to partially fill the object (i.e., a job sees only part of a run or fill). This information may be ignored in some running Environments. The 'fill' interval corresponds to a fill of the LHC. The 'all' interval corresponds to all available data. The 'lumiBlock' and 'fill' intervals are only valid for the 'collisions' DataType_t.

Enumerator
file
eventsBlock
lumiBlock
lowStat
medStat
higStat
run
fill
all

Definition at line 114 of file ManagedMonitorToolBase.h.

                      { file = 0, eventsBlock, lumiBlock,
         lowStat, medStat, higStat,
         run, fill, all };

MgmtAttr_t

enum ManagedMonitorToolBase::MgmtAttr_t

inherited

An enumeration describing how the class handles the histogram.

attrib_unmanaged: histograms with this attribute will not be rebooked automatically and must be managed by the user code.

attrib_x_is_lb: indicates that the x-axis of the histogram is the luminosity block number and that the histogram should be rebooked as necessary if the current LB exceeds the range.

Enumerator
ATTRIB_MANAGED
ATTRIB_UNMANAGED
ATTRIB_X_VS_LB

Definition at line 131 of file ManagedMonitorToolBase.h.

{ ATTRIB_MANAGED = 0, ATTRIB_UNMANAGED = 1, ATTRIB_X_VS_LB = 2};

Constructor & Destructor Documentation

CaloClusterVecMon()

CaloClusterVecMon::CaloClusterVecMon	(	const std::string &	type,
		const std::string &	name,
		const IInterface *	parent
	)

Definition at line 50 of file CaloClusterVecMon.cxx.

                                                                                                           :
  CaloMonToolBase(type, name, parent),
  m_caloMgr(nullptr),
  m_caloCellHelper(nullptr),
  m_cluscount(0),
  m_cluscount_top(0),
  m_cluscount_bot(0),
  m_maxclusindex_top(0),
  m_maxclusindex_bot(0),
  m_maxclusene_top(0),
  m_maxclusene_bot(0),
  m_EMenergy(0),
  m_EMenergy_abs(0),
  m_EMet(0),
  m_EMeta(0),
  m_EMphi(0)
{
  declareInterface<IMonitorToolBase>(this);
 
  declareProperty("TimeGran",m_timeGran="lowStat");
 
  declareProperty("lowEthresh", m_Ethresh[LOW_E]=0.0);
  declareProperty("lowmedEthresh", m_Ethresh[LOWMED_E]=5.0);
  declareProperty("medEthresh", m_Ethresh[MED_E]=10.0);
  declareProperty("medhiEthresh", m_Ethresh[MEDHIGH_E]=15.0);
  declareProperty("hiEthresh", m_Ethresh[HIGH_E]=20.0);
 
  declareProperty("etaMin1", m_etaMin[REGION1]=0.0);
  declareProperty("etaMin2", m_etaMin[REGION2]=1.4);
  declareProperty("etaMin3", m_etaMin[REGION3]=2.0);
  declareProperty("timeWindowWidth",m_tWidth=0.5);
 
  declareProperty("energyThreshold",m_Threshold=300.); //Threshold in MeV
  // histogram bins
  declareProperty("binsClustersE", m_binRangeE);
  declareProperty("binsClustersEta", m_binRangeEta);
  declareProperty("binsClustersPhi", m_binRangePhi);
  declareProperty("binsClustersEtaPhi", m_binRangeEtaPhi);
 
  initHists(); 
}

~CaloClusterVecMon()

CaloClusterVecMon::~CaloClusterVecMon ( )

virtualdefault

Member Function Documentation

bookBaseHists()

StatusCode CaloMonToolBase::bookBaseHists ( MonGroup *  group )

virtualinherited

Definition at line 66 of file CaloMonToolBase.cxx.

                                                         {
  m_h_EvtRejSumm  = new TH1I("nEvtsRejectByDifferentTool","Total Events: bin 1, ATLAS Ready: 2, && Good LAr LB: 3, && No LAr collision: 4, && No Beam Background: 5, && No Trigger Filer: 6, && No LArError: 7 ",7,1.,8.);
  m_h_EvtRejSumm->GetYaxis()->SetTitle("RejectedEvents");
 
  const std::array<const char*,7> binLabels={{"TotalEvents","ATLAS Ready","with Good LAr LB","with No LAr Collision","with No Beam Background", "with No Trigger Filter","with No LArError"}};
 
  for (unsigned i=0;i<binLabels.size();++i) {
    m_h_EvtRejSumm->GetXaxis()->SetBinLabel(i+1,binLabels[i]);
  }
  if (!m_useReadyFilterTool){
    m_h_EvtRejSumm->GetXaxis()->SetBinLabel(2,"ATLAS Ready-OFF");
  }
  if (!m_useBadLBTool){
    m_h_EvtRejSumm->GetXaxis()->SetBinLabel(3,"Good LAr LB-OFF");
  }
  if (!m_useCollisionFilterTool){
    m_h_EvtRejSumm->GetXaxis()->SetBinLabel(4,"LAr collision-OFF");
  }
  if (!m_useBeamBackgroundRemoval){
    m_h_EvtRejSumm->GetXaxis()->SetBinLabel(5,"Beam backgr.-OFF");
  }
  if (!m_useLArNoisyAlg){
    m_h_EvtRejSumm->GetXaxis()->SetBinLabel(7,"LAr Error Veto-OFF");
  }
 
  return group->regHist( m_h_EvtRejSumm );
}

bookCellHists()

void CaloClusterVecMon::bookCellHists ( const Interval_t  theinterval )

private

Definition at line 283 of file CaloClusterVecMon.cxx.

                                                                 {
    std::string TheTrigger;
    if (m_triggerChainProp.empty())  TheTrigger="NoTrigSel";
    else TheTrigger = m_triggerChainProp;
 
    MonGroup  cluster_expert  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/General", theinterval);                
    MonGroup  cluster_energytime_expert  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/Time_Energy", theinterval);
    MonGroup  cluster_leadcell_expert  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/LeadCell", theinterval);      
 
    if (  m_clusterContainerName.key() == "LArMuClusterCandidates" ) {
      m_nCells = new TH1I("NCells","NCellsinCluster",20,0.,20.);
    }else {
      m_nCells = new TH1I("NCells","NCellsinCluster",200,0.,200.);
    }
    cluster_expert.regHist( m_nCells).ignore();
    m_nCells->GetXaxis()->SetTitle("Number of Cells in Cluster");
 
    m_maxEcellToEclusterRatio = new TH1F("ratioE_leadcell_clus","Ratio(E_lead_cell/E_cluster)",500,-2.1,2.1);
    cluster_leadcell_expert.regHist(  m_maxEcellToEclusterRatio ).ignore();
    m_maxEcellToEclusterRatio->GetXaxis()->SetTitle("Ratio(E_lead_cell/E_cluster)");
 
    m_dominantCellOccupancy_etaphi = new TH2F("etaphi_hotrat","Occupancy of Clusters with E_cell/E_cluster > 0.9 &E_cluster>0 GeV",98,-4.9,4.9,64,-3.15,3.15);
    cluster_leadcell_expert.regHist(  m_dominantCellOccupancy_etaphi ).ignore();
    m_dominantCellOccupancy_etaphi->GetXaxis()->SetTitle("#eta");
    m_dominantCellOccupancy_etaphi->GetYaxis()->SetTitle("#phi");
    m_dominantCellOccupancy_etaphi->GetZaxis()->SetLabelSize(0.02);
 
    m_dominantCellAverageEnergy_etaphi  = new TProfile2D("etaphi_avgenergy_hotrat","Average energy of cells with E_cell/E_cluster > 0.9 & E_Cluster > 0 GeV",98,-4.9,4.9,64,-3.15,3.15);
    cluster_leadcell_expert.regHist(  m_dominantCellAverageEnergy_etaphi ).ignore();
    m_dominantCellAverageEnergy_etaphi->GetXaxis()->SetTitle("#eta");
    m_dominantCellAverageEnergy_etaphi->GetYaxis()->SetTitle("#phi");
    m_dominantCellAverageEnergy_etaphi->GetZaxis()->SetLabelSize(0.02);
 
    m_nCellInCluster_etaphi  = new TProfile2D("etaphi_ncellinclus","Average number of cells in Clusters",98,-4.9,4.9,64,-3.15,3.15);
    cluster_expert.regHist(  m_nCellInCluster_etaphi ).ignore();
    m_nCellInCluster_etaphi->GetXaxis()->SetTitle("#eta");
    m_nCellInCluster_etaphi->GetYaxis()->SetTitle("#phi");    
 
    if(m_dataType ==  AthenaMonManager::cosmics ){
      m_clusterTime = new TH1F("m_clus_time","Time of Cluster",32,-m_tWidth/2.0,m_tWidth/2.0);
      cluster_energytime_expert.regHist( m_clusterTime).ignore();
      m_clusterTime->GetXaxis()->SetTitle("Time (ns)");
 
      m_clusterTimeVsEnergy = new TH2F("m_clus_timevsenergy","Time of Cluster vs Energy",32,-m_tWidth/2.0,m_tWidth/2.0,500,-500,500);
      cluster_energytime_expert.regHist( m_clusterTimeVsEnergy).ignore();
      m_clusterTimeVsEnergy->GetXaxis()->SetTitle("Time (ns)");
      m_clusterTimeVsEnergy->GetYaxis()->SetTitle("Energy (MeV)");
 
      m_cellTime = new TH1F("m_cell_time","Time of leading cell in Cluster",32,-m_tWidth/2.0,m_tWidth/2.0);
      cluster_expert.regHist( m_cellTime).ignore();
      m_cellTime->GetXaxis()->SetTitle("Time (ns)");
 
      m_cellvsclust_time = new TH2F("m_cellvsclust_time","Time of leading cell in Cluster vs Cluster time",32,-m_tWidth/2.0,m_tWidth/2.0, 32,-m_tWidth/2.0,m_tWidth/2.0);
      cluster_expert.regHist( m_cellvsclust_time).ignore();
      m_cellvsclust_time->GetXaxis()->SetTitle("Cell time (ns)");
      m_cellvsclust_time->GetYaxis()->SetTitle("Cluster time (ns)");
 
    } else {
      m_clusterTime = new TH1F("m_clus_time","Time of Cluster",32,-15,15);
      cluster_energytime_expert.regHist( m_clusterTime).ignore();
      m_clusterTime->GetXaxis()->SetTitle("Time (ns)");
 
      m_clusterTimeVsEnergy = new TH2F("m_clus_timevsenergy","Time of Cluster vs Energy",32,-15,15,500,-100,500);
      cluster_energytime_expert.regHist( m_clusterTimeVsEnergy).ignore();
      m_clusterTimeVsEnergy->GetXaxis()->SetTitle("Time (ns)");
      m_clusterTimeVsEnergy->GetYaxis()->SetTitle("Energy (GeV)");
 
      m_cellTime = new TH1F("m_cell_time","Time of leading cell in Cluster",32,-15,15);
      cluster_expert.regHist( m_cellTime).ignore();
      m_cellTime->GetXaxis()->SetTitle("Time (ns)");
 
      m_cellvsclust_time = new TH2F("m_cellvsclust_time","Time of leading cell in Cluster vs Cluster time",32,-15,15,32,-15,15);
      cluster_expert.regHist( m_cellvsclust_time).ignore();
      m_cellvsclust_time->GetXaxis()->SetTitle("Cell time (ns)");
      m_cellvsclust_time->GetYaxis()->SetTitle("Cluster time (ns)");
    }
}

bookClusterHists()

void CaloClusterVecMon::bookClusterHists ( const Interval_t  theinterval )

private

Definition at line 362 of file CaloClusterVecMon.cxx.

                                                                    {
    std::string TheTrigger;
    if (m_triggerChainProp.empty())  TheTrigger="NoTrigSel";
    else TheTrigger = m_triggerChainProp;
 
    MonGroup  cluster_1drates_expert  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/1d_Rates", theinterval);
    MonGroup  cluster_2drates_expert  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/2d_Rates", theinterval);
    MonGroup  cluster_2drates_shift ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/2d_Rates", theinterval);
    MonGroup  cluster_2davge_expert  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/2d_AvEnergy", theinterval);     
    MonGroup  cluster_2davge_shift  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/2d_AvEnergy", theinterval);       
    MonGroup  cluster_1davge_expert  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/1d_AvEnergy", theinterval);     
    MonGroup  cluster_2davgEt_expert  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/TransEnergy", theinterval);    
    MonGroup  cluster_2dTotale_expert  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/TotalEnergy", theinterval);   
    MonGroup  cluster_energytime_expert  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/Time_Energy", theinterval);
    MonGroup  cluster_SummaryGroup_expert ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/Summary", theinterval); 
    
    bookBaseHists(&cluster_SummaryGroup_expert).ignore(); //from base class
 
    for (int i=0; i<MAX_E; i++) { //loop over thresholds
      char bname[256];
      char btitle[256];
 
      sprintf(btitle, "Occupancy of clusters with  Et_clus>%4.1f GeV", m_Ethresh[i]);
      sprintf(bname, "m_clus_etaphi_Et_thresh%d", i);
      m_clus_etaphi_Et_thresh[i] = new TH2F(bname,btitle,98,-4.9,4.9,64,-3.15,3.15);
      cluster_2drates_expert.regHist(m_clus_etaphi_Et_thresh[i]).ignore();
      m_clus_etaphi_Et_thresh[i]->GetXaxis()->SetTitle("#eta");
      m_clus_etaphi_Et_thresh[i]->GetYaxis()->SetTitle("#phi");
 
      sprintf(btitle, "Avg Et of clusters with Et_clus>%4.1f GeV", m_Ethresh[i]);
      sprintf(bname, "etaphi_thresh_avgEt_%d", i);
      m_etaphi_thresh_avgEt[i] = new TProfile2D(bname, btitle ,98,-4.9,4.9,64,-3.15,3.15);
      cluster_2davgEt_expert.regHist(  m_etaphi_thresh_avgEt[i] ).ignore();
      m_etaphi_thresh_avgEt[i]->GetXaxis()->SetTitle("#eta");
      m_etaphi_thresh_avgEt[i]->GetYaxis()->SetTitle("#phi");
 
// DEPRECATED -- LS 21 March 2016      
//      sprintf(btitle, "Occupancy of EMclusters with  Et_clus>%4.1f GeV", m_Ethresh[i]);
//      sprintf(bname, "m_EMclus_etaphi_Et_thresh%d", i);
//      m_EMclus_etaphi_Et_thresh[i] = new TH2F(bname,btitle,98,-4.9,4.9,64,-3.15,3.15);
//      cluster_2drates_expert.regHist(m_EMclus_etaphi_Et_thresh[i]).ignore();
//      m_EMclus_etaphi_Et_thresh[i]->GetXaxis()->SetTitle("#eta");
//      m_EMclus_etaphi_Et_thresh[i]->GetYaxis()->SetTitle("#phi");
//
//      sprintf(btitle, "Occupancy of EMclusters with  E_clus>%4.1f GeV", m_Ethresh[i]);
//      sprintf(bname, "m_EMclus_EtavsPhi%d", i);
//      m_EMclus_etaVsPhi[i] = new TH2F(bname,btitle,98,-4.9,4.9,64,-3.15,3.15);
//      if(i==0 || i==2) cluster_2drates_shift.regHist(m_EMclus_etaVsPhi[i]).ignore();
//      else cluster_2drates_expert.regHist(m_EMclus_etaVsPhi[i]).ignore();
//      m_EMclus_etaVsPhi[i]->GetXaxis()->SetTitle("#eta");
//      m_EMclus_etaVsPhi[i]->GetYaxis()->SetTitle("#phi");
      
 
      sprintf(btitle, "Occupancy of Clusters with E-Clus>%4.1f GeV", m_Ethresh[i]);
      sprintf(bname, "m_clus_eta%d", i);
      m_clus_eta[i] = new TH1F(bname,btitle,64,-5.0,5.0);
      cluster_1drates_expert.regHist( m_clus_eta[i] ).ignore();
      m_clus_eta[i]->GetXaxis()->SetTitle("#eta");
      
      // km add 
      sprintf(btitle, "Occupancy of Clusters with Et-Clus>%4.1f GeV", m_Ethresh[i]);
      sprintf(bname, "m_clus_eta_Et%d", i);
      m_clus_eta_Et[i] = new TH1F(bname,btitle,64,-5.0,5.0);
      cluster_1drates_expert.regHist( m_clus_eta_Et[i]).ignore();
      m_clus_eta_Et[i]->GetXaxis()->SetTitle("#eta");
 
      for (int j=0; j<3;j++){ //loop over regions
        switch(j){
        case 0:
          sprintf(btitle, "Occupancy of Barrel Clusters Vs Phi E_Clus>%4.1f GeV ", m_Ethresh[i]);
          sprintf(bname, "m_clus_phi%dBarrel", i);
          break;
        case 1:
          sprintf(btitle, "Occupancy of EndCapA Clusters Vs Phi with E_clus>%4.1f GeV ", m_Ethresh[i]);
          sprintf(bname, "m_clus_phi%dEndcapA", i);
          break;
        case 2:
          sprintf(btitle, "Occupancy of EndCapC clusters Vs phi with E_clus>%4.1f GeV Endcap C", m_Ethresh[i]);
          sprintf(bname, "m_clus_phi%dEndcapC", i);
          break;
        }
        m_clus_phi[i][j] =  new TH1F(bname,btitle,64,-3.15,3.15);
        cluster_1drates_expert.regHist( m_clus_phi[i][j] ).ignore();
        m_clus_phi[i][j]->GetXaxis()->SetTitle("#phi");
        m_clus_phi[i][j]->GetYaxis()->SetMoreLogLabels();
        m_clus_phi[i][j]->GetZaxis()->SetMoreLogLabels();
      }      
 
      // km add
    
       for (int j=0; j<3;j++){ //loop over regions
        switch(j){
        case 0:
          sprintf(btitle, "Occupancy of Barrel Clusters Vs Phi Et_Clus>%4.1f GeV ", m_Ethresh[i]);
          sprintf(bname, "m_clus_phi_Et%dBarrel", i);
          break;
        case 1:
          sprintf(btitle, "Occupancy of EndCapA Clusters Vs Phi with Et_clus>%4.1f GeV ", m_Ethresh[i]);
          sprintf(bname, "m_clus_phi_Et%dEndcapA", i);
          break;
        case 2:
          sprintf(btitle, "Occupancy of EndCapC clusters Vs phi with Et_clus>%4.1f GeV Endcap C", m_Ethresh[i]);
          sprintf(bname, "m_clus_phi_Et%dEndcapC", i);
          break;
        }
        m_clus_phi_Et[i][j] =  new TH1F(bname,btitle,64,-3.15,3.15);
        cluster_1drates_expert.regHist( m_clus_phi_Et[i][j] ).ignore();
        m_clus_phi_Et[i][j]->GetXaxis()->SetTitle("#phi");
        m_clus_phi_Et[i][j]->GetYaxis()->SetMoreLogLabels();
        m_clus_phi_Et[i][j]->GetZaxis()->SetMoreLogLabels();
      }      
      
 
      sprintf(btitle, "Occupancy of clusters with  E_clus>%4.1f GeV", m_Ethresh[i]);
      sprintf(bname, "m_EtavsPhi%d", i);
      m_etaVsPhi[i] = new TH2F(bname,btitle,98,-4.9,4.9,64,-3.15,3.15);
      if(i==0 || i==2) cluster_2drates_shift.regHist(m_etaVsPhi[i]).ignore();
      else cluster_2drates_expert.regHist(m_etaVsPhi[i]).ignore();
      m_etaVsPhi[i]->GetXaxis()->SetTitle("#eta");
      m_etaVsPhi[i]->GetYaxis()->SetTitle("#phi");
      m_etaVsPhi[i]->GetZaxis()->SetMoreLogLabels();  // km add
 
      sprintf(btitle, "Avg energy of clusters with E_clus>%4.1f GeV", m_Ethresh[i]);
      sprintf(bname, "etaphi_thresh_avgenergy_%d", i);
      m_etaphi_thresh_avgenergy[i] = new TProfile2D(bname, btitle ,98,-4.9,4.9,64,-3.15,3.15);
      if(i==0 || i==2) cluster_2davge_shift.regHist(  m_etaphi_thresh_avgenergy[i] ).ignore();
      else cluster_2davge_expert.regHist(  m_etaphi_thresh_avgenergy[i] ).ignore();
      m_etaphi_thresh_avgenergy[i]->GetXaxis()->SetTitle("#eta");
      m_etaphi_thresh_avgenergy[i]->GetYaxis()->SetTitle("#phi");
      m_etaphi_thresh_avgenergy[i]->GetZaxis()->SetMoreLogLabels();
 
      sprintf(btitle, "Total energy of clusters with E_clus>%4.1f GeV", m_Ethresh[i]);
      sprintf(bname, "etaphi_thresh_Totalenergy_%d", i);
      m_etaphi_thresh_Totalenergy[i] = new TH2F(bname, btitle ,98,-4.9,4.9,64,-3.15,3.15);
      cluster_2dTotale_expert.regHist(  m_etaphi_thresh_Totalenergy[i] ).ignore();
      m_etaphi_thresh_Totalenergy[i]->GetXaxis()->SetTitle("#eta");
    }
 
    m_etaVsPhiNegEn = new TH2F("m_EtavsPhiNegEn","Occupancy of cluster with  E_Clus < 0.0 GeV",98,-4.9,4.9,64,-3.15,3.15);
    cluster_2drates_expert.regHist(m_etaVsPhiNegEn).ignore();
    m_etaVsPhiNegEn ->GetXaxis()->SetTitle("#eta");
 
    m_averageNegativeEnergy_etaphi  = new TProfile2D("etaphi_avgnegenergy","Average energy of negative energy clusters",98,-4.9,4.9,64,-3.15,3.15);
    cluster_2davge_expert.regHist(  m_averageNegativeEnergy_etaphi ).ignore();
    m_averageNegativeEnergy_etaphi->GetXaxis()->SetTitle("#eta");
    m_averageNegativeEnergy_etaphi->GetYaxis()->SetTitle("#phi");    
 
    m_averageEnergy_phi  = new TProfile("phi_avgenergy","Avg energy of clusters Vs #phi",64,-3.15,3.15);
    cluster_1davge_expert.regHist(  m_averageEnergy_phi ).ignore();
    m_averageEnergy_phi->GetXaxis()->SetTitle("#phi");
    m_averageEnergy_phi->GetYaxis()->SetTitle("Energy (GeV)");
 
    m_averageEnergy_eta  = new TProfile("eta_avgenergy","Avg energy of cluster Vs #eta",98,-4.9,4.9);
    cluster_1davge_expert.regHist(  m_averageEnergy_eta ).ignore();
    m_averageEnergy_eta->GetXaxis()->SetTitle("#eta");
    m_averageEnergy_eta->GetYaxis()->SetTitle("Energy (GeV)");    
 
    if (m_dataType ==  AthenaMonManager::cosmics ){
      m_clusterEnergyVsEta_barrel = new TH1F("energy_clus_barrel","Energy of Clusters for 0<|eta|<1.4",500,-500,800);
      cluster_energytime_expert.regHist(  m_clusterEnergyVsEta_barrel ).ignore();
      m_clusterEnergyVsEta_barrel->GetXaxis()->SetTitle("Energy (MeV)");
 
      m_clusterEnergyVsEta_endcap = new TH1F("energy_clus_endcap","Energy of Clusters for 1.4<|eta|<2.0",500,-500,2000);
      cluster_energytime_expert.regHist(  m_clusterEnergyVsEta_endcap ).ignore();
      m_clusterEnergyVsEta_endcap->GetXaxis()->SetTitle("Energy (MeV)");
 
      m_clusterEnergyVsEta_hecfcal = new TH1F("energy_clus_hecfcal","Energy of Clusters for |eta|>2.0",500,-2000,2000);
      cluster_energytime_expert.regHist(  m_clusterEnergyVsEta_hecfcal ).ignore();
      m_clusterEnergyVsEta_hecfcal->GetXaxis()->SetTitle("Energy (MeV)");
    } else {
      m_clusterEnergyVsEta_barrel = new TH1F("energy_clus_barrel","Energy of Clusters for 0<eta<1.4",500,-100,500);
      cluster_energytime_expert.regHist(  m_clusterEnergyVsEta_barrel ).ignore();
      m_clusterEnergyVsEta_barrel->GetXaxis()->SetTitle("Energy (GeV)");
 
      m_clusterEnergyVsEta_endcap = new TH1F("energy_clus_endcap","Energy of Clusters for 1.4<eta<2.0",500,-100,500);
      cluster_energytime_expert.regHist(  m_clusterEnergyVsEta_endcap ).ignore();
      m_clusterEnergyVsEta_endcap->GetXaxis()->SetTitle("Energy (GeV)");
 
      m_clusterEnergyVsEta_hecfcal = new TH1F("energy_clus_hecfcal","Energy of Clusters for |eta|>2.0",500,-100,500);
      cluster_energytime_expert.regHist(  m_clusterEnergyVsEta_hecfcal ).ignore();
      m_clusterEnergyVsEta_hecfcal->GetXaxis()->SetTitle("Energy (GeV)");
 
      m_clusterEtVsEta_barrel = new TH1F("et_clus_barrel","Et of Clusters for 0<|eta|<1.4",500,-100,500);
      cluster_energytime_expert.regHist(  m_clusterEtVsEta_barrel ).ignore();
      m_clusterEtVsEta_barrel->GetXaxis()->SetTitle("Et (GeV)");
 
      m_clusterEtVsEta_endcap = new TH1F("et_clus_endcap","Et of Clusters for 1.4<|eta|<2.0",500,-100,500);
      cluster_energytime_expert.regHist(  m_clusterEtVsEta_endcap ).ignore();
      m_clusterEtVsEta_endcap->GetXaxis()->SetTitle("Et (GeV)");
 
      m_clusterEtVsEta_hecfcal = new TH1F("et_clus_hecfcal","Et of Clusters for |eta|>2.0",500,-100,500);
      cluster_energytime_expert.regHist(  m_clusterEtVsEta_hecfcal ).ignore();
      m_clusterEtVsEta_hecfcal->GetXaxis()->SetTitle("Energy (GeV)");
 
      m_averageEtOver500_etaphi  = new TProfile2D("Max500_etaphi_avget","Avg Et of cluster with Et > 500 GeV" ,98,-4.9,4.9,64,-3.15,3.15);
      cluster_2davge_expert.regHist(  m_averageEtOver500_etaphi ).ignore();
      m_averageEtOver500_etaphi->GetXaxis()->SetTitle("#eta");
      m_averageEtOver500_etaphi->GetYaxis()->SetTitle("#phi");
    }
} 

bookClusterStatHists()

void CaloClusterVecMon::bookClusterStatHists ( const Interval_t  theinterval )

private

Definition at line 564 of file CaloClusterVecMon.cxx.

                                                                        {
    std::string TheTrigger;
    if (m_triggerChainProp.empty())  TheTrigger="NoTrigSel";
    else TheTrigger = m_triggerChainProp;
 
    MonGroup  cluster_2davgEt_expert  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/TransEnergy", theinterval);   
    MonGroup  cluster_expert  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/General", theinterval);                
    MonGroup  cluster_2davge_expert  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/2d_AvEnergy", theinterval);     
 
    if (m_dataType ==  AthenaMonManager::cosmics ){
      if (  m_clusterContainerName.key() == "LArMuClusterCandidates" ) {
        m_nClusters = new TH1I("NClus","NCluster",200,0,200);
      }else  {
        m_nClusters = new TH1I("NClus","NCluster",50,0,50);
      }
    }else {
      if ( m_clusterContainerName.key() == "EMTopoCluster" ){
        m_nClusters = new TH1I("NClus","NCluster",300,0,300);
      }else  {
        m_nClusters = new TH1I("NClus","NCluster",600,0,600);
      }
    }
    cluster_expert.regHist(  m_nClusters ).ignore();
    m_nClusters->GetXaxis()->SetTitle("Number of Clusters");
 
    m_nClustersBottomVsTop = new TH2I("NClus_botvstop","Number of Cluster in bottomvstop", 80, 0, 80, 80, 0,80);
    cluster_expert.regHist(  m_nClustersBottomVsTop ).ignore();
    m_nClustersBottomVsTop ->GetXaxis()->SetTitle("Number of Clusters in bottom");
    m_nClustersBottomVsTop ->GetYaxis()->SetTitle("Number of Clusters in top");
 
    if (m_dataType ==  AthenaMonManager::cosmics ){
      m_averageEnergy_etaphi_maxEclusters  = new TProfile2D("MaxEnergy_etaphi_avgenergy","max avg energy cluster from top and bottom",98,-4.9,4.9,64,-3.15,3.15);
      cluster_2davge_expert.regHist(  m_averageEnergy_etaphi_maxEclusters ).ignore();
      m_averageEnergy_etaphi_maxEclusters->GetXaxis()->SetTitle("#eta");
      m_averageEnergy_etaphi_maxEclusters->GetYaxis()->SetTitle("#phi");
 
      m_dEtaVsdPhi_maxEclustersTopVsBottom  = new TH2F("Deltaphi_Deltaeta_top_bot_Maxenergy","#Delta Eta and #Delta phi of max avg energy cluster from top and bottom",98,-4.9,4.9,64,0,6.3);
      cluster_expert.regHist(  m_dEtaVsdPhi_maxEclustersTopVsBottom ).ignore();
      m_dEtaVsdPhi_maxEclustersTopVsBottom->GetXaxis()->SetTitle("#eta");
      m_dEtaVsdPhi_maxEclustersTopVsBottom->GetYaxis()->SetTitle("#phi");
    }
    else{
      m_averageEnergy_etaphi_maxEclusters  = new TProfile2D("MaxEnergy_etaphi_avgenergy","Avg energy of most energetic cluster",98,-4.9,4.9,64,-3.15,3.15);
      cluster_2davge_expert.regHist(  m_averageEnergy_etaphi_maxEclusters ).ignore();
      m_averageEnergy_etaphi_maxEclusters->GetXaxis()->SetTitle("#eta");
      m_averageEnergy_etaphi_maxEclusters->GetYaxis()->SetTitle("#phi");
    }
 
}

bookHistograms()

StatusCode CaloClusterVecMon::bookHistograms ( )

virtual

An inheriting class should either override this function or bookHists().

Reimplemented from ManagedMonitorToolBase.

Definition at line 214 of file CaloClusterVecMon.cxx.

                                            {
// Book managed histograms. 
 
  ATH_MSG_DEBUG( "in bookHistograms()" );
 
  Interval_t theinterval = run;
//  No longer needed with managed histograms - LS 12/2013
//  bool testTimeGran = checkTimeGran( isNewEventsBlock, isNewLumiBlock, isNewRun, theinterval);
 
//  if (testTimeGran){
    bookCellHists(theinterval);
    bookClusterHists(theinterval);
    bookClusterStatHists(theinterval);
    if(  m_clusterContainerName.key() == "CaloCalTopoClusters" ) {
      fillTileHistRange();
      bookTileHists(theinterval);
    }
 
//  }
  return StatusCode::SUCCESS;
}

bookHistogramsRecurrent()

StatusCode CaloClusterVecMon::bookHistogramsRecurrent ( )

virtual

An inheriting class should either override this function, bookHists() or bookHistograms().

Reimplemented from ManagedMonitorToolBase.

Definition at line 207 of file CaloClusterVecMon.cxx.

                                                     {
//  Book old-style (unmanaged) histograms. Not used.
 
  return StatusCode::SUCCESS;
}

bookHists()

StatusCode ManagedMonitorToolBase::bookHists ( )

virtualinherited

Calls bookHists( true, true, true ) and initializes lumiBlock and run numbers.

Implements IMonitorToolBase.

Reimplemented in TileRawChannelMonTool, and TileDigitsMonTool.

Definition at line 782 of file ManagedMonitorToolBase.cxx.

{
   // The Run/LumiBlock numbers are not set when beginRun() is called.  Therefore,
   // book histograms on the first call to fillHists(), which is called from execute().
   return StatusCode::SUCCESS;
}

bookTileHists()

void CaloClusterVecMon::bookTileHists ( const Interval_t  theinterval )

private

Definition at line 641 of file CaloClusterVecMon.cxx.

                                                                 {
      std::string TheTrigger;
      if (m_triggerChainProp.empty())  TheTrigger="NoTrigSel";
      else TheTrigger = m_triggerChainProp;
 
      MonGroup  tile_cluster_shift  ( this, "/CaloMonitoring/ClusterMon/"+m_clusterContainerName.key()+TheTrigger+"/General", theinterval);    //SHIFT
 
      m_clustersCellsRatioEta    = new TProfile("TileCalXRatioXEta","Ratio: cluster E/ cluster cells",(int)m_binRangeEta[0],m_binRangeEta[1], m_binRangeEta[2]);
      m_clustersCellsRatioEta->GetXaxis()->SetTitle("Eta");
      m_clustersCellsRatioEta->GetYaxis()->SetTitle("Cluster Energy / Sum over cluster cells");
      tile_cluster_shift.regHist(  m_clustersCellsRatioEta  ).ignore(); 
 
      m_clustersCellsRatioPhi    = new TProfile("ClustersXRatioXPhi","Ratio: cluster E/ cluster cells",(int)m_binRangePhi[0],m_binRangePhi[1], m_binRangePhi[2]);
      m_clustersCellsRatioPhi->GetXaxis()->SetTitle("Phi [rad]");
      m_clustersCellsRatioPhi->GetYaxis()->SetTitle("Cluster Energy / Sum over cluster cells");
      tile_cluster_shift.regHist(  m_clustersCellsRatioPhi  ).ignore();
 
      m_clustersCellsRatioE    = new TProfile("TileCalXRatioXE","Ratio: cluster E/ cluster cells",(int)m_binRangeE[0],m_binRangeE[1], m_binRangeE[2]);
      m_clustersCellsRatioE->GetXaxis()->SetTitle("Energy [GeV]");
      m_clustersCellsRatioE->GetYaxis()->SetTitle("Cluster Energy / Sum over cluster cells");
      tile_cluster_shift.regHist(  m_clustersCellsRatioE  ).ignore();
 
      m_clustersE    = new TH1F("TileCalXclustersXE","Energy of TileCal clusters",(int)m_binRangeE[0],m_binRangeE[1], m_binRangeE[2]);
      m_clustersE->GetXaxis()->SetTitle("Energy [GeV]");
      m_clustersE->GetYaxis()->SetTitle("Events");
      tile_cluster_shift.regHist(  m_clustersE  ).ignore();
 
      m_clustersEta    = new TProfile("TileCalXclustersXEta","Eta of TileCal clusters",(int)m_binRangeEta[0],m_binRangeEta[1], m_binRangeEta[2]);
      m_clustersEta->GetXaxis()->SetTitle("Eta");
      m_clustersEta->GetYaxis()->SetTitle("Mean energy [GeV]");
      tile_cluster_shift.regHist(  m_clustersEta  ).ignore();
 
      m_clustersPhi    = new TProfile("TileCalXclustersXPhi","Phi Tile clusters",(int)m_binRangePhi[0],m_binRangePhi[1], m_binRangePhi[2]);
      m_clustersPhi->GetXaxis()->SetTitle("Phi [rad]");
      m_clustersPhi->GetYaxis()->SetTitle("Mean energy [GeV]");
      tile_cluster_shift.regHist(  m_clustersPhi  ).ignore();
 
      m_clustersEtaPhi    = new TH2F("TileCalXclustersXEtaVSPhi","Tile clusters",(int)m_binRangeEtaPhi[0],m_binRangeEtaPhi[1], m_binRangeEtaPhi[2], (int)m_binRangeEtaPhi[3],m_binRangeEtaPhi[4], m_binRangeEtaPhi[5]);
      m_clustersEtaPhi->GetXaxis()->SetTitle("Eta");
      m_clustersEtaPhi->GetYaxis()->SetTitle("Phi [rad]");
      tile_cluster_shift.regHist(  m_clustersEtaPhi  ).ignore();
 
      m_clustersCellsE    = new TProfile("TileCalXRXE","Tile clusters",(int)m_binRangeE[0],m_binRangeE[1], m_binRangeE[2]);
      m_clustersCellsE->GetXaxis()->SetTitle("Energy [GeV]");
      m_clustersCellsE->GetYaxis()->SetTitle("Energy fraction from Tile Cal");
      tile_cluster_shift.regHist(  m_clustersCellsE  ).ignore();
 
      m_clustersCellsEta    = new TProfile("TileCalXRXEta","Tile clusters",(int)m_binRangeEta[0],m_binRangeEta[1], m_binRangeEta[2]);
      m_clustersCellsEta->GetXaxis()->SetTitle("Eta");
      m_clustersCellsEta->GetYaxis()->SetTitle("Energy fraction from TileCal");
      tile_cluster_shift.regHist(  m_clustersCellsEta  ).ignore();
 
      m_clustersCellsPhi    = new TProfile("ClustersXRXPhi","Tile clusters",(int)m_binRangePhi[0],m_binRangePhi[1], m_binRangePhi[2]);
      m_clustersCellsPhi->GetXaxis()->SetTitle("Phi [rad]");
      m_clustersCellsPhi->GetYaxis()->SetTitle("Energy fraction from TileCal");
      tile_cluster_shift.regHist(  m_clustersCellsPhi  ).ignore();
 
}

checkFilters()

StatusCode CaloMonToolBase::checkFilters ( bool &  ifPass )

inherited

Definition at line 95 of file CaloMonToolBase.cxx.

                                                    {
 
  // ATH_MSG_INFO("CaloCellVecMon::checkFilters() starts");
 
  m_h_EvtRejSumm->Fill(1); //Counter of all events seen
 
  ifPass = 0;   
  if (m_useReadyFilterTool) {
    if (m_ReadyFilterTool->accept()) {
      ifPass = 1;
      m_h_EvtRejSumm->Fill(2); //All events with ATLAS Ready
    }
  }
  else{
    m_h_EvtRejSumm->Fill(2); //ATLAS ready not activated
    ifPass = 1;
  }
 
  SG::ReadHandle<xAOD::EventInfo> eventInfo{m_EventInfoKey};
  if (!eventInfo.isValid()) {
    ATH_MSG_ERROR("Event info not found !" );
    return StatusCode::SUCCESS;
  }
 
  m_lb = eventInfo->lumiBlock();
  if (m_useBadLBTool) {
    if (m_BadLBTool->accept()) { 
      ifPass = ifPass && 1;
      if(ifPass) m_h_EvtRejSumm->Fill(3); //All events with ATLAS Ready and Good LB
    }
    else {
      ifPass = 0;
    }
  }
  else{
    if(ifPass) m_h_EvtRejSumm->Fill(3); 
  }
 
  // Filter the events identfied as collision by the LAr system
  // Useful in CosmicCalo to reject collision candidates
  if (m_useCollisionFilterTool){
    SG::ReadHandle<LArCollisionTime> larTime{m_LArCollisionTimeKey};
    if(!larTime.isValid()){
      ATH_MSG_WARNING("Unable to retrieve LArCollisionTime event store");
      if(ifPass) m_h_EvtRejSumm->Fill(4); 
    }
    else {
      if (larTime->timeC()!=0 && larTime->timeA()!=0 && std::fabs(larTime->timeC() - larTime->timeA())<10)  {
    ifPass = 0;
      }
      else { 
    ifPass = ifPass && 1;
    if(ifPass) m_h_EvtRejSumm->Fill(4); //All events with ATLAS Ready and Good LB and Good LAr collision time
      }
    }
  }
  else{
    if(ifPass) m_h_EvtRejSumm->Fill(4); 
  }
 
 
  m_passBeamBackgroundRemoval=true;
  if(m_useBeamBackgroundRemoval){
    SG::ReadHandle<BeamBackgroundData> beamBackgroundData{m_beamBackgroundKey};
    if(!beamBackgroundData.isValid()){
      ATH_MSG_WARNING("Unable to retrieve BeamBackgroundData");
    }
    else {
      if( beamBackgroundData->GetNumSegment() > 0 ) {
        m_passBeamBackgroundRemoval = false;
    ifPass = 0;
        ATH_MSG_DEBUG("Identified background event");
      }
      else {
        m_passBeamBackgroundRemoval = true;
        ifPass = ifPass && 1;
        if(ifPass) m_h_EvtRejSumm->Fill(5); //All events with ATLAS Ready and Good LB and Good LAr collision time and not Beam Background
      }
    }
  }
  else {  // Do not use BeamBackgroundRemoval
    ifPass = ifPass && 1;
    if(ifPass) m_h_EvtRejSumm->Fill(5); //All events with ATLAS Ready and Good LB and Good LAr collision time and not Beam Background
  
  }
 
  std::string TheTrigger;
  if (m_triggerChainProp.empty()) {  
    TheTrigger="NoTrigSel";
    ifPass = ifPass && 1; // No Trigger Filter check
    if(ifPass) m_h_EvtRejSumm->Fill(6); //All events with ATLAS Ready and Good LB and Good LAr collision time and not Beam Background and Trigger Filter pass
  }
  else {
    TheTrigger = m_triggerChainProp; // Trigger Filter not implemented ++ FIXME ==
    if(ifPass) m_h_EvtRejSumm->Fill(6); 
  }
 
  if(m_useLArNoisyAlg && (eventInfo->errorState(xAOD::EventInfo::LAr) == xAOD::EventInfo::Error)) {
    ifPass = 0;
  }
  else {
    ifPass = ifPass && 1;
    if(ifPass) m_h_EvtRejSumm->Fill(7); //All events with ATLAS Ready and Good LB and Good LAr collision time and not Beam Background and Trigger Filter pass and no Lar Error
  }
 
  ATH_MSG_VERBOSE("CaloMonBase::checkFilters() is done");
  return StatusCode::SUCCESS;
}

checkHists()

StatusCode ManagedMonitorToolBase::checkHists ( bool  calledFromFinalize )

virtualinherited

This implementation does nothing; equivalent functionality may be provided by procHists(...) with appropriate arguments.

Implements IMonitorToolBase.

Reimplemented in SCTHitsNoiseMonTool, SCTTracksMonTool, SCTLorentzMonTool, TileRawChannelMonTool, TileDigitsMonTool, DQTDataFlowMonTool, DQTNonCollBkg_ZDC, DQTGlobalWZFinderTool, DataQualityFatherMonTool, DQTDetSynchMonTool, DQTMuonIDTrackTool, TileCellNoiseMonTool, CscCalibMonToolBase, CscPrdValAlg, and CscRdoValAlg.

Definition at line 1901 of file ManagedMonitorToolBase.cxx.

{
   // Histograms will be checked using the data-quality monitoring framework (DQMF)
 
   return StatusCode::SUCCESS;
}

checkTimeGran()

bool CaloClusterVecMon::checkTimeGran ( bool  isNewEventsBlock, bool  isNewLumiBlock, bool  isNewRun, Interval_t &  theinterval  )

private

Definition at line 237 of file CaloClusterVecMon.cxx.

                                                                                                                       {  
  bool isNewTimeGran=isNewRun;
  theinterval=run;
  // but if the choice is different
  if (m_timeGran.compare("run") !=0) {
    if (m_timeGran.compare("eventsblock") ==0) {
      isNewTimeGran=isNewEventsBlock;
      theinterval= eventsBlock;
    }
    else if (m_timeGran.compare("lumiblock") ==0) {
      isNewTimeGran=isNewLumiBlock;
      theinterval=lumiBlock;
    }
    //... check if it is low statistics interval
    else if (m_timeGran.compare("lowStat") ==0){
      isNewTimeGran=newLowStatIntervalFlag();
      theinterval=lowStat;
    }
    //... or medium statistics
    else if (m_timeGran.compare("medStat") ==0) {
      isNewTimeGran=newMedStatIntervalFlag();
      theinterval=medStat;
    }
    else if (m_timeGran.compare("higStat") ==0){
      isNewTimeGran=newHigStatIntervalFlag();
      theinterval=higStat;
    }
    else if (m_timeGran.compare("fill") ==0){
      isNewTimeGran=newLowStatIntervalFlag();
      theinterval=fill;
    }
    else if (m_timeGran.compare("all") ==0){
      isNewTimeGran=newLowStatIntervalFlag();
      theinterval=all;
    }
    // if it is not global, but it is something else stick to medium stat
    else  {
      isNewTimeGran=newLowStatIntervalFlag();
      theinterval=medStat;
    }
  }
 
  return isNewTimeGran;
}

convertLWHists()

StatusCode ManagedMonitorToolBase::convertLWHists ( )

virtualinherited

Deal with the LW histograms.

Implements IMonitorToolBase.

Definition at line 1377 of file ManagedMonitorToolBase.cxx.

{
  // note that managed histograms will be converted by regMonitoredLWHistograms
  // hence they are not in m_lwhists
  if (m_manager) {
    std::set<LWHist*>::iterator it(m_lwhists.begin()),itE(m_lwhists.end());
    for (;it!=itE;++it)
      m_manager->writeAndDeleteLWHist( *it );
    m_lwhists.clear();
  }
  return StatusCode::SUCCESS;
 
}

declareGaudiProperty() [1/4]

Gaudi::Details::PropertyBase& AthCommonDataStore< AthCommonMsg< AlgTool > >::declareGaudiProperty ( Gaudi::Property< T > &  hndl, const SG::VarHandleKeyArrayType &    )

inlineprivateinherited

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

Definition at line 170 of file AthCommonDataStore.h.

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

declareGaudiProperty() [2/4]

Gaudi::Details::PropertyBase& AthCommonDataStore< AthCommonMsg< AlgTool > >::declareGaudiProperty ( Gaudi::Property< T > &  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());
 
  }

declareGaudiProperty() [3/4]

Gaudi::Details::PropertyBase& AthCommonDataStore< AthCommonMsg< AlgTool > >::declareGaudiProperty ( Gaudi::Property< T > &  hndl, const SG::VarHandleType &    )

inlineprivateinherited

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

Definition at line 184 of file AthCommonDataStore.h.

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

declareGaudiProperty() [4/4]

Gaudi::Details::PropertyBase& AthCommonDataStore< AthCommonMsg< AlgTool > >::declareGaudiProperty ( Gaudi::Property< T > &  t, const SG::NotHandleType &    )

inlineprivateinherited

specialization for handling everything that's not a Gaudi::Property<SG::VarHandleKey> or a <SG::VarHandleKeyArray>

Definition at line 199 of file AthCommonDataStore.h.

  {
    return PBASE::declareProperty(t);
  }

declareProperty() [1/6]

Gaudi::Details::PropertyBase* AthCommonDataStore< AthCommonMsg< AlgTool > >::declareProperty ( const std::string &  name, SG::VarHandleBase &  hndl, const std::string &  doc, const SG::VarHandleType &    )

inlineinherited

Declare a new Gaudi property.

Parameters

name	Name of the property.
hndl	Object holding the property value.
doc	Documentation string for the property.

This is the version for types that derive from SG::VarHandleBase. The property value object is put on the input and output lists as appropriate; then we forward to the base class.

Definition at line 245 of file AthCommonDataStore.h.

  {
    this->declare(hndl.vhKey());
    hndl.vhKey().setOwner(this);
 
    return PBASE::declareProperty(name,hndl,doc);
  }

declareProperty() [2/6]

Gaudi::Details::PropertyBase* AthCommonDataStore< AthCommonMsg< AlgTool > >::declareProperty ( const std::string &  name, SG::VarHandleKey &  hndl, const std::string &  doc, const SG::VarHandleKeyType &    )

inlineinherited

Declare a new Gaudi property.

Parameters

name	Name of the property.
hndl	Object holding the property value.
doc	Documentation string for the property.

This is the version for types that derive from SG::VarHandleKey. The property value object is put on the input and output lists as appropriate; then we forward to the base class.

Definition at line 221 of file AthCommonDataStore.h.

  {
    this->declare(hndl);
    hndl.setOwner(this);
 
    return PBASE::declareProperty(name,hndl,doc);
  }

declareProperty() [3/6]

Gaudi::Details::PropertyBase* AthCommonDataStore< AthCommonMsg< AlgTool > >::declareProperty ( const std::string &  name, SG::VarHandleKeyArray &  hndArr, const std::string &  doc, const SG::VarHandleKeyArrayType &    )

inlineinherited

Definition at line 259 of file AthCommonDataStore.h.

  {
 
    // std::ostringstream ost;
    // ost << Algorithm::name() << " VHKA declareProp: " << name 
    //     << " size: " << hndArr.keys().size() 
    //     << " mode: " << hndArr.mode() 
    //     << "  vhka size: " << m_vhka.size()
    //     << "\n";
    // debug() << ost.str() << endmsg;
 
    hndArr.setOwner(this);
    m_vhka.push_back(&hndArr);
 
    Gaudi::Details::PropertyBase* p =  PBASE::declareProperty(name, hndArr, doc);
    if (p != 0) {
      p->declareUpdateHandler(&AthCommonDataStore<PBASE>::updateVHKA, this);
    } else {
      ATH_MSG_ERROR("unable to call declareProperty on VarHandleKeyArray " 
                    << name);
    }
 
    return p;
 
  }

declareProperty() [4/6]

Gaudi::Details::PropertyBase* AthCommonDataStore< AthCommonMsg< AlgTool > >::declareProperty ( const std::string &  name, T &  property, const std::string &  doc, const SG::NotHandleType &    )

inlineinherited

Declare a new Gaudi property.

Parameters

name	Name of the property.
property	Object holding the property value.
doc	Documentation string for the property.

This is the generic version, for types that do not derive from SG::VarHandleKey. It just forwards to the base class version of declareProperty.

Definition at line 333 of file AthCommonDataStore.h.

  {
    return PBASE::declareProperty(name, property, doc);
  }

declareProperty() [5/6]

Gaudi::Details::PropertyBase* AthCommonDataStore< AthCommonMsg< AlgTool > >::declareProperty ( const std::string &  name, T &  property, const std::string &  doc = "none"  )

inlineinherited

Declare a new Gaudi property.

Parameters

name	Name of the property.
property	Object holding the property value.
doc	Documentation string for the property.

This dispatches to either the generic declareProperty or the one for VarHandle/Key/KeyArray.

Definition at line 352 of file AthCommonDataStore.h.

  {
    typedef typename SG::HandleClassifier<T>::type htype;
    return declareProperty (name, property, doc, htype());
  }

declareProperty() [6/6]

Gaudi::Details::PropertyBase& AthCommonDataStore< AthCommonMsg< AlgTool > >::declareProperty ( Gaudi::Property< T > &  t )

inlineinherited

Definition at line 145 of file AthCommonDataStore.h.

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

deregGraph()

StatusCode ManagedMonitorToolBase::deregGraph ( TGraph *  g )

virtualinherited

De-registers a TGraph from the THistSvc, but does NOT delete the object.

Definition at line 1843 of file ManagedMonitorToolBase.cxx.

{
   return m_THistSvc->deReg( g );
}

deregHist() [1/2]

StatusCode ManagedMonitorToolBase::deregHist ( LWHist *  h )

virtualinherited

Definition at line 1826 of file ManagedMonitorToolBase.cxx.

{
  std::set<LWHist*>::iterator it = m_lwhists.find(h);
  if (it==m_lwhists.end())
    return StatusCode::FAILURE;
  LWHistAthMonWrapper:: removeCustomData(h);
  m_lwhists.erase(it);
  if (h->usingROOTBackend()) {
    h->setOwnsROOTHisto(true);
    return m_THistSvc->deReg( h->getROOTHistBase() );
  }
 
  return StatusCode::SUCCESS;
}

deregHist() [2/2]

StatusCode ManagedMonitorToolBase::deregHist ( TH1 *  h )

virtualinherited

De-registers a TH1 from the THistSvc, but does NOT delete the object.

Definition at line 1819 of file ManagedMonitorToolBase.cxx.

{
   return m_THistSvc->deReg( h );
}

deregObject() [1/2]

StatusCode ManagedMonitorToolBase::deregObject ( const std::string &  objName, const MonGroup &  group  )

virtualinherited

De-registers a TObject from the THistSvc, but does NOT delete the object.

(NB: LightWeight histograms are not even registered until readout).

Definition at line 1861 of file ManagedMonitorToolBase.cxx.

{
   std::string streamName = streamNameFunction()->getStreamName( this, group, objName );
   std::set<LWHist*>::iterator it(m_lwhists.begin()),itE(m_lwhists.end());
   for (;it!=itE;++it) {
     LWHist * hlw = *it;
      if (LWHistAthMonWrapper::key(hlw)==objName) {
    m_lwhists.erase(it);
    if (hlw->usingROOTBackend()) {
      hlw->setOwnsROOTHisto(true);
      return m_THistSvc->deReg( hlw->getROOTHistBase() );
    }
    return StatusCode::SUCCESS;
      }
   }
   return m_THistSvc->deReg( streamName );
}

deregObject() [2/2]

StatusCode ManagedMonitorToolBase::deregObject ( const std::string &  objName, const std::string &  system, Interval_t  interval  )

virtualinherited

De-registers a TObject from the THistSvc, but does NOT delete the object.

(NB: LightWeight histograms are not even registered until readout).

Definition at line 1851 of file ManagedMonitorToolBase.cxx.

{
   MonGroup group( this, system, interval );
   return deregObject( objName, group );
}

detStore()

const ServiceHandle<StoreGateSvc>& AthCommonDataStore< AthCommonMsg< AlgTool > >::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; }

endOfEventsBlockFlag()

bool ManagedMonitorToolBase::endOfEventsBlockFlag ( ) const

inlineprotectedinherited

Definition at line 856 of file ManagedMonitorToolBase.h.

{ return m_endOfEventsBlock; }

endOfLowStatFlag()

bool ManagedMonitorToolBase::endOfLowStatFlag ( ) const

inlineprotectedinherited

Definition at line 857 of file ManagedMonitorToolBase.h.

{ return m_endOfLowStat; }

endOfLumiBlockFlag()

bool ManagedMonitorToolBase::endOfLumiBlockFlag ( ) const

inlineprotectedinherited

Definition at line 858 of file ManagedMonitorToolBase.h.

{ return m_endOfLumiBlock; }

endOfRunFlag()

bool ManagedMonitorToolBase::endOfRunFlag ( ) const

inlineprotectedinherited

Definition at line 859 of file ManagedMonitorToolBase.h.

{ return m_endOfRun; }

evtStore() [1/2]

ServiceHandle<StoreGateSvc>& AthCommonDataStore< AthCommonMsg< AlgTool > >::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; }

evtStore() [2/2]

const ServiceHandle<StoreGateSvc>& AthCommonDataStore< AthCommonMsg< AlgTool > >::evtStore ( ) const

inlineinherited

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

Definition at line 90 of file AthCommonDataStore.h.

{ return m_evtStore; }

extraDeps_update_handler()

void AthCommonDataStore< AthCommonMsg< AlgTool > >::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

fillCellHist()

void CaloClusterVecMon::fillCellHist ( const xAOD::CaloCluster *  clus )

private

Definition at line 752 of file CaloClusterVecMon.cxx.

                                                           {
  int cellcount=0;
  //int maxcellindex=0;
  float maxcellene=0;
  float maxcelltime=0;
 
  const CaloClusterCellLink* cellLinks=clus->getCellLinks();
  if (!cellLinks) {
    ATH_MSG_DEBUG( "No cell links for this cluster"  );
    return;
  }
 
  const CaloCellContainer* cellCont=cellLinks->getCellContainer();
  if (!cellCont) {
    ATH_MSG_DEBUG( "DataLink to cell container is broken"  );
    return;
  }
 
 
  xAOD::CaloCluster::const_cell_iterator cellIter =clus->cell_begin();
  xAOD::CaloCluster::const_cell_iterator cellIterEnd =clus->cell_end();
  for ( ;cellIter !=cellIterEnd;cellIter++) {
      ++cellcount;
      const CaloCell* cell= (*cellIter);
      float EnergyCell=cell->energy();
      float TimeCell=cell->time();
      if ( cellcount == 1 || fabs(EnergyCell) > fabs(maxcellene) ) {
        maxcellene=EnergyCell;
        //maxcellindex=cellcount;
        maxcelltime=TimeCell;  
      }
  }
  m_nCells->Fill(cellcount);
 
  float EnergyClus = clus->e();
  float EtaClus = clus->eta(); 
  float PhiClus = clus->phi(); 
  float TimeClus = clus->time();
  float ratio=0; 
  if(EnergyClus > 0.0) ratio = maxcellene/EnergyClus;
 
  if ( fabs(EtaClus) < 5.0) {
 
   if(EnergyClus > 0.0) {
    m_maxEcellToEclusterRatio->Fill(ratio );
    if( ratio > 0.9 ) {
      m_dominantCellOccupancy_etaphi->Fill(EtaClus,PhiClus);
      m_dominantCellAverageEnergy_etaphi->Fill(EtaClus,PhiClus,EnergyClus/GeV);
    }
   }
 
   m_nCellInCluster_etaphi->Fill(EtaClus,PhiClus,cellcount);
   m_clusterTimeVsEnergy->Fill(TimeClus,EnergyClus/GeV);
   m_clusterTime->Fill(TimeClus);
   m_cellTime->Fill(maxcelltime);
   m_cellvsclust_time->Fill(maxcelltime,TimeClus);
  }
 
}

fillClusterEMvar()

void CaloClusterVecMon::fillClusterEMvar ( const xAOD::CaloCluster *  clus )

private

fillClusterHist()

void CaloClusterVecMon::fillClusterHist ( const xAOD::CaloCluster *  clus )

private

Definition at line 892 of file CaloClusterVecMon.cxx.

                                                              {
    float EtaClus = clus->eta();
    float PhiClus = clus->phi();
    float EtClus = clus->et();
    float EClus = clus->e();
 
    TH1F* tmp_clusterEtVsEta_sub=nullptr;
    TH1F* tmp_clusterEnergyVsEta_sub=nullptr;
    if( (fabs(EtaClus)<m_etaMin[1]) && (fabs(EtaClus)>=m_etaMin[0]) ){
      tmp_clusterEtVsEta_sub = m_clusterEtVsEta_barrel;
      tmp_clusterEnergyVsEta_sub = m_clusterEnergyVsEta_barrel;
    }
    else if( (fabs(EtaClus)<m_etaMin[2]) && (fabs(EtaClus)>=m_etaMin[1]) ){
      tmp_clusterEtVsEta_sub = m_clusterEtVsEta_endcap;
      tmp_clusterEnergyVsEta_sub = m_clusterEnergyVsEta_endcap;
    }
    else if( fabs(EtaClus)>=m_etaMin[2] ){
      tmp_clusterEtVsEta_sub = m_clusterEtVsEta_hecfcal;
      tmp_clusterEnergyVsEta_sub = m_clusterEnergyVsEta_hecfcal;
    }
    
    if(fabs(EtaClus) < 5.0) {
 
      for (int j=0;j<MAX_E;j++) {
        if(EtClus > m_Ethresh[j]*GeV) {
          m_clus_etaphi_Et_thresh[j]->Fill(EtaClus, PhiClus);
          m_etaphi_thresh_avgEt[j]->Fill(EtaClus, PhiClus,EtClus/GeV);
        }
 
//        if(m_EMet>m_Ethresh[j]*GeV)  m_EMclus_etaphi_Et_thresh[j]->Fill(m_EMeta,m_EMphi);
//        if(m_EMenergy>m_Ethresh[j]*GeV)  m_EMclus_etaVsPhi[j]->Fill(m_EMeta,m_EMphi);
 
         // km add
          if (EtClus > m_Ethresh[j]*GeV ) {
           m_clus_eta_Et[j]->Fill(EtaClus);
           if (fabs(EtaClus)<1.5) {
            m_clus_phi_Et[j][0]->Fill(PhiClus);
          }else if (EtaClus > 1.5) {
            m_clus_phi_Et[j][1]->Fill(PhiClus);
          }else {
            m_clus_phi_Et[j][2]->Fill(PhiClus);
          }
        }    
 
        if(EClus/GeV > m_Ethresh[j]) {
          m_clus_eta[j]->Fill(EtaClus);
          if (fabs(EtaClus)<1.5) {
            m_clus_phi[j][0]->Fill(PhiClus);
          }else if (EtaClus > 1.5) {
            m_clus_phi[j][1]->Fill(PhiClus);
          }else {
            m_clus_phi[j][2]->Fill(PhiClus);
          }
          m_etaVsPhi[j]->Fill(EtaClus, PhiClus);
          m_etaphi_thresh_avgenergy[j]->Fill(EtaClus, PhiClus,EClus/GeV);
          m_etaphi_thresh_Totalenergy[j]->Fill(EtaClus, PhiClus,EClus/GeV);
        }
      }
 
      if( EClus < 0.0 ){
        m_etaVsPhiNegEn->Fill(EtaClus, PhiClus);
        m_averageNegativeEnergy_etaphi->Fill(EtaClus, PhiClus,EClus/GeV);
      }
 
      m_averageEnergy_eta->Fill(EtaClus,EClus/GeV);
      m_averageEnergy_phi->Fill(PhiClus,EClus/GeV);
 
      if(m_dataType !=  AthenaMonManager::cosmics){
        if(EtClus>500000.) m_averageEtOver500_etaphi->Fill(EtaClus, PhiClus,EtClus/GeV);
        if(tmp_clusterEtVsEta_sub) tmp_clusterEtVsEta_sub->Fill(EtClus/GeV); 
        if(tmp_clusterEnergyVsEta_sub) tmp_clusterEnergyVsEta_sub->Fill(EClus/GeV); 
      }
      else{
        if(tmp_clusterEnergyVsEta_sub) tmp_clusterEnergyVsEta_sub->Fill(EClus/GeV);  
      }
 
    } 
}

fillClusterStat()

void CaloClusterVecMon::fillClusterStat ( const xAOD::CaloCluster *  clus )

private

Definition at line 865 of file CaloClusterVecMon.cxx.

                                                              {
   ++m_cluscount;
   float EnergyClus=clus->e();
   float PhiClus=clus->phi();
 
   if(PhiClus > 0.) {
      ++m_cluscount_top;
      if(PhiClus < 5.0){
        if(m_cluscount_top == 1 || m_maxclusene_top<EnergyClus){
          m_maxclusene_top=EnergyClus;
          m_maxclusindex_top=m_cluscount;
        }
      }
   } 
   else {
      ++m_cluscount_bot;
      if(PhiClus > (-5.0) ){
        if(m_cluscount_top == 1 || m_maxclusene_bot<EnergyClus){
          m_maxclusene_bot=EnergyClus;
          m_maxclusindex_bot=m_cluscount;
        }
      }
   }
 
}

fillClusterStatHist()

void CaloClusterVecMon::fillClusterStatHist ( const xAOD::CaloClusterContainer *  clusterCont )

private

Definition at line 972 of file CaloClusterVecMon.cxx.

                                                                                      {
  m_nClusters->Fill(m_cluscount);
  m_nClustersBottomVsTop->Fill(m_cluscount_bot,m_cluscount_top);
 
  float phi_top=0,eta_top=0;
  float phi_bot=0,eta_bot=0;
  if (m_maxclusindex_top > 0){
    phi_top=(*clusterCont)[m_maxclusindex_top-1]->phi();
    eta_top=(*clusterCont)[m_maxclusindex_top-1]->eta();
  }
  if (m_maxclusindex_bot > 0){
    phi_bot=(*clusterCont)[m_maxclusindex_bot-1]->phi();
    eta_bot=(*clusterCont)[m_maxclusindex_bot-1]->eta();
  }
 
  if (m_dataType ==  AthenaMonManager::cosmics ){
 
    if (m_maxclusindex_top > 0){
      m_averageEnergy_etaphi_maxEclusters->Fill(eta_top,phi_top,m_maxclusene_top/GeV);
      //m_averageEnergy_etaphi_maxEclusters->Fill(eta_top,phi_top,1.);
    }
 
    if (m_maxclusindex_bot > 0){
      m_averageEnergy_etaphi_maxEclusters->Fill(eta_bot,phi_bot,m_maxclusene_bot/GeV);
      //m_averageEnergy_etaphi_maxEclusters->Fill(eta_bot,phi_bot,1.);
    }
 
    if ((m_maxclusindex_top > 0) && (m_maxclusindex_bot > 0)) {
      m_dEtaVsdPhi_maxEclustersTopVsBottom->Fill((eta_top-eta_bot),(phi_top-phi_bot));
    }
 
  } else  {
    if ( m_maxclusene_top > m_maxclusene_bot ) {
      m_averageEnergy_etaphi_maxEclusters->Fill(eta_top,phi_top,m_maxclusene_top/GeV);
      //m_averageEnergy_etaphi_maxEclusters->Fill(eta_top,phi_top,1.);
    } else {
      m_averageEnergy_etaphi_maxEclusters->Fill(eta_bot,phi_bot,m_maxclusene_bot/GeV);
      //m_averageEnergy_etaphi_maxEclusters->Fill(eta_bot,phi_bot,1.);
    }
  }
 
}

fillHistograms()

StatusCode CaloClusterVecMon::fillHistograms ( )

virtual

An inheriting class should either override this function or fillHists().

Reimplemented from ManagedMonitorToolBase.

Definition at line 701 of file CaloClusterVecMon.cxx.

                                             {
  
  StatusCode sc = StatusCode::SUCCESS;
 
  bool ifPass = 1;
  sc = checkFilters(ifPass);
  if(sc.isFailure() || !ifPass) return StatusCode::SUCCESS;
 
  SG::ReadHandle<xAOD::CaloClusterContainer> clusterContHandle{m_clusterContainerName};
  if (! clusterContHandle.isValid()) { ATH_MSG_WARNING("No CaloCluster container found in TDS"); return StatusCode::FAILURE; }
  const xAOD::CaloClusterContainer* clusterCont = clusterContHandle.get();
 
  initCounter(); 
 
  xAOD::CaloClusterContainer::const_iterator it = clusterCont->begin(); 
  xAOD::CaloClusterContainer::const_iterator it_e = clusterCont->end(); 
 
  //count events
  m_eventsCounter++; // km add
 
  for ( ; it!=it_e;++it) { 
    const CaloCluster* clus = *it; 
 
    fillCellHist(clus);
    //fillClusterEMvar(clus);
 
    fillClusterStat(clus); 
    fillClusterHist(clus); 
  } // cluster iter cut
 
  fillClusterStatHist(clusterCont);
 
  if(  m_clusterContainerName.key() == "CaloCalTopoClusters" ) fillTileHist(clusterCont);
 
  return sc;
}

fillHists()

StatusCode ManagedMonitorToolBase::fillHists ( )

virtualinherited

Calls fillHists( bool, bool, bool ); if an eventBlock,lumiBlock, or run has turned over, calls procHists( bool, bool, bool ) and bookHists( bool, bool, bool ).

Implements IMonitorToolBase.

Reimplemented in TileRawChannelMonTool, and TileDigitsMonTool.

Definition at line 792 of file ManagedMonitorToolBase.cxx.

{
 
   if (m_d->m_warnAboutMissingInitialize) {
       m_d->m_warnAboutMissingInitialize = false;
       msg(MSG::WARNING) << "ManagedMonitorToolBase::initialize() never called from reimplementation!" << endmsg;
   }
 
 
   bool isNewEventsBlock = ( m_procNEventsProp > 0  && ((m_nEvents % m_procNEventsProp) == 1) && m_haveClearedLastEventBlock );
   if (isNewEventsBlock) m_haveClearedLastEventBlock = false;
 
   m_newLowStat = false;
   m_newLumiBlock = false;
   m_newRun = false;
   newLowStat = false;
   newLumiBlock = false;
   newRun = false;
 
   m_newLowStatInterval = false;
   m_newMedStatInterval = false;
   m_newHigStatInterval = false;
   newLowStatInterval = false;
   newMedStatInterval = false;
   newHigStatInterval = false;
   
   m_useTrigger = ( (m_triggerChainProp != "" || m_triggerGroupProp != "")  && (!m_trigDecTool.empty()) );
 
   if( m_manager != 0 ) {
     m_newLumiBlock = ( (m_lastLumiBlock != m_manager->lumiBlockNumber()) || m_manager->forkedProcess());
      m_newRun = ( m_lastRun != m_manager->runNumber() );
      newLumiBlock = m_newLumiBlock;
      newRun = m_newRun;
 
      if(m_newRun) {
         m_newLumiBlock = true;
         newLumiBlock = m_newLumiBlock;
         isNewEventsBlock = true;
      }
 
      m_newEventsBlock = isNewEventsBlock;
      newEventsBlock = m_newEventsBlock;
 
      if( m_newLumiBlock ) {
         // check if a new LB interval has started
         // lowest lumiBlockNumber() is 1
         // m_lastLowStatInterval is -1 initially
         int currentLB = m_manager->lumiBlockNumber();
         int LBsLowStat = m_manager->getLBsLowStat();
         int LBsMedStat = m_manager->getLBsMedStat();
         int LBsHigStat = m_manager->getLBsHigStat();
 
         if( LBsLowStat*LBsMedStat*LBsHigStat == 0) {
            msg(MSG::WARNING) << "zero LBs requested for interval" << endmsg;
         }
         else {
            if( ((currentLB-1)/LBsLowStat) != m_lastLowStatInterval ) m_newLowStatInterval = true;
            if( ((currentLB-1)/LBsMedStat) != m_lastMedStatInterval ) m_newMedStatInterval = true;
            if( ((currentLB-1)/LBsHigStat) != m_lastHigStatInterval ) m_newHigStatInterval = true;
            newLowStatInterval = m_newLowStatInterval;
            newMedStatInterval = m_newHigStatInterval;
            newHigStatInterval = m_newHigStatInterval;
         }
      }
 
      // Allow inheriting classes the option of using the lastLumiBloc/lastRun values
      // before updating them
   }
 
 
   StatusCode sc0( StatusCode::SUCCESS );
   StatusCode sc1( StatusCode::SUCCESS );
   StatusCode sc2( StatusCode::SUCCESS );
   StatusCode sc3( StatusCode::SUCCESS );
 
   // Set end of LowStat, LumiBlock and Run variables
   // These are needed to be used in procHistograms().
   m_endOfEventsBlock = m_newEventsBlock;
   m_endOfLowStat = m_newLowStatInterval;
   m_endOfLumiBlock = m_newLumiBlock;
   m_endOfRun = m_newRun;
   endOfEventsBlock = m_newEventsBlock;
   endOfLowStat = m_newLowStatInterval;
   endOfLumiBlock = m_newLumiBlock;
   endOfRun = m_newRun;
 
   // just duplicates m_newLowStatInterval
   m_newLowStat = m_newLowStatInterval; 
   newLowStat = m_newLowStatInterval; 
 
   if( m_newEventsBlock || m_newLumiBlock || m_newRun ) {
     ATH_MSG_DEBUG("Interval transition processing");
      // Process histograms from the previous lumiBlock/run
      if( m_nEvents != 1 ) {
         m_d->benchPreProcHistograms();
         sc0 = procHistograms();
         m_d->benchPostProcHistograms();
      }
      // Re-book new histograms
      m_d->benchPreBookHistograms();
 
      if (!m_bookHistogramsInitial) {
          sc1 = bookHistograms();
          m_bookHistogramsInitial = true;
      } else {
          std::vector<Interval_t> intervals_to_process;
          if (m_newEventsBlock) intervals_to_process.push_back(eventsBlock);
          if (m_newLumiBlock) intervals_to_process.push_back(lumiBlock);
          if (m_newLowStatInterval) intervals_to_process.push_back(lowStat);
          if (m_newRun) intervals_to_process.push_back(run);
          for (const auto interval: intervals_to_process) {
            sc1 = regManagedHistograms(m_templateHistograms[interval]);     
            sc1 = regManagedGraphs(m_templateGraphs[interval]);
            sc1 = regManagedTrees(m_templateTrees[interval]);
            sc1 = regManagedLWHistograms(m_templateLWHistograms[interval]);     
          }
      }
      for (const auto& interval: std::vector<Interval_t>{ eventsBlock, lumiBlock, lowStat, run }) {
    for (const auto& it: m_templateHistograms[interval]) {
      // is histogram too small in x axis for LB range?
      if (it.m_group.histo_mgmt() == ATTRIB_X_VS_LB) {
        //ATH_MSG_WARNING("We are rebinning for " << it.m_templateHist->GetName());
        while ( it.m_templateHist->GetXaxis()->GetXmax() <= AthenaMonManager::lumiBlockNumber() ) {
          it.m_templateHist->LabelsInflate("X");
        }
      }
    }
        for (auto& it: m_templateEfficiencies[interval]) {
      if (it.m_group.histo_mgmt() == ATTRIB_X_VS_LB) {
        // get the underlying passed and total TH1's from the TEfficiency
        TH1* passedHist = it.m_templateHist->GetCopyPassedHisto();
        TH1* totalHist = it.m_templateHist->GetCopyTotalHisto();
        // inflate them until they exceed the lumi-block number
        while (passedHist->GetXaxis()->GetXmax() <= AthenaMonManager::lumiBlockNumber() ) {
          passedHist->LabelsInflate("X");
          totalHist->LabelsInflate("X");
              }
        // Replace them in the TEfficiency. First one has force ("f") option, since the 
        // histograms will not be consistent. This is corrected in the next line, so we
        // do check for consistency then.
        it.m_templateHist->SetPassedHistogram(*passedHist, "f");
        it.m_templateHist->SetTotalHistogram(*totalHist, " ");
        delete passedHist; // not owned by THistSvc, so need to be deleted.
        delete totalHist;
      }
        }
      }
 
      if (auto streamname = dynamic_cast<OfflineStream*>(streamNameFunction())) {
    streamname->updateRunLB();
      }
      
      sc3 = bookHistogramsRecurrent( );
      
      m_d->benchPostBookHistograms();
 
      if (m_manager->forkedProcess()) {
    ATH_MSG_INFO("Child process: Resetting all " << m_lwhists.size() <<  " LW Histograms");
    for (LWHist* h : m_lwhists) {
      h->Reset();
    }
      }
   }//end if new RUN/LB/Block
 
   // check filters
   bool filterresult(true);
   if (! m_DQFilterTools.empty()) {
     ToolHandleArray<IDQFilterTool>::const_iterator ifilter(m_DQFilterTools.begin()), filterend(m_DQFilterTools.end());
     for (; filterresult && (ifilter != filterend);
      ++ifilter) {
       filterresult = (filterresult && (*ifilter)->accept());
     }
   }
   
 
   // ...and fill as normal
   if(filterresult &&
      (!m_useTrigger
       || (m_vTrigChainNames.size()>0 && trigChainsArePassed(m_vTrigChainNames))
       || (m_vTrigGroupNames.size()>0 && trigChainsArePassed(m_vTrigGroupNames))) ) {
     ATH_MSG_DEBUG("Passed trigger, presumably");
      m_d->benchPreFillHistograms();
      fillHistograms().ignore();
      m_haveClearedLastEventBlock = true;
      m_d->benchPostFillHistograms();
      ++m_nEvents;
   } else { ATH_MSG_DEBUG("Failed trigger, presumably"); }
 
   ++m_nEventsIgnoreTrigger;
   if( m_newLumiBlock && (m_nEventsIgnoreTrigger != 1) ) {
      ++m_nLumiBlocks;
   }
   if( m_manager != 0 ) {
      m_lastRun = m_manager->runNumber();
      if( m_newLumiBlock ) {
         m_lastLumiBlock = m_manager->lumiBlockNumber();
 
         int LBsLowStat = m_manager->getLBsLowStat();
         int LBsMedStat = m_manager->getLBsMedStat();
         int LBsHigStat = m_manager->getLBsHigStat();
         if( LBsLowStat*LBsMedStat*LBsHigStat > 0) {
            if( m_newLowStatInterval ) m_lastLowStatInterval = (m_lastLumiBlock-1)/LBsLowStat;
            if( m_newMedStatInterval ) m_lastMedStatInterval = (m_lastLumiBlock-1)/LBsMedStat;
            if( m_newHigStatInterval ) m_lastHigStatInterval = (m_lastLumiBlock-1)/LBsHigStat;
         }
      }
   }
 
   return StatusCode::SUCCESS;
}

fillTileHist()

void CaloClusterVecMon::fillTileHist ( const xAOD::CaloClusterContainer *  clusterCont )

private

Definition at line 1016 of file CaloClusterVecMon.cxx.

                                                                               {
 
  //xAOD::CaloClusterContainer clusColl(SG::VIEW_ELEMENTS);
  std::vector<const CaloCluster*> clusColl;
  for (const auto *clu : *clusterCont) {
    if ( fabs( clu->eta() ) < 1.6 ) clusColl.push_back(clu);
  }
  /*
  for(xAOD::CaloClusterContainer::const_iterator clusIter = clusterCont->begin(); clusIter != clusterCont->end(); ++clusIter) {
    //CaloCluster* cluster_ptr = const_cast<CaloCluster*>(*clusIter); 
    const CaloCluster* cluster_ptr = *clusIter; 
    if ( fabs( cluster_ptr->eta() ) < 1.6 ) clusColl.push_back(cluster_ptr);
  }
  */
  //std::sort(clusColl.begin(),clusColl.end(),GetSort::ClusSort());
  std::sort(clusColl.begin(),clusColl.end(),[](const xAOD::CaloCluster* o1, const xAOD::CaloCluster* o2) {return o1->e() > o2->e();}); //C++11 
 
  int i_clus=0;
 
  
 
 
  //for(xAOD::CaloClusterContainer::const_iterator iCluster = clusColl.begin(); iCluster != clusColl.end(); iCluster++) {
  for (const CaloCluster* cluster_ptr : clusColl) {
     float energy = cluster_ptr->e()/GeV;
     float eta = cluster_ptr->eta();
     float phi = cluster_ptr->phi();
     float eSum=0.;
     float eSumTile=0.;
     float ratio=0.0;
     float ratioTile=0.0;
 
     if (energy <  m_Threshold/GeV) continue;
 
     const CaloClusterCellLink* cellLinks=cluster_ptr->getCellLinks();
     if (!cellLinks) {
       ATH_MSG_DEBUG( "No cell links for this cluster"  );
       return;
     }
 
     const CaloCellContainer* cellCont=cellLinks->getCellContainer();
     if (!cellCont) {
       ATH_MSG_DEBUG( "DataLink to cell container is broken"  );
       return;
     }
 
     for (CaloCluster::const_cell_iterator itrCell = cluster_ptr->cell_begin();itrCell!=cluster_ptr->cell_end(); ++itrCell) {
       const CaloCell * theCell=*itrCell;
       float cell_e = theCell->energy()/GeV;
       eSum+=cell_e;
 
       const Identifier cellId = theCell->ID();
       if (m_caloCellHelper->is_tile(cellId))  eSumTile+=cell_e; 
     }
 
     if (eSum>0.) {
       ratio= energy / eSum;
       ratioTile=eSumTile / eSum;
     }
 
     m_clustersCellsRatioE->Fill(  energy, ratio, 1.0  );
     m_clustersCellsRatioEta->Fill(  eta, ratio, 1.0  );
     m_clustersCellsRatioPhi->Fill(  phi, ratio, 1.0  );
 
     m_clustersCellsE->Fill(  energy, ratioTile, 1.0  );
     m_clustersCellsEta->Fill(  eta, ratioTile, 1.0  );
     m_clustersCellsPhi->Fill(  phi, ratioTile, 1.0  );
 
     if( ratioTile > 0.5 ) {
       m_clustersE->Fill( energy );
       m_clustersEta->Fill( eta, energy );
       m_clustersPhi->Fill( phi, energy );
       m_clustersEtaPhi->Fill(  eta, phi  );
     }
     i_clus++;
     if (i_clus > 4) break; // take 4  most energetic clusters
  }
}

fillTileHistRange()

void CaloClusterVecMon::fillTileHistRange ( )

private

Definition at line 615 of file CaloClusterVecMon.cxx.

                                         {
    m_binRangeE.reserve(3);
    m_binRangeE[0]=200;
    m_binRangeE[1]=0;
    m_binRangeE[2]=150; // changed the energy from 100 to 150 
 
    m_binRangeEta.reserve(3);
    m_binRangeEta[0]=16;
    m_binRangeEta[1]=-1.6;
    m_binRangeEta[2]=1.6;
 
    m_binRangePhi.reserve(3);
    m_binRangePhi[0]=64;
    m_binRangePhi[1]=-M_PI;
    m_binRangePhi[2]=M_PI;
 
    m_binRangeEtaPhi.reserve(6);
    m_binRangeEtaPhi[0]=16;
    m_binRangeEtaPhi[1]=-1.6;
    m_binRangeEtaPhi[2]=1.6;
    m_binRangeEtaPhi[3]=64;
    m_binRangeEtaPhi[4]=-M_PI;
    m_binRangeEtaPhi[5]=M_PI;
}

finalHists()

StatusCode ManagedMonitorToolBase::finalHists ( )

virtualinherited

Calls procHists( true, true, true ).

Implements IMonitorToolBase.

Reimplemented in TileRawChannelMonTool, TileDigitsMonTool, and TileCellNoiseMonTool.

Definition at line 1333 of file ManagedMonitorToolBase.cxx.

{
 
   // This assumes that the end of a file will naturally end a run, which is not always true.
   // A merging application run afterwards should be able to put parts of a run together.
   if( m_nEvents != 1 ) {
     m_d->benchPreProcHistograms();
 
     // Set end flags for the LowStat, LumiBlock and Run variables.
     // This is needed to be used in the procHistograms method below.
     m_endOfEventsBlock = true;
     m_endOfLowStat = true;
     m_endOfLumiBlock = true;
     m_endOfRun = true;
     endOfEventsBlock = true;
     endOfLowStat = true;
     endOfLumiBlock = true;
     endOfRun = true;
 
     StatusCode sc = procHistograms();
 
/*
     StatusCode sc1( StatusCode::SUCCESS );
 
#if 0
     for (const auto interval: m_supportedIntervalsForRebooking) {
       //sc1 = regManagedHistograms(m_templateHistograms[interval], false);
       //sc1 = regManagedGraphs(m_templateGraphs[interval], false);
       //sc1 = regManagedTrees(m_templateTrees[interval], false);
       
       // Yura: commented out when fixing online environment
       //sc1 = regManagedLWHistograms(m_templateLWHistograms[interval], false, true);
     }
*/
 
     m_d->benchPostProcHistograms();
     return sc;
   }
   return StatusCode::SUCCESS;
}

get_nEvents()

unsigned int ManagedMonitorToolBase::get_nEvents ( ) const

inlineprotectedinherited

Definition at line 754 of file ManagedMonitorToolBase.h.

                                              {
          return m_nEvents; 
      }

get_procNEventsProp()

long ManagedMonitorToolBase::get_procNEventsProp ( ) const

inlineprotectedinherited

Definition at line 758 of file ManagedMonitorToolBase.h.

                                              {
          return m_procNEventsProp;
      }

getHist() [1/6]

StatusCode ManagedMonitorToolBase::getHist ( LWHist *&  h, const std::string &  hName, const MonGroup &  group  )

virtualinherited

Definition at line 1614 of file ManagedMonitorToolBase.cxx.

{
  h = 0;
  std::string streamName = streamNameFunction()->getStreamName( this, group, hName );
  std::set<LWHist*>::iterator it(m_lwhists.begin()),itE(m_lwhists.end());
  for (;it!=itE;++it) {
    if (LWHistAthMonWrapper::streamName(*it)==streamName) {
      h = *it;
      return StatusCode::SUCCESS;
    }
  }
  return StatusCode::FAILURE;
}

getHist() [2/6]

StatusCode ManagedMonitorToolBase::getHist ( LWHist *&  h, const std::string &  hName, const std::string &  system, Interval_t  interval  )

virtualinherited

Definition at line 1606 of file ManagedMonitorToolBase.cxx.

{
   MonGroup group( this, system, interval );
   return getHist( h, hName, group );
}

getHist() [3/6]

StatusCode ManagedMonitorToolBase::getHist ( TH1 *&  h, const std::string &  hName, const MonGroup &  group  )

virtualinherited

Returns a TH1 via the pointer passed as the first argument.

The histogram name, without the leading path or stream name, must be given as the second argument.

Definition at line 1598 of file ManagedMonitorToolBase.cxx.

{
   std::string streamName = streamNameFunction()->getStreamName( this, group, hName );
   return m_THistSvc->getHist( streamName, h );
}

getHist() [4/6]

StatusCode ManagedMonitorToolBase::getHist ( TH1 *&  h, const std::string &  hName, const std::string &  system, Interval_t  interval  )

virtualinherited

Returns a TH1 via the pointer passed as the first argument.

The histogram name, without the leading path or stream name, must be given as the second argument.

Definition at line 1588 of file ManagedMonitorToolBase.cxx.

{
   MonGroup group( this, system, interval );
   return getHist( h, hName, group );
}

getHist() [5/6]

StatusCode ManagedMonitorToolBase::getHist ( TH2 *&  h, const std::string &  hName, const MonGroup &  group  )

virtualinherited

Returns a TH2 via the pointer passed as the first argument.

The histogram name, without the leading path or stream name, must be given as the second argument.

Definition at line 1640 of file ManagedMonitorToolBase.cxx.

{
   std::string streamName = streamNameFunction()->getStreamName( this, group, hName );
   return m_THistSvc->getHist( streamName, h );
}

getHist() [6/6]

StatusCode ManagedMonitorToolBase::getHist ( TH2 *&  h, const std::string &  hName, const std::string &  system, Interval_t  interval  )

virtualinherited

Returns a TH2 via the pointer passed as the first argument.

The histogram name, without the leading path or stream name, must be given as the second argument.

Definition at line 1630 of file ManagedMonitorToolBase.cxx.

{
   MonGroup group( this, system, interval );
   return getHist( h, hName, group );
}

getNewStreamNameFcn()

ManagedMonitorToolBase::StreamNameFcn * ManagedMonitorToolBase::getNewStreamNameFcn ( ) const

protectedvirtualinherited

Definition at line 2387 of file ManagedMonitorToolBase.cxx.

{
   StreamNameFcn* fcn(0);
 
   switch( m_environment ) {
      case AthenaMonManager::noOutput:
         fcn = new NoOutputStream();
         break;
      case AthenaMonManager::online:
         fcn = new OnlineStream();
         break;
      case AthenaMonManager::user:
         fcn = new DefaultStream( m_fileKey );
         break;
      case AthenaMonManager::tier0:
      case AthenaMonManager::tier0Raw:
      case AthenaMonManager::tier0ESD:
      case AthenaMonManager::AOD:
      case AthenaMonManager::altprod:
      default:
         fcn = new OfflineStream( m_fileKey, m_dataType, m_environment );
   }
 
   return fcn;
}

initCounter()

void CaloClusterVecMon::initCounter ( )

private

Definition at line 740 of file CaloClusterVecMon.cxx.

                                   {
 
  m_cluscount=0;
  m_cluscount_top=0;
  m_cluscount_bot=0;
  m_maxclusindex_top=0;
  m_maxclusindex_bot=0;
  m_maxclusene_top=0;
  m_maxclusene_bot=0;
}

initHists()

void CaloClusterVecMon::initHists ( )

private

Definition at line 95 of file CaloClusterVecMon.cxx.

                                 {
 // cell hists 
 m_eventsCounter = 0; // km add
 m_nCells=nullptr;
 m_maxEcellToEclusterRatio=nullptr;
 m_dominantCellOccupancy_etaphi=nullptr;
 m_dominantCellAverageEnergy_etaphi=nullptr; 
 m_nCellInCluster_etaphi=nullptr;
 m_clusterTimeVsEnergy=nullptr;
 m_clusterTime=nullptr;
 m_cellTime=nullptr;
 m_cellvsclust_time=nullptr; 
 
 // mult-threshold cluster hists
 for (int iE=0; iE<MAX_E; iE++){
   m_clus_etaphi_Et_thresh[iE]=nullptr;
   m_etaphi_thresh_avgEt[iE]=nullptr;
//   m_EMclus_etaphi_Et_thresh[iE]=0;
//   m_EMclus_etaVsPhi[iE]=0;
   m_clus_eta[iE]=nullptr;
   m_clus_eta_Et[iE]=nullptr;  // km add
   for(int j_plot=0; j_plot<3; j_plot++){
   m_clus_phi[iE][j_plot]=nullptr;
   m_clus_phi_Et[iE][j_plot]=nullptr;} // km add
   m_etaVsPhi[iE]=nullptr;
   m_etaphi_thresh_avgenergy[iE]=nullptr;
   m_etaphi_thresh_Totalenergy[iE]=nullptr;
  }
 
 // negative energy cluster hists 
  m_etaVsPhiNegEn=nullptr;
  m_averageNegativeEnergy_etaphi=nullptr;
 
  // no threshold cluster hists
  m_averageEnergy_phi=nullptr;
  m_averageEnergy_eta=nullptr;
 
  m_clusterEnergyVsEta_barrel=nullptr;
  m_clusterEnergyVsEta_endcap=nullptr;
  m_clusterEnergyVsEta_hecfcal=nullptr;
  m_clusterEtVsEta_barrel=nullptr; // for non-cosmics
  m_clusterEtVsEta_endcap=nullptr; // for non-cosmics
  m_clusterEtVsEta_hecfcal=nullptr; // for non-cosmics
 
  // energy > 500GeV cluster hists
  m_averageEtOver500_etaphi=nullptr; // for non-cosmics
 
  // cluster stat hists
  m_nClusters=nullptr;
  m_nClustersBottomVsTop=nullptr;
  m_averageEnergy_etaphi_maxEclusters=nullptr;
  m_dEtaVsdPhi_maxEclustersTopVsBottom=nullptr; // for cosmics 
 
  // tile hists 
  m_clustersCellsRatioEta=nullptr;
  m_clustersCellsRatioPhi=nullptr;
  m_clustersCellsRatioE=nullptr;
 
  m_clustersE=nullptr;
  m_clustersEta=nullptr;
  m_clustersPhi=nullptr;
  m_clustersEtaPhi=nullptr;
 
  m_clustersCellsEta=nullptr;
  m_clustersCellsPhi=nullptr;
  m_clustersCellsE=nullptr;
}

initialize()

StatusCode CaloClusterVecMon::initialize ( )

virtual

Reimplemented from ManagedMonitorToolBase.

Definition at line 164 of file CaloClusterVecMon.cxx.

                                         {
  StatusCode sc = StatusCode::SUCCESS;
  sc = retrieveTools();
 
  //Initialize read handle key
  ATH_CHECK( m_clusterContainerName.initialize() );
 
  sc = CaloMonToolBase::initialize();
  if(sc.isFailure()){
    ATH_MSG_ERROR("Could not initialize ManagedMonitorToolBase");
    return sc;
  }
 
  ATH_CHECK( ManagedMonitorToolBase::initialize() );
  ATH_CHECK( CaloMonToolBase::initialize() );
 
  return sc;
}

inputHandles()

virtual std::vector<Gaudi::DataHandle*> AthCommonDataStore< AthCommonMsg< AlgTool > >::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.

interfaceID()

static const InterfaceID& IMonitorToolBase::interfaceID ( )

inlinestaticinherited

Definition at line 29 of file IMonitorToolBase.h.

{ return IID_IMonitorToolBase; }

intervalEnumToString()

std::string ManagedMonitorToolBase::intervalEnumToString ( Interval_t  interval )

staticinherited

Converts a LevelOfDetail_t to a string of the same name.

Converts a string to the corresponding LevelOfDetail_t. Converts a Interval_t to a string of the same name.

Definition at line 587 of file ManagedMonitorToolBase.cxx.

{
   std::string str("file");
 
   switch( interval ) {
      case all:
         str = "all";
         break;
      case fill:
         str = "fill";
         break;
      case run:
         str = "run";
         break;
      case lowStat:
         str = "lowStat";
         break;
      case medStat:
         str = "medStat";
         break;
      case higStat:
         str = "higStat";
         break;
      case lumiBlock:
         str = "lumiBlock";
         break;
      case eventsBlock:
         str = "eventsBlock";
         break;
      case file:
     str = "file";
     break;
      default:
         str = "unknown";
   }
 
   return str;
}

intervalStringToEnum()

ManagedMonitorToolBase::Interval_t ManagedMonitorToolBase::intervalStringToEnum ( const std::string &  str )

staticinherited

Converts a string to the corresponding Interval_t.

Definition at line 629 of file ManagedMonitorToolBase.cxx.

{
   std::string lcstr( strToLower(str) );
 
   if( lcstr == "all" )
      return all;
   else if( lcstr == "fill" )
      return fill;
   else if( lcstr == "run" )
      return run;
   else if( lcstr == "lowStat" )
      return lowStat;
   else if( lcstr == "medStat" )
      return medStat;
   else if( lcstr == "higStat" )
      return higStat;
   else if( lcstr == "lumiBlock" )
      return lumiBlock;
   else if( lcstr == "eventsBlock" )
      return eventsBlock;
   else if( lcstr == "file" )
      return file;
 
   if( Imp::s_svcLocator ) {
      IMessageSvc* ms(0);
      StatusCode sc = Imp::s_svcLocator.load()->service( "MessageSvc", ms, true );
      if( sc.isSuccess() ) {
         MsgStream log( ms, "ManagedMonitorToolBase::intervalStringToEnum()" );
         log << MSG::WARNING << "Unknown ManagedMonitorToolBase::Interval_t \""
            << str << "\", returning \"file\"" << endmsg;
      }
   }
 
   return file;
}

lbAverageInteractionsPerCrossing()

float ManagedMonitorToolBase::lbAverageInteractionsPerCrossing ( const EventContext &  ctx = Gaudi::Hive::currentContext() ) const

virtualinherited

Average mu, i.e.

<mu>

Definition at line 1923 of file ManagedMonitorToolBase.cxx.

{
    if (!m_lumiDataKey.empty()) {
        SG::ReadCondHandle<LuminosityCondData> lumi (m_lumiDataKey, ctx);
        return lumi->lbAverageInteractionsPerCrossing();
    } else {
        //ATH_MSG_FATAL("! Luminosity tool has been disabled ! lbAverageInteractionsPerCrossing() can't work properly! ");
        ATH_MSG_DEBUG("Warning: lbAverageInteractionsPerCrossing() - luminosity tools are not retrieved or turned on (i.e. EnableLumi = False)");
        return -1.0;
    }
    // not reached
}

lbAverageLivefraction()

float ManagedMonitorToolBase::lbAverageLivefraction ( const EventContext &  ctx = Gaudi::Hive::currentContext() ) const

virtualinherited

Average luminosity livefraction.

Definition at line 1992 of file ManagedMonitorToolBase.cxx.

{
    if (m_environment == AthenaMonManager::online)
        return 1.0;
 
    if (!m_trigLiveFractionDataKey.empty()) {
        SG::ReadCondHandle<TrigLiveFractionCondData> live (m_trigLiveFractionDataKey, ctx);
        return live->lbAverageLiveFraction();
    } else {
        //ATH_MSG_FATAL("! Luminosity tool has been disabled ! lbAverageLivefraction() can't work properly! ");
        ATH_MSG_DEBUG("Warning: lbAverageLivefraction() - luminosity not availble (i.e. EnableLumi = False)");
        return -1.0;
    }
    // not reached
}

lbAverageLuminosity()

float ManagedMonitorToolBase::lbAverageLuminosity ( const EventContext &  ctx = Gaudi::Hive::currentContext() ) const

virtualinherited

Average luminosity (in ub-1 s-1 => 10^30 cm-2 s-1)

Definition at line 1959 of file ManagedMonitorToolBase.cxx.

{
    if (!m_lumiDataKey.empty()) {
        SG::ReadCondHandle<LuminosityCondData> lumi (m_lumiDataKey, ctx);
        return lumi->lbAverageLuminosity();
    } else {
        //ATH_MSG_FATAL("! Luminosity tool has been disabled ! lbAverageLuminosity() can't work properly! ");
        ATH_MSG_DEBUG("Warning: lbAverageLuminosity() - luminosity tools are not retrieved or turned on (i.e. EnableLumi = False)");
        return -1.0;
    }
    // not reached
}

lbDuration()

double ManagedMonitorToolBase::lbDuration ( const EventContext &  ctx = Gaudi::Hive::currentContext() ) const

virtualinherited

Luminosity block time (in seconds)

Definition at line 2046 of file ManagedMonitorToolBase.cxx.

{
    if ( m_environment == AthenaMonManager::online ) {
        return m_defaultLBDuration;
    }
    if (!m_lbDurationDataKey.empty()) {
        SG::ReadCondHandle<LBDurationCondData> dur (m_lbDurationDataKey, ctx);
        return dur->lbDuration();
    } else {
        //ATH_MSG_FATAL("! Luminosity tool has been disabled ! lbDuration() can't work properly! ");
        ATH_MSG_DEBUG("Warning: lbDuration() - luminosity tools are not retrieved or turned on (i.e. EnableLumi = False)");
        return m_defaultLBDuration;
    }
    // not reached
}

lbInteractionsPerCrossing()

float ManagedMonitorToolBase::lbInteractionsPerCrossing ( const EventContext &  ctx = Gaudi::Hive::currentContext() ) const

virtualinherited

Instantaneous number of interactions, i.e.

mu

Definition at line 1939 of file ManagedMonitorToolBase.cxx.

{
    if (!m_lumiDataKey.empty()) {
        SG::ReadCondHandle<LuminosityCondData> lumi (m_lumiDataKey, ctx);
        float muToLumi = lumi->muToLumi();
        if (muToLumi > 0) {
          return lumi->lbLuminosityPerBCIDVector().at (ctx.eventID().bunch_crossing_id()) / muToLumi;
        }
        return 0;
    } else {
        //ATH_MSG_FATAL("! Luminosity tool has been disabled ! lbInteractionsPerCrossing() can't work properly! ");
        ATH_MSG_DEBUG("Warning: lbInteractionsPerCrossing() - luminosity tools are not retrieved or turned on (i.e. EnableLumi = False)");
        return -1.0;
    }
    // not reached
}

lbLuminosityPerBCID()

float ManagedMonitorToolBase::lbLuminosityPerBCID ( const EventContext &  ctx = Gaudi::Hive::currentContext() ) const

virtualinherited

Instantaneous luminosity.

Definition at line 1975 of file ManagedMonitorToolBase.cxx.

{
    if (!m_lumiDataKey.empty()) {
        SG::ReadCondHandle<LuminosityCondData> lumi (m_lumiDataKey, ctx);
        return lumi->lbLuminosityPerBCIDVector().at (ctx.eventID().bunch_crossing_id());
    } else {
        //ATH_MSG_FATAL("! Luminosity tool has been disabled ! lbLuminosityPerBCID() can't work properly! ");
        ATH_MSG_DEBUG("Warning: lbLuminosityPerBCID() - luminosity tools are not retrieved or turned on (i.e. EnableLumi = False)");
        return -1.0;
    }
    // not reached
}

lbLumiWeight()

double ManagedMonitorToolBase::lbLumiWeight ( const EventContext &  ctx = Gaudi::Hive::currentContext() ) const

virtualinherited

Average Integrated Luminosity Live Fraction.

Definition at line 2030 of file ManagedMonitorToolBase.cxx.

{
    if (!m_lumiDataKey.empty()) {
        return (lbAverageLuminosity(ctx)*lbDuration(ctx))*lbAverageLivefraction(ctx);
    } else{
        //ATH_MSG_FATAL("! Luminosity tool has been disabled ! lbLumiWeight() can't work properly! ");
        ATH_MSG_DEBUG("Warning: lbLumiWeight() - luminosity tools are not retrieved or turned on (i.e. EnableLumi = False)");
        return -1.0;
    }
    // not reached
}

livefractionPerBCID()

float ManagedMonitorToolBase::livefractionPerBCID ( const EventContext &  ctx = Gaudi::Hive::currentContext() ) const

virtualinherited

Livefraction per bunch crossing ID.

Definition at line 2011 of file ManagedMonitorToolBase.cxx.

{
    if (m_environment == AthenaMonManager::online)
        return 1.0;
 
    if (!m_trigLiveFractionDataKey.empty()) {
        SG::ReadCondHandle<TrigLiveFractionCondData> live (m_trigLiveFractionDataKey, ctx);
        return live->l1LiveFractionVector().at (ctx.eventID().bunch_crossing_id());
    } else {
        //ATH_MSG_FATAL("! Luminosity tool has been disabled ! livefractionPerBCID() can't work properly! ");
        ATH_MSG_DEBUG("Warning: livefractionPerBCID() - luminosity retrieved available (i.e. EnableLumi = False)");
        return -1.0;
    }
    // not reached
}

MMTB_DEPRECATED() [1/11]

ManagedMonitorToolBase::MMTB_DEPRECATED ( endOfEventsBlock  )

inherited

MMTB_DEPRECATED() [2/11]

ManagedMonitorToolBase::MMTB_DEPRECATED ( endOfLowStat  )

inherited

MMTB_DEPRECATED() [3/11]

ManagedMonitorToolBase::MMTB_DEPRECATED ( endOfLumiBlock  )

inherited

MMTB_DEPRECATED() [4/11]

ManagedMonitorToolBase::MMTB_DEPRECATED ( endOfRun  )

inherited

MMTB_DEPRECATED() [5/11]

ManagedMonitorToolBase::MMTB_DEPRECATED ( newEventsBlock  )

inherited

MMTB_DEPRECATED() [6/11]

ManagedMonitorToolBase::MMTB_DEPRECATED ( newHigStatInterval  )

inherited

MMTB_DEPRECATED() [7/11]

ManagedMonitorToolBase::MMTB_DEPRECATED ( newLowStat  )

inherited

MMTB_DEPRECATED() [8/11]

ManagedMonitorToolBase::MMTB_DEPRECATED ( newLowStatInterval  )

inherited

MMTB_DEPRECATED() [9/11]

ManagedMonitorToolBase::MMTB_DEPRECATED ( newLumiBlock  )

inherited

MMTB_DEPRECATED() [10/11]

ManagedMonitorToolBase::MMTB_DEPRECATED ( newMedStatInterval  )

inherited

MMTB_DEPRECATED() [11/11]

ManagedMonitorToolBase::MMTB_DEPRECATED ( newRun  )

inherited

msg() [1/2]

MsgStream& AthCommonMsg< AlgTool >::msg ( ) const

inlineinherited

Definition at line 24 of file AthCommonMsg.h.

                                {
    return this->msgStream();
  }

msg() [2/2]

MsgStream& AthCommonMsg< AlgTool >::msg ( const MSG::Level  lvl ) const

inlineinherited

Definition at line 27 of file AthCommonMsg.h.

                                                  {
    return this->msgStream(lvl);
  }

msgLvl()

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

inlineinherited

Definition at line 30 of file AthCommonMsg.h.

                                               {
    return this->msgLevel(lvl);
  }

newEventsBlockFlag()

bool ManagedMonitorToolBase::newEventsBlockFlag ( ) const

inlineprotectedinherited

Definition at line 855 of file ManagedMonitorToolBase.h.

{ return m_newEventsBlock; }

newHigStatIntervalFlag()

bool ManagedMonitorToolBase::newHigStatIntervalFlag ( ) const

inlineprotectedinherited

Definition at line 851 of file ManagedMonitorToolBase.h.

{ return m_newHigStatInterval; }

newLowStatFlag()

bool ManagedMonitorToolBase::newLowStatFlag ( ) const

inlineprotectedinherited

Definition at line 852 of file ManagedMonitorToolBase.h.

{ return m_newLowStat; }

newLowStatIntervalFlag()

bool ManagedMonitorToolBase::newLowStatIntervalFlag ( ) const

inlineprotectedinherited

Flag functions allowing clients to determine when to book new and process old histograms; values are updated by fillHists() based on counting lumiBlocks, and are correctly set when fillHistograms(), bookHistograms() and procHistograms() are called.

Definition at line 849 of file ManagedMonitorToolBase.h.

{ return m_newLowStatInterval; }

newLumiBlockFlag()

bool ManagedMonitorToolBase::newLumiBlockFlag ( ) const

inlineprotectedinherited

Definition at line 853 of file ManagedMonitorToolBase.h.

{ return m_newLumiBlock; }

newMedStatIntervalFlag()

bool ManagedMonitorToolBase::newMedStatIntervalFlag ( ) const

inlineprotectedinherited

Definition at line 850 of file ManagedMonitorToolBase.h.

{ return m_newMedStatInterval; }

newRunFlag()

bool ManagedMonitorToolBase::newRunFlag ( ) const

inlineprotectedinherited

Definition at line 854 of file ManagedMonitorToolBase.h.

{ return m_newRun; }

outputHandles()

virtual std::vector<Gaudi::DataHandle*> AthCommonDataStore< AthCommonMsg< AlgTool > >::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 ManagedMonitorToolBase::parseList ( const std::string &  line, std::vector< std::string > &  result  )

protectedinherited

Definition at line 2343 of file ManagedMonitorToolBase.cxx.

                                                               {
   std::string item;
   std::stringstream ss(line);
 
   if (msgLvl(MSG::DEBUG)) msg(MSG::DEBUG) << "ManagedMonitorToolBase::parseList:";
 
   while ( std::getline(ss, item, ',') ) {
      std::stringstream iss(item); // remove 
      iss >> item;                 // whitespace 
      if (msgLvl(MSG::DEBUG)) msg(MSG::DEBUG) << " " << item;
      result.push_back(item);
   }
 
   msg(MSG::DEBUG) << endmsg;
   return StatusCode::SUCCESS;
}

preSelector()

bool ManagedMonitorToolBase::preSelector ( )

virtualinherited

Implements IMonitorToolBase.

Definition at line 1911 of file ManagedMonitorToolBase.cxx.

{
   if( m_preScaleProp > 1 ) {
      return ( (m_nEvents % m_preScaleProp) == 1 );
   }
   return true;
}

procHistograms()

StatusCode CaloClusterVecMon::procHistograms ( )

virtual

An inheriting class should either override this function or finalHists().

Reimplemented from ManagedMonitorToolBase.

Definition at line 1096 of file CaloClusterVecMon.cxx.

                                              {
  StatusCode sc = StatusCode::SUCCESS;
  return sc;
}

regEfficiency()

StatusCode ManagedMonitorToolBase::regEfficiency ( TEfficiency *  e, const MonGroup &  group  )

virtualinherited

Registers a TEfficiency to be included in the output stream using logical parameters that describe the plot.

Definition at line 1648 of file ManagedMonitorToolBase.cxx.

                                                                                        {
    if (!e)
        return StatusCode::FAILURE;
 
    TGraph* g = reinterpret_cast<TGraph*>(e);
    std::string name = e->GetName();
 
    // MANAGED
    if ( group.histo_mgmt() != ATTRIB_UNMANAGED ) {
        // warn about not using merge algorithms
        if (group.histo_mgmt() == ATTRIB_X_VS_LB && group.merge().empty()) {
            ATH_MSG_WARNING("HEY! Attempting to register "<<name<<" as a per-LB histogram, but not setting the merge algorithm! Use \"merge\", at least.");
        }
        // add the efficiency to rebooking vector
        if (m_supportedIntervalsForRebooking.count(group.interval())) {
            m_templateEfficiencies[group.interval()].push_back( MgmtParams<TEfficiency>(e, group) );
        } else {
            ATH_MSG_ERROR("Attempt to book managed graph " << name << " with invalid interval type " << intervalEnumToString(group.interval()));
            return StatusCode::FAILURE;
        }
 
        MonGroup group_unmanaged( this, group.system(), group.interval(), ATTRIB_UNMANAGED, group.chain(), group.merge());
        std::string streamName = streamNameFunction()->getStreamName( this, group_unmanaged, name, false );
        registerMetadata(streamName, name, group).ignore();
        return m_THistSvc->regGraph( streamName, g );
    } else {
    // UNMANAGED
        if( m_manager != 0 ) {
            std::string genericName = NoOutputStream().getStreamName( this, group, name );
            m_manager->writeAndDelete( genericName );
            m_manager->passOwnership( e, genericName );
        }
 
        std::string streamName = streamNameFunction()->getStreamName( this, group, name, false );
        StatusCode smd = registerMetadata(streamName, name, group);
        if (smd != StatusCode::SUCCESS) 
            return StatusCode::FAILURE;
 
        return m_THistSvc->regGraph( streamName, g );
    }
}

regGraph() [1/2]

StatusCode ManagedMonitorToolBase::regGraph ( TGraph *  g, const MonGroup &  group  )

virtualinherited

Registers a TGraph to be included in the output stream using logical parameters that describe the graph.

Definition at line 1702 of file ManagedMonitorToolBase.cxx.

{
   if (!g)
      return StatusCode::FAILURE;
 
   // This part of the code deals with MANAGED type
   if ( group.histo_mgmt() != ATTRIB_UNMANAGED ) {
       // Create an unmanaged group based on the original MonGroup instance passed
       // This is needed because managed graph is presented as a number of unmanaged
       // graphs (one per each interval)
       MonGroup group_unmanaged( this, group.system(), group.interval(), ATTRIB_UNMANAGED, group.chain(), group.merge());
 
       if (m_supportedIntervalsForRebooking.count(group.interval())) {
           m_templateGraphs[group.interval()].push_back( MgmtParams<TGraph>(g, group_unmanaged) );
       } else {
           ATH_MSG_ERROR("Attempt to book managed graph " << g->GetName() << " with invalid interval type " << intervalEnumToString(group.interval()));
           return StatusCode::FAILURE;
       }
 
       std::string name = g->GetName();
       std::string streamName = streamNameFunction()->getStreamName( this, group_unmanaged, name, false );
       registerMetadata(streamName, name, group).ignore();
       return m_THistSvc->regGraph( streamName, g );
       //return m_THistSvc->regGraph( streamName );
   } 
 
   // This part of the code deals with UNMANAGED type
   std::string gName = g->GetName();
 
   if( m_manager != 0 ) {
      std::string genericName = NoOutputStream().getStreamName( this, group, gName );
      m_manager->writeAndDelete( genericName );
      m_manager->passOwnership( g, genericName );
   }
 
   std::string streamName = streamNameFunction()->getStreamName( this, group, gName, false );
 
   StatusCode smd = registerMetadata(streamName, gName, group);
   if (smd != StatusCode::SUCCESS) return StatusCode::FAILURE;
 
   return m_THistSvc->regGraph( streamName, g );
}

regGraph() [2/2]

StatusCode ManagedMonitorToolBase::regGraph ( TGraph *  g, const std::string &  system, Interval_t  interval, MgmtAttr_t  histo_mgmt = ATTRIB_MANAGED, const std::string &  chain = "", const std::string &  merge = ""  )

virtualinherited

Registers a TGraph to be included in the output stream using logical parameters that describe the graph.

Definition at line 1692 of file ManagedMonitorToolBase.cxx.

{
   MonGroup group( this, system, interval, histo_mgmt, chain, merge );
   return regGraph( g, group );
}

regHist() [1/4]

StatusCode ManagedMonitorToolBase::regHist ( LWHist *  h, const MonGroup &  group  )

virtualinherited

Definition at line 1522 of file ManagedMonitorToolBase.cxx.

{
   // You may want to setROOTBackend to true in online environment
   //LWHistControls::setROOTBackend(true);
   
   if (!h)
      return StatusCode::FAILURE;
 
   if (!m_bookHistogramsInitial) {
           ATH_MSG_DEBUG("Yura: very first time");
       if ( group.histo_mgmt() != ATTRIB_UNMANAGED ) {
 
               ATH_MSG_DEBUG("Yura: we have managed histograms");
           if (m_supportedIntervalsForRebooking.count(group.interval())) {
                       ATH_MSG_DEBUG("        Yura: adding histogram" << h->GetName());
               m_templateLWHistograms[group.interval()].push_back( MgmtParams<LWHist>(h, group) );
           } else {
               ATH_MSG_ERROR("Attempt to book managed histogram " << h->GetName() << " with invalid interval type " << intervalEnumToString(group.interval()));
               return StatusCode::FAILURE;
           }
           //return StatusCode::SUCCESS; 
       }
   }
 
    //FIXME: Code copied more or less verbatim from above. Collect most code (espc. for streamname) in common helpers!!
    std::string hName = h->GetName();
 
    if( m_manager )
    {
        std::string genericName = NoOutputStream().getStreamName(this, group, hName );
        LWHistAthMonWrapper::setKey(h,genericName);
        LWHist* prevLWHist = m_manager->ownedLWHistOfKey(genericName);
        if (prevLWHist)
        {
            std::set<LWHist*>::iterator it =  m_lwhists.find(prevLWHist);
            if (it!=m_lwhists.end())
            {
                if ( group.histo_mgmt() != ATTRIB_UNMANAGED ) {
                    m_manager->writeAndResetLWHist( genericName, LWHistAthMonWrapper::streamName(prevLWHist) );
                } else {
                    m_manager->writeAndDeleteLWHist( genericName, LWHistAthMonWrapper::streamName(prevLWHist) );
                }
                m_lwhists.erase(it);
            }
        }
        m_manager->passOwnership( h, genericName );
    }
    m_lwhists.insert(h);
 
    std::string streamName = streamNameFunction()->getStreamName( this, group, hName );
    LWHistAthMonWrapper::setStreamName(h,streamName);
    registerMetadata(streamName, hName, group).ignore();
 
    //Delay registration with THistSvc (unless root backend):
    //m_lwhistMap.insert(std::pair<LWHist*,std::string>(h,streamName));
    if (h->usingROOTBackend())
    {
        h->setOwnsROOTHisto(false);//Since might end up with thist svc
        return m_THistSvc->regHist( streamName, h->getROOTHistBase() );
    }
 
    return StatusCode::SUCCESS;
 
}

regHist() [2/4]

StatusCode ManagedMonitorToolBase::regHist ( LWHist *  h, const std::string &  system, Interval_t  interval, MgmtAttr_t  histo_mgmt = ATTRIB_MANAGED, const std::string &  chain = "", const std::string &  merge = ""  )

virtualinherited

Support for lightweight histograms:

Definition at line 1515 of file ManagedMonitorToolBase.cxx.

{
    MonGroup group( this, system, interval, histo_mgmt, chain, merge );
    return regHist( h, group );
}

regHist() [3/4]

StatusCode ManagedMonitorToolBase::regHist ( TH1 *  h, const MonGroup &  group  )

virtualinherited

Registers a TH1 (including TH2, TH3, and TProfile) to be included in the output stream using logical parameters that describe the histogram.

A histogram is passed via reference to a pointer.

Definition at line 1462 of file ManagedMonitorToolBase.cxx.

{
//   ManagedMonitorToolBase_addHistStatistics(this,h);
 
  if (!h)
    return StatusCode::FAILURE;
  
  // This part of the code deals with MANAGED type
  if ( group.histo_mgmt() != ATTRIB_UNMANAGED ) {
    /* 
       Create an unmanaged group based on the original MonGroup instance passed
       It is needed because managed histogram is presented as a number of unmanaged
       histograms (one per each interval)
       Update (PUEO) - I don't think it actually matters, and need to keep 
       track of "proper" attribute for X_VS_LB
    */
    
    if (group.histo_mgmt() == ATTRIB_X_VS_LB && group.merge().empty()) {
      ATH_MSG_WARNING("HEY! You're attempting to register " << h->GetName() << " as a per-LB histogram, but you're not setting the merge algorithm! This is a SUPER-BAD idea! Use \"merge\", at least.");
    }
    
    if (m_supportedIntervalsForRebooking.count(group.interval())) {
      m_templateHistograms[group.interval()].push_back( MgmtParams<TH1>(h, group) );
    } else {
      ATH_MSG_ERROR("Attempt to book managed histogram " << h->GetName() << " with invalid interval type " << intervalEnumToString(group.interval()));
           return StatusCode::FAILURE;
    }
    
    std::string hName = h->GetName();
    MonGroup group_unmanaged( this, group.system(), group.interval(), ATTRIB_UNMANAGED, group.chain(), group.merge());
    std::string streamName = streamNameFunction()->getStreamName( this, group_unmanaged, hName, false );
    registerMetadata(streamName, hName, group).ignore();
    return m_THistSvc->regHist( streamName, h );
  }
  
  // This part of the code deals with UNMANAGED type
  std::string hName = h->GetName();
  
  if( m_manager != 0 ) {
    std::string genericName = NoOutputStream().getStreamName( this, group, hName );
    m_manager->writeAndDelete( genericName );
    m_manager->passOwnership( h, genericName );
  }
  
  std::string streamName = streamNameFunction()->getStreamName( this, group, hName, false );
  
  StatusCode smd = registerMetadata(streamName, hName, group);
  if (smd != StatusCode::SUCCESS) return StatusCode::FAILURE;
  
  return m_THistSvc->regHist( streamName, h );
}

regHist() [4/4]

StatusCode ManagedMonitorToolBase::regHist ( TH1 *  h, const std::string &  system, Interval_t  interval, MgmtAttr_t  histo_mgmt = ATTRIB_MANAGED, const std::string &  chain = "", const std::string &  merge = ""  )

virtualinherited

Registers a TH1 (including TH2, TH3, and TProfile) to be included in the output stream using logical parameters that describe the histogram.

Definition at line 1453 of file ManagedMonitorToolBase.cxx.

{
   MonGroup group( this, system, interval, histo_mgmt, chain, merge );
   return regHist( h, group );
}

registerMetadata()

StatusCode ManagedMonitorToolBase::registerMetadata ( const std::string &  streamName, const std::string &  hName, const MonGroup &  group  )

protectedinherited

Definition at line 1005 of file ManagedMonitorToolBase.cxx.

                                {
  if( m_environment != AthenaMonManager::online ) {
    TTree* metadata(0);
    std::string mdStreamName( streamName );
    size_t found=mdStreamName.rfind('/');
    
    if ( found != std::string::npos )
      mdStreamName.replace( found, mdStreamName.length(), "/metadata" );
    
    MDMap_t::iterator i = m_metadataMap.find( mdStreamName );
    if( i == m_metadataMap.end() ) {
      metadata = new TTree( "metadata", "Monitoring Metadata" );
      if (! metadata) return StatusCode::FAILURE;
      StatusCode scmd = m_THistSvc->regTree( mdStreamName, metadata );
      if (scmd == StatusCode::FAILURE) return StatusCode::FAILURE;
      MDMap_t::value_type valToInsert( mdStreamName, new OutputMetadata(metadata) );
      i = m_metadataMap.insert( valToInsert ).first;
    }
    
    i->second->fill( hName,  group.interval(), group.chain(), group.merge() );
  }
  return StatusCode::SUCCESS;
}

regManagedEfficiencies()

StatusCode ManagedMonitorToolBase::regManagedEfficiencies ( std::vector< MgmtParams< TEfficiency > > &  templateEfficiencies )

protectedinherited

Definition at line 1200 of file ManagedMonitorToolBase.cxx.

                                                                                                                    {
    bool allIsOk = true;
    for( auto& it : templateEfficiencies ) {
        // get components of MgmtParams and copy efficiency
        MonGroup group = it.m_group;
        TEfficiency* theEfficiency = it.m_templateHist;
        TEfficiency* e = static_cast<TEfficiency*>(theEfficiency->Clone());
        int nbins = theEfficiency->GetTotalHistogram()->GetNbinsX();
        int xlow = theEfficiency->GetTotalHistogram()->GetXaxis()->GetXmin();
        int xhigh = theEfficiency->GetTotalHistogram()->GetXaxis()->GetXmax();
        e->SetBins(nbins,xlow,xhigh); // reset histogram
        std::string name = e->GetName();
 
        // make TGraph casts of TEfficiencies
        TGraph* theGraph = reinterpret_cast<TGraph*>(theEfficiency);
        TGraph* g = reinterpret_cast<TGraph*>(e);
 
        // Get the streamName for the previous interval
        std::string streamName = streamNameFunction()->getStreamName( this, group, name, true );
 
        // RE-REGISTER 
        // 1) De-register the original graph with the THistSvc
        StatusCode sc1 = m_THistSvc->deReg( theGraph );
        if (sc1 == StatusCode::FAILURE) allIsOk = false;
        // 2) Fix THistSvc->deReg for TGraphs
        bool doneCleaning = false;
        std::string directoryName = streamNameFunction()->getDirectoryName( this, group, name, true );
        TSeqCollection *filelist=gROOT->GetListOfFiles();
        for (int i=0; i<filelist->GetEntries(); i++) {
            ATH_MSG_DEBUG( "List of files: " << filelist->At(i)->GetName());
            TFile* file = static_cast<TFile*>(filelist->At(i));
            StatusCode sc2 = THistSvc_deReg_fixTGraph(file, theGraph, directoryName);
            if (sc2 == StatusCode::SUCCESS) doneCleaning = true;
        }
        // 3) Check if TGraph fix has been applied successfully
        if (!doneCleaning) { 
            ATH_MSG_ERROR("THistSvc_deReg_fixTGraph: failed to apply TGraph fix for the THist Svc!");
            allIsOk = false;
        }
        // 4) Register cloned histogram under previous interval streamName
        StatusCode sc3 = m_THistSvc->regGraph( streamName, g );
        if (sc3 == StatusCode::FAILURE) 
            allIsOk = false;
 
        // get streamname for interval
        streamName = streamNameFunction()->getStreamName( this, group, name, false );
        // store metadata
        StatusCode smd = registerMetadata(streamName, name, group);
        if (smd != StatusCode::SUCCESS) allIsOk = false;
        // Re-register the original graph
        StatusCode sc4 = m_THistSvc->regGraph( streamName, theGraph );
        if (sc4 == StatusCode::FAILURE) allIsOk = false;
    }
 
    if (!allIsOk) return StatusCode::FAILURE;
    return StatusCode::SUCCESS;
}

regManagedGraphs()

StatusCode ManagedMonitorToolBase::regManagedGraphs ( std::vector< MgmtParams< TGraph > > &  templateGraphs )

protectedinherited

Definition at line 1129 of file ManagedMonitorToolBase.cxx.

{
      // See the description for the regManagedHistograms method
      bool allIsOk = true;  
   
      for( std::vector< MgmtParams<TGraph> >::iterator it = templateGraphs.begin(); it != templateGraphs.end(); ++it ) {
          MonGroup group = (*it).m_group;
 
          // Get a handle to the graph
          TGraph* theGraph = (*it).m_templateHist;
 
          // Clone the graph
          TGraph* g = static_cast<TGraph*>(theGraph->Clone());
          theGraph->Set(0); // equivalent to Reset() for TH1
 
          // Get name
          std::string gName = g->GetName();
 
          // Get the streamName for the previous interval
          std::string streamName = streamNameFunction()->getStreamName( this, group, gName, true );
 
          // De-register the original graph with the THistSvc
          StatusCode sc1 = m_THistSvc->deReg( theGraph );
          if (sc1 == StatusCode::FAILURE)
              allIsOk = false;
 
          // *** begin ***
          // Fix THistSvc->deReg for TGraphs
          bool doneCleaning = false;
          std::string directoryName = streamNameFunction()->getDirectoryName( this, group, gName, true );
          TSeqCollection *filelist=gROOT->GetListOfFiles();
          for (int i=0; i<filelist->GetEntries(); i++) {
              ATH_MSG_DEBUG( "List of files: " << filelist->At(i)->GetName());
              TFile* file = static_cast<TFile*>(filelist->At(i));
              StatusCode sc2 = THistSvc_deReg_fixTGraph(file, theGraph, directoryName);
              if (sc2 == StatusCode::SUCCESS)
                  doneCleaning = true;
          }
         
          // Check if TGraph fix has been applied successfully 
          if (!doneCleaning) { 
              ATH_MSG_ERROR("THistSvc_deReg_fixTGraph: failed to apply TGraph fix for the THist Svc!");
              allIsOk = false;
          }
          // *** end ***
 
          // Register clonned histogram under previous interval streamName
          StatusCode sc3 = m_THistSvc->regGraph( streamName, g );
          if (sc3 == StatusCode::FAILURE) 
              allIsOk = false;
 
          // Get streamName for the current interval
          streamName = streamNameFunction()->getStreamName( this, group, gName, false );
          // Register metadata information with the current interval streamname
          StatusCode smd = registerMetadata(streamName, gName, group);
          if (smd != StatusCode::SUCCESS) 
              allIsOk = false;
 
          // Re-register the original graph with the current interval streamName
          StatusCode sc4 = m_THistSvc->regGraph( streamName, theGraph );
          if (sc4 == StatusCode::FAILURE) 
              allIsOk = false;
 
      }
 
      if (!allIsOk) return StatusCode::FAILURE;
      
      return StatusCode::SUCCESS;
}

regManagedHistograms()

StatusCode ManagedMonitorToolBase::regManagedHistograms ( std::vector< MgmtParams< TH1 > > &  templateHistograms )

protectedinherited

Definition at line 1032 of file ManagedMonitorToolBase.cxx.

{
      // The method registers histograms with the THistSvc and saves them to file.
 
      // The funky business with registering and deregistering the histogram is needed
      // to get the correct directory when saving histograms. THistSvc deals with ROOT 
      // to set up proper TDirectory, so we rely on it.
      // E.g. 
      //     m_THistSvc->regHist( streamName, h ): sets the correct TDirectory with streamName
      //     m_THistSvc->deReg( h ) - deregister from THistSvc otherwise THistSvc will try to save it
      //                          at the end of execution
      //  use passownership of the histogram and save it to file 
      //     m_manager->passOwnership( h, genericName );
      //     m_manager->writeAndDelete( genericName );
      bool allIsOk = true;  
   
      for( std::vector< MgmtParams<TH1> >::iterator it = templateHistograms.begin(); it != templateHistograms.end(); ++it ) {
          MonGroup& group = (*it).m_group;
 
          // Get a handle to the histogram
          TH1* theHist = (*it).m_templateHist;
 
          // Clone the histogram
          TH1* h = static_cast<TH1*>(theHist->Clone());
          theHist->Reset();
 
          // Get name
          std::string hName = h->GetName();
 
          // Get the streamName for the previous interval
          std::string streamName = streamNameFunction()->getStreamName( this, group, hName, true );
 
          // Register the histogram with the THistSvc
          StatusCode sc1 = m_THistSvc->deReg( theHist );
          if (sc1 == StatusCode::FAILURE) allIsOk = false;
 
          // Register clonned histogram under previous interval streamName
          StatusCode sc2 = m_THistSvc->regHist( streamName, h );
          if (sc2 == StatusCode::FAILURE) allIsOk = false;
 
          if( m_manager != 0 ) {
             std::string genericName = NoOutputStream().getStreamName( this, group, hName );
             m_manager->passOwnership( h, genericName );
             m_manager->writeAndDelete( genericName );
          }
        
          // Get streamName for the current interval 
          streamName = streamNameFunction()->getStreamName( this, group, hName, false );
          // Register metadata information with the current interval streamname
          StatusCode smd = registerMetadata(streamName, hName, group);
          if (smd != StatusCode::SUCCESS) allIsOk = false;
 
          // Re-register the original histogram with the current interval streamName
          StatusCode sc3 = m_THistSvc->regHist( streamName, theHist );
          if (sc3 == StatusCode::FAILURE) allIsOk = false;
 
      }
 
      if (!allIsOk) return StatusCode::FAILURE;
      
      return StatusCode::SUCCESS;
}

regManagedLWHistograms()

StatusCode ManagedMonitorToolBase::regManagedLWHistograms ( std::vector< MgmtParams< LWHist > > &  templateLWHistograms )

protectedinherited

Definition at line 1314 of file ManagedMonitorToolBase.cxx.

{
    StatusCode sc1;
 
    for( std::vector< MgmtParams<LWHist> >::iterator it = templateLWHistograms.begin(); it != templateLWHistograms.end(); ++it ) {
        // Get histogram group
        MonGroup group = (*it).m_group;
 
        // Get handle to the histogram
        LWHist* h = (*it).m_templateHist;
 
        sc1 = regHist(h, group);
    }
    
   return sc1;
}

regManagedTrees()

StatusCode ManagedMonitorToolBase::regManagedTrees ( std::vector< MgmtParams< TTree > > &  templateTrees )

protectedinherited

Definition at line 1260 of file ManagedMonitorToolBase.cxx.

{
      // See the description for the regManagedHistograms method
      bool allIsOk = true;  
   
      for( std::vector< MgmtParams<TTree> >::iterator it = templateTrees.begin(); it != templateTrees.end(); ++it ) {
          MonGroup group = (*it).m_group;
 
          // Get a handle to the original tree
          TTree* theTree = (*it).m_templateHist;
 
          // Clone the tree
          TTree* t = static_cast<TTree*>(theTree->Clone());
          theTree->Reset();
 
          // Dumping the tree
          std::string name = t->GetName();
 
          // Get the streamName for the previous interval
          std::string streamName = streamNameFunction()->getStreamName( this, group, name, true );
 
          // De-register original tree with the THistSvc
          StatusCode sc1 = m_THistSvc->deReg( theTree );
          if (sc1 == StatusCode::FAILURE) allIsOk = false;
 
          // Register clonned tree under previous interval streamName
          StatusCode sc2 = m_THistSvc->regTree( streamName, t );
          if (sc2 == StatusCode::FAILURE) allIsOk = false;
 
          if( m_manager != 0 ) {
             std::string genericName = NoOutputStream().getStreamName( this, group, name );
             m_manager->passOwnership( t, genericName );
             m_manager->writeAndDelete( genericName );
          }
 
          // Get streamName for the current interval
          streamName = streamNameFunction()->getStreamName( this, group, name, false );
          // Register metadata information with the current interval streamname
          StatusCode smd = registerMetadata(streamName, name, group);
          if (smd != StatusCode::SUCCESS) allIsOk = false;
 
          // Re-register the original graph with the current interval streamName
          StatusCode sc3 = m_THistSvc->regTree( streamName, theTree );
          if (sc3 == StatusCode::FAILURE) allIsOk = false;
 
      }
 
      if (!allIsOk) return StatusCode::FAILURE;
      
      return StatusCode::SUCCESS;
}

regTree() [1/2]

StatusCode ManagedMonitorToolBase::regTree ( TTree *  t, const MonGroup &  group  )

virtualinherited

Registers a TTree to be included in the output stream using logical parameters that describe it.

Definition at line 1758 of file ManagedMonitorToolBase.cxx.

{
 
   // This part of the code deals with MANAGED type
   if ( group.histo_mgmt() != ATTRIB_UNMANAGED ) {
       // Create an unmanaged group based on the original MonGroup instance passed
       // This is needed because managed tree is presented as a number of unmanaged
       // trees (one per each interval)
       MonGroup group_unmanaged( this, group.system(), group.interval(), ATTRIB_UNMANAGED, group.chain(), group.merge());
 
       if (m_supportedIntervalsForRebooking.count(group.interval())) {
           m_templateTrees[group.interval()].push_back( MgmtParams<TTree>(t, group_unmanaged) );
       } else {
           ATH_MSG_ERROR("Attempt to book managed tree " << t->GetName() << " with invalid interval type " << intervalEnumToString(group.interval()));
           return StatusCode::FAILURE;
       }
 
       std::string name = t->GetName();
       std::string genericName = NoOutputStream().getStreamName( this, group_unmanaged, name );
       std::string streamName = streamNameFunction()->getStreamName( this, group_unmanaged, name, false );
       registerMetadata(streamName, name, group).ignore();
       return m_THistSvc->regTree( streamName, t );
   }
 
 
   // This part of the code deals with UNMANAGED type
   std::string tName = t->GetName();
 
   if( m_manager != 0 ) {
      std::string genericName = NoOutputStream().getStreamName( this, group, tName );
      m_manager->writeAndDelete( genericName );
      m_manager->passOwnership( t, genericName );
   }
 
   std::string streamName = streamNameFunction()->getStreamName( this, group, tName, false );
 
   StatusCode smd = registerMetadata(streamName, tName, group);
   if (smd != StatusCode::SUCCESS) return StatusCode::FAILURE;
 
   return m_THistSvc->regTree( streamName, t );
}

regTree() [2/2]

StatusCode ManagedMonitorToolBase::regTree ( TTree *  t, const std::string &  system, Interval_t  interval, MgmtAttr_t  histo_mgmt = ATTRIB_MANAGED, const std::string &  chain = "", const std::string &  merge = ""  )

virtualinherited

Registers a TTree to be included in the output stream using logical parameters that describe it.

Definition at line 1748 of file ManagedMonitorToolBase.cxx.

{
   MonGroup group( this, system, interval, histo_mgmt, chain, merge );
   return regTree( t, group );
}

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< AlgTool > >::renounce ( T &  h )

inlineprotectedinherited

Definition at line 380 of file AthCommonDataStore.h.

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

renounceArray()

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

inlineprotectedinherited

remove all handles from I/O resolution

Definition at line 364 of file AthCommonDataStore.h.

                                                          {
    handlesArray.renounce();
  }

retrieveTools()

StatusCode CaloClusterVecMon::retrieveTools ( )

private

Definition at line 185 of file CaloClusterVecMon.cxx.

                                           {
  StatusCode sc = StatusCode::SUCCESS;
 
  sc = detStore()->retrieve(m_caloMgr);
  if (sc.isFailure()) {
    ATH_MSG_ERROR( "Unable to retrieve CaloIdManager from DetectorStore" );
    return sc;
  }
  else{
   ATH_MSG_INFO("CaloMgr is retrieved");
  }
 
  m_caloCellHelper = m_caloMgr->getCaloCell_ID();
  if (!m_caloCellHelper) {
    ATH_MSG_ERROR( "Could not access CaloCell_ID helper" );
    return StatusCode::FAILURE;
  }
 
  return sc;
}

runStat()

StatusCode ManagedMonitorToolBase::runStat ( )

virtualinherited

This implementation does nothing; equivalent functionality may be provided by procHists( true, true, true ).

Implements IMonitorToolBase.

Definition at line 1893 of file ManagedMonitorToolBase.cxx.

{
   return StatusCode::SUCCESS;
}

setMonManager()

void ManagedMonitorToolBase::setMonManager ( AthenaMonManager *  manager )

virtualinherited

Takes a pointer to a managing object to get information from it when needed.

Definition at line 1435 of file ManagedMonitorToolBase.cxx.

{
  ATH_MSG_DEBUG( "ManagedMonitorToolBase::setMonManager():");
  m_manager = manager;
  if( m_manager != 0 ) {
      ATH_MSG_DEBUG( "  --> Setting manager");
      m_managerNameProp = m_manager->name();
      m_fileKey = m_manager->fileKey();
      m_dataType = m_manager->dataType();
      m_environment = m_manager->environment();
      delete m_streamNameFcn;
      m_streamNameFcn = getNewStreamNameFcn();
   }
    ATH_MSG_DEBUG( "  --> Exiting successfully");
}

setupOutputStreams()

StatusCode ManagedMonitorToolBase::setupOutputStreams ( std::vector< std::string >  Mapping = std::vector<std::string>() )

virtualinherited

This implementation does nothing—streams in this class should be managed by the AthenaMonManager.

Consider using MonitorToolBase for user-managed streams.

Implements IMonitorToolBase.

Definition at line 1882 of file ManagedMonitorToolBase.cxx.

{
   // All instances should write to the stream(s) defined by the
   // AthenaMonManager.
 
   return StatusCode::SUCCESS;
}

streamNameFunction()

ManagedMonitorToolBase::StreamNameFcn * ManagedMonitorToolBase::streamNameFunction ( )

virtualinherited

Returns the function object that converts logical paramters into a physical stream name.

Definition at line 502 of file ManagedMonitorToolBase.cxx.

{
   if( m_streamNameFcn == 0 ) {
      msg(MSG::ERROR) << "!! streamNameFunction() has not been initialized !!" << endmsg;
      msg(MSG::ERROR) << "  --> neither ManagedMonitorToolBase::initialize() nor" << endmsg;
      msg(MSG::ERROR) << "  --> ManagedMonitorToolBase::setMonManager() has been called." << endmsg;
      msg(MSG::ERROR) << "  --> Correct configuration cannot be guaranteed from this point." << endmsg;
      m_streamNameFcn = getNewStreamNameFcn();
   }
   return m_streamNameFcn;
}

sysInitialize()

virtual StatusCode AthCommonDataStore< AthCommonMsg< AlgTool > >::sysInitialize ( )

overridevirtualinherited

Perform system initialization for an algorithm.

We override this to declare all the elements of handle key arrays at the end of initialization. See comments on updateVHKA.

Reimplemented in DerivationFramework::CfAthAlgTool, AthCheckedComponent< AthAlgTool >, AthCheckedComponent<::AthAlgTool >, and asg::AsgMetadataTool.

sysStart()

virtual StatusCode AthCommonDataStore< AthCommonMsg< AlgTool > >::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.

THistSvc_deReg_fixTGraph()

StatusCode ManagedMonitorToolBase::THistSvc_deReg_fixTGraph ( TFile *  file, TGraph *  theGraph, std::string &  directoryName  )

protectedinherited

Fixes THistSvc->deReg(obj) when obj is TGraph instance.

Read more in source file about this bug.

Definition at line 1097 of file ManagedMonitorToolBase.cxx.

{
    // THistSvc employs TDirectory Append method when registering TGraph.
    // When deReg is used to de-register TGraph object, THistSvc only removes the object
    // from its internal management but forgets to delete from TDirectory.
    // The current method fixes this problem by removing the TGraph object manually
    // after THistSvc->deReg(TGraph* obj) is called.
 
    // Saves and restores gFile and gDirectory
    GlobalDirectoryRestore restore;
 
    // This check is true when TGraph object is removed successfully
    bool graphRemoved = false;
 
    file->cd("/");
    TDirectory* dir = file->GetDirectory(directoryName.c_str());
    if (dir != 0) {
        dir->cd();
        TObject* obj = dir->Remove(theGraph);
        if (obj != 0) 
            graphRemoved = true;
    } 
 
    if (!graphRemoved) {
        return StatusCode::FAILURE;
    }
 
    return StatusCode::SUCCESS;
}

trigChainsArePassed()

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

protectedvirtualinherited

Definition at line 2324 of file ManagedMonitorToolBase.cxx.

{
  ATH_MSG_DEBUG( "ManagedMonitorToolBase::trigChainsArePassed:");
 
   for(unsigned int i=0; i<vTrigNames.size(); i++) {
      if( m_trigDecTool->isPassed(vTrigNames[i]) ) {
    ATH_MSG_DEBUG( "  + \"" << vTrigNames[i] << "\" passed, returning \'true\'");
    return true;
      }
      else {
    ATH_MSG_DEBUG( "  - \"" << vTrigNames[i] << "\" did not pass");
      }
   }
 
   return false;
}

updateTriggersForGroups()

void ManagedMonitorToolBase::updateTriggersForGroups ( std::vector< std::string > &  vTrigChainNames )

protectedinherited

Definition at line 2362 of file ManagedMonitorToolBase.cxx.

                                                               {
  for (size_t i = 0; i < vTrigChainNames.size(); ++i) {
    std::string& thisName = vTrigChainNames[i];
    if (thisName.compare(0, 9, "CATEGORY_") ==0) {
      ATH_MSG_DEBUG("Found a trigger category: " << thisName << ". We will unpack it.");
      std::vector<std::string> triggers = m_trigTranslator->translate(thisName.substr(9,std::string::npos));
      std::ostringstream oss;
      oss << "(";
      for (size_t itrig = 0; itrig < triggers.size(); ++itrig) {
    if (itrig != 0) { 
      oss << "|";
    }
    oss << triggers[itrig];
      }
      oss << ")";
      // replace with new value
      std::string newval = oss.str();
      ATH_MSG_DEBUG("Replaced with " << newval);
      vTrigChainNames[i] = newval;
    }
  }
}

updateVHKA()

void AthCommonDataStore< AthCommonMsg< AlgTool > >::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);
      }
    }
  }

writeAndDelete()

StatusCode ManagedMonitorToolBase::writeAndDelete ( TH1 *  h, const MonGroup &  group  )

virtualinherited

Write out histogram and delete it.

Definition at line 1803 of file ManagedMonitorToolBase.cxx.

                                                {
  if (!h)
    return StatusCode::FAILURE;
  
  std::string hName = h->GetName();
  
  if( m_manager != 0 ) {
    std::string genericName = NoOutputStream().getStreamName( this, group, hName );
    m_manager->writeAndDelete( genericName );
  }
  return StatusCode::SUCCESS;
}

Member Data Documentation

m_averageEnergy_eta

TProfile* CaloClusterVecMon::m_averageEnergy_eta = nullptr

private

Definition at line 162 of file CaloClusterVecMon.h.

m_averageEnergy_etaphi_maxEclusters

TProfile2D* CaloClusterVecMon::m_averageEnergy_etaphi_maxEclusters = nullptr

private

Definition at line 178 of file CaloClusterVecMon.h.

m_averageEnergy_phi

TProfile* CaloClusterVecMon::m_averageEnergy_phi = nullptr

private

Definition at line 161 of file CaloClusterVecMon.h.

m_averageEtOver500_etaphi

TProfile2D* CaloClusterVecMon::m_averageEtOver500_etaphi = nullptr

private

Definition at line 172 of file CaloClusterVecMon.h.

m_averageNegativeEnergy_etaphi

TProfile2D* CaloClusterVecMon::m_averageNegativeEnergy_etaphi = nullptr

private

Definition at line 158 of file CaloClusterVecMon.h.

m_BadLBTool

ToolHandle<IDQFilterTool> CaloMonToolBase::m_BadLBTool

privateinherited

Definition at line 38 of file CaloMonToolBase.h.

m_beamBackgroundKey

SG::ReadHandleKey<BeamBackgroundData> CaloMonToolBase::m_beamBackgroundKey {this, "BeamBackgroundKey", "CSCBackgroundForCaloMon"}

privateinherited

Definition at line 49 of file CaloMonToolBase.h.

m_binRangeE

std::vector<float> CaloClusterVecMon::m_binRangeE

private

Definition at line 106 of file CaloClusterVecMon.h.

m_binRangeEta

std::vector<float> CaloClusterVecMon::m_binRangeEta

private

Definition at line 107 of file CaloClusterVecMon.h.

m_binRangeEtaPhi

std::vector<float> CaloClusterVecMon::m_binRangeEtaPhi

private

Definition at line 109 of file CaloClusterVecMon.h.

m_binRangePhi

std::vector<float> CaloClusterVecMon::m_binRangePhi

private

Definition at line 108 of file CaloClusterVecMon.h.

m_bookHistogramsInitial

bool ManagedMonitorToolBase::m_bookHistogramsInitial

privateinherited

Definition at line 956 of file ManagedMonitorToolBase.h.

m_caloCellHelper

const CaloCell_ID* CaloClusterVecMon::m_caloCellHelper

private

Definition at line 113 of file CaloClusterVecMon.h.

m_caloMgr

const CaloIdManager* CaloClusterVecMon::m_caloMgr

private

Definition at line 112 of file CaloClusterVecMon.h.

m_cellTime

TH1F* CaloClusterVecMon::m_cellTime = nullptr

private

Definition at line 140 of file CaloClusterVecMon.h.

m_cellvsclust_time

TH2F* CaloClusterVecMon::m_cellvsclust_time = nullptr

private

Definition at line 141 of file CaloClusterVecMon.h.

m_clus_eta

TH1F* CaloClusterVecMon::m_clus_eta[MAX_E]

private

Definition at line 148 of file CaloClusterVecMon.h.

m_clus_eta_Et

TH1F* CaloClusterVecMon::m_clus_eta_Et[MAX_E]

private

Definition at line 150 of file CaloClusterVecMon.h.

m_clus_etaphi_Et_thresh

TH2F* CaloClusterVecMon::m_clus_etaphi_Et_thresh[MAX_E]

private

Definition at line 144 of file CaloClusterVecMon.h.

m_clus_phi

TH1F* CaloClusterVecMon::m_clus_phi[MAX_E][3]

private

Definition at line 149 of file CaloClusterVecMon.h.

m_clus_phi_Et

TH1F* CaloClusterVecMon::m_clus_phi_Et[MAX_E][3]

private

Definition at line 151 of file CaloClusterVecMon.h.

m_cluscount

int CaloClusterVecMon::m_cluscount

private

Definition at line 117 of file CaloClusterVecMon.h.

m_cluscount_bot

int CaloClusterVecMon::m_cluscount_bot

private

Definition at line 119 of file CaloClusterVecMon.h.

m_cluscount_top

int CaloClusterVecMon::m_cluscount_top

private

Definition at line 118 of file CaloClusterVecMon.h.

m_clusterContainerName

SG::ReadHandleKey<xAOD::CaloClusterContainer> CaloClusterVecMon::m_clusterContainerName { this, "CaloClusterContainer", "CaloCalTopoClusters" }

private

Definition at line 93 of file CaloClusterVecMon.h.

m_clusterEnergyVsEta_barrel

TH1F* CaloClusterVecMon::m_clusterEnergyVsEta_barrel = nullptr

private

Definition at line 164 of file CaloClusterVecMon.h.

m_clusterEnergyVsEta_endcap

TH1F* CaloClusterVecMon::m_clusterEnergyVsEta_endcap = nullptr

private

Definition at line 165 of file CaloClusterVecMon.h.

m_clusterEnergyVsEta_hecfcal

TH1F* CaloClusterVecMon::m_clusterEnergyVsEta_hecfcal = nullptr

private

Definition at line 166 of file CaloClusterVecMon.h.

m_clusterEtVsEta_barrel

TH1F* CaloClusterVecMon::m_clusterEtVsEta_barrel = nullptr

private

Definition at line 167 of file CaloClusterVecMon.h.

m_clusterEtVsEta_endcap

TH1F* CaloClusterVecMon::m_clusterEtVsEta_endcap = nullptr

private

Definition at line 168 of file CaloClusterVecMon.h.

m_clusterEtVsEta_hecfcal

TH1F* CaloClusterVecMon::m_clusterEtVsEta_hecfcal = nullptr

private

Definition at line 169 of file CaloClusterVecMon.h.

m_clustersCellsE

TProfile* CaloClusterVecMon::m_clustersCellsE = nullptr

private

Definition at line 191 of file CaloClusterVecMon.h.

m_clustersCellsEta

TProfile* CaloClusterVecMon::m_clustersCellsEta = nullptr

private

Definition at line 192 of file CaloClusterVecMon.h.

m_clustersCellsPhi

TProfile* CaloClusterVecMon::m_clustersCellsPhi = nullptr

private

Definition at line 193 of file CaloClusterVecMon.h.

m_clustersCellsRatioE

TProfile* CaloClusterVecMon::m_clustersCellsRatioE = nullptr

private

Definition at line 184 of file CaloClusterVecMon.h.

m_clustersCellsRatioEta

TProfile* CaloClusterVecMon::m_clustersCellsRatioEta = nullptr

private

Definition at line 182 of file CaloClusterVecMon.h.

m_clustersCellsRatioPhi

TProfile* CaloClusterVecMon::m_clustersCellsRatioPhi = nullptr

private

Definition at line 183 of file CaloClusterVecMon.h.

m_clustersE

TH1F* CaloClusterVecMon::m_clustersE = nullptr

private

Definition at line 186 of file CaloClusterVecMon.h.

m_clustersEta

TProfile* CaloClusterVecMon::m_clustersEta = nullptr

private

Definition at line 187 of file CaloClusterVecMon.h.

m_clustersEtaPhi

TH2F* CaloClusterVecMon::m_clustersEtaPhi = nullptr

private

Definition at line 189 of file CaloClusterVecMon.h.

m_clustersPhi

TProfile* CaloClusterVecMon::m_clustersPhi = nullptr

private

Definition at line 188 of file CaloClusterVecMon.h.

m_clusterTime

TH1F* CaloClusterVecMon::m_clusterTime = nullptr

private

Definition at line 139 of file CaloClusterVecMon.h.

m_clusterTimeVsEnergy

TH2F* CaloClusterVecMon::m_clusterTimeVsEnergy = nullptr

private

Definition at line 138 of file CaloClusterVecMon.h.

m_d

Imp* ManagedMonitorToolBase::m_d

privateinherited

Definition at line 963 of file ManagedMonitorToolBase.h.

m_dataType

AthenaMonManager::DataType_t ManagedMonitorToolBase::m_dataType

protectedinherited

Definition at line 901 of file ManagedMonitorToolBase.h.

m_dataTypeStr

std::string ManagedMonitorToolBase::m_dataTypeStr

protectedinherited

Definition at line 897 of file ManagedMonitorToolBase.h.

m_defaultLBDuration

float ManagedMonitorToolBase::m_defaultLBDuration

privateinherited

Definition at line 958 of file ManagedMonitorToolBase.h.

m_detailLevel

unsigned int ManagedMonitorToolBase::m_detailLevel

protectedinherited

Definition at line 899 of file ManagedMonitorToolBase.h.

m_dEtaVsdPhi_maxEclustersTopVsBottom

TH2F* CaloClusterVecMon::m_dEtaVsdPhi_maxEclustersTopVsBottom = nullptr

private

Definition at line 179 of file CaloClusterVecMon.h.

m_detStore

StoreGateSvc_t AthCommonDataStore< AthCommonMsg< AlgTool > >::m_detStore

privateinherited

Pointer to StoreGate (detector store by default)

Definition at line 393 of file AthCommonDataStore.h.

m_dominantCellAverageEnergy_etaphi

TProfile2D* CaloClusterVecMon::m_dominantCellAverageEnergy_etaphi = nullptr

private

Definition at line 136 of file CaloClusterVecMon.h.

m_dominantCellOccupancy_etaphi

TH2F* CaloClusterVecMon::m_dominantCellOccupancy_etaphi = nullptr

private

Definition at line 135 of file CaloClusterVecMon.h.

m_DQFilterTools

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

protectedinherited

Definition at line 912 of file ManagedMonitorToolBase.h.

m_EMenergy

double CaloClusterVecMon::m_EMenergy

private

Definition at line 126 of file CaloClusterVecMon.h.

m_EMenergy_abs

double CaloClusterVecMon::m_EMenergy_abs

private

Definition at line 127 of file CaloClusterVecMon.h.

m_EMet

double CaloClusterVecMon::m_EMet

private

Definition at line 128 of file CaloClusterVecMon.h.

m_EMeta

double CaloClusterVecMon::m_EMeta

private

Definition at line 129 of file CaloClusterVecMon.h.

m_EMphi

double CaloClusterVecMon::m_EMphi

private

Definition at line 130 of file CaloClusterVecMon.h.

m_endOfEventsBlock

bool ManagedMonitorToolBase::m_endOfEventsBlock

privateinherited

Definition at line 885 of file ManagedMonitorToolBase.h.

m_endOfLowStat

bool ManagedMonitorToolBase::m_endOfLowStat

privateinherited

Definition at line 885 of file ManagedMonitorToolBase.h.

m_endOfLumiBlock

bool ManagedMonitorToolBase::m_endOfLumiBlock

privateinherited

Definition at line 885 of file ManagedMonitorToolBase.h.

m_endOfRun

bool ManagedMonitorToolBase::m_endOfRun

privateinherited

Definition at line 885 of file ManagedMonitorToolBase.h.

m_environment

AthenaMonManager::Environment_t ManagedMonitorToolBase::m_environment

protectedinherited

Definition at line 902 of file ManagedMonitorToolBase.h.

m_environmentStr

std::string ManagedMonitorToolBase::m_environmentStr

protectedinherited

Definition at line 898 of file ManagedMonitorToolBase.h.

m_etaMin

float CaloClusterVecMon::m_etaMin[MAX_REGION]

private

Definition at line 100 of file CaloClusterVecMon.h.

m_etaphi_thresh_avgenergy

TProfile2D* CaloClusterVecMon::m_etaphi_thresh_avgenergy[MAX_E]

private

Definition at line 153 of file CaloClusterVecMon.h.

m_etaphi_thresh_avgEt

TProfile2D* CaloClusterVecMon::m_etaphi_thresh_avgEt[MAX_E]

private

Definition at line 145 of file CaloClusterVecMon.h.

m_etaphi_thresh_Totalenergy

TH2F* CaloClusterVecMon::m_etaphi_thresh_Totalenergy[MAX_E]

private

Definition at line 154 of file CaloClusterVecMon.h.

m_etaVsPhi

TH2F* CaloClusterVecMon::m_etaVsPhi[MAX_E]

private

Definition at line 152 of file CaloClusterVecMon.h.

m_etaVsPhiNegEn

TH2F* CaloClusterVecMon::m_etaVsPhiNegEn = nullptr

private

Definition at line 157 of file CaloClusterVecMon.h.

m_Ethresh

float CaloClusterVecMon::m_Ethresh[MAX_E]

private

Definition at line 99 of file CaloClusterVecMon.h.

m_EventInfoKey

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

privateinherited

Definition at line 47 of file CaloMonToolBase.h.

m_eventsCounter

int CaloClusterVecMon::m_eventsCounter = 0

private

Definition at line 116 of file CaloClusterVecMon.h.

m_evtStore

StoreGateSvc_t AthCommonDataStore< AthCommonMsg< AlgTool > >::m_evtStore

privateinherited

Pointer to StoreGate (event store by default)

Definition at line 390 of file AthCommonDataStore.h.

m_fileKey

std::string ManagedMonitorToolBase::m_fileKey

protectedinherited

Definition at line 896 of file ManagedMonitorToolBase.h.

m_h_EvtRejSumm

TH1I* CaloMonToolBase::m_h_EvtRejSumm

protectedinherited

Definition at line 33 of file CaloMonToolBase.h.

m_haveClearedLastEventBlock

bool ManagedMonitorToolBase::m_haveClearedLastEventBlock

protectedinherited

Definition at line 929 of file ManagedMonitorToolBase.h.

m_LArCollisionTimeKey

SG::ReadHandleKey<LArCollisionTime> CaloMonToolBase::m_LArCollisionTimeKey {this, "LArCollisionTimeKey", "LArCollisionTime"}

privateinherited

Definition at line 48 of file CaloMonToolBase.h.

m_lastHigStatInterval

int ManagedMonitorToolBase::m_lastHigStatInterval

protectedinherited

Definition at line 924 of file ManagedMonitorToolBase.h.

m_lastLowStatInterval

int ManagedMonitorToolBase::m_lastLowStatInterval

protectedinherited

Definition at line 924 of file ManagedMonitorToolBase.h.

m_lastLumiBlock

unsigned int ManagedMonitorToolBase::m_lastLumiBlock

protectedinherited

Definition at line 922 of file ManagedMonitorToolBase.h.

m_lastMedStatInterval

int ManagedMonitorToolBase::m_lastMedStatInterval

protectedinherited

Definition at line 924 of file ManagedMonitorToolBase.h.

m_lastRun

unsigned int ManagedMonitorToolBase::m_lastRun

protectedinherited

Definition at line 923 of file ManagedMonitorToolBase.h.

m_lb

int CaloMonToolBase::m_lb

protectedinherited

Definition at line 31 of file CaloMonToolBase.h.

m_lbDurationDataKey

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

privateinherited

Definition at line 951 of file ManagedMonitorToolBase.h.

m_lumiDataKey

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

privateinherited

Definition at line 949 of file ManagedMonitorToolBase.h.

m_lwhists

std::set<LWHist*> ManagedMonitorToolBase::m_lwhists

protectedinherited

Definition at line 891 of file ManagedMonitorToolBase.h.

m_manager

AthenaMonManager* ManagedMonitorToolBase::m_manager

protectedinherited

Definition at line 892 of file ManagedMonitorToolBase.h.

m_managerNameProp

std::string ManagedMonitorToolBase::m_managerNameProp

protectedinherited

Definition at line 894 of file ManagedMonitorToolBase.h.

m_maxclusene_bot

float CaloClusterVecMon::m_maxclusene_bot

private

Definition at line 123 of file CaloClusterVecMon.h.

m_maxclusene_top

float CaloClusterVecMon::m_maxclusene_top

private

Definition at line 122 of file CaloClusterVecMon.h.

m_maxclusindex_bot

int CaloClusterVecMon::m_maxclusindex_bot

private

Definition at line 121 of file CaloClusterVecMon.h.

m_maxclusindex_top

int CaloClusterVecMon::m_maxclusindex_top

private

Definition at line 120 of file CaloClusterVecMon.h.

m_maxEcellToEclusterRatio

TH1F* CaloClusterVecMon::m_maxEcellToEclusterRatio = nullptr

private

Definition at line 134 of file CaloClusterVecMon.h.

m_metadataMap

MDMap_t ManagedMonitorToolBase::m_metadataMap

protectedinherited

Definition at line 889 of file ManagedMonitorToolBase.h.

m_nCellInCluster_etaphi

TProfile2D* CaloClusterVecMon::m_nCellInCluster_etaphi = nullptr

private

Definition at line 137 of file CaloClusterVecMon.h.

m_nCells

TH1I* CaloClusterVecMon::m_nCells = nullptr

private

Definition at line 133 of file CaloClusterVecMon.h.

m_nClusters

TH1I* CaloClusterVecMon::m_nClusters = nullptr

private

Definition at line 176 of file CaloClusterVecMon.h.

m_nClustersBottomVsTop

TH2I* CaloClusterVecMon::m_nClustersBottomVsTop = nullptr

private

Definition at line 177 of file CaloClusterVecMon.h.

m_nEvents

unsigned int ManagedMonitorToolBase::m_nEvents

protectedinherited

Definition at line 926 of file ManagedMonitorToolBase.h.

m_nEventsIgnoreTrigger

unsigned int ManagedMonitorToolBase::m_nEventsIgnoreTrigger

protectedinherited

Definition at line 927 of file ManagedMonitorToolBase.h.

m_newEventsBlock

bool ManagedMonitorToolBase::m_newEventsBlock

privateinherited

Definition at line 884 of file ManagedMonitorToolBase.h.

m_newHigStatInterval

bool ManagedMonitorToolBase::m_newHigStatInterval

privateinherited

Definition at line 882 of file ManagedMonitorToolBase.h.

m_newLowStat

bool ManagedMonitorToolBase::m_newLowStat

privateinherited

Definition at line 883 of file ManagedMonitorToolBase.h.

m_newLowStatInterval

bool ManagedMonitorToolBase::m_newLowStatInterval

privateinherited

Definition at line 882 of file ManagedMonitorToolBase.h.

m_newLumiBlock

bool ManagedMonitorToolBase::m_newLumiBlock

privateinherited

Definition at line 883 of file ManagedMonitorToolBase.h.

m_newMedStatInterval

bool ManagedMonitorToolBase::m_newMedStatInterval

privateinherited

Definition at line 882 of file ManagedMonitorToolBase.h.

m_newRun

bool ManagedMonitorToolBase::m_newRun

privateinherited

Definition at line 883 of file ManagedMonitorToolBase.h.

m_nLumiBlocks

unsigned int ManagedMonitorToolBase::m_nLumiBlocks

protectedinherited

Definition at line 928 of file ManagedMonitorToolBase.h.

m_passBeamBackgroundRemoval

bool CaloMonToolBase::m_passBeamBackgroundRemoval

protectedinherited

Definition at line 32 of file CaloMonToolBase.h.

m_path

std::string ManagedMonitorToolBase::m_path

protectedinherited

Definition at line 915 of file ManagedMonitorToolBase.h.

m_preScaleProp

long ManagedMonitorToolBase::m_preScaleProp

protectedinherited

Definition at line 916 of file ManagedMonitorToolBase.h.

m_procNEventsProp

long ManagedMonitorToolBase::m_procNEventsProp

protectedinherited

Definition at line 914 of file ManagedMonitorToolBase.h.

m_ReadyFilterTool

ToolHandle<IDQFilterTool> CaloMonToolBase::m_ReadyFilterTool

privateinherited

Definition at line 40 of file CaloMonToolBase.h.

m_streamNameFcn

StreamNameFcn* ManagedMonitorToolBase::m_streamNameFcn

protectedinherited

Definition at line 904 of file ManagedMonitorToolBase.h.

m_supportedIntervalsForRebooking

std::set<Interval_t> ManagedMonitorToolBase::m_supportedIntervalsForRebooking

privateinherited

Definition at line 959 of file ManagedMonitorToolBase.h.

m_templateEfficiencies

std::map< Interval_t, std::vector< MgmtParams<TEfficiency> > > ManagedMonitorToolBase::m_templateEfficiencies

protectedinherited

Definition at line 738 of file ManagedMonitorToolBase.h.

m_templateGraphs

std::map< Interval_t, std::vector< MgmtParams<TGraph> > > ManagedMonitorToolBase::m_templateGraphs

protectedinherited

Definition at line 726 of file ManagedMonitorToolBase.h.

m_templateHistograms

std::map< Interval_t, std::vector< MgmtParams<TH1> > > ManagedMonitorToolBase::m_templateHistograms

protectedinherited

Definition at line 722 of file ManagedMonitorToolBase.h.

m_templateLWHistograms

std::map< Interval_t, std::vector< MgmtParams<LWHist> > > ManagedMonitorToolBase::m_templateLWHistograms

protectedinherited

Definition at line 734 of file ManagedMonitorToolBase.h.

m_templateTrees

std::map< Interval_t, std::vector< MgmtParams<TTree> > > ManagedMonitorToolBase::m_templateTrees

protectedinherited

Definition at line 730 of file ManagedMonitorToolBase.h.

m_THistSvc

ServiceHandle<ITHistSvc> ManagedMonitorToolBase::m_THistSvc

protectedinherited

Definition at line 906 of file ManagedMonitorToolBase.h.

m_Threshold

float CaloClusterVecMon::m_Threshold

private

Definition at line 104 of file CaloClusterVecMon.h.

m_timeGran

std::string CaloClusterVecMon::m_timeGran

private

Definition at line 96 of file CaloClusterVecMon.h.

m_trigDecTool

PublicToolHandle<Trig::ITrigDecisionTool> ManagedMonitorToolBase::m_trigDecTool {this, "TrigDecisionTool",""}

protectedinherited

Definition at line 908 of file ManagedMonitorToolBase.h.

m_triggerChainProp

std::string ManagedMonitorToolBase::m_triggerChainProp

protectedinherited

Definition at line 917 of file ManagedMonitorToolBase.h.

m_triggerGroupProp

std::string ManagedMonitorToolBase::m_triggerGroupProp

protectedinherited

Definition at line 918 of file ManagedMonitorToolBase.h.

m_trigLiveFractionDataKey

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

privateinherited

Definition at line 953 of file ManagedMonitorToolBase.h.

m_trigTranslator

PublicToolHandle<ITriggerTranslatorTool> ManagedMonitorToolBase::m_trigTranslator {this,"TriggerTranslatorTool",""}

protectedinherited

Definition at line 910 of file ManagedMonitorToolBase.h.

m_tWidth

float CaloClusterVecMon::m_tWidth

private

Definition at line 101 of file CaloClusterVecMon.h.

m_useBadLBTool

bool CaloMonToolBase::m_useBadLBTool

privateinherited

Definition at line 37 of file CaloMonToolBase.h.

m_useBeamBackgroundRemoval

bool CaloMonToolBase::m_useBeamBackgroundRemoval

privateinherited

Definition at line 45 of file CaloMonToolBase.h.

m_useCollisionFilterTool

bool CaloMonToolBase::m_useCollisionFilterTool

privateinherited

Definition at line 44 of file CaloMonToolBase.h.

m_useLArNoisyAlg

bool CaloMonToolBase::m_useLArNoisyAlg

privateinherited

Definition at line 42 of file CaloMonToolBase.h.

m_useLumi

bool ManagedMonitorToolBase::m_useLumi

privateinherited

Definition at line 957 of file ManagedMonitorToolBase.h.

m_useReadyFilterTool

bool CaloMonToolBase::m_useReadyFilterTool

privateinherited

Definition at line 39 of file CaloMonToolBase.h.

m_useTrigger

bool ManagedMonitorToolBase::m_useTrigger

protectedinherited

Definition at line 920 of file ManagedMonitorToolBase.h.

m_varHandleArraysDeclared

bool AthCommonDataStore< AthCommonMsg< AlgTool > >::m_varHandleArraysDeclared

privateinherited

Definition at line 399 of file AthCommonDataStore.h.

m_vhka

std::vector<SG::VarHandleKeyArray*> AthCommonDataStore< AthCommonMsg< AlgTool > >::m_vhka

privateinherited

Definition at line 398 of file AthCommonDataStore.h.

m_vTrigChainNames

std::vector<std::string> ManagedMonitorToolBase::m_vTrigChainNames

protectedinherited

Definition at line 742 of file ManagedMonitorToolBase.h.

m_vTrigGroupNames

std::vector<std::string> ManagedMonitorToolBase::m_vTrigGroupNames

protectedinherited

Definition at line 742 of file ManagedMonitorToolBase.h.

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

• CaloClusterVecMon.h
• CaloClusterVecMon.cxx