![Logo](../../ATLAS-Logo-Square-Blue-RGB.png) |
ATLAS Offline Software
|
#include <CSCSegmValAlg.h>
|
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...
|
|
|
| CSCSegmValAlg (const std::string &type, const std::string &name, const IInterface *parent) |
| Constructor. More...
|
|
virtual | ~CSCSegmValAlg ()=default |
| Destructor. More...
|
|
virtual StatusCode | bookHistograms () |
| Histogram booking method. More...
|
|
virtual StatusCode | fillHistograms () |
| Histogram filling method. More...
|
|
virtual StatusCode | procHistograms () |
| An inheriting class should either override this function or finalHists(). More...
|
|
StatusCode | initialize () |
|
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 StatusCode | bookHistogramsRecurrent () |
| An inheriting class should either override this function, bookHists() or bookHistograms(). 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 |
|
|
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...
|
|
|
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 |
|
|
std::unique_ptr< MonGroup > | m_segmDetail_EA |
|
std::unique_ptr< MonGroup > | m_segmDetail_EC |
|
std::unique_ptr< MonGroup > | m_segmOview_EA |
|
std::unique_ptr< MonGroup > | m_segmOview_EC |
|
ToolHandle< Trig::TrigDecisionTool > | m_trigDec |
|
std::vector< std::string > | m_sampSelTriggers |
|
bool | m_doEvtSel |
|
SG::ReadHandleKey< Trk::SegmentCollection > | m_segmKey {this,"SegmentKey","TrackMuonSegments","muon segments"} |
|
double | m_segmSlope = 0.0 |
|
bool | m_debuglevel |
| private member to control debug messages More...
|
|
bool | m_bookedhistos |
|
std::vector< std::string > | m_ecap |
|
std::vector< std::string > | m_segcoll |
|
TH2F * | m_h2CSC_Segm_NumOfSegs_EA = nullptr |
|
TH2F * | m_h2CSC_Segm_NumOfSegs_EC = nullptr |
|
std::vector< std::string > | m_clusStatWord |
|
std::vector< std::string > | m_NClusWord |
|
TH2F * | m_h2CSC_Segm_NumOfNClusSegs_Eta_EA = nullptr |
|
TH2F * | m_h2CSC_Segm_NumOfNClusSegs_Eta_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_Efficiency_Eta_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_Efficiency_Eta_EC = nullptr |
|
TH2F * | m_h2CSC_Segm_QsumOfGoodClusMap_Eta_EA = nullptr |
|
TH2F * | m_h2CSC_Segm_QsumOfGoodClusMap_Eta_EC = nullptr |
|
TH2F * | m_h2CSC_Segm_TimeOfGoodClusMap_Eta_EA = nullptr |
|
TH2F * | m_h2CSC_Segm_TimeOfGoodClusMap_Eta_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_StatOfClus_Eta_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_NumOfClus_Eta_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_NumOfGoodClus_Eta_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_QsumOfClus_Eta_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_QsumOfGoodClus_Eta_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_TimeOfClus_Eta_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_TimeOfGoodClus_Eta_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_StatOfClus_Eta_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_NumOfClus_Eta_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_NumOfGoodClus_Eta_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_QsumOfClus_Eta_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_QsumOfGoodClus_Eta_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_TimeOfClus_Eta_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_TimeOfGoodClus_Eta_EC = nullptr |
|
TH2F * | m_h2CSC_Segm_QsumOfGoodClusMap_Phi_EA = nullptr |
|
TH2F * | m_h2CSC_Segm_QsumOfGoodClusMap_Phi_EC = nullptr |
|
TH2F * | m_h2CSC_Segm_TimeOfGoodClusMap_Phi_EA = nullptr |
|
TH2F * | m_h2CSC_Segm_TimeOfGoodClusMap_Phi_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_StatOfClus_Phi_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_NumOfClus_Phi_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_NumOfGoodClus_Phi_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_QsumOfClus_Phi_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_QsumOfGoodClus_Phi_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_TimeOfClus_Phi_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_TimeOfGoodClus_Phi_EA = nullptr |
|
TH1F * | m_h1CSC_Segm_StatOfClus_Phi_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_NumOfClus_Phi_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_NumOfGoodClus_Phi_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_QsumOfClus_Phi_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_QsumOfGoodClus_Phi_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_TimeOfClus_Phi_EC = nullptr |
|
TH1F * | m_h1CSC_Segm_TimeOfGoodClus_Phi_EC = nullptr |
|
TH2F * | m_h2CSC_Segm_QsumOfGoodClus_PhiVsEta_EA = nullptr |
|
TH2F * | m_h2CSC_Segm_QsumOfGoodClus_PhiVsEta_EC = nullptr |
|
ServiceHandle< Muon::IMuonEDMHelperSvc > | m_edmHelperSvc |
|
ServiceHandle< Muon::IMuonIdHelperSvc > | m_idHelperSvc {this, "MuonIdHelperSvc", "Muon::MuonIdHelperSvc/MuonIdHelperSvc"} |
|
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 |
|
Definition at line 47 of file CSCSegmValAlg.h.
◆ EndCapType
◆ MDMap_t
◆ SegmHistIter
◆ SegmHistType
◆ StoreGateSvc_t
◆ TrkSegmIter
◆ TrkSegmType
◆ EndCaps
◆ Interval_t
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.
◆ MgmtAttr_t
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.
◆ CSCSegmValAlg()
CSCSegmValAlg::CSCSegmValAlg |
( |
const std::string & |
type, |
|
|
const std::string & |
name, |
|
|
const IInterface * |
parent |
|
) |
| |
◆ ~CSCSegmValAlg()
virtual CSCSegmValAlg::~CSCSegmValAlg |
( |
| ) |
|
|
virtualdefault |
◆ bookHistograms()
StatusCode CSCSegmValAlg::bookHistograms |
( |
| ) |
|
|
virtual |
◆ bookHistogramsRecurrent()
StatusCode ManagedMonitorToolBase::bookHistogramsRecurrent |
( |
| ) |
|
|
virtualinherited |
An inheriting class should either override this function, bookHists() or bookHistograms().
Reimplemented in SCTHitEffMonTool, SCTHitsNoiseMonTool, SCTErrMonTool, SCTTracksMonTool, SCTLorentzMonTool, AFPHitsMonitorTool, InDetGlobalBCMTool, DQTDataFlowMonTool, RpcLv1RawDataEfficiency, LVL1::CalorimeterL1CaloMon, LVL1::L1CaloCTPMon, LVL1::L1CaloLevel2Mon, LVL1::L1CaloPMTScoresMon, MdtRawDataValAlg, InDetGlobalTrackMonTool, InDetGlobalHitsMonTool, TRT_Monitoring_Tool, LVL1::L1CaloL1TopoMon, CaloTowerVecMon, DQTGlobalWZFinderTool, InDetGlobalTopBottomMonTool, DataQualityFatherMonTool, InDetGlobalNoiseOccupancyMonTool, RpcLv1RawDataValAlg, CaloClusterVecMon, RpcLv1RawDataSectorLogic, CaloTransverseBalanceVecMon, InDetGlobalBeamSpotMonTool, MdtVsTgcRawDataValAlg, MdtVsRpcRawDataValAlg, InDetGlobalErrorMonTool, ManagedMonitorToolTest, InDetGlobalPrimaryVertexMonTool, HIMonitoringEventShapeTool, AFPTechnicalMonitorTool, HIMonitoringZdcTool, HIMonitoringElectronsTool, HIMonitoringPhotonsTool, and HIMonitoringMuonsTool.
Definition at line 1394 of file ManagedMonitorToolBase.cxx.
1401 return StatusCode::SUCCESS;
◆ bookHists()
StatusCode ManagedMonitorToolBase::bookHists |
( |
| ) |
|
|
virtualinherited |
◆ bookSegmentHistograms()
void CSCSegmValAlg::bookSegmentHistograms |
( |
| ) |
|
|
private |
Definition at line 109 of file CSCSegmValAlg.cxx.
119 float nyminEC = -17.;
128 float nclustmin = .5;
129 float nclustmax = 5.5;
145 std::string segm_detailA =
"Muon/MuonSegmentMonitoring/EndCapA/Detail/";
146 std::string segm_detailC =
"Muon/MuonSegmentMonitoring/EndCapC/Detail/";
147 std::string segm_oviewA =
"Muon/MuonSegmentMonitoring/EndCapA/Overview/";
148 std::string segm_oviewC =
"Muon/MuonSegmentMonitoring/EndCapC/Overview/";
166 Form(
"EndCap A: No. of segments; #segments;[sector] + [0.2 #times layer]"),
167 nsegbins,nsegmin,nsegmax,nybinsEA,nyminEA,nymaxEA);
169 Form(
"EndCap C: No. of segments; #segments;[sector] + [0.2 #times layer]"),
170 nsegbins,nsegmin,nsegmax,nybinsEC,nyminEC,nymaxEC);
177 Form(
"EndCap A: #eta-number of 3 and 4 cluster segments with each layer;counts;[sector] + [0.2 #times layer]"),
178 nclustbins,nclustmin,nclustmax,nybinsEA,nyminEA,nymaxEA);
181 Form(
"EndCap C: #eta-number of 3 and 4 cluster segments with each layer;counts;[sector] + [0.2 #times layer]"),
182 nclustbins,nclustmin,nclustmax,nybinsEC,nyminEC,nymaxEC);
193 Form(
"EndCap A: #eta-segment efficiency per sector;[sector] + [0.2 #times layer];efficiency"),
194 nybinsEA,nyminEA,nymaxEA);
197 Form(
"EndCap C: #eta-segment efficiency per sector;[sector] + [0.2 #times layer];efficiency"),
198 nybinsEC,nyminEC,nymaxEC);
205 Form(
"EndCap A: #eta-cluster charge per layer;counts;[sector] + [0.2 #times layer]"),
206 nqbins,nqmin,nqmax,nybinsEA,nyminEA,nymaxEA);
209 Form(
"EndCap C: #eta-cluster charge per layer;counts;[sector] + [0.2 #times layer]"),
210 nqbins,nqmin,nqmax,nybinsEC,nyminEC,nymaxEC);
216 Form(
"EndCap A: #eta-cluster time per layer;time [ns];[sector] + [0.2 #times layer]"),
217 ntbins,ntmin,ntmax,nybinsEA,nyminEA,nymaxEA);
220 Form(
"EndCap C: #eta-cluster time per layer;time [ns];[sector] + [0.2 #times layer]"),
221 ntbins,ntmin,ntmax,nybinsEC,nyminEC,nymaxEC);
228 "Endcap A: #eta-cluster status;;entries",
nbins,binmin,binmax);
231 "Endcap C: #eta-cluster status;;entries",
nbins,binmin,binmax);
240 "Endcap A: No. of #eta-clusters on segment;#clusters;entries", nsbins,nsmin,nsmax);
242 "Endcap C: No. of #eta-clusters on segment;#clusters;entries", nsbins,nsmin,nsmax);
247 "Endcap A: No. of good #eta-clusters on segment;#good-clusters;entries", nsbins,nsmin,nsmax);
249 "Endcap C: No. of good #eta-clusters on segment;#good-clusters;entries", nsbins,nsmin,nsmax);
254 "Endcap A: #eta-cluster Qsum;counts;entries", nqbins,nqmin,nqmax );
256 "Endcap C: #eta-cluster Qsum;counts;entries", nqbins,nqmin,nqmax );
261 "Endcap A: #eta-cluster Time;time [ns];entries", ntbins,ntmin,ntmax );
263 "Endcap C: #eta-cluster Time;time [ns];entries", ntbins,ntmin,ntmax );
268 "Endcap A: Good #eta-cluster Qsum;counts;entries", nqbins,nqmin,nqmax );
270 "Endcap C: Good #eta-cluster Qsum;counts;entries", nqbins,nqmin,nqmax );
275 "Endcap A: Good #eta-cluster Time;time [ns];entries", ntbins,ntmin,ntmax );
277 "Endcap C: Good #eta-cluster Time;time [ns];entries", ntbins,ntmin,ntmax );
284 Form(
"EndCap A: #phi-cluster charge per layer;counts;[sector] + [0.2 #times layer]"),
285 nqbins,nqmin,nqmax,nybinsEA,nyminEA,nymaxEA);
288 Form(
"EndCap C: #phi-cluster charge per layer;counts;[sector] + [0.2 #times layer]"),
289 nqbins,nqmin,nqmax,nybinsEC,nyminEC,nymaxEC);
295 Form(
"EndCap A: #phi-cluster time per layer;time [ns];[sector] + [0.2 #times layer]"),
296 ntbins,ntmin,ntmax,nybinsEA,nyminEA,nymaxEA);
299 Form(
"EndCap C: #phi-cluster time per layer;time [ns];[sector] + [0.2 #times layer]"),
300 ntbins,ntmin,ntmax,nybinsEC,nyminEC,nymaxEC);
306 "Endcap A: #phi-cluster status;;entries",
nbins,binmin,binmax);
309 "Endcap C: #phi-cluster status;;entries",
nbins,binmin,binmax);
319 "Endcap A: No. of #phi-clusters on segment;#clusters;entries", nsbins,nsmin,nsmax);
321 "Endcap C: No. of #phi-clusters on segment;#clusters;entries", nsbins,nsmin,nsmax);
326 "Endcap A: No. of good #phi-clusters on segment;#good-clusters;entries", nsbins,nsmin,nsmax);
328 "Endcap C: No. of good #phi-clusters on segment;#good-clusters;entries", nsbins,nsmin,nsmax);
333 "Endcap A: #phi-cluster Qsum;counts;entries", nqbins,nqmin,nqmax );
335 "Endcap C: #phi-cluster Qsum;counts;entries", nqbins,nqmin,nqmax );
340 "Endcap A: #phi-cluster Time;time [ns];entries", ntbins,ntmin,ntmax );
342 "Endcap C: #phi-cluster Time;time [ns];entries", ntbins,ntmin,ntmax );
347 "Endcap A: Good #phi-cluster Qsum;counts;entries", nqbins,nqmin,nqmax );
349 "Endcap C: Good #phi-cluster Qsum;counts;entries", nqbins,nqmin,nqmax );
354 "Endcap A: Good #phi-cluster Time;time [ns];entries", ntbins,ntmin,ntmax );
356 "Endcap C: Good #phi-cluster Time;time [ns];entries", ntbins,ntmin,ntmax );
362 "Endcap A: #phi-cluster vs. good #eta-cluster;good #eta-cluster counts;good #phi-cluster counts", nqbins,nqmin,nqmax, nqbins,nqmin,nqmax);
364 "Endcap A: #phi-cluster vs. good #eta-cluster;good #eta-cluster counts;good #phi-cluster counts", nqbins,nqmin,nqmax, nqbins,nqmin,nqmax);
◆ 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.
1906 return StatusCode::SUCCESS;
◆ convertLWHists()
StatusCode ManagedMonitorToolBase::convertLWHists |
( |
| ) |
|
|
virtualinherited |
◆ cscHits()
Definition at line 778 of file CSCSegmValAlg.cxx.
779 unsigned int nrHits(0);
783 for(
unsigned int i = 0;
i< mbs.size(); ++
i){
◆ declareGaudiProperty() [1/4]
specialization for handling Gaudi::Property<SG::VarHandleKeyArray>
Definition at line 170 of file AthCommonDataStore.h.
175 hndl.documentation());
◆ declareGaudiProperty() [2/4]
specialization for handling Gaudi::Property<SG::VarHandleKey>
Definition at line 156 of file AthCommonDataStore.h.
161 hndl.documentation());
◆ declareGaudiProperty() [3/4]
specialization for handling Gaudi::Property<SG::VarHandleBase>
Definition at line 184 of file AthCommonDataStore.h.
189 hndl.documentation());
◆ declareGaudiProperty() [4/4]
◆ declareProperty() [1/6]
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.
250 this->declare(hndl.
vhKey());
251 hndl.
vhKey().setOwner(
this);
◆ declareProperty() [2/6]
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.
◆ declareProperty() [3/6]
◆ declareProperty() [4/6]
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.
◆ declareProperty() [5/6]
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.
◆ declareProperty() [6/6]
◆ deregGraph()
StatusCode ManagedMonitorToolBase::deregGraph |
( |
TGraph * |
g | ) |
|
|
virtualinherited |
◆ deregHist() [1/2]
StatusCode ManagedMonitorToolBase::deregHist |
( |
LWHist * |
h | ) |
|
|
virtualinherited |
Definition at line 1826 of file ManagedMonitorToolBase.cxx.
1830 return StatusCode::FAILURE;
1833 if (
h->usingROOTBackend()) {
1834 h->setOwnsROOTHisto(
true);
1838 return StatusCode::SUCCESS;
◆ deregHist() [2/2]
StatusCode ManagedMonitorToolBase::deregHist |
( |
TH1 * |
h | ) |
|
|
virtualinherited |
◆ 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.
1874 return StatusCode::SUCCESS;
◆ 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.
◆ detStore()
◆ endOfEventsBlockFlag()
bool ManagedMonitorToolBase::endOfEventsBlockFlag |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ endOfLowStatFlag()
bool ManagedMonitorToolBase::endOfLowStatFlag |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ endOfLumiBlockFlag()
bool ManagedMonitorToolBase::endOfLumiBlockFlag |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ endOfRunFlag()
bool ManagedMonitorToolBase::endOfRunFlag |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ evtSelTriggersPassed()
bool CSCSegmValAlg::evtSelTriggersPassed |
( |
| ) |
|
|
private |
TDT handle.
Definition at line 741 of file CSCSegmValAlg.cxx.
744 std::vector<std::string>::const_iterator
747 if (
m_trigDec->isPassed(*
it, TrigDefs::eventAccepted)) {
◆ evtStore() [1/2]
◆ evtStore() [2/2]
◆ extraDeps_update_handler()
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
◆ fillHistograms()
StatusCode CSCSegmValAlg::fillHistograms |
( |
| ) |
|
|
virtual |
Histogram filling method.
Reimplemented from ManagedMonitorToolBase.
Definition at line 388 of file CSCSegmValAlg.cxx.
398 int segmClustCount[33];
402 int clusCount[33][9];
403 for(
unsigned int kl = 0;
kl < 33;
kl++ ) {
404 for(
unsigned int cm3 = 0;
cm3 < 9;
cm3++ ) {
405 clusCount[
kl][
cm3] = 0;
412 if ( segments->empty() ){
417 return StatusCode::SUCCESS;
422 ATH_MSG_DEBUG(
"Number of segms found: " << segments->size() );
425 if ( segments->size() > 0 ){
426 ATH_MSG_DEBUG(
"Number of segms in event is: " << segments->size() );
427 ATH_MSG_DEBUG(
"This algorithm is designed to operate for single segm / event only" );
428 ATH_MSG_DEBUG(
"Processing only the first segm in the segm collection" );
439 if (segm ==
nullptr) {
449 if (
cscHits(segm)<1 )
continue;
456 int n_clust=meas.size();
457 if ( n_clust < 2 )
continue;
463 for(
int sect = 0; sect < 33; sect++) {
464 segmClustCount[sect] = 0;
465 for(
unsigned int ilay = 0; ilay < 9; ilay++ ) {
466 clusCount[sect][ilay] = 0;
487 bool segmAngle_cut =
segmSlopeCut(segm_ly, segm_ayz, segm_cut);
489 "\tangle_yz: " << segm_ayz <<
"\tcut: " << segm_cut <<
"\t pass = " << segmAngle_cut );
518 int segm_stationPhi =
m_idHelperSvc->cscIdHelper().stationPhi(segmId);
519 int segm_stationEta =
m_idHelperSvc->cscIdHelper().stationEta(segmId);
520 int segm_stationName =
m_idHelperSvc->cscIdHelper().stationName(segmId);
521 std::string segm_stationString =
m_idHelperSvc->cscIdHelper().stationNameString(segm_stationName);
522 int segm_chamberType = segm_stationString ==
"CSS" ? 0 : 1;
523 int segm_sectorNo = segm_stationEta * (2 * segm_stationPhi - segm_chamberType);
524 int segm_isec = segm_sectorNo < 0 ? segm_sectorNo*(-1) : segm_sectorNo+16;
525 ATH_MSG_DEBUG(
" sgsec = " << segm_isec <<
"\tsec = " << segm_sectorNo);
530 float clus_kiloele = 1.0e-3;
531 int eta_clus_count[2][2] = {{0},{0}}, phi_clus_count[2][2] = {{0},{0}};
532 float eta_clus_qsum[2][5] = {{-1.}, {-1.}}, phi_clus_qsum[2][5] = {{-1.}, {-1.}};
533 float eta_clus_time[2][5] = {{-1.}, {-1.}}, phi_clus_time[2][5] = {{-1.}, {-1.}};
534 int eta_clus_use[2][5] = {{0},{0}}, phi_clus_use[2][5] = {{0}, {0}};
545 int clus_stationName =
m_idHelperSvc->cscIdHelper().stationName(clusId);
546 std::string clus_stationString =
m_idHelperSvc->cscIdHelper().stationNameString(clus_stationName);
547 int clus_chamberType = clus_stationString ==
"CSS" ? 0 : 1;
548 int clus_stationEta =
m_idHelperSvc->cscIdHelper().stationEta(clusId);
549 int clus_stationPhi =
m_idHelperSvc->cscIdHelper().stationPhi(clusId);
550 int clus_wireLayer =
m_idHelperSvc->cscIdHelper().wireLayer(clusId);
551 int clus_measuresPhi =
m_idHelperSvc->cscIdHelper().measuresPhi(clusId);
554 int clus_sectorNo = clus_stationEta * (2 * clus_stationPhi - clus_chamberType);
555 float clus_secLayer = clus_sectorNo + 0.2 * (clus_wireLayer - 1) + 0.1;
556 int clus_isec = clus_sectorNo < 0 ? clus_sectorNo*(-1) : clus_sectorNo+16;
557 int clus_ilay = (clus_measuresPhi ? clus_wireLayer : clus_wireLayer+4);
561 if(segm_stationEta == 1) {
570 bool clus_status = ( (clus_stat ==
"unspoiled") ||
571 (clus_stat ==
"unspoiled with split") ||
572 (clus_stat ==
"simple")
579 float clus_qsum = 0, clus_time = -1.;
580 unsigned int clus_noStrips=0;
582 clus_qsum = theClus->
charge() * clus_kiloele;
583 clus_time = theClus->
time();
585 if(clus_measuresPhi == 0) {
586 if(clus_stationEta == 1) eta_clus_count[0][0]++;
587 else eta_clus_count[1][0]++;
589 if(clus_stationEta == 1) phi_clus_count[0][0]++;
590 else phi_clus_count[1][0]++;
593 clus_noStrips = theClus->
rdoList().size();
598 bool clus_eta_status = clus_status && ( clus_noStrips > 2 ) && (clus_measuresPhi == 0);
599 bool clus_eta_eff = clus_stat_eff && ( clus_noStrips > 2 ) && (clus_measuresPhi == 0);
601 if(clus_stationEta == 1) {
602 eta_clus_count[0][1]++;
604 eta_clus_count[1][1]++;
607 if(clus_eta_status) {
608 if(clus_stationEta == 1) {
609 eta_clus_qsum[0][clus_wireLayer] = clus_qsum;
610 eta_clus_time[0][clus_wireLayer] = clus_time;
611 eta_clus_use[0][clus_wireLayer] = 1;
615 eta_clus_qsum[1][clus_wireLayer] = clus_qsum;
616 eta_clus_time[1][clus_wireLayer] = clus_time;
617 eta_clus_use[1][clus_wireLayer] = 1;
624 bool clus_phi_status = clus_status && ( clus_noStrips > 0 ) && (clus_measuresPhi == 1);
625 if(clus_phi_status) {
626 if(clus_stationEta == 1) {
627 phi_clus_qsum[0][clus_wireLayer] = clus_qsum;
628 phi_clus_time[0][clus_wireLayer] = clus_time;
629 phi_clus_use[0][clus_wireLayer] = 1;
630 phi_clus_count[0][1]++;
634 phi_clus_qsum[1][clus_wireLayer] = clus_qsum;
635 phi_clus_time[1][clus_wireLayer] = clus_time;
636 phi_clus_use[1][clus_wireLayer] = 1;
637 phi_clus_count[1][1]++;
644 if(clus_eta_status || clus_phi_status) clusCount[clus_isec][clus_ilay]++;
647 if(clus_eta_status) segmClustCount[clus_isec]++;
649 if(clus_eta_status) layerindex+=clus_wireLayer;
651 ATH_MSG_DEBUG(
"status = " << clus_stat <<
"\tcharge = " << clus_qsum <<
"\ttime= " << clus_time <<
"\tnstrips = " << clus_noStrips);
667 for (
int isect = 1; isect < 17; isect++) {
668 if(segmClustCount[isect+16] > 2){
671 if(segmClustCount[isect] > 2){
674 if(segmClustCount[isect+16] > 3){
680 if(segmClustCount[isect] > 3){
688 float eta_clus_qsum_tot = 0., phi_clus_qsum_tot = 0.;
689 for(
unsigned int i = 0;
i < 2;
i++) {
690 eta_clus_qsum_tot = 0; phi_clus_qsum_tot = 0.;
691 for(
unsigned int j = 1; j < 5; j++) {
700 if(phi_clus_use[
i][j] && eta_clus_use[
i][j]) {
701 eta_clus_qsum_tot += eta_clus_qsum[
i][j];
706 phi_clus_qsum_tot += phi_clus_qsum[
i][j];
725 return StatusCode::SUCCESS;
◆ 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.
798 msg(MSG::WARNING) <<
"ManagedMonitorToolBase::initialize() never called from reimplementation!" <<
endmsg;
809 newLumiBlock =
false;
815 newLowStatInterval =
false;
816 newMedStatInterval =
false;
817 newHigStatInterval =
false;
830 isNewEventsBlock =
true;
845 if( LBsLowStat*LBsMedStat*LBsHigStat == 0) {
846 msg(MSG::WARNING) <<
"zero LBs requested for interval" <<
endmsg;
898 std::vector<Interval_t> intervals_to_process;
903 for (
const auto interval: intervals_to_process) {
916 it.m_templateHist->LabelsInflate(
"X");
923 TH1* passedHist =
it.m_templateHist->GetCopyPassedHisto();
924 TH1* totalHist =
it.m_templateHist->GetCopyTotalHisto();
927 passedHist->LabelsInflate(
"X");
928 totalHist->LabelsInflate(
"X");
933 it.m_templateHist->SetPassedHistogram(*passedHist,
"f");
934 it.m_templateHist->SetTotalHistogram(*totalHist,
" ");
942 streamname->updateRunLB();
958 bool filterresult(
true);
961 for (; filterresult && (ifilter != filterend);
963 filterresult = (filterresult && (*ifilter)->accept());
993 if( LBsLowStat*LBsMedStat*LBsHigStat > 0) {
1001 return StatusCode::SUCCESS;
◆ finalHists()
StatusCode ManagedMonitorToolBase::finalHists |
( |
| ) |
|
|
virtualinherited |
◆ get_nEvents()
unsigned int ManagedMonitorToolBase::get_nEvents |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ get_procNEventsProp()
long ManagedMonitorToolBase::get_procNEventsProp |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ getHist() [1/6]
◆ getHist() [2/6]
StatusCode ManagedMonitorToolBase::getHist |
( |
LWHist *& |
h, |
|
|
const std::string & |
hName, |
|
|
const std::string & |
system, |
|
|
Interval_t |
interval |
|
) |
| |
|
virtualinherited |
◆ 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.
◆ 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.
◆ 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.
◆ 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.
◆ getNewStreamNameFcn()
|
protectedvirtualinherited |
◆ initialize()
StatusCode CSCSegmValAlg::initialize |
( |
| ) |
|
|
virtual |
◆ inputHandles()
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 |
◆ 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.
590 std::string
str(
"file");
◆ intervalStringToEnum()
Converts a string to the corresponding Interval_t.
Definition at line 629 of file ManagedMonitorToolBase.cxx.
632 std::string lcstr( strToLower(
str) );
636 else if( lcstr ==
"fill" )
638 else if( lcstr ==
"run" )
640 else if( lcstr ==
"lowStat" )
642 else if( lcstr ==
"medStat" )
644 else if( lcstr ==
"higStat" )
646 else if( lcstr ==
"lumiBlock" )
648 else if( lcstr ==
"eventsBlock" )
650 else if( lcstr ==
"file" )
656 if(
sc.isSuccess() ) {
657 MsgStream
log(
ms,
"ManagedMonitorToolBase::intervalStringToEnum()" );
658 log << MSG::WARNING <<
"Unknown ManagedMonitorToolBase::Interval_t \""
659 <<
str <<
"\", returning \"file\"" <<
endmsg;
◆ isCscSegment()
◆ 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.
1928 return lumi->lbAverageInteractionsPerCrossing();
1931 ATH_MSG_DEBUG(
"Warning: lbAverageInteractionsPerCrossing() - luminosity tools are not retrieved or turned on (i.e. EnableLumi = False)");
◆ lbAverageLivefraction()
float ManagedMonitorToolBase::lbAverageLivefraction |
( |
const EventContext & |
ctx = Gaudi::Hive::currentContext() | ) |
const |
|
virtualinherited |
Average luminosity livefraction.
Definition at line 1992 of file ManagedMonitorToolBase.cxx.
2000 return live->lbAverageLiveFraction();
2003 ATH_MSG_DEBUG(
"Warning: lbAverageLivefraction() - luminosity not availble (i.e. EnableLumi = False)");
◆ 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.
1964 return lumi->lbAverageLuminosity();
1967 ATH_MSG_DEBUG(
"Warning: lbAverageLuminosity() - luminosity tools are not retrieved or turned on (i.e. EnableLumi = False)");
◆ 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.
2054 return dur->lbDuration();
2057 ATH_MSG_DEBUG(
"Warning: lbDuration() - luminosity tools are not retrieved or turned on (i.e. EnableLumi = False)");
◆ 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.
1944 float muToLumi =
lumi->muToLumi();
1946 return lumi->lbLuminosityPerBCIDVector().at (ctx.eventID().bunch_crossing_id()) / muToLumi;
1951 ATH_MSG_DEBUG(
"Warning: lbInteractionsPerCrossing() - luminosity tools are not retrieved or turned on (i.e. EnableLumi = False)");
◆ lbLuminosityPerBCID()
float ManagedMonitorToolBase::lbLuminosityPerBCID |
( |
const EventContext & |
ctx = Gaudi::Hive::currentContext() | ) |
const |
|
virtualinherited |
Instantaneous luminosity.
Definition at line 1975 of file ManagedMonitorToolBase.cxx.
1980 return lumi->lbLuminosityPerBCIDVector().at (ctx.eventID().bunch_crossing_id());
1983 ATH_MSG_DEBUG(
"Warning: lbLuminosityPerBCID() - luminosity tools are not retrieved or turned on (i.e. EnableLumi = False)");
◆ 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.
2037 ATH_MSG_DEBUG(
"Warning: lbLumiWeight() - luminosity tools are not retrieved or turned on (i.e. EnableLumi = False)");
◆ 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.
2019 return live->l1LiveFractionVector().at (ctx.eventID().bunch_crossing_id());
2022 ATH_MSG_DEBUG(
"Warning: livefractionPerBCID() - luminosity retrieved available (i.e. EnableLumi = False)");
◆ 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]
◆ msg() [2/2]
◆ msgLvl()
◆ newEventsBlockFlag()
bool ManagedMonitorToolBase::newEventsBlockFlag |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ newHigStatIntervalFlag()
bool ManagedMonitorToolBase::newHigStatIntervalFlag |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ newLowStatFlag()
bool ManagedMonitorToolBase::newLowStatFlag |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ newLowStatIntervalFlag()
bool ManagedMonitorToolBase::newLowStatIntervalFlag |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ newLumiBlockFlag()
bool ManagedMonitorToolBase::newLumiBlockFlag |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ newMedStatIntervalFlag()
bool ManagedMonitorToolBase::newMedStatIntervalFlag |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ newRunFlag()
bool ManagedMonitorToolBase::newRunFlag |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ outputHandles()
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 |
◆ preSelector()
bool ManagedMonitorToolBase::preSelector |
( |
| ) |
|
|
virtualinherited |
◆ procHistograms()
StatusCode CSCSegmValAlg::procHistograms |
( |
| ) |
|
|
virtual |
◆ regCSCHist()
void CSCSegmValAlg::regCSCHist |
( |
TH1 * |
h, |
|
|
MonGroup * |
mg |
|
) |
| |
|
private |
Definition at line 836 of file CSCSegmValAlg.cxx.
838 if(!
cm3 || !
h)
return;
840 ATH_MSG_INFO (
"registering histogram: " <<
h->GetName() <<
" with group: " <<
cm3->system() );
842 if (
sc.isFailure() ) {
843 ATH_MSG_ERROR (
"Failed to register histogram: " <<
h->GetName() <<
" with group: " <<
cm3->system() );
845 ATH_MSG_VERBOSE (
"registered histogram: " <<
h->GetName() <<
" with group: " <<
cm3->system() );
◆ 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.
1650 return StatusCode::FAILURE;
1652 TGraph*
g =
reinterpret_cast<TGraph*
>(
e);
1653 std::string
name =
e->GetName();
1659 ATH_MSG_WARNING(
"HEY! Attempting to register "<<
name<<
" as a per-LB histogram, but not setting the merge algorithm! Use \"merge\", at least.");
1666 return StatusCode::FAILURE;
1676 std::string genericName = NoOutputStream().getStreamName(
this,
group,
name );
1683 if (
smd != StatusCode::SUCCESS)
1684 return StatusCode::FAILURE;
◆ 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.
1706 return StatusCode::FAILURE;
1719 return StatusCode::FAILURE;
1722 std::string
name =
g->GetName();
1730 std::string gName =
g->GetName();
1733 std::string genericName = NoOutputStream().getStreamName(
this,
group, gName );
1741 if (
smd != StatusCode::SUCCESS)
return StatusCode::FAILURE;
◆ regGraph() [2/2]
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.
◆ regHist() [1/4]
Definition at line 1522 of file ManagedMonitorToolBase.cxx.
1528 return StatusCode::FAILURE;
1540 return StatusCode::FAILURE;
1547 std::string hName =
h->GetName();
1551 std::string genericName = NoOutputStream().getStreamName(
this,
group, hName );
1577 if (
h->usingROOTBackend())
1579 h->setOwnsROOTHisto(
false);
1583 return StatusCode::SUCCESS;
◆ regHist() [2/4]
◆ regHist() [3/4]
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.
1468 return StatusCode::FAILURE;
1481 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.");
1488 return StatusCode::FAILURE;
1491 std::string hName =
h->GetName();
1499 std::string hName =
h->GetName();
1502 std::string genericName = NoOutputStream().getStreamName(
this,
group, hName );
1510 if (
smd != StatusCode::SUCCESS)
return StatusCode::FAILURE;
◆ regHist() [4/4]
◆ registerMetadata()
StatusCode ManagedMonitorToolBase::registerMetadata |
( |
const std::string & |
streamName, |
|
|
const std::string & |
hName, |
|
|
const MonGroup & |
group |
|
) |
| |
|
protectedinherited |
Definition at line 1005 of file ManagedMonitorToolBase.cxx.
1011 size_t found=mdStreamName.rfind(
'/');
1013 if (
found != std::string::npos )
1014 mdStreamName.replace(
found, mdStreamName.length(),
"/metadata" );
1018 metadata =
new TTree(
"metadata",
"Monitoring Metadata" );
1019 if (!
metadata)
return StatusCode::FAILURE;
1021 if (scmd == StatusCode::FAILURE)
return StatusCode::FAILURE;
1022 MDMap_t::value_type valToInsert( mdStreamName,
new OutputMetadata(
metadata) );
1028 return StatusCode::SUCCESS;
◆ regManagedEfficiencies()
StatusCode ManagedMonitorToolBase::regManagedEfficiencies |
( |
std::vector< MgmtParams< TEfficiency > > & |
templateEfficiencies | ) |
|
|
protectedinherited |
Definition at line 1200 of file ManagedMonitorToolBase.cxx.
1201 bool allIsOk =
true;
1202 for(
auto&
it : templateEfficiencies ) {
1205 TEfficiency* theEfficiency =
it.m_templateHist;
1206 TEfficiency*
e =
static_cast<TEfficiency*
>(theEfficiency->Clone());
1207 int nbins = theEfficiency->GetTotalHistogram()->GetNbinsX();
1208 int xlow = theEfficiency->GetTotalHistogram()->GetXaxis()->GetXmin();
1209 int xhigh = theEfficiency->GetTotalHistogram()->GetXaxis()->GetXmax();
1210 e->SetBins(
nbins,xlow,xhigh);
1211 std::string
name =
e->GetName();
1214 TGraph* theGraph =
reinterpret_cast<TGraph*
>(theEfficiency);
1215 TGraph*
g =
reinterpret_cast<TGraph*
>(
e);
1223 if (sc1 == StatusCode::FAILURE) allIsOk =
false;
1225 bool doneCleaning =
false;
1227 TSeqCollection *
filelist=gROOT->GetListOfFiles();
1232 if (sc2 == StatusCode::SUCCESS) doneCleaning =
true;
1235 if (!doneCleaning) {
1236 ATH_MSG_ERROR(
"THistSvc_deReg_fixTGraph: failed to apply TGraph fix for the THist Svc!");
1241 if (sc3 == StatusCode::FAILURE)
1248 if (
smd != StatusCode::SUCCESS) allIsOk =
false;
1251 if (sc4 == StatusCode::FAILURE) allIsOk =
false;
1254 if (!allIsOk)
return StatusCode::FAILURE;
1255 return StatusCode::SUCCESS;
◆ regManagedGraphs()
StatusCode ManagedMonitorToolBase::regManagedGraphs |
( |
std::vector< MgmtParams< TGraph > > & |
templateGraphs | ) |
|
|
protectedinherited |
Definition at line 1129 of file ManagedMonitorToolBase.cxx.
1133 bool allIsOk =
true;
1135 for( std::vector< MgmtParams<TGraph> >::
iterator it = templateGraphs.begin();
it != templateGraphs.end(); ++
it ) {
1136 MonGroup
group = (*it).m_group;
1139 TGraph* theGraph = (*it).m_templateHist;
1142 TGraph*
g =
static_cast<TGraph*
>(theGraph->Clone());
1146 std::string gName =
g->GetName();
1153 if (sc1 == StatusCode::FAILURE)
1158 bool doneCleaning =
false;
1160 TSeqCollection *
filelist=gROOT->GetListOfFiles();
1165 if (sc2 == StatusCode::SUCCESS)
1166 doneCleaning =
true;
1170 if (!doneCleaning) {
1171 ATH_MSG_ERROR(
"THistSvc_deReg_fixTGraph: failed to apply TGraph fix for the THist Svc!");
1178 if (sc3 == StatusCode::FAILURE)
1185 if (
smd != StatusCode::SUCCESS)
1190 if (sc4 == StatusCode::FAILURE)
1195 if (!allIsOk)
return StatusCode::FAILURE;
1197 return StatusCode::SUCCESS;
◆ regManagedHistograms()
StatusCode ManagedMonitorToolBase::regManagedHistograms |
( |
std::vector< MgmtParams< TH1 > > & |
templateHistograms | ) |
|
|
protectedinherited |
Definition at line 1032 of file ManagedMonitorToolBase.cxx.
1047 bool allIsOk =
true;
1049 for( std::vector< MgmtParams<TH1> >::
iterator it = templateHistograms.begin();
it != templateHistograms.end(); ++
it ) {
1050 MonGroup&
group = (*it).m_group;
1053 TH1* theHist = (*it).m_templateHist;
1056 TH1*
h =
static_cast<TH1*
>(theHist->Clone());
1060 std::string hName =
h->GetName();
1067 if (sc1 == StatusCode::FAILURE) allIsOk =
false;
1071 if (sc2 == StatusCode::FAILURE) allIsOk =
false;
1074 std::string genericName = NoOutputStream().getStreamName(
this,
group, hName );
1083 if (
smd != StatusCode::SUCCESS) allIsOk =
false;
1087 if (sc3 == StatusCode::FAILURE) allIsOk =
false;
1091 if (!allIsOk)
return StatusCode::FAILURE;
1093 return StatusCode::SUCCESS;
◆ regManagedLWHistograms()
StatusCode ManagedMonitorToolBase::regManagedLWHistograms |
( |
std::vector< MgmtParams< LWHist > > & |
templateLWHistograms | ) |
|
|
protectedinherited |
◆ regManagedTrees()
StatusCode ManagedMonitorToolBase::regManagedTrees |
( |
std::vector< MgmtParams< TTree > > & |
templateTrees | ) |
|
|
protectedinherited |
Definition at line 1260 of file ManagedMonitorToolBase.cxx.
1264 bool allIsOk =
true;
1266 for( std::vector< MgmtParams<TTree> >::
iterator it = templateTrees.begin();
it != templateTrees.end(); ++
it ) {
1267 MonGroup
group = (*it).m_group;
1270 TTree* theTree = (*it).m_templateHist;
1273 TTree*
t =
static_cast<TTree*
>(theTree->Clone());
1277 std::string
name =
t->GetName();
1284 if (sc1 == StatusCode::FAILURE) allIsOk =
false;
1288 if (sc2 == StatusCode::FAILURE) allIsOk =
false;
1291 std::string genericName = NoOutputStream().getStreamName(
this,
group,
name );
1300 if (
smd != StatusCode::SUCCESS) allIsOk =
false;
1304 if (sc3 == StatusCode::FAILURE) allIsOk =
false;
1308 if (!allIsOk)
return StatusCode::FAILURE;
1310 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.
1773 return StatusCode::FAILURE;
1776 std::string
name =
t->GetName();
1777 std::string genericName = NoOutputStream().getStreamName(
this, group_unmanaged,
name );
1785 std::string tName =
t->GetName();
1788 std::string genericName = NoOutputStream().getStreamName(
this,
group, tName );
1796 if (
smd != StatusCode::SUCCESS)
return StatusCode::FAILURE;
◆ regTree() [2/2]
Registers a TTree to be included in the output stream using logical parameters that describe it.
Definition at line 1748 of file ManagedMonitorToolBase.cxx.
◆ renounce()
◆ renounceArray()
◆ 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.
1896 return StatusCode::SUCCESS;
◆ segmSlopeCut()
bool CSCSegmValAlg::segmSlopeCut |
( |
float & |
csc_x, |
|
|
float & |
csc_ax, |
|
|
float & |
cut |
|
) |
| |
|
private |
Definition at line 849 of file CSCSegmValAlg.cxx.
851 float s1 = -
tan(csc_ax);
852 float s1corr =
s1 - 0.000119 *
s0;
853 bool good_segm = std::abs(s1corr)<
cut ? true :
false;
◆ setCSCLayerLabels()
void CSCSegmValAlg::setCSCLayerLabels |
( |
TH1 * |
h, |
|
|
int |
m_side |
|
) |
| |
|
private |
Definition at line 800 of file CSCSegmValAlg.cxx.
803 if(!(
side == 1 ||
side == -1))
return;
804 if(
h->GetNbinsX() < 85)
return;
806 h->GetXaxis()->SetTitle(
"");
807 h->GetXaxis()->SetLabelSize(0.03);
809 for(
unsigned int j=6; j<86; j++) {
811 float xmid =
h->GetBinLowEdge(j) +
h->GetBinWidth(j);
812 xmid -= 1.0; xmid *= -1.0;
813 int seclay =
int(ceil(xmid*10));
815 int lay = (seclay%10)/2 ;
817 h->GetXaxis()->SetBinLabel(j,Form(
"%c%02d:%d",(sec%2==0?
'S':
'L'),sec,lay));
820 }
else if (
side == 1) {
821 for(
unsigned int j=6; j<86; j++) {
823 float xmid =
h->GetBinLowEdge(j) +
h->GetBinWidth(j);
824 int seclay =
int(ceil(xmid*10));
826 int lay = (seclay%10)/2 ;
827 h->GetXaxis()->SetBinLabel(j,Form(
"%c%02d:%d",(sec%2==0?
'S':
'L'),sec,lay));
◆ setMonManager()
◆ setupOutputStreams()
StatusCode ManagedMonitorToolBase::setupOutputStreams |
( |
std::vector< std::string > |
Mapping = std::vector<std::string>() | ) |
|
|
virtualinherited |
◆ streamNameFunction()
Returns the function object that converts logical paramters into a physical stream name.
Definition at line 502 of file ManagedMonitorToolBase.cxx.
506 msg(MSG::ERROR) <<
"!! streamNameFunction() has not been initialized !!" <<
endmsg;
507 msg(MSG::ERROR) <<
" --> neither ManagedMonitorToolBase::initialize() nor" <<
endmsg;
508 msg(MSG::ERROR) <<
" --> ManagedMonitorToolBase::setMonManager() has been called." <<
endmsg;
509 msg(MSG::ERROR) <<
" --> Correct configuration cannot be guaranteed from this point." <<
endmsg;
◆ sysInitialize()
◆ sysStart()
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.
1107 GlobalDirectoryRestore restore;
1110 bool graphRemoved =
false;
1113 TDirectory*
dir =
file->GetDirectory(directoryName.c_str());
1116 TObject*
obj =
dir->Remove(theGraph);
1118 graphRemoved =
true;
1121 if (!graphRemoved) {
1122 return StatusCode::FAILURE;
1125 return StatusCode::SUCCESS;
◆ trigChainsArePassed()
bool ManagedMonitorToolBase::trigChainsArePassed |
( |
std::vector< std::string > & |
vTrigNames | ) |
|
|
protectedvirtualinherited |
◆ updateTriggersForGroups()
void ManagedMonitorToolBase::updateTriggersForGroups |
( |
std::vector< std::string > & |
vTrigChainNames | ) |
|
|
protectedinherited |
Definition at line 2362 of file ManagedMonitorToolBase.cxx.
2364 for (
size_t i = 0;
i < vTrigChainNames.size(); ++
i) {
2365 std::string& thisName = vTrigChainNames[
i];
2366 if (thisName.compare(0, 9,
"CATEGORY_") ==0) {
2367 ATH_MSG_DEBUG(
"Found a trigger category: " << thisName <<
". We will unpack it.");
2369 std::ostringstream oss;
2371 for (
size_t itrig = 0; itrig <
triggers.size(); ++itrig) {
2379 std::string newval = oss.str();
2381 vTrigChainNames[
i] = newval;
◆ updateVHKA()
◆ writeAndDelete()
StatusCode ManagedMonitorToolBase::writeAndDelete |
( |
TH1 * |
h, |
|
|
const MonGroup & |
group |
|
) |
| |
|
virtualinherited |
Write out histogram and delete it.
Definition at line 1803 of file ManagedMonitorToolBase.cxx.
1806 return StatusCode::FAILURE;
1808 std::string hName =
h->GetName();
1811 std::string genericName = NoOutputStream().getStreamName(
this,
group, hName );
1814 return StatusCode::SUCCESS;
◆ m_bookedhistos
bool CSCSegmValAlg::m_bookedhistos |
|
private |
◆ m_bookHistogramsInitial
bool ManagedMonitorToolBase::m_bookHistogramsInitial |
|
privateinherited |
◆ m_clusStatWord
std::vector<std::string> CSCSegmValAlg::m_clusStatWord |
|
private |
◆ m_d
Imp* ManagedMonitorToolBase::m_d |
|
privateinherited |
◆ m_dataType
◆ m_dataTypeStr
std::string ManagedMonitorToolBase::m_dataTypeStr |
|
protectedinherited |
◆ m_debuglevel
bool CSCSegmValAlg::m_debuglevel |
|
private |
private member to control debug messages
Definition at line 96 of file CSCSegmValAlg.h.
◆ m_defaultLBDuration
float ManagedMonitorToolBase::m_defaultLBDuration |
|
privateinherited |
◆ m_detailLevel
unsigned int ManagedMonitorToolBase::m_detailLevel |
|
protectedinherited |
◆ m_detStore
◆ m_doEvtSel
bool CSCSegmValAlg::m_doEvtSel |
|
private |
◆ m_DQFilterTools
ToolHandleArray<IDQFilterTool> ManagedMonitorToolBase::m_DQFilterTools {this,"FilterTools",{}} |
|
protectedinherited |
◆ m_ecap
std::vector<std::string> CSCSegmValAlg::m_ecap |
|
private |
◆ m_edmHelperSvc
Initial value:{this, "edmHelper",
"Muon::MuonEDMHelperSvc/MuonEDMHelperSvc",
"Handle to the service providing the IMuonEDMHelperSvc interface" }
Definition at line 160 of file CSCSegmValAlg.h.
◆ m_endOfEventsBlock
bool ManagedMonitorToolBase::m_endOfEventsBlock |
|
privateinherited |
◆ m_endOfLowStat
bool ManagedMonitorToolBase::m_endOfLowStat |
|
privateinherited |
◆ m_endOfLumiBlock
bool ManagedMonitorToolBase::m_endOfLumiBlock |
|
privateinherited |
◆ m_endOfRun
bool ManagedMonitorToolBase::m_endOfRun |
|
privateinherited |
◆ m_environment
◆ m_environmentStr
std::string ManagedMonitorToolBase::m_environmentStr |
|
protectedinherited |
◆ m_evtStore
◆ m_fileKey
std::string ManagedMonitorToolBase::m_fileKey |
|
protectedinherited |
◆ m_h1CSC_Segm_Efficiency_Eta_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_Efficiency_Eta_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_Efficiency_Eta_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_Efficiency_Eta_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_NumOfClus_Eta_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_NumOfClus_Eta_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_NumOfClus_Eta_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_NumOfClus_Eta_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_NumOfClus_Phi_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_NumOfClus_Phi_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_NumOfClus_Phi_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_NumOfClus_Phi_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_NumOfGoodClus_Eta_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_NumOfGoodClus_Eta_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_NumOfGoodClus_Eta_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_NumOfGoodClus_Eta_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_NumOfGoodClus_Phi_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_NumOfGoodClus_Phi_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_NumOfGoodClus_Phi_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_NumOfGoodClus_Phi_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_QsumOfClus_Eta_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_QsumOfClus_Eta_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_QsumOfClus_Eta_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_QsumOfClus_Eta_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_QsumOfClus_Phi_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_QsumOfClus_Phi_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_QsumOfClus_Phi_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_QsumOfClus_Phi_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_QsumOfGoodClus_Eta_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_QsumOfGoodClus_Eta_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_QsumOfGoodClus_Eta_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_QsumOfGoodClus_Eta_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_QsumOfGoodClus_Phi_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_QsumOfGoodClus_Phi_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_QsumOfGoodClus_Phi_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_QsumOfGoodClus_Phi_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_StatOfClus_Eta_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_StatOfClus_Eta_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_StatOfClus_Eta_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_StatOfClus_Eta_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_StatOfClus_Phi_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_StatOfClus_Phi_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_StatOfClus_Phi_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_StatOfClus_Phi_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_TimeOfClus_Eta_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_TimeOfClus_Eta_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_TimeOfClus_Eta_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_TimeOfClus_Eta_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_TimeOfClus_Phi_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_TimeOfClus_Phi_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_TimeOfClus_Phi_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_TimeOfClus_Phi_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_TimeOfGoodClus_Eta_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_TimeOfGoodClus_Eta_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_TimeOfGoodClus_Eta_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_TimeOfGoodClus_Eta_EC = nullptr |
|
private |
◆ m_h1CSC_Segm_TimeOfGoodClus_Phi_EA
TH1F* CSCSegmValAlg::m_h1CSC_Segm_TimeOfGoodClus_Phi_EA = nullptr |
|
private |
◆ m_h1CSC_Segm_TimeOfGoodClus_Phi_EC
TH1F* CSCSegmValAlg::m_h1CSC_Segm_TimeOfGoodClus_Phi_EC = nullptr |
|
private |
◆ m_h2CSC_Segm_NumOfNClusSegs_Eta_EA
TH2F* CSCSegmValAlg::m_h2CSC_Segm_NumOfNClusSegs_Eta_EA = nullptr |
|
private |
◆ m_h2CSC_Segm_NumOfNClusSegs_Eta_EC
TH2F* CSCSegmValAlg::m_h2CSC_Segm_NumOfNClusSegs_Eta_EC = nullptr |
|
private |
◆ m_h2CSC_Segm_NumOfSegs_EA
TH2F* CSCSegmValAlg::m_h2CSC_Segm_NumOfSegs_EA = nullptr |
|
private |
◆ m_h2CSC_Segm_NumOfSegs_EC
TH2F* CSCSegmValAlg::m_h2CSC_Segm_NumOfSegs_EC = nullptr |
|
private |
◆ m_h2CSC_Segm_QsumOfGoodClus_PhiVsEta_EA
TH2F* CSCSegmValAlg::m_h2CSC_Segm_QsumOfGoodClus_PhiVsEta_EA = nullptr |
|
private |
◆ m_h2CSC_Segm_QsumOfGoodClus_PhiVsEta_EC
TH2F* CSCSegmValAlg::m_h2CSC_Segm_QsumOfGoodClus_PhiVsEta_EC = nullptr |
|
private |
◆ m_h2CSC_Segm_QsumOfGoodClusMap_Eta_EA
TH2F* CSCSegmValAlg::m_h2CSC_Segm_QsumOfGoodClusMap_Eta_EA = nullptr |
|
private |
◆ m_h2CSC_Segm_QsumOfGoodClusMap_Eta_EC
TH2F* CSCSegmValAlg::m_h2CSC_Segm_QsumOfGoodClusMap_Eta_EC = nullptr |
|
private |
◆ m_h2CSC_Segm_QsumOfGoodClusMap_Phi_EA
TH2F* CSCSegmValAlg::m_h2CSC_Segm_QsumOfGoodClusMap_Phi_EA = nullptr |
|
private |
◆ m_h2CSC_Segm_QsumOfGoodClusMap_Phi_EC
TH2F* CSCSegmValAlg::m_h2CSC_Segm_QsumOfGoodClusMap_Phi_EC = nullptr |
|
private |
◆ m_h2CSC_Segm_TimeOfGoodClusMap_Eta_EA
TH2F* CSCSegmValAlg::m_h2CSC_Segm_TimeOfGoodClusMap_Eta_EA = nullptr |
|
private |
◆ m_h2CSC_Segm_TimeOfGoodClusMap_Eta_EC
TH2F* CSCSegmValAlg::m_h2CSC_Segm_TimeOfGoodClusMap_Eta_EC = nullptr |
|
private |
◆ m_h2CSC_Segm_TimeOfGoodClusMap_Phi_EA
TH2F* CSCSegmValAlg::m_h2CSC_Segm_TimeOfGoodClusMap_Phi_EA = nullptr |
|
private |
◆ m_h2CSC_Segm_TimeOfGoodClusMap_Phi_EC
TH2F* CSCSegmValAlg::m_h2CSC_Segm_TimeOfGoodClusMap_Phi_EC = nullptr |
|
private |
◆ m_haveClearedLastEventBlock
bool ManagedMonitorToolBase::m_haveClearedLastEventBlock |
|
protectedinherited |
◆ m_idHelperSvc
◆ m_lastHigStatInterval
int ManagedMonitorToolBase::m_lastHigStatInterval |
|
protectedinherited |
◆ m_lastLowStatInterval
int ManagedMonitorToolBase::m_lastLowStatInterval |
|
protectedinherited |
◆ m_lastLumiBlock
unsigned int ManagedMonitorToolBase::m_lastLumiBlock |
|
protectedinherited |
◆ m_lastMedStatInterval
int ManagedMonitorToolBase::m_lastMedStatInterval |
|
protectedinherited |
◆ m_lastRun
unsigned int ManagedMonitorToolBase::m_lastRun |
|
protectedinherited |
◆ m_lbDurationDataKey
◆ m_lumiDataKey
◆ m_lwhists
std::set<LWHist*> ManagedMonitorToolBase::m_lwhists |
|
protectedinherited |
◆ m_manager
◆ m_managerNameProp
std::string ManagedMonitorToolBase::m_managerNameProp |
|
protectedinherited |
◆ m_metadataMap
MDMap_t ManagedMonitorToolBase::m_metadataMap |
|
protectedinherited |
◆ m_NClusWord
std::vector<std::string> CSCSegmValAlg::m_NClusWord |
|
private |
◆ m_nEvents
unsigned int ManagedMonitorToolBase::m_nEvents |
|
protectedinherited |
◆ m_nEventsIgnoreTrigger
unsigned int ManagedMonitorToolBase::m_nEventsIgnoreTrigger |
|
protectedinherited |
◆ m_newEventsBlock
bool ManagedMonitorToolBase::m_newEventsBlock |
|
privateinherited |
◆ m_newHigStatInterval
bool ManagedMonitorToolBase::m_newHigStatInterval |
|
privateinherited |
◆ m_newLowStat
bool ManagedMonitorToolBase::m_newLowStat |
|
privateinherited |
◆ m_newLowStatInterval
bool ManagedMonitorToolBase::m_newLowStatInterval |
|
privateinherited |
◆ m_newLumiBlock
bool ManagedMonitorToolBase::m_newLumiBlock |
|
privateinherited |
◆ m_newMedStatInterval
bool ManagedMonitorToolBase::m_newMedStatInterval |
|
privateinherited |
◆ m_newRun
bool ManagedMonitorToolBase::m_newRun |
|
privateinherited |
◆ m_nLumiBlocks
unsigned int ManagedMonitorToolBase::m_nLumiBlocks |
|
protectedinherited |
◆ m_path
std::string ManagedMonitorToolBase::m_path |
|
protectedinherited |
◆ m_preScaleProp
long ManagedMonitorToolBase::m_preScaleProp |
|
protectedinherited |
◆ m_procNEventsProp
long ManagedMonitorToolBase::m_procNEventsProp |
|
protectedinherited |
◆ m_sampSelTriggers
std::vector<std::string> CSCSegmValAlg::m_sampSelTriggers |
|
private |
◆ m_segcoll
std::vector<std::string> CSCSegmValAlg::m_segcoll |
|
private |
◆ m_segmDetail_EA
std::unique_ptr<MonGroup> CSCSegmValAlg::m_segmDetail_EA |
|
private |
◆ m_segmDetail_EC
std::unique_ptr<MonGroup> CSCSegmValAlg::m_segmDetail_EC |
|
private |
◆ m_segmKey
◆ m_segmOview_EA
std::unique_ptr<MonGroup> CSCSegmValAlg::m_segmOview_EA |
|
private |
◆ m_segmOview_EC
std::unique_ptr<MonGroup> CSCSegmValAlg::m_segmOview_EC |
|
private |
◆ m_segmSlope
double CSCSegmValAlg::m_segmSlope = 0.0 |
|
private |
◆ m_streamNameFcn
◆ m_supportedIntervalsForRebooking
std::set<Interval_t> ManagedMonitorToolBase::m_supportedIntervalsForRebooking |
|
privateinherited |
◆ m_templateEfficiencies
std::map< Interval_t, std::vector< MgmtParams<TEfficiency> > > ManagedMonitorToolBase::m_templateEfficiencies |
|
protectedinherited |
◆ m_templateGraphs
◆ m_templateHistograms
◆ m_templateLWHistograms
◆ m_templateTrees
◆ m_THistSvc
◆ m_trigDec
◆ m_trigDecTool
◆ m_triggerChainProp
std::string ManagedMonitorToolBase::m_triggerChainProp |
|
protectedinherited |
◆ m_triggerGroupProp
std::string ManagedMonitorToolBase::m_triggerGroupProp |
|
protectedinherited |
◆ m_trigLiveFractionDataKey
◆ m_trigTranslator
PublicToolHandle<ITriggerTranslatorTool> ManagedMonitorToolBase::m_trigTranslator {this,"TriggerTranslatorTool",""} |
|
protectedinherited |
◆ m_useLumi
bool ManagedMonitorToolBase::m_useLumi |
|
privateinherited |
◆ m_useTrigger
bool ManagedMonitorToolBase::m_useTrigger |
|
protectedinherited |
◆ m_varHandleArraysDeclared
◆ m_vhka
◆ m_vTrigChainNames
std::vector<std::string> ManagedMonitorToolBase::m_vTrigChainNames |
|
protectedinherited |
◆ m_vTrigGroupNames
std::vector<std::string> ManagedMonitorToolBase::m_vTrigGroupNames |
|
protectedinherited |
The documentation for this class was generated from the following files:
virtual LWHist * ownedLWHistOfKey(const std::string &key) const
JetConstituentVector::iterator iterator
bool m_debuglevel
private member to control debug messages
virtual LWHist * writeAndDeleteLWHist(const std::string &key, const std::string &streamName)
TH1F * m_h1CSC_Segm_TimeOfClus_Phi_EA
TH1F * m_h1CSC_Segm_NumOfGoodClus_Phi_EC
void regCSCHist(TH1 *h, MonGroup *mg)
Const iterator class for DataVector/DataList.
SG::ReadHandleKey< Trk::SegmentCollection > m_segmKey
std::vector< std::string > m_clusStatWord
TH2F * m_h2CSC_Segm_NumOfNClusSegs_Eta_EC
ServiceHandle< Muon::IMuonIdHelperSvc > m_idHelperSvc
bool segmSlopeCut(float &csc_x, float &csc_ax, float &cut)
TH1F * m_h1CSC_Segm_StatOfClus_Phi_EC
TH1F * m_h1CSC_Segm_StatOfClus_Eta_EC
TH2F * m_h2CSC_Segm_NumOfNClusSegs_Eta_EA
TH1F * m_h1CSC_Segm_NumOfClus_Phi_EA
void bookSegmentHistograms()
int charge() const
Returns the charge.
TH2F * m_h2CSC_Segm_QsumOfGoodClusMap_Phi_EC
Gaudi::Details::PropertyBase & declareProperty(Gaudi::Property< T > &t)
virtual LWHist * writeAndResetLWHist(const std::string &key, const std::string &streamName)
static unsigned int runNumber()
virtual std::string fileKey() const
bool evtSelTriggersPassed()
TDT handle.
virtual void passOwnership(TObject *h, const std::string &key)
Pass ownership of a TObject/LWHist to this manager so that it will be deleted appropriately.
StoreGateSvc_t m_evtStore
Pointer to StoreGate (event store by default)
TH1F * m_h1CSC_Segm_QsumOfClus_Phi_EA
std::vector< SG::VarHandleKeyArray * > m_vhka
const std::vector< Identifier > & rdoList() const
return the List of rdo identifiers (pointers)
TH2F * m_h2CSC_Segm_QsumOfGoodClus_PhiVsEta_EA
bool msgLvl(const MSG::Level lvl) const
static void setStreamName(LWHist *, const std::string &streamName)
TH1F * m_h1CSC_Segm_Efficiency_Eta_EA
TH2F * m_h2CSC_Segm_NumOfSegs_EA
std::vector< const Trk::MeasurementBase * >::const_iterator TrkSegmIter
#define ATH_MSG_VERBOSE(x)
bool empty() const
Test if the key is blank.
def TH2F(name, title, nxbins, bins_par2, bins_par3, bins_par4, bins_par5=None, bins_par6=None, path='', **kwargs)
static unsigned int getLBsLowStat()
ServiceHandle< Muon::IMuonEDMHelperSvc > m_edmHelperSvc
const ServiceHandle< StoreGateSvc > & detStore() const
The standard StoreGateSvc/DetectorStore Returns (kind of) a pointer to the StoreGateSvc.
virtual void setOwner(IDataHandleHolder *o)=0
static Environment_t environment()
Returns the running environment of the monitoring application to help ManagedMonitorToolBase objects ...
double angleYZ() const
access method for angle of local YZ projection
static const std::string & streamName(LWHist *)
unsigned int cscHits(const Muon::MuonSegment *seg) const
static unsigned int getLBsMedStat()
std::vector< std::string > m_sampSelTriggers
bool usingROOTBackend() const
static void removeCustomData(LWHist *)
virtual const RIO_OnTrack & rioOnTrack(unsigned int) const =0
returns the RIO_OnTrack (also known as ROT) objects depending on the integer.
The Athena Transient Store API.
std::string toString(CscStripStatus cstat)
Return a string description of a CSC cluster status flag.
static DataType_t dataType()
Returns the data type that the monitoring application is running over to help ManagedMonitorToolBase ...
static const std::string & key(LWHist *)
TH1F * m_h1CSC_Segm_StatOfClus_Phi_EA
Class representing clusters from the CSC.
std::unique_ptr< MonGroup > m_segmOview_EC
::StatusCode StatusCode
StatusCode definition for legacy code.
TH1F * m_h1CSC_Segm_TimeOfGoodClus_Phi_EA
virtual void writeAndDelete(const std::string &key)
If the TObject is owned by this manager, its Write() method is called and it is deleted.
const Trk::LocalDirection & localDirection() const
local direction
const std::vector< const Trk::MeasurementBase * > & containedMeasurements() const
returns the vector of Trk::MeasurementBase objects
Base class for all CompetingRIOsOnTack implementations, extends the common MeasurementBase.
double chi2(TH1 *h0, TH1 *h1)
cut
This script demonstrates how to call a C++ class from Python Also how to use PyROOT is shown.
bool isCscSegment(const Muon::MuonSegment *seg) const
TH1F * m_h1CSC_Segm_TimeOfGoodClus_Eta_EC
TH2F * m_h2CSC_Segm_QsumOfGoodClusMap_Eta_EA
double time() const
Returns the time.
TH1F * m_h1CSC_Segm_NumOfGoodClus_Eta_EA
TH1F * m_h1CSC_Segm_QsumOfGoodClus_Eta_EC
Class to represent and store fit qualities from track reconstruction in terms of and number of degre...
StoreGateSvc_t m_detStore
Pointer to StoreGate (detector store by default)
enum CSCSegmValAlg::EndCaps EndCapType
TH2F * m_h2CSC_Segm_QsumOfGoodClusMap_Phi_EA
TH1F * m_h1CSC_Segm_QsumOfGoodClus_Phi_EC
TH1F * m_h1CSC_Segm_TimeOfClus_Eta_EC
void fcn(int &, double *, double &result, double par[], int)
this is where we write out chi2
TH1F * m_h1CSC_Segm_TimeOfClus_Phi_EC
std::vector< std::string > m_NClusWord
virtual void renounce()=0
std::conditional< std::is_base_of< SG::VarHandleKeyArray, T >::value, VarHandleKeyArrayType, type2 >::type type
TH2F * m_h2CSC_Segm_TimeOfGoodClusMap_Phi_EC
TH1F * m_h1CSC_Segm_QsumOfClus_Eta_EC
TH1F * m_h1CSC_Segm_QsumOfGoodClus_Eta_EA
TH1F * m_h1CSC_Segm_NumOfClus_Eta_EA
static unsigned int getLBsHigStat()
static void setKey(LWHist *, const std::string &key)
TH1F * m_h1CSC_Segm_NumOfGoodClus_Eta_EC
TH1F * m_h1CSC_Segm_TimeOfClus_Eta_EA
std::unique_ptr< MonGroup > m_segmDetail_EC
virtual const CscPrepData * prepRawData() const override final
Returns the CscPrepData - is a CscPrepData in this scope.
void setOwnsROOTHisto(bool b)
const LocalParameters & localParameters() const
Interface method to get the LocalParameters.
TH1F * m_h1CSC_Segm_Efficiency_Eta_EC
TH2F * m_h2CSC_Segm_QsumOfGoodClus_PhiVsEta_EC
std::unique_ptr< MonGroup > m_segmDetail_EA
Class to represent the calibrated clusters created from CSC strips.
#define ATH_MSG_WARNING(x)
TH2F * m_h2CSC_Segm_TimeOfGoodClusMap_Phi_EA
TH1F * m_h1CSC_Segm_TimeOfGoodClus_Eta_EA
TH1F * m_h1CSC_Segm_NumOfClus_Phi_EC
filelist
print ("Checking files %s..." % fullfile)
TH1F * m_h1CSC_Segm_NumOfGoodClus_Phi_EA
CscClusterStatus status() const
Returns Csc position measurement status flag.
virtual Identifier identify() const final
return the identifier -extends MeasurementBase
std::unique_ptr< MonGroup > m_segmOview_EA
SG::VarHandleKey & vhKey()
Return a non-const reference to the HandleKey.
TH2F * m_h2CSC_Segm_QsumOfGoodClusMap_Eta_EC
TH2F * m_h2CSC_Segm_TimeOfGoodClusMap_Eta_EC
double chiSquared() const
returns the of the overall track fit
int numberDoF() const
returns the number of degrees of freedom of the overall track or vertex fit as integer
virtual const Amg::Vector3D & globalPosition() const override final
global position
def TH1F(name, title, nxbins, bins_par2, bins_par3=None, path='', **kwargs)
static unsigned int lumiBlockNumber()
TH1F * m_h1CSC_Segm_StatOfClus_Eta_EA
TH1F * m_h1CSC_Segm_QsumOfClus_Eta_EA
TH1F * m_h1CSC_Segm_TimeOfGoodClus_Phi_EC
CscClusterStatus
Enum to represent the cluster status - see the specific enum values for more details.
const FitQuality * fitQuality() const
return the FitQuality object, returns NULL if no FitQuality is defined
virtual TH1 * getROOTHistBase()=0
TH2F * m_h2CSC_Segm_TimeOfGoodClusMap_Eta_EA
Gaudi::Details::PropertyBase & declareGaudiProperty(Gaudi::Property< T > &hndl, const SG::VarHandleKeyType &)
specialization for handling Gaudi::Property<SG::VarHandleKey>
TH1F * m_h1CSC_Segm_QsumOfClus_Phi_EC
TH2F * m_h2CSC_Segm_NumOfSegs_EC
ToolHandle< Trig::TrigDecisionTool > m_trigDec
TH1F * m_h1CSC_Segm_QsumOfGoodClus_Phi_EA
const Amg::Vector3D & globalDirection() const
global direction
TH1F * m_h1CSC_Segm_NumOfClus_Eta_EC
void setCSCLayerLabels(TH1 *h, int m_side)