|
ATLAS Offline Software
|
Calculate tau calorimeter variables from cell information.
More...
#include <TauCellVariables.h>
|
| ASG_TOOL_CLASS2 (TauCellVariables, TauRecToolBase, ITauToolBase) |
|
| TauCellVariables (const std::string &name) |
| Constructor. More...
|
|
virtual | ~TauCellVariables ()=default |
| Destructor. More...
|
|
virtual StatusCode | execute (xAOD::TauJet &pTau) const override |
| Perform the calculation of cell variables for each tau candidate. More...
|
|
virtual StatusCode | initialize () override |
| Tool initializer. More...
|
|
virtual StatusCode | eventInitialize () override |
| Event initializer - called at the beginning of each event. More...
|
|
virtual StatusCode | executePi0CreateROI (xAOD::TauJet &pTau, CaloConstCellContainer &caloCellContainer, boost::dynamic_bitset<> &map) const override |
|
virtual StatusCode | executeVertexFinder (xAOD::TauJet &pTau, const xAOD::VertexContainer *vertexContainer=nullptr) const override |
|
virtual StatusCode | executeTrackFinder (xAOD::TauJet &pTau, xAOD::TauTrackContainer &tauTrackContainer) const override |
|
virtual StatusCode | executeTrackClassifier (xAOD::TauJet &pTau, xAOD::TauTrackContainer &tauTrackContainer) const override |
|
virtual StatusCode | executeShotFinder (xAOD::TauJet &pTau, xAOD::CaloClusterContainer &shotClusterContainer, xAOD::PFOContainer &PFOContainer) const override |
|
virtual StatusCode | executePi0ClusterCreator (xAOD::TauJet &pTau, xAOD::PFOContainer &neutralPFOContainer, xAOD::PFOContainer &hadronicPFOContainer, const xAOD::CaloClusterContainer &pCaloClusterContainer) const override |
|
virtual StatusCode | executeVertexVariables (xAOD::TauJet &pTau, xAOD::VertexContainer &vertexContainer) const override |
|
virtual StatusCode | executePi0ClusterScaler (xAOD::TauJet &pTau, xAOD::PFOContainer &neutralPFOContainer, xAOD::PFOContainer &chargedPFOContainer) const override |
|
virtual StatusCode | executePi0nPFO (xAOD::TauJet &pTau, xAOD::PFOContainer &neutralPFOContainer) const override |
|
virtual StatusCode | executePanTau (xAOD::TauJet &pTau, xAOD::ParticleContainer &particleContainer, xAOD::PFOContainer &neutralPFOContainer) const override |
|
virtual StatusCode | eventFinalize () override |
| Event finalizer - called at the end of each event. More...
|
|
virtual StatusCode | finalize () override |
| Finalizer. More...
|
|
std::string | find_file (const std::string &fname) const |
|
virtual StatusCode | readConfig () override |
|
virtual void | print () const |
| Print the state of the tool. More...
|
|
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 |
|
|
Gaudi::Property< bool > | m_in_trigger {this, "inTrigger", false, "Indicate if the tool is running on trigger"} |
|
Gaudi::Property< bool > | m_in_AOD {this, "inAOD", false, "Indicate if the tool is running on AOD"} |
|
Gaudi::Property< bool > | m_in_EleRM {this, "inEleRM", false, "Indicate if the tool is running on EleRM routine"} |
|
Gaudi::Property< std::string > | m_tauRecToolsTag {this, "calibFolder", "tauRecTools/R22_preprod", "CVMFS path to the tau calibration folder"} |
|
Calculate tau calorimeter variables from cell information.
- Warning
- Cells are selected relative to the tau intermediate axis. There are no checks.
- Authors
- Srini Rajagopalan, Anna Kaczmarska, Felix Friedrich
Definition at line 16 of file TauCellVariables.h.
◆ StoreGateSvc_t
◆ TauCellVariables()
TauCellVariables::TauCellVariables |
( |
const std::string & |
name | ) |
|
◆ ~TauCellVariables()
virtual TauCellVariables::~TauCellVariables |
( |
| ) |
|
|
virtualdefault |
◆ ASG_TOOL_CLASS2()
◆ 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);
253 return PBASE::declareProperty(
name,hndl,
doc);
◆ 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.
229 return PBASE::declareProperty(
name,hndl,
doc);
◆ 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.
338 return PBASE::declareProperty(
name, property,
doc);
◆ 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]
◆ detStore()
◆ eventFinalize()
StatusCode TauRecToolBase::eventFinalize |
( |
| ) |
|
|
overridevirtualinherited |
◆ eventInitialize()
StatusCode TauRecToolBase::eventInitialize |
( |
| ) |
|
|
overridevirtualinherited |
◆ evtStore() [1/2]
◆ evtStore() [2/2]
◆ execute()
StatusCode TauCellVariables::execute |
( |
xAOD::TauJet & |
pTau | ) |
const |
|
overridevirtual |
Perform the calculation of cell variables for each tau candidate.
Reimplemented from TauRecToolBase.
Definition at line 24 of file TauCellVariables.cxx.
28 double sumCellET = 0.;
29 double sumCellET01 = 0;
30 double sumCellET12 = 0.;
31 double sumStripET = 0.;
32 double sumEMCellET = 0.;
33 double sumHadCellET = 0.;
35 double stripEta2 = 0.;
37 double HadRadius = 0.;
39 std::vector<double> cellRingEnergys(7,0.);
42 std::bitset<200000> cellSeen;
50 if (cellLinks ==
nullptr) {
51 ATH_MSG_DEBUG(
"NO Cell links found for cluster with pT " << cluster.
pt());
58 if (cellSeen.test(
cell->caloDDE()->calo_hash())) {
62 cellSeen.set(
cell->caloDDE()->calo_hash());
66 double cellPhi =
cell->phi();
67 double cellEta =
cell->eta();
68 double cellET =
cell->et();
69 double cellEnergy =
cell->energy();
74 cellPhi = vxCell.phi();
75 cellEta = vxCell.eta();
77 cellEnergy = vxCell.energy();
80 TLorentzVector temp_cc_p4;
81 temp_cc_p4.SetPtEtaPhiE(cellET, cellEta, cellPhi, cellEnergy);
82 double dR = tauAxis.DeltaR(temp_cc_p4);
87 if (dR < 0.1) sumCellET01 += cellET;
88 if (dR > 0.1 && dR < 0.2) sumCellET12 += cellET;
97 sumEMCellET += cellET;
101 sumStripET += cellET;
102 stripEta += cellEta * cellET;
103 stripEta2 +=
pow(cellEta, 2) * cellET;
108 HadRadius += dR*cellET;
109 sumHadCellET += cellET;
113 if (dR < 0.05) cellRingEnergys[0] += cellET;
114 if (dR >= 0.05 && dR < 0.075) cellRingEnergys[1] += cellET;
115 if (dR >= 0.075 && dR < 0.1) cellRingEnergys[2] += cellET;
116 if (dR >= 0.1 && dR < 0.125) cellRingEnergys[3] += cellET;
117 if (dR >= 0.125 && dR < 0.15) cellRingEnergys[4] += cellET;
118 if (dR >= 0.15 && dR < 0.2) cellRingEnergys[5] += cellET;
119 if (dR >= 0.2 && dR < 0.4) cellRingEnergys[6] += cellET;
139 if (std::abs(sumCellET) > 1
e-6) {
150 if (std::abs(sumStripET) > 1
e-6) {
151 stripEta = stripEta / sumStripET;
152 stripEta2 = stripEta2 / sumStripET;
161 if (std::abs(sumEMCellET) > 1
e-6) {
170 if (std::abs(sumHadCellET) > 1
e-6) {
171 HadRadius = HadRadius / sumHadCellET;
178 return StatusCode::SUCCESS;
◆ executePanTau()
◆ executePi0ClusterCreator()
◆ executePi0ClusterScaler()
◆ executePi0CreateROI()
◆ executePi0nPFO()
◆ executeShotFinder()
◆ executeTrackClassifier()
◆ executeTrackFinder()
◆ executeVertexFinder()
◆ executeVertexVariables()
◆ 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
◆ finalize()
StatusCode TauRecToolBase::finalize |
( |
| ) |
|
|
overridevirtualinherited |
◆ find_file()
std::string TauRecToolBase::find_file |
( |
const std::string & |
fname | ) |
const |
|
inherited |
◆ getKey()
Get the (hashed) key of an object that is in the event store.
This is a bit of a special one. StoreGateSvc
and xAOD::TEvent
both provide ways for getting the SG::sgkey_t
key for an object that is in the store, based on a bare pointer. But they provide different interfaces for doing so.
In order to allow tools to efficiently perform this operation, they can use this helper function.
- See also
- asg::AsgTool::getName
- Parameters
-
ptr | The bare pointer to the object that the event store should know about |
- Returns
- The hashed key of the object in the store. If not found, an invalid (zero) key.
Definition at line 119 of file AsgTool.cxx.
121 #ifdef XAOD_STANDALONE
127 return (
proxy ==
nullptr ? 0 :
proxy->sgkey() );
128 #endif // XAOD_STANDALONE
◆ getName()
const std::string & asg::AsgTool::getName |
( |
const void * |
ptr | ) |
const |
|
inherited |
Get the name of an object that is / should be in the event store.
This is a bit of a special one. StoreGateSvc
and xAOD::TEvent
both provide ways for getting the std::string
name for an object that is in the store, based on a bare pointer. But they provide different interfaces for doing so.
In order to allow tools to efficiently perform this operation, they can use this helper function.
- See also
- asg::AsgTool::getKey
- Parameters
-
ptr | The bare pointer to the object that the event store should know about |
- Returns
- The string name of the object in the store. If not found, an empty string.
Definition at line 106 of file AsgTool.cxx.
108 #ifdef XAOD_STANDALONE
114 static const std::string
dummy =
"";
116 #endif // XAOD_STANDALONE
◆ getProperty()
template<class T >
const T* asg::AsgTool::getProperty |
( |
const std::string & |
name | ) |
const |
|
inherited |
Get one of the tool's properties.
◆ inAOD()
bool TauRecToolBase::inAOD |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ inEleRM()
bool TauRecToolBase::inEleRM |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ initialize()
StatusCode TauRecToolBase::initialize |
( |
| ) |
|
|
overridevirtualinherited |
Tool initializer.
Reimplemented from asg::AsgTool.
Reimplemented in tauRecTools::TrackRNN, TauTrackFinder, tauRecTools::TauTrackRNNClassifier, TauWPDecorator, TauVertexFinder, TauDecayModeNNClassifier, TauPi0CreateROI, TauShotFinder, TauElectronVetoVariables, TauEleOverlapChecker, TauJetRNNEvaluator, TauCalibrateLC, TauGNNEvaluator, TauPi0ScoreCalculator, TauVertexVariables, TauVertexedClusterDecorator, MvaTESVariableDecorator, TauAODMuonRemovalTool, TauCombinedTES, MvaTESEvaluator, and PanTau::PanTauProcessor.
Definition at line 129 of file TauRecToolBase.cxx.
130 return StatusCode::SUCCESS;
◆ 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.
◆ inTrigger()
bool TauRecToolBase::inTrigger |
( |
| ) |
const |
|
inlineprotectedinherited |
◆ isEMLayer()
◆ isStripLayer()
◆ msg() [1/2]
◆ msg() [2/2]
◆ msg_level_name()
const std::string & asg::AsgTool::msg_level_name |
( |
| ) |
const |
|
inherited |
A deprecated function for getting the message level's name.
Instead of using this, weirdly named function, user code should get the string name of the current minimum message level (in case they really need it...), with:
MSG::name( msg().level() )
This function's name doesn't follow the ATLAS coding rules, and as such will be removed in the not too distant future.
- Returns
- The string name of the current minimum message level that's printed
Definition at line 101 of file AsgTool.cxx.
◆ msgLvl()
◆ 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.
◆ print()
void asg::AsgTool::print |
( |
| ) |
const |
|
virtualinherited |
Print the state of the tool.
Implements asg::IAsgTool.
Reimplemented in JetRecTool, JetFinder, JetModifiedMassDrop, JetFromPseudojet, JetReclusterer, JetReclusteringTool, JetTruthLabelingTool, JetPileupLabelingTool, HI::HIPileupTool, JetDumper, JetBottomUpSoftDrop, JetRecursiveSoftDrop, JetSoftDrop, JetConstituentsRetriever, JetSubStructureMomentToolsBase, JetSplitter, JetToolRunner, JetPruner, JetPseudojetRetriever, JetTrimmer, AsgHelloTool, and KtDeltaRTool.
Definition at line 131 of file AsgTool.cxx.
◆ readConfig()
StatusCode TauRecToolBase::readConfig |
( |
| ) |
|
|
overridevirtualinherited |
Implements ITauToolBase.
Definition at line 27 of file TauRecToolBase.cxx.
32 #ifndef XAOD_STANDALONE
33 bool configPathDeclared =
false;
34 for (Gaudi::Details::PropertyBase* property : getProperties())
36 if (property->name() ==
"ConfigPath")
38 configPathDeclared =
true;
42 if (!configPathDeclared)
43 #elif defined(XAOD_STANDALONE)
44 PropertyMgr::PropMap_t property_map = getPropertyMgr()->getProperties();
45 if (property_map.find(
"ConfigPath") == property_map.end())
47 # error "What environment are we in?!?"
48 #endif // XAOD_STANDALONE
50 ATH_MSG_INFO(
"No config file path property declared yet, this is not recommended");
51 return StatusCode::SUCCESS;
55 const std::string* config_file_path_property;
58 config_file_path_property = getProperty<std::string>(
"ConfigPath");
59 std::string config_file_path =
find_file(*config_file_path_property);
63 THashList* lList =
env.GetTable();
64 for( Int_t
i = 0; lList &&
i < lList->GetEntries(); ++
i )
68 #ifndef XAOD_STANDALONE
70 const std::type_info*
type =
getProperty(lList->At(
i )->GetName()).type_info();
73 if (*
type ==
typeid(
bool))
74 sc = this->setProperty(lList->At(
i )->GetName(),
75 bool(
env.GetValue(lList->At(
i )->GetName(),
bool(
true))));
76 else if (*
type ==
typeid(
int))
77 sc = this->setProperty(lList->At(
i )->GetName(),
78 env.GetValue(lList->At(
i )->GetName(),
int(0)));
79 else if (*
type ==
typeid(
float))
80 sc = this->setProperty(lList->At(
i )->GetName(),
81 env.GetValue(lList->At(
i )->GetName(),
float(0)));
82 else if (*
type ==
typeid(
double))
83 sc = this->setProperty(lList->At(
i )->GetName(),
84 env.GetValue(lList->At(
i )->GetName(),
double(0)));
85 else if (*
type ==
typeid(std::string))
86 sc = this->setProperty(lList->At(
i )->GetName(),
87 env.GetValue(lList->At(
i )->GetName(),
""));
93 sc = this->setProperty(lList->At(
i )->GetName(),
94 bool(
env.GetValue(lList->At(
i )->GetName(),
bool(
true))));
96 sc = this->setProperty(lList->At(
i )->GetName(),
97 env.GetValue(lList->At(
i )->GetName(),
int(0)));
99 sc = this->setProperty(lList->At(
i )->GetName(),
100 env.GetValue(lList->At(
i )->GetName(),
float(0)));
102 sc = this->setProperty(lList->At(
i )->GetName(),
103 env.GetValue(lList->At(
i )->GetName(),
double(0)));
105 sc = this->setProperty(lList->At(
i )->GetName(),
106 env.GetValue(lList->At(
i )->GetName(),
""));
107 #endif // XAOD_STANDALONE
110 #ifndef XAOD_STANDALONE
111 ATH_MSG_FATAL(
"there was a problem to find the correct type enum: "<<
type->name());
114 #endif // XAOD_STANDALONE
115 return StatusCode::FAILURE;
117 if (!
sc.isSuccess()) {
118 ATH_MSG_FATAL(
"failed to set property: " << lList->At(
i )->GetName());
119 return StatusCode::FAILURE;
122 return StatusCode::SUCCESS;
◆ renounce()
◆ renounceArray()
◆ 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.
◆ updateVHKA()
◆ m_cellCone
Gaudi::Property<double> TauCellVariables::m_cellCone {this, "CellCone", 0.2, "outer cone for cells used in calculation"} |
|
private |
◆ m_detStore
◆ m_doVertexCorrection
Gaudi::Property<bool> TauCellVariables::m_doVertexCorrection {this, "VertexCorrection", true, "switch of vertex correction"} |
|
private |
◆ m_evtStore
◆ m_in_AOD
Gaudi::Property<bool> TauRecToolBase::m_in_AOD {this, "inAOD", false, "Indicate if the tool is running on AOD"} |
|
protectedinherited |
◆ m_in_EleRM
Gaudi::Property<bool> TauRecToolBase::m_in_EleRM {this, "inEleRM", false, "Indicate if the tool is running on EleRM routine"} |
|
protectedinherited |
◆ m_in_trigger
Gaudi::Property<bool> TauRecToolBase::m_in_trigger {this, "inTrigger", false, "Indicate if the tool is running on trigger"} |
|
protectedinherited |
◆ m_stripEthr
Gaudi::Property<double> TauCellVariables::m_stripEthr {this, "StripEthreshold", 0.2 * Gaudi::Units::GeV, "energy threshould for strip cell"} |
|
private |
◆ m_tauRecToolsTag
Gaudi::Property<std::string> TauRecToolBase::m_tauRecToolsTag {this, "calibFolder", "tauRecTools/R22_preprod", "CVMFS path to the tau calibration folder"} |
|
protectedinherited |
◆ m_varHandleArraysDeclared
◆ m_vhka
The documentation for this class was generated from the following files:
@ cellBasedEnergyRing4
Ring 4: 0.10 < R < 0.125.
Type
Property type enumeration.
@ cellBasedEnergyRing7
Ring 7: 0.2 < R < 0.4.
Gaudi::Details::PropertyBase & declareProperty(Gaudi::Property< T > &t)
StoreGateSvc_t m_evtStore
Pointer to StoreGate (event store by default)
std::vector< SG::VarHandleKeyArray * > m_vhka
@ cellBasedEnergyRing1
EM+TES final scale.
@ cellBasedEnergyRing6
Ring 6: 0.15 < R < 0.2.
@ hadRadius
Get hadron calorimeter radius.
virtual void setOwner(IDataHandleHolder *o)=0
@ stripWidth2
Get strip width ^2.
@ centFrac
Get centrality fraction.
Bookkeeping of cells that make up a cluster Simplified replacement for CaloCellLink,...
ServiceHandle< StoreGateSvc > & evtStore()
The standard StoreGateSvc (event store) Returns (kind of) a pointer to the StoreGateSvc.
Description of a calorimeter cluster.
@ etHadAtEMScale
Get Hadronic energy at EM scale.
Gaudi::Property< bool > m_doVertexCorrection
Gaudi::Property< double > m_cellCone
@ cellBasedEnergyRing2
Ring 2: 0.05 < R < 0.075.
::StatusCode StatusCode
StatusCode definition for legacy code.
Gaudi::Property< double > m_stripEthr
const std::string & name(Level lvl)
Convenience function for translating message levels to strings.
StoreGateSvc_t m_detStore
Pointer to StoreGate (detector store by default)
@ cellBasedEnergyRing5
Ring 5: 0.125 < R < 0.15.
const CaloClusterCellLink * getCellLinks() const
Get a pointer to the CaloClusterCellLink object (const version)
virtual void renounce()=0
std::conditional< std::is_base_of< SG::VarHandleKeyArray, T >::value, VarHandleKeyArrayType, type2 >::type type
virtual double pt() const
The transverse momentum ( ) of the particle (negative for negative-energy clusters)
@ nStrip
Get number of strips.
bool isStripLayer(const CaloSampling::CaloSample &calo) const
Check whether the CaloSample is a Strip layer.
std::vector< xAOD::CaloVertexedTopoCluster > vertexedClusters() const
@ cellBasedEnergyRing3
Ring 3: 0.075 < R < 0.10.
std::string PathResolverFindCalibFile(const std::string &logical_file_name)
Class describing a Vertex.
Data object for each calorimeter readout cell.
Evaluate cell kinematics with a different vertex.
const Vertex * vertex() const
void setDetail(TauJetParameters::Detail detail, int value)
SG::VarHandleKey & vhKey()
Return a non-const reference to the HandleKey.
@ isolFrac
Get isolation fraction.
bool isEMLayer(const CaloSampling::CaloSample &calo) const
Check whether the CaloSample is a EM layer.
Evaluate cluster kinematics with a different vertex / signal state.
constexpr int pow(int base, int exp) noexcept
@ EMRadius
Get E_T radius.
Gaudi::Details::PropertyBase & declareGaudiProperty(Gaudi::Property< T > &hndl, const SG::VarHandleKeyType &)
specialization for handling Gaudi::Property<SG::VarHandleKey>
@ etEMAtEMScale
Get EM energy at EM scale.