LArSoft  v07_13_02
Liquid Argon Software toolkit - http://larsoft.org/
lar_content::EnergyKickVertexSelectionAlgorithm Class Reference

EnergyKickVertexSelectionAlgorithm class. More...

#include "EnergyKickVertexSelectionAlgorithm.h"

Inheritance diagram for lar_content::EnergyKickVertexSelectionAlgorithm:
lar_content::VertexSelectionBaseAlgorithm

Public Types

typedef std::vector< VertexScoreVertexScoreList
 
typedef std::vector< SlidingFitDataSlidingFitDataList
 
typedef std::vector< ShowerClusterShowerClusterList
 
typedef KDTreeNodeInfoT< const pandora::CaloHit *, 2 > HitKDNode2D
 
typedef std::vector< HitKDNode2DHitKDNode2DList
 
typedef KDTreeLinkerAlgo< const pandora::CaloHit *, 2 > HitKDTree2D
 
typedef std::map< pandora::HitType, const pandora::ClusterList & > ClusterListMap
 Map array of cluster lists for passing to tools. More...
 
typedef std::map< pandora::HitType, const SlidingFitDataListSlidingFitDataListMap
 Map of sliding fit data lists for passing to tools. More...
 
typedef std::map< pandora::HitType, const ShowerClusterListShowerClusterListMap
 Map of shower cluster lists for passing to tools. More...
 
typedef std::map< pandora::HitType, const std::reference_wrapper< HitKDTree2D > > KDTreeMap
 Map array of hit kd trees for passing to tools. More...
 
typedef MvaFeatureTool< const VertexSelectionBaseAlgorithm *const, const pandora::Vertex *const, const SlidingFitDataListMap &, const ClusterListMap &, const KDTreeMap &, const ShowerClusterListMap &, const float, float & > VertexFeatureTool
 The base type for the vertex feature tools. More...
 

Public Member Functions

 EnergyKickVertexSelectionAlgorithm ()
 Default constructor. More...
 

Protected Member Functions

virtual void FilterVertexList (const pandora::VertexList *const pInputVertexList, HitKDTree2D &kdTreeU, HitKDTree2D &kdTreeV, HitKDTree2D &kdTreeW, pandora::VertexVector &filteredVertices) const
 Filter the input list of vertices to obtain a reduced number of vertex candidates. More...
 
virtual void GetBeamConstants (const pandora::VertexVector &vertexVector, BeamConstants &beamConstants) const
 Get the beam score constants for a provided list of candidate vertices. More...
 
void GetClusterLists (const pandora::StringVector &inputClusterListNames, pandora::ClusterList &clusterListU, pandora::ClusterList &clusterListV, pandora::ClusterList &clusterListW) const
 Get the cluster lists. More...
 
void CalculateClusterSlidingFits (const pandora::ClusterList &inputClusterList, const unsigned int minClusterCaloHits, const unsigned int slidingFitWindow, SlidingFitDataList &slidingFitDataList) const
 Calculate the cluster sliding fits. More...
 
float GetBeamDeweightingScore (const BeamConstants &beamConstants, const pandora::Vertex *const pVertex) const
 Get the beam deweighting score for a vertex. More...
 
bool IsBeamModeOn () const
 Whether algorithm is running in beam mode, assuming neutrinos travel in positive z-direction. More...
 

Private Member Functions

void GetVertexScoreList (const pandora::VertexVector &vertexVector, const BeamConstants &beamConstants, HitKDTree2D &kdTreeU, HitKDTree2D &kdTreeV, HitKDTree2D &kdTreeW, VertexScoreList &vertexScoreList) const
 Get the vertex score list for a provided list of candidate vertices. More...
 
pandora::StatusCode ReadSettings (const pandora::TiXmlHandle xmlHandle)
 

Private Attributes

VertexFeatureTool::FeatureToolVector m_featureToolVector
 The feature tool map. More...
 
pandora::StringVector m_inputClusterListNames
 The list of cluster list names. More...
 
unsigned int m_minClusterCaloHits
 The min number of hits parameter in the energy score. More...
 
unsigned int m_slidingFitWindow
 The layer window for the sliding linear fits. More...
 
float m_epsilon
 The epsilon parameter in the energy score. More...
 
float m_asymmetryConstant
 The asymmetry constant parameter in the energy score. More...
 

Detailed Description

Member Typedef Documentation

typedef std::map<pandora::HitType, const pandora::ClusterList &> lar_content::VertexSelectionBaseAlgorithm::ClusterListMap
inherited

Map array of cluster lists for passing to tools.

Definition at line 224 of file VertexSelectionBaseAlgorithm.h.

typedef KDTreeNodeInfoT<const pandora::CaloHit*, 2> lar_content::VertexSelectionBaseAlgorithm::HitKDNode2D
inherited

Definition at line 220 of file VertexSelectionBaseAlgorithm.h.

typedef KDTreeLinkerAlgo<const pandora::CaloHit*, 2> lar_content::VertexSelectionBaseAlgorithm::HitKDTree2D
inherited

Definition at line 222 of file VertexSelectionBaseAlgorithm.h.

typedef std::map<pandora::HitType, const std::reference_wrapper<HitKDTree2D> > lar_content::VertexSelectionBaseAlgorithm::KDTreeMap
inherited

Map array of hit kd trees for passing to tools.

Definition at line 227 of file VertexSelectionBaseAlgorithm.h.

typedef std::map<pandora::HitType, const ShowerClusterList> lar_content::VertexSelectionBaseAlgorithm::ShowerClusterListMap
inherited

Map of shower cluster lists for passing to tools.

Definition at line 226 of file VertexSelectionBaseAlgorithm.h.

typedef std::map<pandora::HitType, const SlidingFitDataList> lar_content::VertexSelectionBaseAlgorithm::SlidingFitDataListMap
inherited

Map of sliding fit data lists for passing to tools.

Definition at line 225 of file VertexSelectionBaseAlgorithm.h.

typedef MvaFeatureTool<const VertexSelectionBaseAlgorithm *const, const pandora::Vertex * const, const SlidingFitDataListMap &, const ClusterListMap &, const KDTreeMap &, const ShowerClusterListMap &, const float, float &> lar_content::VertexSelectionBaseAlgorithm::VertexFeatureTool
inherited

The base type for the vertex feature tools.

Definition at line 230 of file VertexSelectionBaseAlgorithm.h.

Constructor & Destructor Documentation

lar_content::EnergyKickVertexSelectionAlgorithm::EnergyKickVertexSelectionAlgorithm ( )

Default constructor.

Definition at line 22 of file EnergyKickVertexSelectionAlgorithm.cc.

22  :
24  m_slidingFitWindow(100),
25  m_epsilon(0.06),
27 {
28 }
unsigned int m_minClusterCaloHits
The min number of hits parameter in the energy score.
unsigned int m_slidingFitWindow
The layer window for the sliding linear fits.
TFile f
Definition: plotHisto.C:6
float m_epsilon
The epsilon parameter in the energy score.
float m_asymmetryConstant
The asymmetry constant parameter in the energy score.

Member Function Documentation

void lar_content::VertexSelectionBaseAlgorithm::CalculateClusterSlidingFits ( const pandora::ClusterList &  inputClusterList,
const unsigned int  minClusterCaloHits,
const unsigned int  slidingFitWindow,
SlidingFitDataList slidingFitDataList 
) const
protectedinherited

Calculate the cluster sliding fits.

Parameters
inputClusterListthe input cluster list
minClusterCaloHitsthe minimum number of cluster calo hits
slidingFitWindowthe sliding fit window
slidingFitDataListthe list of sliding fits to fill

Definition at line 119 of file VertexSelectionBaseAlgorithm.cc.

References lar_content::LArGeometryHelper::GetWireZPitch(), min, and lar_content::LArClusterHelper::SortByNHits().

Referenced by GetVertexScoreList(), and lar_content::SvmVertexSelectionAlgorithm::GetVertexScoreList().

121 {
122  const float slidingFitPitch(LArGeometryHelper::GetWireZPitch(this->GetPandora()));
123 
124  ClusterVector sortedClusters(inputClusterList.begin(), inputClusterList.end());
125  std::sort(sortedClusters.begin(), sortedClusters.end(), LArClusterHelper::SortByNHits);
126 
127  for (const Cluster * const pCluster : sortedClusters)
128  {
129  if (pCluster->GetNCaloHits() < minClusterCaloHits)
130  continue;
131 
132  // Make sure the window size is such that there are not more layers than hits (following TwoDSlidingLinearFit calculation).
133  const unsigned int newSlidingFitWindow(std::min(static_cast<int>(pCluster->GetNCaloHits()), static_cast<int>(slidingFitPitch * slidingFitWindow)));
134  slidingFitDataList.emplace_back(pCluster, newSlidingFitWindow, slidingFitPitch);
135  }
136 }
static bool SortByNHits(const pandora::Cluster *const pLhs, const pandora::Cluster *const pRhs)
Sort clusters by number of hits, then layer span, then inner layer, then position, then pulse-height.
static float GetWireZPitch(const pandora::Pandora &pandora, const float maxWirePitchDiscrepancy=0.01)
Return the wire pitch.
std::vector< art::Ptr< recob::Cluster > > ClusterVector
Int_t min
Definition: plot.C:26
void lar_content::VertexSelectionBaseAlgorithm::FilterVertexList ( const pandora::VertexList *const  pInputVertexList,
HitKDTree2D kdTreeU,
HitKDTree2D kdTreeV,
HitKDTree2D kdTreeW,
pandora::VertexVector &  filteredVertices 
) const
protectedvirtualinherited

Filter the input list of vertices to obtain a reduced number of vertex candidates.

Parameters
pInputVertexListthe address of the input vertex list
kdTreeUthe kd tree for u hits
kdTreeVthe kd tree for v hits
kdTreeWthe kd tree for w hits
filteredVerticesto receive the filtered vertex list

Definition at line 40 of file VertexSelectionBaseAlgorithm.cc.

References lar_content::KDTreeLinkerAlgo< DATA, DIM >::empty(), lar_content::VertexSelectionBaseAlgorithm::IsVertexInGap(), lar_content::VertexSelectionBaseAlgorithm::IsVertexOnHit(), lar_content::VertexSelectionBaseAlgorithm::m_isEmptyViewAcceptable, lar_content::VertexSelectionBaseAlgorithm::m_minVertexAcceptableViews, and lar_content::VertexSelectionBaseAlgorithm::SortByVertexZPosition().

Referenced by lar_content::VertexSelectionBaseAlgorithm::Run().

42 {
43  for (const Vertex *const pVertex : *pInputVertexList)
44  {
45  unsigned int nAcceptableViews(0);
46 
47  if ((m_isEmptyViewAcceptable && kdTreeU.empty()) || this->IsVertexOnHit(pVertex, TPC_VIEW_U, kdTreeU) || this->IsVertexInGap(pVertex, TPC_VIEW_U))
48  ++nAcceptableViews;
49 
50  if ((m_isEmptyViewAcceptable && kdTreeV.empty()) || this->IsVertexOnHit(pVertex, TPC_VIEW_V, kdTreeV) || this->IsVertexInGap(pVertex, TPC_VIEW_V))
51  ++nAcceptableViews;
52 
53  if ((m_isEmptyViewAcceptable && kdTreeW.empty()) || this->IsVertexOnHit(pVertex, TPC_VIEW_W, kdTreeW) || this->IsVertexInGap(pVertex, TPC_VIEW_W))
54  ++nAcceptableViews;
55 
56  if (nAcceptableViews >= m_minVertexAcceptableViews)
57  filteredVertices.push_back(pVertex);
58  }
59 
60  std::sort(filteredVertices.begin(), filteredVertices.end(), SortByVertexZPosition);
61 }
bool IsVertexOnHit(const pandora::Vertex *const pVertex, const pandora::HitType hitType, HitKDTree2D &kdTree) const
Whether the vertex lies on a hit in the specified view.
bool IsVertexInGap(const pandora::Vertex *const pVertex, const pandora::HitType hitType) const
Whether the vertex lies in a registered gap.
static bool SortByVertexZPosition(const pandora::Vertex *const pLhs, const pandora::Vertex *const pRhs)
Sort vertices by increasing z position.
bool m_isEmptyViewAcceptable
Whether views entirely empty of hits are classed as &#39;acceptable&#39; for candidate filtration.
unsigned int m_minVertexAcceptableViews
The minimum number of views in which a candidate must sit on/near a hit or in a gap (or view can be e...
void lar_content::VertexSelectionBaseAlgorithm::GetBeamConstants ( const pandora::VertexVector &  vertexVector,
BeamConstants beamConstants 
) const
protectedvirtualinherited

Get the beam score constants for a provided list of candidate vertices.

Parameters
vertexVectorthe vertex vector
beamConstantsto receive the beam constants

Definition at line 65 of file VertexSelectionBaseAlgorithm.cc.

References f, lar_content::VertexSelectionBaseAlgorithm::m_beamMode, lar_content::VertexSelectionBaseAlgorithm::m_nDecayLengthsInZSpan, max, and lar_content::VertexSelectionBaseAlgorithm::BeamConstants::SetConstants().

Referenced by lar_content::VertexSelectionBaseAlgorithm::Run().

66 {
67  if (!m_beamMode)
68  return;
69 
70  if (vertexVector.empty())
71  throw StatusCodeException(STATUS_CODE_NOT_INITIALIZED);
72 
73  float minZCoordinate(std::numeric_limits<float>::max()), maxZCoordinate(-std::numeric_limits<float>::max());
74 
75  for (const Vertex *const pVertex : vertexVector)
76  {
77  if (pVertex->GetPosition().GetZ() < minZCoordinate)
78  minZCoordinate = pVertex->GetPosition().GetZ();
79 
80  if (pVertex->GetPosition().GetZ() > maxZCoordinate)
81  maxZCoordinate = pVertex->GetPosition().GetZ();
82  }
83 
84  const float zSpan(maxZCoordinate - minZCoordinate);
85  const float decayConstant((zSpan < std::numeric_limits<float>::epsilon()) ? 0.f : (m_nDecayLengthsInZSpan / zSpan));
86  beamConstants.SetConstants(minZCoordinate, decayConstant);
87 }
TFile f
Definition: plotHisto.C:6
Int_t max
Definition: plot.C:27
bool m_beamMode
Whether to run in beam mode, assuming neutrinos travel in positive z-direction.
float m_nDecayLengthsInZSpan
The number of score decay lengths to use over the course of the vertex z-span.
float lar_content::VertexSelectionBaseAlgorithm::GetBeamDeweightingScore ( const BeamConstants beamConstants,
const pandora::Vertex *const  pVertex 
) const
inlineprotectedinherited

Get the beam deweighting score for a vertex.

Parameters
beamConstantsthe beam constants
pVertexaddress of the vertex
Returns
the score

Definition at line 394 of file VertexSelectionBaseAlgorithm.h.

References lar_content::VertexSelectionBaseAlgorithm::BeamConstants::GetDecayConstant(), lar_content::VertexSelectionBaseAlgorithm::BeamConstants::GetMinZCoordinate(), and max.

Referenced by GetVertexScoreList(), and lar_content::SvmVertexSelectionAlgorithm::PopulateVertexFeatureInfoMap().

395 {
396  const float vertexMinZ(std::max(pVertex->GetPosition().GetZ(), beamConstants.GetMinZCoordinate()));
397  return (beamConstants.GetMinZCoordinate() - vertexMinZ) * beamConstants.GetDecayConstant();
398 }
Int_t max
Definition: plot.C:27
void lar_content::VertexSelectionBaseAlgorithm::GetClusterLists ( const pandora::StringVector &  inputClusterListNames,
pandora::ClusterList &  clusterListU,
pandora::ClusterList &  clusterListV,
pandora::ClusterList &  clusterListW 
) const
protectedinherited

Get the cluster lists.

Parameters
inputClusterListNamesthe input cluster list names
clusterListUthe U-view cluster list to populate
clusterListVthe V-view cluster list to populate
clusterListWthe W-view cluster list to populate

Definition at line 91 of file VertexSelectionBaseAlgorithm.cc.

References lar_content::LArClusterHelper::GetClusterHitType().

Referenced by GetVertexScoreList(), and lar_content::SvmVertexSelectionAlgorithm::GetVertexScoreList().

93 {
94  for (const std::string &clusterListName : inputClusterListNames)
95  {
96  const ClusterList *pClusterList(NULL);
97  PANDORA_THROW_RESULT_IF_AND_IF(STATUS_CODE_SUCCESS, STATUS_CODE_NOT_INITIALIZED, !=, PandoraContentApi::GetList(*this, clusterListName, pClusterList));
98 
99  if (!pClusterList || pClusterList->empty())
100  {
101  if (PandoraContentApi::GetSettings(*this)->ShouldDisplayAlgorithmInfo())
102  std::cout << "EnergyKickVertexSelectionAlgorithm: unable to find cluster list " << clusterListName << std::endl;
103 
104  continue;
105  }
106 
107  const HitType hitType(LArClusterHelper::GetClusterHitType(*(pClusterList->begin())));
108 
109  if ((TPC_VIEW_U != hitType) && (TPC_VIEW_V != hitType) && (TPC_VIEW_W != hitType))
110  throw StatusCodeException(STATUS_CODE_INVALID_PARAMETER);
111 
112  ClusterList &clusterList((TPC_VIEW_U == hitType) ? clusterListU : (TPC_VIEW_V == hitType) ? clusterListV : clusterListW);
113  clusterList.insert(clusterList.end(), pClusterList->begin(), pClusterList->end());
114  }
115 }
static pandora::HitType GetClusterHitType(const pandora::Cluster *const pCluster)
Get the hit type associated with a two dimensional cluster.
void lar_content::EnergyKickVertexSelectionAlgorithm::GetVertexScoreList ( const pandora::VertexVector &  vertexVector,
const BeamConstants beamConstants,
HitKDTree2D kdTreeU,
HitKDTree2D kdTreeV,
HitKDTree2D kdTreeW,
VertexScoreList vertexScoreList 
) const
privatevirtual

Get the vertex score list for a provided list of candidate vertices.

Parameters
vertexVectorthe vertex vector
beamConstantsthe beam constants
kdTreeUthe kd tree for u hits
kdTreeVthe kd tree for v hits
kdTreeWthe kd tree for w hits
vertexScoreListto receive the vertex score list

Implements lar_content::VertexSelectionBaseAlgorithm.

Definition at line 32 of file EnergyKickVertexSelectionAlgorithm.cc.

References lar_content::VertexSelectionBaseAlgorithm::CalculateClusterSlidingFits(), f, Get, lar_content::VertexSelectionBaseAlgorithm::GetBeamDeweightingScore(), lar_content::VertexSelectionBaseAlgorithm::GetClusterLists(), lar_content::VertexSelectionBaseAlgorithm::IsBeamModeOn(), m_asymmetryConstant, m_epsilon, m_featureToolVector, m_inputClusterListNames, m_minClusterCaloHits, and m_slidingFitWindow.

34 {
35  ClusterList clustersU, clustersV, clustersW;
36  this->GetClusterLists(m_inputClusterListNames, clustersU, clustersV, clustersW);
37 
38  SlidingFitDataList slidingFitDataListU, slidingFitDataListV, slidingFitDataListW;
39  this->CalculateClusterSlidingFits(clustersU, m_minClusterCaloHits, m_slidingFitWindow, slidingFitDataListU);
40  this->CalculateClusterSlidingFits(clustersV, m_minClusterCaloHits, m_slidingFitWindow, slidingFitDataListV);
41  this->CalculateClusterSlidingFits(clustersW, m_minClusterCaloHits, m_slidingFitWindow, slidingFitDataListW);
42 
43  // Create maps from hit types to objects for passing to feature tools
44  const SlidingFitDataListMap slidingFitDataListMap{{TPC_VIEW_U, slidingFitDataListU},
45  {TPC_VIEW_V, slidingFitDataListV},
46  {TPC_VIEW_W, slidingFitDataListW}};
47 
48  float bestFastScore(0.f); // not actually used - artefact of toolizing RPhi score and still using performance trick
49  for (const Vertex *const pVertex : vertexVector)
50  {
51  const float beamDeweightingScore(this->IsBeamModeOn() ? this->GetBeamDeweightingScore(beamConstants, pVertex) : 0.f);
52 
53  const float energyKick(LArMvaHelper::CalculateFeaturesOfType<EnergyKickFeatureTool>(m_featureToolVector, this, pVertex, slidingFitDataListMap,
54  ClusterListMap(), KDTreeMap(), ShowerClusterListMap(), beamDeweightingScore, bestFastScore).at(0).Get());
55 
56  const float energyAsymmetry(LArMvaHelper::CalculateFeaturesOfType<LocalAsymmetryFeatureTool>(m_featureToolVector, this, pVertex, slidingFitDataListMap,
57  ClusterListMap(), KDTreeMap(), ShowerClusterListMap(), beamDeweightingScore, bestFastScore).at(0).Get());
58 
59  const float energyKickScore(-energyKick / m_epsilon);
60  const float energyAsymmetryScore(energyAsymmetry / m_asymmetryConstant);
61 
62  vertexScoreList.push_back(VertexScore(pVertex, beamDeweightingScore + energyKickScore + energyAsymmetryScore));
63  }
64 }
pandora::StringVector m_inputClusterListNames
The list of cluster list names.
void GetClusterLists(const pandora::StringVector &inputClusterListNames, pandora::ClusterList &clusterListU, pandora::ClusterList &clusterListV, pandora::ClusterList &clusterListW) const
Get the cluster lists.
void CalculateClusterSlidingFits(const pandora::ClusterList &inputClusterList, const unsigned int minClusterCaloHits, const unsigned int slidingFitWindow, SlidingFitDataList &slidingFitDataList) const
Calculate the cluster sliding fits.
unsigned int m_minClusterCaloHits
The min number of hits parameter in the energy score.
bool IsBeamModeOn() const
Whether algorithm is running in beam mode, assuming neutrinos travel in positive z-direction.
unsigned int m_slidingFitWindow
The layer window for the sliding linear fits.
cout<< "Opened file "<< fin<< " ixs= "<< ixs<< endl;if(ixs==0) hhh=(TH1F *) fff-> Get("h1")
Definition: AddMC.C:8
TFile f
Definition: plotHisto.C:6
std::map< pandora::HitType, const ShowerClusterList > ShowerClusterListMap
Map of shower cluster lists for passing to tools.
float m_epsilon
The epsilon parameter in the energy score.
VertexFeatureTool::FeatureToolVector m_featureToolVector
The feature tool map.
std::map< pandora::HitType, const pandora::ClusterList & > ClusterListMap
Map array of cluster lists for passing to tools.
float m_asymmetryConstant
The asymmetry constant parameter in the energy score.
std::map< pandora::HitType, const SlidingFitDataList > SlidingFitDataListMap
Map of sliding fit data lists for passing to tools.
std::map< pandora::HitType, const std::reference_wrapper< HitKDTree2D > > KDTreeMap
Map array of hit kd trees for passing to tools.
float GetBeamDeweightingScore(const BeamConstants &beamConstants, const pandora::Vertex *const pVertex) const
Get the beam deweighting score for a vertex.
bool lar_content::VertexSelectionBaseAlgorithm::IsBeamModeOn ( ) const
inlineprotectedinherited

Whether algorithm is running in beam mode, assuming neutrinos travel in positive z-direction.

Returns
boolean

Definition at line 402 of file VertexSelectionBaseAlgorithm.h.

References lar_content::VertexSelectionBaseAlgorithm::m_beamMode.

Referenced by GetVertexScoreList().

403 {
404  return m_beamMode;
405 }
bool m_beamMode
Whether to run in beam mode, assuming neutrinos travel in positive z-direction.
StatusCode lar_content::EnergyKickVertexSelectionAlgorithm::ReadSettings ( const pandora::TiXmlHandle  xmlHandle)
private

Definition at line 69 of file EnergyKickVertexSelectionAlgorithm.cc.

References lar_content::LArMvaHelper::AddFeatureToolToVector(), m_asymmetryConstant, m_epsilon, m_featureToolVector, m_inputClusterListNames, m_minClusterCaloHits, m_slidingFitWindow, and lar_content::VertexSelectionBaseAlgorithm::ReadSettings().

70 {
71  AlgorithmToolVector algorithmToolVector;
72  PANDORA_RETURN_RESULT_IF(STATUS_CODE_SUCCESS, !=, XmlHelper::ProcessAlgorithmToolList(*this, xmlHandle, "FeatureTools", algorithmToolVector));
73 
74  for (AlgorithmTool *const pAlgorithmTool : algorithmToolVector)
75  PANDORA_RETURN_RESULT_IF(STATUS_CODE_SUCCESS, !=, LArMvaHelper::AddFeatureToolToVector(pAlgorithmTool, m_featureToolVector));
76 
77  PANDORA_RETURN_RESULT_IF(STATUS_CODE_SUCCESS, !=, XmlHelper::ReadVectorOfValues(xmlHandle,
78  "InputClusterListNames", m_inputClusterListNames));
79 
80  PANDORA_RETURN_RESULT_IF_AND_IF(STATUS_CODE_SUCCESS, STATUS_CODE_NOT_FOUND, !=, XmlHelper::ReadValue(xmlHandle,
81  "MinClusterCaloHits", m_minClusterCaloHits));
82 
83  PANDORA_RETURN_RESULT_IF_AND_IF(STATUS_CODE_SUCCESS, STATUS_CODE_NOT_FOUND, !=, XmlHelper::ReadValue(xmlHandle,
84  "SlidingFitWindow", m_slidingFitWindow));
85 
86  PANDORA_RETURN_RESULT_IF_AND_IF(STATUS_CODE_SUCCESS, STATUS_CODE_NOT_FOUND, !=, XmlHelper::ReadValue(xmlHandle,
87  "Epsilon", m_epsilon));
88 
89  PANDORA_RETURN_RESULT_IF_AND_IF(STATUS_CODE_SUCCESS, STATUS_CODE_NOT_FOUND, !=, XmlHelper::ReadValue(xmlHandle,
90  "AsymmetryConstant", m_asymmetryConstant));
91 
92  if ((m_epsilon < std::numeric_limits<float>::epsilon()) || (m_asymmetryConstant < std::numeric_limits<float>::epsilon()))
93  {
94  std::cout << "EnergyKickVertexSelection: Invalid parameter(s), Epsilon " << m_epsilon << ", AsymmetryConstant " << m_asymmetryConstant << std::endl;
95  return STATUS_CODE_INVALID_PARAMETER;
96  }
97 
99 }
pandora::StringVector m_inputClusterListNames
The list of cluster list names.
unsigned int m_minClusterCaloHits
The min number of hits parameter in the energy score.
unsigned int m_slidingFitWindow
The layer window for the sliding linear fits.
float m_epsilon
The epsilon parameter in the energy score.
VertexFeatureTool::FeatureToolVector m_featureToolVector
The feature tool map.
static pandora::StatusCode AddFeatureToolToVector(pandora::AlgorithmTool *const pFeatureTool, MvaFeatureToolVector< Ts... > &featureToolVector)
Add a feature tool to a vector of feature tools.
Definition: LArMvaHelper.h:274
float m_asymmetryConstant
The asymmetry constant parameter in the energy score.
pandora::StatusCode ReadSettings(const pandora::TiXmlHandle xmlHandle)

Member Data Documentation

float lar_content::EnergyKickVertexSelectionAlgorithm::m_asymmetryConstant
private

The asymmetry constant parameter in the energy score.

Definition at line 39 of file EnergyKickVertexSelectionAlgorithm.h.

Referenced by GetVertexScoreList(), and ReadSettings().

float lar_content::EnergyKickVertexSelectionAlgorithm::m_epsilon
private

The epsilon parameter in the energy score.

Definition at line 38 of file EnergyKickVertexSelectionAlgorithm.h.

Referenced by GetVertexScoreList(), and ReadSettings().

VertexFeatureTool::FeatureToolVector lar_content::EnergyKickVertexSelectionAlgorithm::m_featureToolVector
private

The feature tool map.

Definition at line 33 of file EnergyKickVertexSelectionAlgorithm.h.

Referenced by GetVertexScoreList(), and ReadSettings().

pandora::StringVector lar_content::EnergyKickVertexSelectionAlgorithm::m_inputClusterListNames
private

The list of cluster list names.

Definition at line 35 of file EnergyKickVertexSelectionAlgorithm.h.

Referenced by GetVertexScoreList(), and ReadSettings().

unsigned int lar_content::EnergyKickVertexSelectionAlgorithm::m_minClusterCaloHits
private

The min number of hits parameter in the energy score.

Definition at line 36 of file EnergyKickVertexSelectionAlgorithm.h.

Referenced by GetVertexScoreList(), and ReadSettings().

unsigned int lar_content::EnergyKickVertexSelectionAlgorithm::m_slidingFitWindow
private

The layer window for the sliding linear fits.

Definition at line 37 of file EnergyKickVertexSelectionAlgorithm.h.

Referenced by GetVertexScoreList(), and ReadSettings().


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