LArSoft  v06_85_00
Liquid Argon Software toolkit - http://larsoft.org/
lar_content::CosmicRayVertexBuildingAlgorithm Class Reference

CosmicRayVertexBuildingAlgorithm class. More...

#include "CosmicRayVertexBuildingAlgorithm.h"

Inheritance diagram for lar_content::CosmicRayVertexBuildingAlgorithm:

Public Member Functions

 CosmicRayVertexBuildingAlgorithm ()
 Default constructor. More...
 

Private Member Functions

pandora::StatusCode Run ()
 
pandora::StatusCode ReadSettings (const pandora::TiXmlHandle xmlHandle)
 
void GetCosmicPfos (const pandora::PfoList *const pPfoList, pandora::PfoVector &pfoVector) const
 Get the list of input pfos to this algorithm. More...
 
void BuildPointingClusterMap (const pandora::PfoVector &pfoVector, LArPointingClusterMap &pointingClusterMap) const
 Build a map of 3D sliding fits from the input Pfos. More...
 
void BuildCosmicRayParticles (const LArPointingClusterMap &pointingClusterMap, const pandora::PfoVector &pfoVector) const
 Reconstruct the vertex and direction of a list of cosmic-ray Pfos. More...
 
void BuildCosmicRayParent (const LArPointingClusterMap &pointingClusterMap, const pandora::ParticleFlowObject *const pPfo) const
 Reconstruct the vertex and direction of a parent cosmic-ray Pfo. More...
 
void BuildCosmicRayDaughter (const pandora::ParticleFlowObject *const pPfo) const
 Reconstruct the vertex and direction of a daughter cosmic-ray Pfo. More...
 
void SetParticleParameters (const pandora::CartesianVector &vtxPosition, const pandora::CartesianVector &vtxDirection, const pandora::ParticleFlowObject *const pPfo) const
 Set the vertex and direction of the Pfos. More...
 

Private Attributes

bool m_useParentShowerVertex
 use the parent pfo for the shower vertices More...
 
unsigned int m_halfWindowLayers
 number of layers to use for half-window of sliding fit More...
 
std::string m_parentPfoListName
 The name of the input pfo list. More...
 
std::string m_vertexListName
 The name of the output vertex list. More...
 

Detailed Description

Constructor & Destructor Documentation

lar_content::CosmicRayVertexBuildingAlgorithm::CosmicRayVertexBuildingAlgorithm ( )

Default constructor.

Definition at line 22 of file CosmicRayVertexBuildingAlgorithm.cc.

22  :
25 {
26 }
bool m_useParentShowerVertex
use the parent pfo for the shower vertices
unsigned int m_halfWindowLayers
number of layers to use for half-window of sliding fit

Member Function Documentation

void lar_content::CosmicRayVertexBuildingAlgorithm::BuildCosmicRayDaughter ( const pandora::ParticleFlowObject *const  pPfo) const
private

Reconstruct the vertex and direction of a daughter cosmic-ray Pfo.

Parameters
pPfothe daughter Pfo

Definition at line 229 of file CosmicRayVertexBuildingAlgorithm.cc.

References f, lar_content::LArClusterHelper::GetClosestPositions(), lar_content::LArPfoHelper::GetClusters(), m_useParentShowerVertex, and SetParticleParameters().

Referenced by BuildCosmicRayParticles().

230 {
231  if (pDaughterPfo->GetParentPfoList().size() != 1)
232  throw StatusCodeException(STATUS_CODE_FAILURE);
233 
234  const ParticleFlowObject *const pParentPfo = *(pDaughterPfo->GetParentPfoList().begin());
235 
236  ClusterList parentList, daughterList;
237  LArPfoHelper::GetClusters(pParentPfo, TPC_3D, parentList);
238  LArPfoHelper::GetClusters(pDaughterPfo, TPC_3D, daughterList);
239 
240  if (daughterList.empty() || parentList.empty())
241  return;
242 
243  bool foundVtx(false);
244  float vtxDistanceSquared(0.f);
245  CartesianVector vtxPosition(0.f, 0.f, 0.f);
246 
247  for (ClusterList::const_iterator dIter = daughterList.begin(), dIterEnd = daughterList.end(); dIter != dIterEnd; ++dIter)
248  {
249  const Cluster *const pDaughterCluster = *dIter;
250 
251  for (ClusterList::const_iterator pIter = parentList.begin(), pIterEnd = parentList.end(); pIter != pIterEnd; ++pIter)
252  {
253  const Cluster *const pParentCluster = *pIter;
254 
255  CartesianVector closestDaughterPosition(0.f, 0.f, 0.f), closestParentPosition(0.f, 0.f, 0.f);
256  LArClusterHelper::GetClosestPositions(pDaughterCluster, pParentCluster, closestDaughterPosition, closestParentPosition);
257 
258  const float closestDistanceSquared((closestDaughterPosition - closestParentPosition).GetMagnitudeSquared());
259 
260  if (!foundVtx || closestDistanceSquared < vtxDistanceSquared)
261  {
262  foundVtx = true;
263  vtxDistanceSquared = closestDistanceSquared;
264  vtxPosition = (m_useParentShowerVertex ? closestParentPosition : closestDaughterPosition);
265  }
266  }
267  }
268 
269  if (!foundVtx)
270  return;
271 
272  this->SetParticleParameters(vtxPosition, CartesianVector(0.f, 0.f, 0.f), pDaughterPfo);
273 }
bool m_useParentShowerVertex
use the parent pfo for the shower vertices
static void GetClusters(const pandora::PfoList &pfoList, const pandora::HitType &hitType, pandora::ClusterList &clusterList)
Get a list of clusters of a particular hit type from a list of pfos.
void SetParticleParameters(const pandora::CartesianVector &vtxPosition, const pandora::CartesianVector &vtxDirection, const pandora::ParticleFlowObject *const pPfo) const
Set the vertex and direction of the Pfos.
static void GetClosestPositions(const pandora::Cluster *const pCluster1, const pandora::Cluster *const pCluster2, pandora::CartesianVector &position1, pandora::CartesianVector &position2)
Get pair of closest positions for a pair of clusters.
TFile f
Definition: plotHisto.C:6
intermediate_table::const_iterator const_iterator
void lar_content::CosmicRayVertexBuildingAlgorithm::BuildCosmicRayParent ( const LArPointingClusterMap pointingClusterMap,
const pandora::ParticleFlowObject *const  pPfo 
) const
private

Reconstruct the vertex and direction of a parent cosmic-ray Pfo.

Parameters
pointingClusterMapthe input map of 3D pointing clusters
pPfothe input Pfo

Definition at line 137 of file CosmicRayVertexBuildingAlgorithm.cc.

References f, lar_content::LArPfoHelper::GetClusters(), lar_content::LArPointingCluster::Vertex::GetDirection(), lar_content::LArClusterHelper::GetExtremalCoordinates(), lar_content::LArPointingCluster::GetInnerVertex(), lar_content::LArPointingCluster::GetOuterVertex(), lar_content::LArPointingCluster::Vertex::GetPosition(), max, min, and SetParticleParameters().

Referenced by BuildCosmicRayParticles().

138 {
139  ClusterList clusterList;
140  LArPfoHelper::GetClusters(pPfo, TPC_3D, clusterList);
141 
142  if (clusterList.empty())
143  return;
144 
145  // Take highest point as vertex of parent Pfos (TODO: do something more sophisticated for horizontal events)
146  bool foundVtx(false);
147  CartesianVector vtxPosition(0.f, 0.f, 0.f);
148  CartesianVector vtxDirection(0.f, 0.f, 0.f);
149 
150  bool foundEnd(false);
151  CartesianVector endPosition(0.f, 0.f, 0.f);
152  CartesianVector endDirection(0.f, 0.f, 0.f);
153 
154  for (ClusterList::const_iterator cIter1 = clusterList.begin(), cIterEnd1 = clusterList.end(); cIter1 != cIterEnd1; ++cIter1)
155  {
156  const Cluster *const pCluster = *cIter1;
157 
158  try
159  {
160  CartesianVector minPosition(0.f, 0.f, 0.f), maxPosition(0.f,0.f,0.f);
161  CartesianVector minDirection(0.f, 0.f, 0.f), maxDirection(0.f,0.f,0.f);
162 
163  LArPointingClusterMap::const_iterator cIter2 = pointingClusterMap.find(pCluster);
164 
165  if (pointingClusterMap.end() != cIter2)
166  {
167  const LArPointingCluster &pointingCluster(cIter2->second);
168 
169  minPosition = pointingCluster.GetInnerVertex().GetPosition();
170  maxPosition = pointingCluster.GetOuterVertex().GetPosition();
171  minDirection = pointingCluster.GetInnerVertex().GetDirection();
172  maxDirection = pointingCluster.GetOuterVertex().GetDirection();
173  }
174  else
175  {
176  LArClusterHelper::GetExtremalCoordinates(pCluster, minPosition, maxPosition);
177  minDirection = (maxPosition - minPosition).GetUnitVector();
178  maxDirection = (minPosition - maxPosition).GetUnitVector();
179  }
180 
181  if ((maxPosition - minPosition).GetMagnitudeSquared() < std::numeric_limits<float>::epsilon())
182  throw StatusCodeException(STATUS_CODE_NOT_FOUND);
183 
184  if (!foundVtx || (minPosition.GetY() > std::max(maxPosition.GetY(), vtxPosition.GetY())))
185  {
186  foundVtx = true;
187  vtxPosition = minPosition;
188  vtxDirection = minDirection;
189  }
190 
191  if (!foundVtx || (maxPosition.GetY() > std::max(minPosition.GetY(), vtxPosition.GetY())))
192  {
193  foundVtx = true;
194  vtxPosition = maxPosition;
195  vtxDirection = maxDirection;
196  }
197 
198  if (!foundEnd || (minPosition.GetY() < std::min(maxPosition.GetY(), endPosition.GetY())))
199  {
200  foundEnd = true;
201  endPosition = minPosition;
202  endDirection = minDirection;
203  }
204 
205  if (!foundEnd || (maxPosition.GetY() < std::min(minPosition.GetY(), endPosition.GetY())))
206  {
207  foundEnd = true;
208  endPosition = maxPosition;
209  endDirection = maxDirection;
210  }
211  }
212  catch(StatusCodeException &statusCodeException)
213  {
214  if (STATUS_CODE_FAILURE == statusCodeException.GetStatusCode())
215  throw statusCodeException;
216 
217  continue;
218  }
219  }
220 
221  if (!(foundVtx && foundEnd))
222  return;
223 
224  this->SetParticleParameters(vtxPosition, vtxDirection, pPfo);
225 }
static void GetClusters(const pandora::PfoList &pfoList, const pandora::HitType &hitType, pandora::ClusterList &clusterList)
Get a list of clusters of a particular hit type from a list of pfos.
void SetParticleParameters(const pandora::CartesianVector &vtxPosition, const pandora::CartesianVector &vtxDirection, const pandora::ParticleFlowObject *const pPfo) const
Set the vertex and direction of the Pfos.
TFile f
Definition: plotHisto.C:6
Int_t max
Definition: plot.C:27
intermediate_table::const_iterator const_iterator
static void GetExtremalCoordinates(const pandora::ClusterList &clusterList, pandora::CartesianVector &innerCoordinate, pandora::CartesianVector &outerCoordinate)
Get positions of the two most distant calo hits in a list of cluster (ordered by Z) ...
Int_t min
Definition: plot.C:26
void lar_content::CosmicRayVertexBuildingAlgorithm::BuildCosmicRayParticles ( const LArPointingClusterMap pointingClusterMap,
const pandora::PfoVector &  pfoVector 
) const
private

Reconstruct the vertex and direction of a list of cosmic-ray Pfos.

Parameters
pointingClusterMapthe input map of 3D pointing clusters
pfoListthe input list of Pfos

Definition at line 118 of file CosmicRayVertexBuildingAlgorithm.cc.

References BuildCosmicRayDaughter(), BuildCosmicRayParent(), and lar_content::LArPfoHelper::IsFinalState().

Referenced by Run().

119 {
120  for (PfoVector::const_iterator iter = pfoVector.begin(), iterEnd = pfoVector.end(); iter != iterEnd; ++iter)
121  {
122  const ParticleFlowObject *const pPfo = *iter;
123 
124  if (LArPfoHelper::IsFinalState(pPfo))
125  {
126  this->BuildCosmicRayParent(pointingClusterMap, pPfo);
127  }
128  else
129  {
130  this->BuildCosmicRayDaughter(pPfo);
131  }
132  }
133 }
void BuildCosmicRayParent(const LArPointingClusterMap &pointingClusterMap, const pandora::ParticleFlowObject *const pPfo) const
Reconstruct the vertex and direction of a parent cosmic-ray Pfo.
intermediate_table::const_iterator const_iterator
static bool IsFinalState(const pandora::ParticleFlowObject *const pPfo)
Whether a pfo is a primary parent particle.
void BuildCosmicRayDaughter(const pandora::ParticleFlowObject *const pPfo) const
Reconstruct the vertex and direction of a daughter cosmic-ray Pfo.
void lar_content::CosmicRayVertexBuildingAlgorithm::BuildPointingClusterMap ( const pandora::PfoVector &  pfoVector,
LArPointingClusterMap pointingClusterMap 
) const
private

Build a map of 3D sliding fits from the input Pfos.

Parameters
pfoListthe input particle flow objects
pointingClusterMapthe output map of 3D pointing clusters

Definition at line 82 of file CosmicRayVertexBuildingAlgorithm.cc.

References lar_content::LArPfoHelper::GetClusters(), lar_content::LArGeometryHelper::GetWireZPitch(), lar_content::LArPfoHelper::IsTrack(), and m_halfWindowLayers.

Referenced by Run().

83 {
84  const float slidingFitPitch(LArGeometryHelper::GetWireZPitch(this->GetPandora()));
85 
86  for (PfoVector::const_iterator pIter = pfoVector.begin(), pIterEnd = pfoVector.end(); pIter != pIterEnd; ++pIter)
87  {
88  const ParticleFlowObject *const pPfo = *pIter;
89 
90  if (!LArPfoHelper::IsTrack(pPfo))
91  continue;
92 
93  ClusterList clusterList;
94  LArPfoHelper::GetClusters(pPfo, TPC_3D, clusterList);
95 
96  for (ClusterList::const_iterator cIter = clusterList.begin(), cIterEnd = clusterList.end(); cIter != cIterEnd; ++cIter)
97  {
98  const Cluster *const pCluster = *cIter;
99 
100  try
101  {
102  const LArPointingCluster pointingCluster(pCluster, m_halfWindowLayers, slidingFitPitch);
103 
104  if (!pointingClusterMap.insert(LArPointingClusterMap::value_type(pCluster, pointingCluster)).second)
105  throw StatusCodeException(STATUS_CODE_FAILURE);
106  }
107  catch (StatusCodeException &statusCodeException)
108  {
109  if (STATUS_CODE_FAILURE == statusCodeException.GetStatusCode())
110  throw statusCodeException;
111  }
112  }
113  }
114 }
static void GetClusters(const pandora::PfoList &pfoList, const pandora::HitType &hitType, pandora::ClusterList &clusterList)
Get a list of clusters of a particular hit type from a list of pfos.
static bool IsTrack(const pandora::ParticleFlowObject *const pPfo)
Return track flag based on Pfo Particle ID.
static float GetWireZPitch(const pandora::Pandora &pandora, const float maxWirePitchDiscrepancy=0.01)
Return the wire pitch.
intermediate_table::const_iterator const_iterator
unsigned int m_halfWindowLayers
number of layers to use for half-window of sliding fit
void lar_content::CosmicRayVertexBuildingAlgorithm::GetCosmicPfos ( const pandora::PfoList *const  pPfoList,
pandora::PfoVector &  pfoVector 
) const
private

Get the list of input pfos to this algorithm.

Parameters
pfoListto receive the list of input pfos

Definition at line 56 of file CosmicRayVertexBuildingAlgorithm.cc.

References lar_content::LArPfoHelper::GetAllDownstreamPfos(), lar_content::LArPfoHelper::GetClusters(), and lar_content::LArPfoHelper::IsFinalState().

Referenced by Run().

57 {
58  PfoList outputList;
59 
60  for (PfoList::const_iterator pIter = pPfoList->begin(), pIterEnd = pPfoList->end(); pIter != pIterEnd; ++pIter)
61  {
62  if (!LArPfoHelper::IsFinalState(*pIter))
63  throw StatusCodeException(STATUS_CODE_INVALID_PARAMETER);
64 
65  LArPfoHelper::GetAllDownstreamPfos(*pIter, outputList);
66  }
67 
68  for (PfoList::const_iterator pIter = outputList.begin(), pIterEnd = outputList.end(); pIter != pIterEnd; ++pIter)
69  {
70  ClusterList clusterList;
71  LArPfoHelper::GetClusters(*pIter, TPC_3D, clusterList);
72 
73  if (clusterList.empty())
74  continue;
75 
76  pfoVector.push_back(*pIter);
77  }
78 }
static void GetClusters(const pandora::PfoList &pfoList, const pandora::HitType &hitType, pandora::ClusterList &clusterList)
Get a list of clusters of a particular hit type from a list of pfos.
intermediate_table::const_iterator const_iterator
static bool IsFinalState(const pandora::ParticleFlowObject *const pPfo)
Whether a pfo is a primary parent particle.
static void GetAllDownstreamPfos(const pandora::PfoList &inputPfoList, pandora::PfoList &outputPfoList)
Get a flat list of all pfos, recursively, of all daughters associated with those pfos in an input lis...
StatusCode lar_content::CosmicRayVertexBuildingAlgorithm::ReadSettings ( const pandora::TiXmlHandle  xmlHandle)
private

Definition at line 307 of file CosmicRayVertexBuildingAlgorithm.cc.

References m_halfWindowLayers, m_parentPfoListName, m_useParentShowerVertex, and m_vertexListName.

308 {
309  PANDORA_RETURN_RESULT_IF(STATUS_CODE_SUCCESS, !=, XmlHelper::ReadValue(xmlHandle, "InputPfoListName", m_parentPfoListName));
310 
311  PANDORA_RETURN_RESULT_IF(STATUS_CODE_SUCCESS, !=, XmlHelper::ReadValue(xmlHandle, "OutputVertexListName", m_vertexListName));
312 
313  PANDORA_RETURN_RESULT_IF_AND_IF(STATUS_CODE_SUCCESS, STATUS_CODE_NOT_FOUND, !=, XmlHelper::ReadValue(xmlHandle,
314  "UseParentForShowerVertex", m_useParentShowerVertex));
315 
316  PANDORA_RETURN_RESULT_IF_AND_IF(STATUS_CODE_SUCCESS, STATUS_CODE_NOT_FOUND, !=, XmlHelper::ReadValue(xmlHandle,
317  "SlidingFitHalfWindow", m_halfWindowLayers));
318 
319  return STATUS_CODE_SUCCESS;
320 }
bool m_useParentShowerVertex
use the parent pfo for the shower vertices
std::string m_vertexListName
The name of the output vertex list.
std::string m_parentPfoListName
The name of the input pfo list.
unsigned int m_halfWindowLayers
number of layers to use for half-window of sliding fit
StatusCode lar_content::CosmicRayVertexBuildingAlgorithm::Run ( )
private

Definition at line 30 of file CosmicRayVertexBuildingAlgorithm.cc.

References BuildCosmicRayParticles(), BuildPointingClusterMap(), GetCosmicPfos(), and m_parentPfoListName.

31 {
32  const PfoList *pPfoList = NULL;
33  PANDORA_THROW_RESULT_IF_AND_IF(STATUS_CODE_SUCCESS, STATUS_CODE_NOT_INITIALIZED, !=, PandoraContentApi::GetList(*this, m_parentPfoListName,
34  pPfoList));
35 
36  if (NULL == pPfoList)
37  {
38  if (PandoraContentApi::GetSettings(*this)->ShouldDisplayAlgorithmInfo())
39  std::cout << "CosmicRayVertexBuildingAlgorithm: pfo list unavailable." << std::endl;
40 
41  return STATUS_CODE_SUCCESS;
42  }
43 
44  PfoVector pfoVector;
45  LArPointingClusterMap pointingClusterMap;
46 
47  this->GetCosmicPfos(pPfoList, pfoVector);
48  this->BuildPointingClusterMap(pfoVector, pointingClusterMap);
49  this->BuildCosmicRayParticles(pointingClusterMap, pfoVector);
50 
51  return STATUS_CODE_SUCCESS;
52 }
void BuildCosmicRayParticles(const LArPointingClusterMap &pointingClusterMap, const pandora::PfoVector &pfoVector) const
Reconstruct the vertex and direction of a list of cosmic-ray Pfos.
std::string m_parentPfoListName
The name of the input pfo list.
std::unordered_map< const pandora::Cluster *, LArPointingCluster > LArPointingClusterMap
void GetCosmicPfos(const pandora::PfoList *const pPfoList, pandora::PfoVector &pfoVector) const
Get the list of input pfos to this algorithm.
void BuildPointingClusterMap(const pandora::PfoVector &pfoVector, LArPointingClusterMap &pointingClusterMap) const
Build a map of 3D sliding fits from the input Pfos.
void lar_content::CosmicRayVertexBuildingAlgorithm::SetParticleParameters ( const pandora::CartesianVector &  vtxPosition,
const pandora::CartesianVector &  vtxDirection,
const pandora::ParticleFlowObject *const  pPfo 
) const
private

Set the vertex and direction of the Pfos.

Parameters
vtxPositionthe input vertex position
vtxDirectionthe input vertex direction
pPfothe input Pfo

Definition at line 277 of file CosmicRayVertexBuildingAlgorithm.cc.

References m_vertexListName.

Referenced by BuildCosmicRayDaughter(), and BuildCosmicRayParent().

279 {
280  if (!pPfo->GetVertexList().empty())
281  throw StatusCodeException(STATUS_CODE_FAILURE);
282 
283  PandoraContentApi::ParticleFlowObject::Metadata metadata;
284  metadata.m_momentum = vtxDirection;
285  PANDORA_THROW_RESULT_IF(STATUS_CODE_SUCCESS, !=, PandoraContentApi::ParticleFlowObject::AlterMetadata(*this, pPfo, metadata));
286 
287  const VertexList *pVertexList = NULL; std::string vertexListName;
288  PANDORA_THROW_RESULT_IF(STATUS_CODE_SUCCESS, !=, PandoraContentApi::CreateTemporaryListAndSetCurrent(*this, pVertexList, vertexListName));
289 
290  PandoraContentApi::Vertex::Parameters parameters;
291  parameters.m_position = vtxPosition;
292  parameters.m_vertexLabel = VERTEX_START;
293  parameters.m_vertexType = VERTEX_3D;
294 
295  const Vertex *pVertex(NULL);
296  PANDORA_THROW_RESULT_IF(STATUS_CODE_SUCCESS, !=, PandoraContentApi::Vertex::Create(*this, parameters, pVertex));
297 
298  if (!pVertexList->empty())
299  {
300  PANDORA_THROW_RESULT_IF(STATUS_CODE_SUCCESS, !=, PandoraContentApi::SaveList<Vertex>(*this, m_vertexListName));
301  PANDORA_THROW_RESULT_IF(STATUS_CODE_SUCCESS, !=, PandoraContentApi::AddToPfo<Vertex>(*this, pPfo, pVertex));
302  }
303 }
std::string m_vertexListName
The name of the output vertex list.
std::list< Vertex > VertexList
Definition: DCEL.h:178

Member Data Documentation

unsigned int lar_content::CosmicRayVertexBuildingAlgorithm::m_halfWindowLayers
private

number of layers to use for half-window of sliding fit

Definition at line 82 of file CosmicRayVertexBuildingAlgorithm.h.

Referenced by BuildPointingClusterMap(), and ReadSettings().

std::string lar_content::CosmicRayVertexBuildingAlgorithm::m_parentPfoListName
private

The name of the input pfo list.

Definition at line 83 of file CosmicRayVertexBuildingAlgorithm.h.

Referenced by ReadSettings(), and Run().

bool lar_content::CosmicRayVertexBuildingAlgorithm::m_useParentShowerVertex
private

use the parent pfo for the shower vertices

Definition at line 81 of file CosmicRayVertexBuildingAlgorithm.h.

Referenced by BuildCosmicRayDaughter(), and ReadSettings().

std::string lar_content::CosmicRayVertexBuildingAlgorithm::m_vertexListName
private

The name of the output vertex list.

Definition at line 84 of file CosmicRayVertexBuildingAlgorithm.h.

Referenced by ReadSettings(), and SetParticleParameters().


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