Point Cloud Library (PCL)  1.14.1-dev
correspondence_grouping.h
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39 
40 #pragma once
41 
42 #include <pcl/pcl_base.h>
43 #include <pcl/correspondence.h>
44 #include <pcl/console/print.h>
45 
46 namespace pcl
47 {
48  /** \brief Abstract base class for Correspondence Grouping algorithms.
49  *
50  * \author Tommaso Cavallari, Federico Tombari, Aitor Aldoma
51  * \ingroup recognition
52  */
53  template <typename PointModelT, typename PointSceneT>
54  class CorrespondenceGrouping : public PCLBase<PointModelT>
55  {
56  public:
58  using SceneCloudPtr = typename SceneCloud::Ptr;
60 
61  /** \brief Empty constructor. */
63 
64  /** \brief destructor. */
66  {
67  scene_.reset ();
68  model_scene_corrs_.reset ();
69  }
70 
71  /** \brief Provide a pointer to the scene dataset.
72  *
73  * \param[in] scene the const boost shared pointer to a PointCloud message.
74  */
75  virtual inline void
77  {
78  scene_ = scene;
79  }
80 
81  /** \brief Getter for the scene dataset.
82  *
83  * \return the const boost shared pointer to a PointCloud message.
84  */
85  inline SceneCloudConstPtr
86  getSceneCloud () const
87  {
88  return (scene_);
89  }
90 
91  /** \brief Provide a pointer to the precomputed correspondences between points in the input dataset and
92  * points in the scene dataset. The correspondences are going to be clustered into different model hypotheses
93  * by the algorithm.
94  *
95  * \param[in] corrs the correspondences between the model and the scene.
96  */
97  virtual inline void
99  {
100  model_scene_corrs_ = corrs;
101  }
102 
103  /** \brief Getter for the precomputed correspondences between points in the input dataset and
104  * points in the scene dataset.
105  *
106  * \return the correspondences between the model and the scene.
107  */
110  {
111  return (model_scene_corrs_);
112  }
113 
114  /** \brief Getter for the vector of characteristic scales associated to each cluster
115  *
116  * \return the vector of characteristic scales (assuming scale = model / scene)
117  */
118  inline std::vector<double>
120  {
121  return (corr_group_scale_);
122  }
123 
124  /** \brief Clusters the input correspondences belonging to different model instances.
125  *
126  * \param[out] clustered_corrs a vector containing the correspondences for each instance of the model found within the input data.
127  */
128  void
129  cluster (std::vector<Correspondences> &clustered_corrs);
130 
131  protected:
132  /** \brief The scene cloud. */
134 
136 
137  /** \brief The correspondences between points in the input and the scene datasets. */
139 
140  /** \brief characteristic scale associated to each correspondence subset;
141  * if the cg algorithm can not handle scale invariance, the size of the vector will be 0. */
142  std::vector <double> corr_group_scale_;
143 
144  /** \brief The actual clustering method, should be implemented by each subclass.
145  *
146  * \param[out] clustered_corrs a vector containing the correspondences for each instance of the model found within the input data.
147  */
148  virtual void
149  clusterCorrespondences (std::vector<Correspondences> &clustered_corrs) = 0;
150 
151  /** \brief This method should get called before starting the actual computation.
152  *
153  * Internally, initCompute() does the following:
154  * - checks if an input dataset is given, and returns false otherwise
155  * - checks if a scene dataset is given, and returns false otherwise
156  * - checks if the model-scene correspondences have been given, and returns false otherwise
157  */
158  inline bool
160  {
162  {
163  return (false);
164  }
165 
166  if (!scene_)
167  {
168  PCL_ERROR ("[initCompute] Scene not set.\n");
169  return (false);
170  }
171 
172  if (!input_)
173  {
174  PCL_ERROR ("[initCompute] Input not set.\n");
175  return (false);
176  }
177 
178  if (!model_scene_corrs_)
179  {
180  PCL_ERROR ("[initCompute] Model-Scene Correspondences not set.\n");
181  return (false);
182  }
183 
184  return (true);
185  }
186 
187  /** \brief This method should get called after finishing the actual computation.
188  *
189  */
190  inline bool
192  {
193  return (true);
194  }
195 
196  };
197 }
198 
199 #include <pcl/recognition/impl/cg/correspondence_grouping.hpp>
Abstract base class for Correspondence Grouping algorithms.
CorrespondencesConstPtr model_scene_corrs_
The correspondences between points in the input and the scene datasets.
std::vector< double > getCharacteristicScales() const
Getter for the vector of characteristic scales associated to each cluster.
void cluster(std::vector< Correspondences > &clustered_corrs)
Clusters the input correspondences belonging to different model instances.
typename SceneCloud::Ptr SceneCloudPtr
virtual void setModelSceneCorrespondences(const CorrespondencesConstPtr &corrs)
Provide a pointer to the precomputed correspondences between points in the input dataset and points i...
SceneCloudConstPtr getSceneCloud() const
Getter for the scene dataset.
CorrespondenceGrouping()
Empty constructor.
virtual void setSceneCloud(const SceneCloudConstPtr &scene)
Provide a pointer to the scene dataset.
bool initCompute()
This method should get called before starting the actual computation.
~CorrespondenceGrouping() override
destructor.
bool deinitCompute()
This method should get called after finishing the actual computation.
CorrespondencesConstPtr getModelSceneCorrespondences() const
Getter for the precomputed correspondences between points in the input dataset and points in the scen...
SceneCloudConstPtr scene_
The scene cloud.
virtual void clusterCorrespondences(std::vector< Correspondences > &clustered_corrs)=0
The actual clustering method, should be implemented by each subclass.
std::vector< double > corr_group_scale_
characteristic scale associated to each correspondence subset; if the cg algorithm can not handle sca...
typename SceneCloud::ConstPtr SceneCloudConstPtr
PCL base class.
Definition: pcl_base.h:70
PointCloudConstPtr input_
The input point cloud dataset.
Definition: pcl_base.h:147
PointCloud represents the base class in PCL for storing collections of 3D points.
Definition: point_cloud.h:173
shared_ptr< PointCloud< PointT > > Ptr
Definition: point_cloud.h:413
shared_ptr< const PointCloud< PointT > > ConstPtr
Definition: point_cloud.h:414
shared_ptr< const Correspondences > CorrespondencesConstPtr