sac_model_cylinder.h
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00001 /*
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00039 
00040 #ifndef PCL_SAMPLE_CONSENSUS_MODEL_CYLINDER_H_
00041 #define PCL_SAMPLE_CONSENSUS_MODEL_CYLINDER_H_
00042 
00043 #include <pcl/sample_consensus/sac_model.h>
00044 #include <pcl/sample_consensus/model_types.h>
00045 #include <pcl/common/common.h>
00046 #include <pcl/common/distances.h>
00047 
00048 namespace pcl
00049 {
00063   template <typename PointT, typename PointNT>
00064   class SampleConsensusModelCylinder : public SampleConsensusModel<PointT>, public SampleConsensusModelFromNormals<PointT, PointNT>
00065   {
00066     using SampleConsensusModel<PointT>::input_;
00067     using SampleConsensusModel<PointT>::indices_;
00068     using SampleConsensusModel<PointT>::radius_min_;
00069     using SampleConsensusModel<PointT>::radius_max_;
00070     using SampleConsensusModelFromNormals<PointT, PointNT>::normals_;
00071     using SampleConsensusModelFromNormals<PointT, PointNT>::normal_distance_weight_;
00072 
00073     public:
00074       typedef typename SampleConsensusModel<PointT>::PointCloud PointCloud;
00075       typedef typename SampleConsensusModel<PointT>::PointCloudPtr PointCloudPtr;
00076       typedef typename SampleConsensusModel<PointT>::PointCloudConstPtr PointCloudConstPtr;
00077 
00078       typedef boost::shared_ptr<SampleConsensusModelCylinder> Ptr;
00079 
00083       SampleConsensusModelCylinder (const PointCloudConstPtr &cloud) : 
00084         SampleConsensusModel<PointT> (cloud), 
00085         axis_ (Eigen::Vector3f::Zero ()),
00086         eps_angle_ (0),
00087         tmp_inliers_ ()
00088       {
00089       }
00090 
00095       SampleConsensusModelCylinder (const PointCloudConstPtr &cloud, const std::vector<int> &indices) : 
00096         SampleConsensusModel<PointT> (cloud, indices), 
00097         axis_ (Eigen::Vector3f::Zero ()),
00098         eps_angle_ (0),
00099         tmp_inliers_ ()
00100       {
00101       }
00102 
00106       SampleConsensusModelCylinder (const SampleConsensusModelCylinder &source) :
00107         SampleConsensusModel<PointT> (),
00108         axis_ (Eigen::Vector3f::Zero ()),
00109         eps_angle_ (0),
00110         tmp_inliers_ ()
00111       {
00112         *this = source;
00113       }
00114 
00118       inline SampleConsensusModelCylinder&
00119       operator = (const SampleConsensusModelCylinder &source)
00120       {
00121         SampleConsensusModel<PointT>::operator=(source);
00122         axis_ = source.axis_;
00123         eps_angle_ = source.eps_angle_;
00124         tmp_inliers_ = source.tmp_inliers_;
00125         return (*this);
00126       }
00127 
00131       inline void 
00132       setEpsAngle (const double ea) { eps_angle_ = ea; }
00133 
00135       inline double 
00136       getEpsAngle () { return (eps_angle_); }
00137 
00141       inline void 
00142       setAxis (const Eigen::Vector3f &ax) { axis_ = ax; }
00143 
00145       inline Eigen::Vector3f 
00146       getAxis ()  { return (axis_); }
00147 
00154       bool 
00155       computeModelCoefficients (const std::vector<int> &samples, 
00156                                 Eigen::VectorXf &model_coefficients);
00157 
00162       void 
00163       getDistancesToModel (const Eigen::VectorXf &model_coefficients, 
00164                            std::vector<double> &distances);
00165 
00171       void 
00172       selectWithinDistance (const Eigen::VectorXf &model_coefficients, 
00173                             const double threshold, 
00174                             std::vector<int> &inliers);
00175 
00182       virtual int
00183       countWithinDistance (const Eigen::VectorXf &model_coefficients, 
00184                            const double threshold);
00185 
00192       void 
00193       optimizeModelCoefficients (const std::vector<int> &inliers, 
00194                                  const Eigen::VectorXf &model_coefficients, 
00195                                  Eigen::VectorXf &optimized_coefficients);
00196 
00197 
00204       void 
00205       projectPoints (const std::vector<int> &inliers, 
00206                      const Eigen::VectorXf &model_coefficients, 
00207                      PointCloud &projected_points, 
00208                      bool copy_data_fields = true);
00209 
00215       bool 
00216       doSamplesVerifyModel (const std::set<int> &indices, 
00217                             const Eigen::VectorXf &model_coefficients, 
00218                             const double threshold);
00219 
00221       inline pcl::SacModel 
00222       getModelType () const { return (SACMODEL_CYLINDER); }
00223 
00224     protected:
00229       double 
00230       pointToLineDistance (const Eigen::Vector4f &pt, const Eigen::VectorXf &model_coefficients);
00231 
00238       inline void
00239       projectPointToLine (const Eigen::Vector4f &pt, 
00240                           const Eigen::Vector4f &line_pt, 
00241                           const Eigen::Vector4f &line_dir,
00242                           Eigen::Vector4f &pt_proj)
00243       {
00244         float k = (pt.dot (line_dir) - line_pt.dot (line_dir)) / line_dir.dot (line_dir);
00245         // Calculate the projection of the point on the line
00246         pt_proj = line_pt + k * line_dir;
00247       }
00248 
00255       void 
00256       projectPointToCylinder (const Eigen::Vector4f &pt, 
00257                               const Eigen::VectorXf &model_coefficients, 
00258                               Eigen::Vector4f &pt_proj);
00259 
00261       std::string 
00262       getName () const { return ("SampleConsensusModelCylinder"); }
00263 
00264     protected:
00268       bool 
00269       isModelValid (const Eigen::VectorXf &model_coefficients);
00270 
00275       bool
00276       isSampleGood (const std::vector<int> &samples) const;
00277 
00278     private:
00280       Eigen::Vector3f axis_;
00281     
00283       double eps_angle_;
00284 
00286       const std::vector<int> *tmp_inliers_;
00287 
00288 #if defined BUILD_Maintainer && defined __GNUC__ && __GNUC__ == 4 && __GNUC_MINOR__ > 3
00289 #pragma GCC diagnostic ignored "-Weffc++"
00290 #endif
00291 
00292       struct OptimizationFunctor : pcl::Functor<float>
00293       {
00299         OptimizationFunctor (int m_data_points, pcl::SampleConsensusModelCylinder<PointT, PointNT> *model) : 
00300           pcl::Functor<float> (m_data_points), model_ (model) {}
00301 
00307         int 
00308         operator() (const Eigen::VectorXf &x, Eigen::VectorXf &fvec) const
00309         {
00310           Eigen::Vector4f line_pt  (x[0], x[1], x[2], 0);
00311           Eigen::Vector4f line_dir (x[3], x[4], x[5], 0);
00312           
00313           for (int i = 0; i < values (); ++i)
00314           {
00315             // dist = f - r
00316             Eigen::Vector4f pt (model_->input_->points[(*model_->tmp_inliers_)[i]].x,
00317                                 model_->input_->points[(*model_->tmp_inliers_)[i]].y,
00318                                 model_->input_->points[(*model_->tmp_inliers_)[i]].z, 0);
00319 
00320             fvec[i] = static_cast<float> (pcl::sqrPointToLineDistance (pt, line_pt, line_dir) - x[6]*x[6]);
00321           }
00322           return (0);
00323         }
00324 
00325         pcl::SampleConsensusModelCylinder<PointT, PointNT> *model_;
00326       };
00327 #if defined BUILD_Maintainer && defined __GNUC__ && __GNUC__ == 4 && __GNUC_MINOR__ > 3
00328 #pragma GCC diagnostic warning "-Weffc++"
00329 #endif
00330   };
00331 }
00332 
00333 #endif  //#ifndef PCL_SAMPLE_CONSENSUS_MODEL_CYLINDER_H_


pcl
Author(s): Open Perception
autogenerated on Mon Oct 6 2014 03:17:43