sac_model_circle.hpp
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00037 
00038 #ifndef PCL_SAMPLE_CONSENSUS_IMPL_SAC_MODEL_CIRCLE_H_
00039 #define PCL_SAMPLE_CONSENSUS_IMPL_SAC_MODEL_CIRCLE_H_
00040 
00041 #include <pcl/sample_consensus/sac_model_circle.h>
00042 #include <pcl/common/concatenate.h>
00043 #include <unsupported/Eigen/NonLinearOptimization>
00044 
00046 template <typename PointT> bool
00047 pcl::SampleConsensusModelCircle2D<PointT>::isSampleGood(const std::vector<int> &samples) const
00048 {
00049   // Get the values at the two points
00050   Eigen::Array2d p0 (input_->points[samples[0]].x, input_->points[samples[0]].y);
00051   Eigen::Array2d p1 (input_->points[samples[1]].x, input_->points[samples[1]].y);
00052   Eigen::Array2d p2 (input_->points[samples[2]].x, input_->points[samples[2]].y);
00053 
00054   // Compute the segment values (in 2d) between p1 and p0
00055   p1 -= p0;
00056   // Compute the segment values (in 2d) between p2 and p0
00057   p2 -= p0;
00058 
00059   Eigen::Array2d dy1dy2 = p1 / p2;
00060 
00061   return (dy1dy2[0] != dy1dy2[1]);
00062 }
00063 
00065 template <typename PointT> bool
00066 pcl::SampleConsensusModelCircle2D<PointT>::computeModelCoefficients (const std::vector<int> &samples, Eigen::VectorXf &model_coefficients)
00067 {
00068   // Need 3 samples
00069   if (samples.size () != 3)
00070   {
00071     PCL_ERROR ("[pcl::SampleConsensusModelCircle2D::computeModelCoefficients] Invalid set of samples given (%zu)!\n", samples.size ());
00072     return (false);
00073   }
00074 
00075   model_coefficients.resize (3);
00076 
00077   Eigen::Vector2d p0 (input_->points[samples[0]].x, input_->points[samples[0]].y);
00078   Eigen::Vector2d p1 (input_->points[samples[1]].x, input_->points[samples[1]].y);
00079   Eigen::Vector2d p2 (input_->points[samples[2]].x, input_->points[samples[2]].y);
00080 
00081   Eigen::Vector2d u = (p0 + p1) / 2.0;
00082   Eigen::Vector2d v = (p1 + p2) / 2.0;
00083 
00084   Eigen::Vector2d p1p0dif = p1 - p0;
00085   Eigen::Vector2d p2p1dif = p2 - p1;
00086   Eigen::Vector2d uvdif   = u - v;
00087 
00088   Eigen::Vector2d m (- p1p0dif[0] / p1p0dif[1], - p2p1dif[0] / p2p1dif[1]);
00089 
00090   // Center (x, y)
00091   model_coefficients[0] = static_cast<float> ((m[0] * u[0] -  m[1] * v[0]  - uvdif[1] )             / (m[0] - m[1]));
00092   model_coefficients[1] = static_cast<float> ((m[0] * m[1] * uvdif[0] +  m[0] * v[1] - m[1] * u[1]) / (m[0] - m[1]));
00093 
00094   // Radius
00095   model_coefficients[2] = static_cast<float> (sqrt ((model_coefficients[0] - p0[0]) * (model_coefficients[0] - p0[0]) +
00096                                                     (model_coefficients[1] - p0[1]) * (model_coefficients[1] - p0[1])));
00097   return (true);
00098 }
00099 
00101 template <typename PointT> void
00102 pcl::SampleConsensusModelCircle2D<PointT>::getDistancesToModel (const Eigen::VectorXf &model_coefficients, std::vector<double> &distances)
00103 {
00104   // Check if the model is valid given the user constraints
00105   if (!isModelValid (model_coefficients))
00106   {
00107     distances.clear ();
00108     return;
00109   }
00110   distances.resize (indices_->size ());
00111 
00112   // Iterate through the 3d points and calculate the distances from them to the sphere
00113   for (size_t i = 0; i < indices_->size (); ++i)
00114     // Calculate the distance from the point to the circle as the difference between
00115     // dist(point,circle_origin) and circle_radius
00116     distances[i] = fabsf (sqrtf (
00117                                 ( input_->points[(*indices_)[i]].x - model_coefficients[0] ) *
00118                                 ( input_->points[(*indices_)[i]].x - model_coefficients[0] ) +
00119 
00120                                 ( input_->points[(*indices_)[i]].y - model_coefficients[1] ) *
00121                                 ( input_->points[(*indices_)[i]].y - model_coefficients[1] )
00122                                 ) - model_coefficients[2]);
00123 }
00124 
00126 template <typename PointT> void
00127 pcl::SampleConsensusModelCircle2D<PointT>::selectWithinDistance (
00128     const Eigen::VectorXf &model_coefficients, const double threshold, 
00129     std::vector<int> &inliers)
00130 {
00131   // Check if the model is valid given the user constraints
00132   if (!isModelValid (model_coefficients))
00133   {
00134     inliers.clear ();
00135     return;
00136   }
00137   int nr_p = 0;
00138   inliers.resize (indices_->size ());
00139 
00140   // Iterate through the 3d points and calculate the distances from them to the sphere
00141   for (size_t i = 0; i < indices_->size (); ++i)
00142   {
00143     // Calculate the distance from the point to the sphere as the difference between
00144     // dist(point,sphere_origin) and sphere_radius
00145     float distance = fabsf (sqrtf (
00146                                   ( input_->points[(*indices_)[i]].x - model_coefficients[0] ) *
00147                                   ( input_->points[(*indices_)[i]].x - model_coefficients[0] ) +
00148 
00149                                   ( input_->points[(*indices_)[i]].y - model_coefficients[1] ) *
00150                                   ( input_->points[(*indices_)[i]].y - model_coefficients[1] )
00151                                   ) - model_coefficients[2]);
00152     if (distance < threshold)
00153     {
00154       // Returns the indices of the points whose distances are smaller than the threshold
00155       inliers[nr_p] = (*indices_)[i];
00156       nr_p++;
00157     }
00158   }
00159   inliers.resize (nr_p);
00160 }
00161 
00163 template <typename PointT> int
00164 pcl::SampleConsensusModelCircle2D<PointT>::countWithinDistance (
00165     const Eigen::VectorXf &model_coefficients, const double threshold)
00166 {
00167   // Check if the model is valid given the user constraints
00168   if (!isModelValid (model_coefficients))
00169     return (0);
00170   int nr_p = 0;
00171 
00172   // Iterate through the 3d points and calculate the distances from them to the sphere
00173   for (size_t i = 0; i < indices_->size (); ++i)
00174   {
00175     // Calculate the distance from the point to the sphere as the difference between
00176     // dist(point,sphere_origin) and sphere_radius
00177     float distance = fabsf (sqrtf (
00178                                   ( input_->points[(*indices_)[i]].x - model_coefficients[0] ) *
00179                                   ( input_->points[(*indices_)[i]].x - model_coefficients[0] ) +
00180 
00181                                   ( input_->points[(*indices_)[i]].y - model_coefficients[1] ) *
00182                                   ( input_->points[(*indices_)[i]].y - model_coefficients[1] )
00183                                   ) - model_coefficients[2]);
00184     if (distance < threshold)
00185       nr_p++;
00186   }
00187   return (nr_p);
00188 }
00189 
00191 template <typename PointT> void
00192 pcl::SampleConsensusModelCircle2D<PointT>::optimizeModelCoefficients (
00193       const std::vector<int> &inliers, const Eigen::VectorXf &model_coefficients, Eigen::VectorXf &optimized_coefficients)
00194 {
00195   optimized_coefficients = model_coefficients;
00196 
00197   // Needs a set of valid model coefficients
00198   if (model_coefficients.size () != 3)
00199   {
00200     PCL_ERROR ("[pcl::SampleConsensusModelCircle2D::optimizeModelCoefficients] Invalid number of model coefficients given (%zu)!\n", model_coefficients.size ());
00201     return;
00202   }
00203 
00204   // Need at least 3 samples
00205   if (inliers.size () <= 3)
00206   {
00207     PCL_ERROR ("[pcl::SampleConsensusModelCircle2D::optimizeModelCoefficients] Not enough inliers found to support a model (%zu)! Returning the same coefficients.\n", inliers.size ());
00208     return;
00209   }
00210 
00211   tmp_inliers_ = &inliers;
00212 
00213   OptimizationFunctor functor (static_cast<int> (inliers.size ()), this);
00214   Eigen::NumericalDiff<OptimizationFunctor> num_diff (functor);
00215   Eigen::LevenbergMarquardt<Eigen::NumericalDiff<OptimizationFunctor>, float> lm (num_diff);
00216   int info = lm.minimize (optimized_coefficients);
00217 
00218   // Compute the L2 norm of the residuals
00219   PCL_DEBUG ("[pcl::SampleConsensusModelCircle2D::optimizeModelCoefficients] LM solver finished with exit code %i, having a residual norm of %g. \nInitial solution: %g %g %g \nFinal solution: %g %g %g\n",
00220              info, lm.fvec.norm (), model_coefficients[0], model_coefficients[1], model_coefficients[2], optimized_coefficients[0], optimized_coefficients[1], optimized_coefficients[2]);
00221 }
00222 
00224 template <typename PointT> void
00225 pcl::SampleConsensusModelCircle2D<PointT>::projectPoints (
00226       const std::vector<int> &inliers, const Eigen::VectorXf &model_coefficients,
00227       PointCloud &projected_points, bool copy_data_fields)
00228 {
00229   // Needs a valid set of model coefficients
00230   if (model_coefficients.size () != 3)
00231   {
00232     PCL_ERROR ("[pcl::SampleConsensusModelCircle2D::projectPoints] Invalid number of model coefficients given (%zu)!\n", model_coefficients.size ());
00233     return;
00234   }
00235 
00236   projected_points.header   = input_->header;
00237   projected_points.is_dense = input_->is_dense;
00238 
00239   // Copy all the data fields from the input cloud to the projected one?
00240   if (copy_data_fields)
00241   {
00242     // Allocate enough space and copy the basics
00243     projected_points.points.resize (input_->points.size ());
00244     projected_points.width    = input_->width;
00245     projected_points.height   = input_->height;
00246 
00247     typedef typename pcl::traits::fieldList<PointT>::type FieldList;
00248     // Iterate over each point
00249     for (size_t i = 0; i < projected_points.points.size (); ++i)
00250       // Iterate over each dimension
00251       pcl::for_each_type <FieldList> (NdConcatenateFunctor <PointT, PointT> (input_->points[i], projected_points.points[i]));
00252 
00253     // Iterate through the 3d points and calculate the distances from them to the plane
00254     for (size_t i = 0; i < inliers.size (); ++i)
00255     {
00256       float dx = input_->points[inliers[i]].x - model_coefficients[0];
00257       float dy = input_->points[inliers[i]].y - model_coefficients[1];
00258       float a = sqrtf ( (model_coefficients[2] * model_coefficients[2]) / (dx * dx + dy * dy) );
00259 
00260       projected_points.points[inliers[i]].x = a * dx + model_coefficients[0];
00261       projected_points.points[inliers[i]].y = a * dy + model_coefficients[1];
00262     }
00263   }
00264   else
00265   {
00266     // Allocate enough space and copy the basics
00267     projected_points.points.resize (inliers.size ());
00268     projected_points.width    = static_cast<uint32_t> (inliers.size ());
00269     projected_points.height   = 1;
00270 
00271     typedef typename pcl::traits::fieldList<PointT>::type FieldList;
00272     // Iterate over each point
00273     for (size_t i = 0; i < inliers.size (); ++i)
00274       // Iterate over each dimension
00275       pcl::for_each_type <FieldList> (NdConcatenateFunctor <PointT, PointT> (input_->points[inliers[i]], projected_points.points[i]));
00276 
00277     // Iterate through the 3d points and calculate the distances from them to the plane
00278     for (size_t i = 0; i < inliers.size (); ++i)
00279     {
00280       float dx = input_->points[inliers[i]].x - model_coefficients[0];
00281       float dy = input_->points[inliers[i]].y - model_coefficients[1];
00282       float a = sqrtf ( (model_coefficients[2] * model_coefficients[2]) / (dx * dx + dy * dy) );
00283 
00284       projected_points.points[i].x = a * dx + model_coefficients[0];
00285       projected_points.points[i].y = a * dy + model_coefficients[1];
00286     }
00287   }
00288 }
00289 
00291 template <typename PointT> bool
00292 pcl::SampleConsensusModelCircle2D<PointT>::doSamplesVerifyModel (
00293       const std::set<int> &indices, const Eigen::VectorXf &model_coefficients, const double threshold)
00294 {
00295   // Needs a valid model coefficients
00296   if (model_coefficients.size () != 3)
00297   {
00298     PCL_ERROR ("[pcl::SampleConsensusModelCircle2D::doSamplesVerifyModel] Invalid number of model coefficients given (%zu)!\n", model_coefficients.size ());
00299     return (false);
00300   }
00301 
00302   for (std::set<int>::const_iterator it = indices.begin (); it != indices.end (); ++it)
00303     // Calculate the distance from the point to the sphere as the difference between
00304     //dist(point,sphere_origin) and sphere_radius
00305     if (fabsf (sqrtf (
00306                      ( input_->points[*it].x - model_coefficients[0] ) *
00307                      ( input_->points[*it].x - model_coefficients[0] ) +
00308                      ( input_->points[*it].y - model_coefficients[1] ) *
00309                      ( input_->points[*it].y - model_coefficients[1] )
00310                      ) - model_coefficients[2]) > threshold)
00311       return (false);
00312 
00313   return (true);
00314 }
00315 
00317 template <typename PointT> bool 
00318 pcl::SampleConsensusModelCircle2D<PointT>::isModelValid (const Eigen::VectorXf &model_coefficients)
00319 {
00320   // Needs a valid model coefficients
00321   if (model_coefficients.size () != 3)
00322   {
00323     PCL_ERROR ("[pcl::SampleConsensusModelCircle2D::isModelValid] Invalid number of model coefficients given (%zu)!\n", model_coefficients.size ());
00324     return (false);
00325   }
00326 
00327   if (radius_min_ != -std::numeric_limits<double>::max() && model_coefficients[2] < radius_min_)
00328     return (false);
00329   if (radius_max_ != std::numeric_limits<double>::max() && model_coefficients[2] > radius_max_)
00330     return (false);
00331 
00332   return (true);
00333 }
00334 
00335 #define PCL_INSTANTIATE_SampleConsensusModelCircle2D(T) template class PCL_EXPORTS pcl::SampleConsensusModelCircle2D<T>;
00336 
00337 #endif    // PCL_SAMPLE_CONSENSUS_IMPL_SAC_MODEL_CIRCLE_H_
00338 


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