crh.hpp

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 * $Id: cvfh.hpp 5311 2012-03-26 22:02:04Z aaldoma $
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#ifndef PCL_FEATURES_IMPL_CRH_H_
#define PCL_FEATURES_IMPL_CRH_H_
 
#include <pcl/features/crh.h>
#include <pcl/common/fft/kiss_fftr.h>
#include <pcl/common/transforms.h>
 
//////////////////////////////////////////////////////////////////////////////////////////////
template<typename PointInT, typename PointNT, typename PointOutT>
void
pcl::CRHEstimation<PointInT, PointNT, PointOutT>::computeFeature (PointCloudOut &output)
{
  // Check if input was set
  if (!normals_)
  {
    PCL_ERROR ("[pcl::%s::computeFeature] No input dataset containing normals was given!\n", getClassName ().c_str ());
    output.width = output.height = 0;
    output.clear ();
    return;
  }
 
  if (normals_->size () != surface_->size ())
  {
    PCL_ERROR ("[pcl::%s::computeFeature] The number of points in the input dataset differs from the number of points in the dataset containing the normals!\n", getClassName ().c_str ());
    output.width = output.height = 0;
    output.clear ();
    return;
  }
 
  Eigen::Vector3f plane_normal;
  plane_normal[0] = -centroid_[0];
  plane_normal[1] = -centroid_[1];
  plane_normal[2] = -centroid_[2];
  Eigen::Vector3f z_vector = Eigen::Vector3f::UnitZ ();
  plane_normal.normalize ();
  Eigen::Vector3f axis = plane_normal.cross (z_vector);
  double rotation = -asin (axis.norm ());
  axis.normalize ();
 
  int nbins = nbins_;
  int bin_angle = 360 / nbins;
 
  Eigen::Affine3f transformPC (Eigen::AngleAxisf (static_cast<float> (rotation), axis));
 
  pcl::PointCloud<pcl::PointNormal> grid;
  grid.resize (indices_->size ());
 
  for (std::size_t i = 0; i < indices_->size (); i++)
  {
    grid[i].getVector4fMap () = (*surface_)[(*indices_)[i]].getVector4fMap ();
    grid[i].getNormalVector4fMap () = (*normals_)[(*indices_)[i]].getNormalVector4fMap ();
  }
 
  pcl::transformPointCloudWithNormals (grid, grid, transformPC);
 
  //fill spatial data vector and the zero-initialize or "value-initialize" an array on c++, 
  // the initialization is made with () after the [nbins]
  std::vector<kiss_fft_scalar> spatial_data(nbins);
 
  float sum_w = 0;
  for (const auto &point : grid.points)
  {
    int bin = static_cast<int> ((((std::atan2 (point.normal_y, point.normal_x) + M_PI) * 180 / M_PI) / bin_angle)) % nbins;
    float w = std::sqrt (point.normal_y * point.normal_y + point.normal_x * point.normal_x);
    sum_w += w;
    spatial_data[bin] += w;
  }
 
  for (auto& data: spatial_data)
    data /= sum_w;
 
  std::vector<kiss_fft_cpx> freq_data(nbins / 2 + 1);
  kiss_fftr_cfg mycfg = kiss_fftr_alloc (nbins, 0, nullptr, nullptr);
  kiss_fftr (mycfg, spatial_data.data (), freq_data.data ());
 
  for (auto& data: freq_data)
  {
      data.r /= freq_data[0].r;
      data.i /= freq_data[0].r;
  }
 
  output.resize (1);
  output.width = output.height = 1;
 
  output[0].histogram[0] = freq_data[0].r; //dc
  int k = 1;
  for (int i = 1; i < (nbins / 2); i++, k += 2)
  {
    output[0].histogram[k] = freq_data[i].r;
    output[0].histogram[k + 1] = freq_data[i].i;
  }
 
  output[0].histogram[nbins - 1] = freq_data[nbins / 2].r; //nyquist
}
 
#define PCL_INSTANTIATE_CRHEstimation(T,NT,OutT) template class PCL_EXPORTS pcl::CRHEstimation<T,NT,OutT>;
 
#endif    // PCL_FEATURES_IMPL_CRH_H_