dust3d/thirdparty/cgal/CGAL-5.1/include/CGAL/pca_estimate_normals.h

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// Copyright (c) 2007-09 INRIA Sophia-Antipolis (France).
// All rights reserved.
//
// This file is part of CGAL (www.cgal.org).
//
// $URL: https://github.com/CGAL/cgal/blob/v5.1/Point_set_processing_3/include/CGAL/pca_estimate_normals.h $
// $Id: pca_estimate_normals.h c253679 2020-04-18T16:27:58+02:00 Sébastien Loriot
// SPDX-License-Identifier: GPL-3.0-or-later OR LicenseRef-Commercial
//
// Author(s) : Pierre Alliez and Laurent Saboret
#ifndef CGAL_PCA_ESTIMATE_NORMALS_H
#define CGAL_PCA_ESTIMATE_NORMALS_H
#include <CGAL/license/Point_set_processing_3.h>
#include <CGAL/disable_warnings.h>
#include <CGAL/IO/trace.h>
#include <CGAL/Dimension.h>
#include <CGAL/Point_set_processing_3/internal/Neighbor_query.h>
#include <CGAL/Point_set_processing_3/internal/Callback_wrapper.h>
#include <CGAL/for_each.h>
#include <CGAL/linear_least_squares_fitting_3.h>
#include <CGAL/property_map.h>
#include <CGAL/point_set_processing_assertions.h>
#include <CGAL/Memory_sizer.h>
#include <functional>
#include <CGAL/boost/graph/Named_function_parameters.h>
#include <CGAL/boost/graph/named_params_helper.h>
#include <iterator>
#include <list>
namespace CGAL {
// ----------------------------------------------------------------------------
// Private section
// ----------------------------------------------------------------------------
/// \cond SKIP_IN_MANUAL
namespace internal {
/// Estimates normal direction using linear least
/// squares fitting of a plane on the K nearest neighbors.
///
/// \pre `k >= 2`
///
/// @tparam Kernel Geometric traits class.
/// @tparam Tree KD-tree.
///
/// @return Computed normal. Orientation is random.
template <typename NeighborQuery>
typename NeighborQuery::Kernel::Vector_3
pca_estimate_normal(const typename NeighborQuery::Kernel::Point_3& query, ///< point to compute the normal at
const NeighborQuery& neighbor_query, ///< KD-tree
unsigned int k, ///< number of neighbors
typename NeighborQuery::Kernel::FT neighbor_radius)
{
// basic geometric types
typedef typename NeighborQuery::Kernel Kernel;
typedef typename Kernel::Point_3 Point;
typedef typename Kernel::Plane_3 Plane;
std::vector<Point> points;
neighbor_query.get_points (query, k, neighbor_radius, std::back_inserter(points));
// performs plane fitting by point-based PCA
Plane plane;
linear_least_squares_fitting_3(points.begin(),points.end(),plane,Dimension_tag<0>());
// output normal vector (already normalized by PCA)
return plane.orthogonal_vector();
}
} /* namespace internal */
/// \endcond
// ----------------------------------------------------------------------------
// Public section
// ----------------------------------------------------------------------------
/**
\ingroup PkgPointSetProcessing3Algorithms
Estimates normal directions of the range of `points`
by linear least squares fitting of a plane over the nearest neighbors.
The output normals are randomly oriented.
\pre `k >= 2`
\tparam ConcurrencyTag enables sequential versus parallel algorithm. Possible values are `Sequential_tag`,
`Parallel_tag`, and `Parallel_if_available_tag`.
\tparam PointRange is a model of `Range`. The value type of
its iterator is the key type of the named parameter `point_map`.
\param points input point range.
\param k number of neighbors
\param np an optional sequence of \ref bgl_namedparameters "Named Parameters" among the ones listed below
\cgalNamedParamsBegin
\cgalParamNBegin{point_map}
\cgalParamDescription{a property map associating points to the elements of the point set `points`}
\cgalParamType{a model of `ReadablePropertyMap` whose key type is the value type
of the iterator of `PointRange` and whose value type is `geom_traits::Point_3`}
\cgalParamDefault{`CGAL::Identity_property_map<geom_traits::Point_3>`}
\cgalParamNEnd
\cgalParamNBegin{normal_map}
\cgalParamDescription{a property map associating normals to the elements of the point set `points`}
\cgalParamType{a model of `WritablePropertyMap` whose key type is the value type
of the iterator of `PointRange` and whose value type is `geom_traits::Vector_3`}
\cgalParamNEnd
\cgalParamNBegin{neighbor_radius}
\cgalParamDescription{the spherical neighborhood radius}
\cgalParamType{floating scalar value}
\cgalParamDefault{`0` (no limit)}
\cgalParamExtra{If provided, the neighborhood of a query point is computed with a fixed spherical
radius instead of a fixed number of neighbors. In that case, the parameter
`k` is used as a limit on the number of points returned by each spherical
query (to avoid overly large number of points in high density areas).}
\cgalParamNEnd
\cgalParamNBegin{callback}
\cgalParamDescription{a mechanism to get feedback on the advancement of the algorithm
while it's running and to interrupt it if needed}
\cgalParamType{an instance of `std::function<bool(double)>`.}
\cgalParamDefault{unused}
\cgalParamExtra{It is called regularly when the
algorithm is running: the current advancement (between 0. and
1.) is passed as parameter. If it returns `true`, then the
algorithm continues its execution normally; if it returns
`false`, the algorithm is stopped and the remaining normals are left unchanged.}
\cgalParamExtra{The callback will be copied and therefore needs to be lightweight.}
\cgalParamExtra{When `CGAL::Parallel_tag` is used, the `callback` mechanism is called asynchronously
on a separate thread and shouldn't access or modify the variables that are parameters of the algorithm.}
\cgalParamNEnd
\cgalParamNBegin{geom_traits}
\cgalParamDescription{an instance of a geometric traits class}
\cgalParamType{a model of `Kernel`}
\cgalParamDefault{a \cgal Kernel deduced from the point type, using `CGAL::Kernel_traits`}
\cgalParamNEnd
\cgalNamedParamsEnd
*/
template <typename ConcurrencyTag,
typename PointRange,
typename NamedParameters
>
void
pca_estimate_normals(
PointRange& points,
unsigned int k,
const NamedParameters& np)
{
using parameters::choose_parameter;
using parameters::get_parameter;
CGAL_TRACE("Calls pca_estimate_normals()\n");
// basic geometric types
typedef typename CGAL::GetPointMap<PointRange, NamedParameters>::type PointMap;
typedef typename Point_set_processing_3::GetNormalMap<PointRange, NamedParameters>::type NormalMap;
typedef typename Point_set_processing_3::GetK<PointRange, NamedParameters>::Kernel Kernel;
typedef typename Kernel::FT FT;
CGAL_static_assertion_msg(!(boost::is_same<NormalMap,
typename Point_set_processing_3::GetNormalMap<PointRange, NamedParameters>::NoMap>::value),
"Error: no normal map");
PointMap point_map = choose_parameter<PointMap>(get_parameter(np, internal_np::point_map));
NormalMap normal_map = choose_parameter<NormalMap>(get_parameter(np, internal_np::normal_map));
FT neighbor_radius = choose_parameter(get_parameter(np, internal_np::neighbor_radius), FT(0));
const std::function<bool(double)>& callback = choose_parameter(get_parameter(np, internal_np::callback),
std::function<bool(double)>());
// Input points types
typedef typename PointRange::iterator iterator;
typedef typename iterator::value_type value_type;
// types for K nearest neighbors search structure
typedef Point_set_processing_3::internal::Neighbor_query<Kernel, PointRange&, PointMap> Neighbor_query;
// precondition: at least one element in the container.
// to fix: should have at least three distinct points
// but this is costly to check
CGAL_point_set_processing_precondition(points.begin() != points.end());
// precondition: at least 2 nearest neighbors
CGAL_point_set_processing_precondition(k >= 2);
std::size_t memory = CGAL::Memory_sizer().virtual_size(); CGAL_TRACE(" %ld Mb allocated\n", memory>>20);
CGAL_TRACE(" Creates KD-tree\n");
Neighbor_query neighbor_query (points, point_map);
memory = CGAL::Memory_sizer().virtual_size(); CGAL_TRACE(" %ld Mb allocated\n", memory>>20);
CGAL_TRACE(" Computes normals\n");
std::size_t nb_points = points.size();
Point_set_processing_3::internal::Callback_wrapper<ConcurrencyTag>
callback_wrapper (callback, nb_points);
CGAL::for_each<ConcurrencyTag>
(points,
[&](value_type& vt)
{
if (callback_wrapper.interrupted())
return false;
put (normal_map, vt,
CGAL::internal::pca_estimate_normal
(get(point_map, vt), neighbor_query, k, neighbor_radius));
++ callback_wrapper.advancement();
return true;
});
callback_wrapper.join();
memory = CGAL::Memory_sizer().virtual_size(); CGAL_TRACE(" %ld Mb allocated\n", memory>>20);
CGAL_TRACE("End of pca_estimate_normals()\n");
}
/// \cond SKIP_IN_MANUAL
// variant with default NP
template <typename ConcurrencyTag,
typename PointRange
>
void
pca_estimate_normals(
PointRange& points,
unsigned int k) ///< number of neighbors.
{
return pca_estimate_normals<ConcurrencyTag>
(points, k, CGAL::Point_set_processing_3::parameters::all_default(points));
}
/// \endcond
} //namespace CGAL
#include <CGAL/enable_warnings.h>
#endif // CGAL_PCA_ESTIMATE_NORMALS_H