diff options
Diffstat (limited to 'src/Cech_complex/include/gudhi/Cech_complex.h')
-rw-r--r-- | src/Cech_complex/include/gudhi/Cech_complex.h | 84 |
1 files changed, 43 insertions, 41 deletions
diff --git a/src/Cech_complex/include/gudhi/Cech_complex.h b/src/Cech_complex/include/gudhi/Cech_complex.h index b0871e10..08b7a72f 100644 --- a/src/Cech_complex/include/gudhi/Cech_complex.h +++ b/src/Cech_complex/include/gudhi/Cech_complex.h @@ -11,14 +11,13 @@ #ifndef CECH_COMPLEX_H_ #define CECH_COMPLEX_H_ -#include <gudhi/distance_functions.h> // for Gudhi::Minimal_enclosing_ball_radius +#include <gudhi/Sphere_circumradius.h> // for Gudhi::cech_complex::Sphere_circumradius #include <gudhi/graph_simplicial_complex.h> // for Gudhi::Proximity_graph #include <gudhi/Debug_utils.h> // for GUDHI_CHECK #include <gudhi/Cech_complex_blocker.h> // for Gudhi::cech_complex::Cech_blocker #include <iostream> #include <stdexcept> // for exception management -#include <vector> namespace Gudhi { @@ -26,55 +25,52 @@ namespace cech_complex { /** * \class Cech_complex - * \brief Cech complex data structure. + * \brief Cech complex class. * * \ingroup cech_complex * * \details - * The data structure is a proximity graph, containing edges when the edge length is less or equal - * to a given max_radius. Edge length is computed from `Gudhi::Minimal_enclosing_ball_radius` distance function. + * Cech complex is a simplicial complex where the set of all simplices is filtered + * by the radius of their minimal enclosing ball and bounded by the given max_radius. * - * \tparam SimplicialComplexForProximityGraph furnishes `Vertex_handle` and `Filtration_value` type definition required - * by `Gudhi::Proximity_graph`. + * \tparam Kernel CGAL kernel: either Epick_d or Epeck_d. + * + * \tparam SimplicialComplexForCechComplex furnishes `Vertex_handle` and `Filtration_value` type definition required + * by `Gudhi::Proximity_graph` and Cech blocker. * - * \tparam ForwardPointRange must be a range for which `std::begin()` and `std::end()` methods return input - * iterators on a point. `std::begin()` and `std::end()` methods are also required for a point. */ -template <typename SimplicialComplexForProximityGraph, typename ForwardPointRange> +template <typename Kernel, typename SimplicialComplexForCechComplex> class Cech_complex { private: // Required by compute_proximity_graph - using Vertex_handle = typename SimplicialComplexForProximityGraph::Vertex_handle; - using Filtration_value = typename SimplicialComplexForProximityGraph::Filtration_value; - using Proximity_graph = Gudhi::Proximity_graph<SimplicialComplexForProximityGraph>; - - // Retrieve Coordinate type from ForwardPointRange - using Point_from_range_iterator = typename boost::range_const_iterator<ForwardPointRange>::type; - using Point_from_range = typename std::iterator_traits<Point_from_range_iterator>::value_type; - using Coordinate_iterator = typename boost::range_const_iterator<Point_from_range>::type; - using Coordinate = typename std::iterator_traits<Coordinate_iterator>::value_type; - - public: - // Point and Point_cloud type definition - using Point = std::vector<Coordinate>; - using Point_cloud = std::vector<Point>; - - public: - /** \brief Cech_complex constructor from a list of points. + using Vertex_handle = typename SimplicialComplexForCechComplex::Vertex_handle; + using Filtration_value = typename SimplicialComplexForCechComplex::Filtration_value; + using Proximity_graph = Gudhi::Proximity_graph<SimplicialComplexForCechComplex>; + + using cech_blocker = Cech_blocker<SimplicialComplexForCechComplex, Cech_complex, Kernel>; + + using Point_d = typename cech_blocker::Point_d; + using Point_cloud = std::vector<Point_d>; + + // Numeric type of coordinates in the kernel + using FT = typename cech_blocker::FT; + // Sphere is a pair of point and squared radius. + using Sphere = typename cech_blocker::Sphere; + + public: + /** \brief Cech_complex constructor from a range of points. * - * @param[in] points Range of points. + * @param[in] points Range of points where each point is defined as `kernel::Point_d`. * @param[in] max_radius Maximal radius value. * - * \tparam ForwardPointRange must be a range of Point. Point must be a range of <b>copyable</b> Cartesian coordinates. - * */ - Cech_complex(const ForwardPointRange& points, Filtration_value max_radius) : max_radius_(max_radius) { - // Point cloud deep copy - point_cloud_.reserve(boost::size(points)); - for (auto&& point : points) point_cloud_.emplace_back(std::begin(point), std::end(point)); + template<typename InputPointRange > + Cech_complex(const InputPointRange & points, Filtration_value max_radius) : max_radius_(max_radius) { + + point_cloud_.assign(std::begin(points), std::end(points)); - cech_skeleton_graph_ = Gudhi::compute_proximity_graph<SimplicialComplexForProximityGraph>( - point_cloud_, max_radius_, Gudhi::Minimal_enclosing_ball_radius()); + cech_skeleton_graph_ = Gudhi::compute_proximity_graph<SimplicialComplexForCechComplex>( + point_cloud_, max_radius_, Sphere_circumradius<Kernel, Filtration_value>()); } /** \brief Initializes the simplicial complex from the proximity graph and expands it until a given maximal @@ -82,19 +78,19 @@ class Cech_complex { * * @param[in] complex SimplicialComplexForCech to be created. * @param[in] dim_max graph expansion until this given maximal dimension. + * @param[in] exact Exact filtration values computation. Not exact if `Kernel` is not <a target="_blank" + * href="https://doc.cgal.org/latest/Kernel_d/structCGAL_1_1Epeck__d.html">CGAL::Epeck_d</a>. * @exception std::invalid_argument In debug mode, if `complex.num_vertices()` does not return 0. * */ - template <typename SimplicialComplexForCechComplex> - void create_complex(SimplicialComplexForCechComplex& complex, int dim_max) { + void create_complex(SimplicialComplexForCechComplex& complex, int dim_max, const bool exact = false) { GUDHI_CHECK(complex.num_vertices() == 0, std::invalid_argument("Cech_complex::create_complex - simplicial complex is not empty")); // insert the proximity graph in the simplicial complex complex.insert_graph(cech_skeleton_graph_); // expand the graph until dimension dim_max - complex.expansion_with_blockers(dim_max, - Cech_blocker<SimplicialComplexForCechComplex, Cech_complex>(&complex, this)); + complex.expansion_with_blockers(dim_max, cech_blocker(&complex, this, exact)); } /** @return max_radius value given at construction. */ @@ -103,12 +99,18 @@ class Cech_complex { /** @param[in] vertex Point position in the range. * @return The point. */ - const Point& get_point(Vertex_handle vertex) const { return point_cloud_[vertex]; } + const Point_d& get_point(Vertex_handle vertex) const { return point_cloud_[vertex]; } + + /** + * @return Vector of cached spheres. + */ + std::vector<Sphere> & get_cache() { return cache_; } private: Proximity_graph cech_skeleton_graph_; Filtration_value max_radius_; Point_cloud point_cloud_; + std::vector<Sphere> cache_; }; } // namespace cech_complex |