diff options
Diffstat (limited to 'src/python/gudhi/datasets/generators/points/_torus.cc')
-rw-r--r-- | src/python/gudhi/datasets/generators/points/_torus.cc | 18 |
1 files changed, 7 insertions, 11 deletions
diff --git a/src/python/gudhi/datasets/generators/points/_torus.cc b/src/python/gudhi/datasets/generators/points/_torus.cc index 21638bb8..f4b4f14e 100644 --- a/src/python/gudhi/datasets/generators/points/_torus.cc +++ b/src/python/gudhi/datasets/generators/points/_torus.cc @@ -22,22 +22,18 @@ namespace py = pybind11; typedef CGAL::Epick_d< CGAL::Dynamic_dimension_tag > Kern; -py::array_t<double> generate_points_on_torus(size_t num_points, int dim, bool uniform) { +py::array_t<double> generate_points_on_torus(size_t n_samples, int dim, bool uniform) { std::vector<typename Kern::Point_d> points_generated; { py::gil_scoped_release release; - points_generated = Gudhi::generate_points_on_torus_d<Kern>(num_points, dim, uniform); + points_generated = Gudhi::generate_points_on_torus_d<Kern>(n_samples, dim, uniform); } size_t npoints = points_generated.size(); - py::print("points generated size: "); - py::print(points_generated.size()); - py::print(points_generated[0].size()); - - GUDHI_CHECK(2*dim == points_generated[0].size(), "Py array second dimension not matching the double ambient space dimension"); + GUDHI_CHECK(2*dim == points_generated[0].size(), "Py array second dimension not matching the double torus dimension"); py::array_t<double> points({npoints, (size_t)2*dim}); @@ -54,15 +50,15 @@ py::array_t<double> generate_points_on_torus(size_t num_points, int dim, bool un PYBIND11_MODULE(_torus, m) { m.attr("__license__") = "LGPL v3"; m.def("generate_random_points", &generate_points_on_torus, - py::arg("num_points"), py::arg("dim"), py::arg("uniform") = false, + py::arg("n_samples"), py::arg("dim"), py::arg("uniform") = false, R"pbdoc( Generate random i.i.d. points on a d-torus in R^2d - :param num_points: The number of points to be generated. - :type num_points: unsigned integer + :param n_samples: The number of points to be generated. + :type n_samples: integer :param dim: The dimension. :type dim: integer - :param uniform: A flag to define if the points generation is uniform (generated as a grid). + :param uniform: A flag to define if the points generation is uniform (i.e generated as a grid). :type uniform: bool :rtype: numpy array of float :returns: the generated points on a torus. |