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/**************************************************************************
* *
* Regina - A Normal Surface Theory Calculator *
* Python Interface *
* *
* Copyright (c) 1999-2025, Ben Burton *
* For further details contact Ben Burton (bab@debian.org). *
* *
* This program is free software; you can redistribute it and/or *
* modify it under the terms of the GNU General Public License as *
* published by the Free Software Foundation; either version 2 of the *
* License, or (at your option) any later version. *
* *
* As an exception, when this program is distributed through (i) the *
* App Store by Apple Inc.; (ii) the Mac App Store by Apple Inc.; or *
* (iii) Google Play by Google Inc., then that store may impose any *
* digital rights management, device limits and/or redistribution *
* restrictions that are required by its terms of service. *
* *
* This program is distributed in the hope that it will be useful, but *
* WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU *
* General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program. If not, see <https://www.gnu.org/licenses/>. *
* *
**************************************************************************/
#include <pybind11/pybind11.h>
#include <pybind11/stl.h>
#include "triangulation/dim4.h"
#include "triangulation/dim3.h" // for build()
#include "../helpers.h"
#include "../generic/facehelper.h"
#include "../docstrings/triangulation/generic/boundarycomponent.h"
#include "../docstrings/triangulation/detail/boundarycomponent.h"
using regina::BoundaryComponent;
void addBoundaryComponent4(pybind11::module_& m, pybind11::module_& internal) {
// We use the global scope here because all of BoundaryComponent's members
// are inherited, and so BoundaryComponent's own docstring namespace
// does not exist.
RDOC_SCOPE_BEGIN_MAIN
RDOC_SCOPE_BASE(detail::BoundaryComponentBase)
auto c = pybind11::class_<BoundaryComponent<4>>(m, "BoundaryComponent4",
rdoc::BoundaryComponent)
.def("index", &BoundaryComponent<4>::index, rbase::index)
.def("size", &BoundaryComponent<4>::size, rbase::size)
.def("countRidges", &BoundaryComponent<4>::countRidges,
rbase::countRidges)
.def("countFaces",
®ina::python::countFaces<BoundaryComponent<4>, 4, 3>,
pybind11::arg("subdim"), rbase::countFaces)
.def("countTetrahedra",
&BoundaryComponent<4>::countTetrahedra, rbase::countTetrahedra)
.def("countTriangles", &BoundaryComponent<4>::countTriangles,
rbase::countTriangles)
.def("countEdges", &BoundaryComponent<4>::countEdges, rbase::countEdges)
.def("countVertices", &BoundaryComponent<4>::countVertices,
rbase::countVertices)
.def("facets", &BoundaryComponent<4>::facets, rbase::facets)
.def("faces", regina::python::faces<BoundaryComponent<4>, 4>,
pybind11::arg("subdim"), rbase::faces)
.def("tetrahedra", &BoundaryComponent<4>::tetrahedra, rbase::tetrahedra)
.def("triangles", &BoundaryComponent<4>::triangles, rbase::triangles)
.def("edges", &BoundaryComponent<4>::edges, rbase::edges)
.def("vertices", &BoundaryComponent<4>::vertices, rbase::vertices)
.def("facet", &BoundaryComponent<4>::facet,
pybind11::return_value_policy::reference, rbase::facet)
.def("face", ®ina::python::face<BoundaryComponent<4>, 4, size_t>,
pybind11::arg("subdim"), pybind11::arg("index"), rbase::face)
.def("tetrahedron", &BoundaryComponent<4>::tetrahedron,
pybind11::return_value_policy::reference, rbase::tetrahedron)
.def("triangle", &BoundaryComponent<4>::triangle,
pybind11::return_value_policy::reference, rbase::triangle)
.def("edge", &BoundaryComponent<4>::edge,
pybind11::return_value_policy::reference, rbase::edge)
.def("vertex", &BoundaryComponent<4>::vertex,
pybind11::return_value_policy::reference, rbase::vertex)
.def("component", &BoundaryComponent<4>::component,
pybind11::return_value_policy::reference, rbase::component)
.def("triangulation", &BoundaryComponent<4>::triangulation,
rbase::triangulation)
.def("build", [](const BoundaryComponent<4>& b) {
// Return a clone of the resulting triangulation.
// This is because Python cannot enforce the constness of
// the reference that would normally be returned.
return new regina::Triangulation<3>(b.build());
}, rbase::build)
.def("eulerChar", &BoundaryComponent<4>::eulerChar, rbase::eulerChar)
.def("isReal", &BoundaryComponent<4>::isReal, rbase::isReal)
.def("isIdeal", &BoundaryComponent<4>::isIdeal, rbase::isIdeal)
.def("isInvalidVertex", &BoundaryComponent<4>::isInvalidVertex,
rbase::isInvalidVertex)
.def("isOrientable", &BoundaryComponent<4>::isOrientable,
rbase::isOrientable)
.def_readonly_static("dimension", &BoundaryComponent<4>::dimension)
.def_readonly_static("allFaces", &BoundaryComponent<4>::allFaces)
.def_readonly_static("allowVertex", &BoundaryComponent<4>::allowVertex)
.def_readonly_static("canBuild", &BoundaryComponent<4>::canBuild)
;
regina::python::add_output(c);
regina::python::add_eq_operators(c);
RDOC_SCOPE_END
regina::python::addListView<
decltype(std::declval<BoundaryComponent<4>>().vertices())>(internal,
"BoundaryComponent4_vertices");
regina::python::addListView<
decltype(std::declval<BoundaryComponent<4>>().edges())>(internal,
"BoundaryComponent4_edges");
regina::python::addListView<
decltype(std::declval<BoundaryComponent<4>>().triangles())>(internal,
"BoundaryComponent4_triangles");
regina::python::addListView<
decltype(std::declval<BoundaryComponent<4>>().tetrahedra())>(internal,
"BoundaryComponent4_tetrahedra");
}
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