// SPDX-License-Identifier: LGPL-2.1-or-later /*************************************************************************** * Copyright (c) 2017 Lorenz Lechner * * * * This file is part of the FreeCAD CAx development system. * * * * This library is free software; you can redistribute it and/or * * modify it under the terms of the GNU Library General Public * * License as published by the Free Software Foundation; either * * version 2 of the License, or (at your option) any later version. * * * * This library 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 Library General Public License for more details. * * * * You should have received a copy of the GNU Library General Public * * License along with this library; see the file COPYING.LIB. If not, * * write to the Free Software Foundation, Inc., 59 Temple Place, * * Suite 330, Boston, MA 02111-1307, USA * * * ***************************************************************************/ // clang-format off #ifdef _MSC_VER # define strdup _strdup #endif # include # include # include # include # include // necessary for the feature despite not all are necessary for compilation #include #include #include #include #include #include #include #include "MeshFlattening.h" #include "MeshFlatteningLscmRelax.h" #include "MeshFlatteningNurbs.h" namespace py = pybind11; const TopoDS_Face& getTopoDSFace(py::object* face) { if (PyObject_TypeCheck(face->ptr(), &(Part::TopoShapeFacePy::Type))) { const Part::TopoShapeFacePy* f = static_cast(face->ptr()); const TopoDS_Face& myFace = TopoDS::Face(f->getTopoShapePtr()->getShape()); return myFace; } else throw std::invalid_argument("must be a face"); } const TopoDS_Edge& getTopoDSEdge(py::object* edge) { if (PyObject_TypeCheck(edge->ptr(), &(Part::TopoShapeEdgePy::Type))) { const Part::TopoShapeEdgePy* e = static_cast(edge->ptr()); const TopoDS_Edge& myEdge = TopoDS::Edge(e->getTopoShapePtr()->getShape()); return myEdge; } else throw std::invalid_argument("must be an edge"); } Py::Object makeEdge(const TopoDS_Edge& edge) { return Py::asObject(new Part::TopoShapeEdgePy(new Part::TopoShape(edge))); } py::object makeFace(const TopoDS_Face& face) { return py::cast(new Part::TopoShapeFacePy(new Part::TopoShape(face))); } FaceUnwrapper* FaceUnwrapper_constructor(py::object* face) { const TopoDS_Face& myFace = getTopoDSFace(face); return new FaceUnwrapper(myFace); } ColMat interpolateFlatFacePy(FaceUnwrapper& instance, py::object* face) { const TopoDS_Face& myFace = getTopoDSFace(face); return instance.interpolateFlatFace(myFace); } PYBIND11_MODULE(flatmesh, m) { m.doc() = "functions to unwrapp faces/ meshes"; py::class_(m, "LscmRelax") .def(py::init, ColMat, std::vector>()) .def("lscm", &lscmrelax::LscmRelax::lscm) .def("relax", &lscmrelax::LscmRelax::relax) .def("rotate_by_min_bound_area", &lscmrelax::LscmRelax::rotate_by_min_bound_area) .def("transform", &lscmrelax::LscmRelax::transform) .def_readonly("rhs", &lscmrelax::LscmRelax::rhs) .def_readonly("MATRIX", &lscmrelax::LscmRelax::MATRIX) .def_property_readonly("area", &lscmrelax::LscmRelax::get_area) .def_property_readonly("flat_area", &lscmrelax::LscmRelax::get_flat_area) .def_property_readonly("flat_vertices", [](lscmrelax::LscmRelax& L){return L.flat_vertices.transpose();}, py::return_value_policy::copy) .def_property_readonly("flat_vertices_3D", &lscmrelax::LscmRelax::get_flat_vertices_3D); py::class_(m, "NurbsBase2D") .def(py::init()) .def_readonly("u_knots", &nurbs::NurbsBase2D::u_knots) .def_readonly("weights", &nurbs::NurbsBase2D::weights) .def_readonly("degree_u", &nurbs::NurbsBase2D::degree_u) // .def_readonly("v_knots", &nurbs::NurbsBase2D::u_knots) .def_readonly("degree_v", &nurbs::NurbsBase2D::degree_u) .def("getUVMesh", &nurbs::NurbsBase2D::getUVMesh) .def("computeFirstDerivatives", &nurbs::NurbsBase2D::computeFirstDerivatives) .def("getInfluenceVector", &nurbs::NurbsBase2D::getInfluenceVector) .def("getInfluenceMatrix", &nurbs::NurbsBase2D::getInfluenceMatrix) .def("getDuVector", &nurbs::NurbsBase2D::getDuVector) .def("getDuMatrix", &nurbs::NurbsBase2D::getDuMatrix) .def("getDvVector", &nurbs::NurbsBase2D::getDvVector) .def("getDvMatrix", &nurbs::NurbsBase2D::getDvMatrix) .def("interpolateUBS", &nurbs::NurbsBase2D::interpolateUBS); py::class_(m, "NurbsBase1D") .def(py::init()) .def_readonly("u_knots", &nurbs::NurbsBase1D::u_knots) .def_readonly("weights", &nurbs::NurbsBase1D::weights) .def_readonly("degree_u", &nurbs::NurbsBase1D::degree_u) .def("getUMesh", &nurbs::NurbsBase1D::getUMesh) .def("computeFirstDerivatives", &nurbs::NurbsBase1D::computeFirstDerivatives) .def("getInfluenceVector", &nurbs::NurbsBase1D::getInfluenceVector) .def("getInfluenceMatrix", &nurbs::NurbsBase1D::getInfluenceMatrix) .def("getDuVector", &nurbs::NurbsBase1D::getDuVector) .def("getDuMatrix", &nurbs::NurbsBase1D::getDuMatrix) .def_static("getKnotSequence", &nurbs::NurbsBase1D::getKnotSequence) .def_static("getWeightList", &nurbs::NurbsBase1D::getWeightList); py::class_(m, "FaceUnwrapper") .def(py::init(&FaceUnwrapper_constructor)) .def(py::init, ColMat>()) .def("findFlatNodes", &FaceUnwrapper::findFlatNodes) .def("interpolateFlatFace", &interpolateFlatFacePy) .def("getFlatBoundaryNodes", &FaceUnwrapper::getFlatBoundaryNodes) .def_readonly("tris", &FaceUnwrapper::tris) .def_readonly("nodes", &FaceUnwrapper::xyz_nodes) .def_readonly("uv_nodes", &FaceUnwrapper::uv_nodes) .def_readonly("ze_nodes", &FaceUnwrapper::ze_nodes) .def_readonly("ze_poles", &FaceUnwrapper::ze_poles) .def_readonly("A", &FaceUnwrapper::A); }; // clang-format on