Esempio n. 1
0
Elements::Ptr Elements::adapt_boundary(Mesh::Ptr mesh) {
    if (mesh->get_num_voxels() > 0) {
        const size_t vertex_per_voxel = mesh->get_vertex_per_voxel();
        switch (vertex_per_voxel) {
            case 4:
                return Ptr(new TriangleElements(mesh));
            default:
                std::stringstream err_msg;
                err_msg << "Voxel with " << vertex_per_voxel
                    << " vertices is not supported yet.";
                throw NotImplementedError(err_msg.str());
        }
    } else {
        const size_t vertex_per_face = mesh->get_vertex_per_face();
        switch (vertex_per_face) {
            case 3:
                return Ptr(new EdgeElements(mesh));
            default:
                std::stringstream err_msg;
                err_msg << "Face with " << vertex_per_face
                    << " vertices is not supported yet.";
                throw NotImplementedError(err_msg.str());
        }
    }
}
Esempio n. 2
0
GeoMeshPtr GeogramMeshUtils::mesh_to_geomesh(const Mesh::Ptr mesh) {
    const size_t dim = mesh->get_dim();
    const size_t vertex_per_face = mesh->get_vertex_per_face();
    const size_t num_vertices = mesh->get_num_vertices();
    const size_t num_faces = mesh->get_num_faces();
    const auto& vertices = mesh->get_vertices();
    const auto& faces = mesh->get_faces();

    if (vertex_per_face != 3) {
        throw NotImplementedError("Converting non-triangle mesh to "
                "Geogram mesh is not yet implemented");
    }

    auto geo_mesh = std::make_shared<GeoMesh>(dim, false);
    geo_mesh->vertices.clear();
    geo_mesh->vertices.create_vertices(num_vertices);
    geo_mesh->facets.clear();
    geo_mesh->facets.create_triangles(num_faces);

    for (size_t i=0; i<num_vertices; i++) {
        auto& p = geo_mesh->vertices.point(i);
        for (size_t j=0; j<dim; j++) {
            p[j] = vertices[i*dim+j];
        }
    }

    for (size_t i=0; i<num_faces; i++) {
        geo_mesh->facets.set_vertex(i, 0, faces[i*3]);
        geo_mesh->facets.set_vertex(i, 1, faces[i*3+1]);
        geo_mesh->facets.set_vertex(i, 2, faces[i*3+2]);
    }

    return geo_mesh;
}
Esempio n. 3
0
CellPartition::Ptr CellPartition::create(const Mesh::Ptr& mesh) {
    const MatrixFr vertices = MatrixUtils::reshape<MatrixFr>(
            mesh->get_vertices(), mesh->get_num_vertices(), mesh->get_dim());
    const MatrixIr faces = MatrixUtils::reshape<MatrixIr>(
            mesh->get_faces(), mesh->get_num_faces(),
            mesh->get_vertex_per_face());
    return CellPartition::Ptr(new CellPartition(vertices, faces));
}
Esempio n. 4
0
std::unique_ptr<draco::Mesh> to_draco_mesh(Mesh::Ptr mesh,
        bool with_attributes=true) {
    std::unique_ptr<draco::Mesh> draco_mesh(new draco::Mesh());

    const size_t vertex_per_face = mesh->get_vertex_per_face();
    if (vertex_per_face != 3) {
        throw NotImplementedError(
                "Draco encoding only supports triangle mesh.");
    }

    copy_vertices(mesh, draco_mesh);
    copy_faces(mesh, draco_mesh);

    if (with_attributes) {
        copy_vertex_attributes(mesh, draco_mesh);
        //copy_face_attributes(mesh, draco_mesh);
    }

    return draco_mesh;
}