From: Martin Kronbichler Date: Fri, 8 Jul 2022 12:34:01 +0000 (+0200) Subject: get_line_indices_of_cell: Add specialization for tetrahedra X-Git-Tag: v9.5.0-rc1~1099^2 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=612d052e0922585f05a781ed033790eb0702feb1;p=dealii.git get_line_indices_of_cell: Add specialization for tetrahedra --- diff --git a/include/deal.II/grid/tria_accessor.templates.h b/include/deal.II/grid/tria_accessor.templates.h index 992f1b1ded..809b75d66c 100644 --- a/include/deal.II/grid/tria_accessor.templates.h +++ b/include/deal.II/grid/tria_accessor.templates.h @@ -1129,9 +1129,29 @@ namespace internal line_indices[10 + f] = quad->line_index(my_indices[1]); } } + else if (ref_cell == ReferenceCells::Tetrahedron) + { + std::array orientations{ + {face_orientation_raw(cell, 0), + face_orientation_raw(cell, 1), + face_orientation_raw(cell, 2)}}; + const std::array my_indices{ + {ref_cell.standard_to_real_face_line(0, 0, orientations[0]), + ref_cell.standard_to_real_face_line(1, 0, orientations[0]), + ref_cell.standard_to_real_face_line(2, 0, orientations[0]), + ref_cell.standard_to_real_face_line(1, 1, orientations[1]), + ref_cell.standard_to_real_face_line(2, 1, orientations[1]), + ref_cell.standard_to_real_face_line(1, 2, orientations[2])}}; + line_indices[0] = cell.quad(0)->line_index(my_indices[0]); + line_indices[1] = cell.quad(0)->line_index(my_indices[1]); + line_indices[2] = cell.quad(0)->line_index(my_indices[2]); + line_indices[3] = cell.quad(1)->line_index(my_indices[3]); + line_indices[4] = cell.quad(1)->line_index(my_indices[4]); + line_indices[5] = cell.quad(2)->line_index(my_indices[5]); + } else - // For other shapes (tetrahedra, wedges, pyramids), we do not - // currently implement an optimized function. + // For other shapes (wedges, pyramids), we do not currently + // implement an optimized function. for (unsigned int l = 0; l < std::min(12U, cell.n_lines()); ++l) line_indices[l] = cell.line_index(l); @@ -1238,9 +1258,47 @@ namespace internal line_orientations[10 + f] = my_orientations[1]; } } + else if (ref_cell == ReferenceCells::Tetrahedron) + { + std::array orientations{ + {face_orientation_raw(cell, 0), + face_orientation_raw(cell, 1), + face_orientation_raw(cell, 2)}}; + const std::array my_indices{ + {ref_cell.standard_to_real_face_line(0, 0, orientations[0]), + ref_cell.standard_to_real_face_line(1, 0, orientations[0]), + ref_cell.standard_to_real_face_line(2, 0, orientations[0]), + ref_cell.standard_to_real_face_line(1, 1, orientations[1]), + ref_cell.standard_to_real_face_line(2, 1, orientations[1]), + ref_cell.standard_to_real_face_line(1, 2, orientations[2])}}; + line_orientations[0] = ref_cell.standard_vs_true_line_orientation( + 0, + orientations[0], + cell.quad(0)->line_orientation(my_indices[0])); + line_orientations[1] = ref_cell.standard_vs_true_line_orientation( + 1, + orientations[0], + cell.quad(0)->line_orientation(my_indices[1])); + line_orientations[2] = ref_cell.standard_vs_true_line_orientation( + 2, + orientations[0], + cell.quad(0)->line_orientation(my_indices[2])); + line_orientations[3] = ref_cell.standard_vs_true_line_orientation( + 1, + orientations[1], + cell.quad(1)->line_orientation(my_indices[3])); + line_orientations[4] = ref_cell.standard_vs_true_line_orientation( + 2, + orientations[1], + cell.quad(1)->line_orientation(my_indices[4])); + line_orientations[5] = ref_cell.standard_vs_true_line_orientation( + 1, + orientations[2], + cell.quad(2)->line_orientation(my_indices[5])); + } else - // For other shapes (tetrahedra, wedges, pyramids), we do not - // currently implement an optimized function + // For other shapes (wedges, pyramids), we do not currently + // implement an optimized function for (unsigned int l = 0; l < std::min(12U, cell.n_lines()); ++l) line_orientations[l] = cell.line_orientation(l);