From: Peter Munch Date: Sun, 26 Jan 2020 19:44:03 +0000 (+0100) Subject: Fix remaining issues for #9195 X-Git-Tag: v9.2.0-rc1~604^2 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=b6b34ea1eb2be1989a60e33fd1a52c09c85e54d2;p=dealii.git Fix remaining issues for #9195 --- diff --git a/include/deal.II/grid/tria.h b/include/deal.II/grid/tria.h index 97b4572d52..621dab4caa 100644 --- a/include/deal.II/grid/tria.h +++ b/include/deal.II/grid/tria.h @@ -1836,7 +1836,7 @@ public: * Create a triangulation from the provided * TriangulationDescription::Description. * - * @note The namespace construction::Utilities contains functions + * @note The namespace TriangulationDescription::Utilities contains functions * to create TriangulationDescription::Description. * * @param construction_data The data needed for this process. diff --git a/include/deal.II/grid/tria_description.h b/include/deal.II/grid/tria_description.h index d927f680b5..9d414fad70 100644 --- a/include/deal.II/grid/tria_description.h +++ b/include/deal.II/grid/tria_description.h @@ -271,16 +271,16 @@ namespace TriangulationDescription * the cell id, the subdomain_id and the level_subdomain_id as well as * information related to manifold_id and boundary_id. * + * @note Similarly to dealii::CellData, this structure stores information + * about a cell. However, in contrast to dealii::CellData, it also stores + * a unique id, partitioning information, and information related to cell + * faces and edges. + * * @author Peter Munch, 2019 */ template struct CellData { - /** - * Constructor. - */ - CellData() = default; - /** * Boost serialization function */ @@ -312,7 +312,7 @@ namespace TriangulationDescription /** * Manifold id of the cell. */ - types::material_id manifold_id; + types::manifold_id manifold_id; /** * Manifold id of all lines of the cell. @@ -419,22 +419,22 @@ namespace TriangulationDescription * * @param tria Partitioned input triangulation. * @param comm MPI_Communicator to be used. In the case - * of dealii::distributed::Triangulation, the communicators - * have to match. + * of dealii::distributed::Triangulation, the communicators have to match. * @param construct_multilevel_hierarchy Signal if the multigrid levels * should be constructed. - * @param my_rank_in Construct Description for this rank (only - * working for serial triangulations). - * @return Description to be used to setup a Triangulation. + * @param my_rank_in Construct Description for the specified rank (only + * working for serial triangulations that have been partitioned by + * functions like GridToold::partition_triangulation()). + * @return Description to be used to set up a Triangulation. * * @note Multilevel hierarchies are supported if it is enabled in - * parallel::fullydistributed::Triangulation. + * parallel::fullydistributed::Triangulation. * * @note Hanging nodes in the input triangulation are supported. However, - * to be able to use this - * feature in the case of parallel::fullydistributed::Triangulation, - * the user has to enable multilevel hierarchy support in - * parallel::fullydistributed::Triangulation. + * to be able to use this feature in the case of + * parallel::fullydistributed::Triangulation, the user has to enable + * multilevel hierarchy support in + * parallel::fullydistributed::Triangulation. * * @author Peter Munch, 2019 */ @@ -448,27 +448,27 @@ namespace TriangulationDescription /** - * Construct a construction::Description. In contrast + * Construct a TriangulationDescription::Description. In contrast * to the function above, this function is also responsible for creating * a serial triangulation and for its partitioning (by calling the - * provided std::functions). Internally only selected processes (every - * n-th/each root of a group of size group_size) create a serial + * provided `std::functions' objects). Internally only selected processes ( + * every n-th/each root of a group of size group_size) create a serial * triangulation and the ConstructionData for all processes in its group, * which is communicated. * * @note A reasonable group size is the size of a NUMA domain or the * size of a compute node. * - * @param serial_grid_generator A function, which creates a serial triangulation. - * @param serial_grid_partitioner A function, which can partition a serial - * triangulation, i.e., sets the sudomain_ids of the active cells. - * The function takes as the first argument a serial triangulation, - * as the second argument the MPI communicator, and as the third - * argument the group size. - * @param comm MPI communicator + * @param serial_grid_generator A function which creates a serial triangulation. + * @param serial_grid_partitioner A function which can partition a serial + * triangulation, i.e., sets the sudomain_ids of the active cells. + * The function takes as the first argument a serial triangulation, + * as the second argument the MPI communicator, and as the third + * argument the group size. + * @param comm MPI communicator. * @param group_size The size of each group. * @param construct_multilevel_hierarchy Construct multigrid levels. - * @return Description to be used to setup a Triangulation. + * @return Description to be used to set up a Triangulation. * * @author Peter Munch, 2019 */ diff --git a/source/grid/tria_description.cc b/source/grid/tria_description.cc index da532e6ae4..0905de3017 100644 --- a/source/grid/tria_description.cc +++ b/source/grid/tria_description.cc @@ -38,11 +38,12 @@ namespace TriangulationDescription */ template void - set_user_flag_reverse(TriaIterator> cell) + set_user_flag_and_of_its_parents( + const TriaIterator> &cell) { cell->set_user_flag(); if (cell->level() != 0) - set_user_flag_reverse(cell->parent()); + set_user_flag_and_of_its_parents(cell->parent()); } @@ -108,21 +109,20 @@ namespace TriangulationDescription { if (auto tria_pdt = dynamic_cast< const parallel::distributed::Triangulation *>(&tria)) - AssertThrow(comm == tria_pdt->get_communicator(), - ExcMessage("MPI communicators do not match.")); + Assert(comm == tria_pdt->get_communicator(), + ExcMessage("MPI communicators do not match.")); // First, figure out for what rank we are supposed to build the // ConstructionData object unsigned int my_rank = my_rank_in; - AssertThrow(my_rank == numbers::invalid_unsigned_int || - my_rank < dealii::Utilities::MPI::n_mpi_processes(comm), - ExcMessage( - "Rank has to be smaller than available processes.")); + Assert(my_rank == numbers::invalid_unsigned_int || + my_rank < dealii::Utilities::MPI::n_mpi_processes(comm), + ExcMessage("Rank has to be smaller than available processes.")); if (auto tria_pdt = dynamic_cast< const parallel::distributed::Triangulation *>(&tria)) { - AssertThrow( + Assert( my_rank == numbers::invalid_unsigned_int || my_rank == dealii::Utilities::MPI::this_mpi_process(comm), ExcMessage( @@ -139,8 +139,8 @@ namespace TriangulationDescription } else { - AssertThrow( - false, ExcMessage("This type of triangulation is not supported!")); + Assert(false, + ExcMessage("This type of triangulation is not supported!")); } Description construction_data; @@ -182,7 +182,7 @@ namespace TriangulationDescription // check if multilevel hierarchy should be constructed if (construct_multilevel_hierarchy == false) { - AssertThrow( + Assert( tria.has_hanging_nodes() == false, ExcMessage( "Hanging nodes are only supported if multilevel hierarchy is constructed!")); @@ -324,10 +324,9 @@ namespace TriangulationDescription // 1b) loop over levels (from fine to coarse) and mark on each level // the locally relevant cells - for (unsigned int level = - tria.get_triangulation().n_global_levels() - 1; - level != numbers::invalid_unsigned_int; - level--) + for (int level = tria.get_triangulation().n_global_levels() - 1; + level >= 0; + --level) { // collect vertices connected to a (on any level) locally owned // cell @@ -361,7 +360,7 @@ namespace TriangulationDescription // mark all locally relevant cells for (auto cell : tria.cell_iterators_on_level(level)) if (is_locally_relevant_on_level(cell)) - set_user_flag_reverse(cell); + set_user_flag_and_of_its_parents(cell); } // 2) set_up coarse-grid triangulation @@ -589,9 +588,12 @@ namespace TriangulationDescription std::min(group_root + group_size, dealii::Utilities::MPI::n_mpi_processes(comm)); - // 3) create ConstructionData for the other processes in group + // 3) create Description for the other processes in group; since + // we expect that this function is called for huge meshes, one + // Description is created at a time and send away; only once the + // Description has been sent away, the next rank is processed. for (unsigned int other_rank = group_root + 1; other_rank < end_group; - other_rank++) + ++other_rank) { // 3a) create construction data for other ranks const auto construction_data = @@ -631,7 +633,7 @@ namespace TriangulationDescription len, MPI_CHAR, status.MPI_SOURCE, - status.MPI_TAG, + mpi_tag, comm, &status); AssertThrowMPI(ierr);