From: Marc Fehling Date: Fri, 24 Aug 2018 21:04:17 +0000 (-0600) Subject: Optimize DoF distribution of hp::DoFHandler on p::d::Triangulation. X-Git-Tag: v9.1.0-rc1~753^2 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=refs%2Fpull%2F7133%2Fhead;p=dealii.git Optimize DoF distribution of hp::DoFHandler on p::d::Triangulation. Changed documentation on parallel DoF distribution to be in accordance with paper. --- diff --git a/doc/news/changes/major/20180831Fehling b/doc/news/changes/major/20180831Fehling new file mode 100644 index 0000000000..70a8b6da6b --- /dev/null +++ b/doc/news/changes/major/20180831Fehling @@ -0,0 +1,7 @@ +Changed: hp::DoFHandler::distribute_dofs() called on +parallel::distributed::Triangulation objects now assigns exactly +one index for each degree of freedom located on interfaces with +ghost cells. Previously, those degrees of freedom were assigned +indices by each adjacent subdomain. +
+(Marc Fehling, 2018/08/31) diff --git a/source/dofs/dof_handler_policy.cc b/source/dofs/dof_handler_policy.cc index 89f6b0d5ea..0f60a87f30 100644 --- a/source/dofs/dof_handler_policy.cc +++ b/source/dofs/dof_handler_policy.cc @@ -71,6 +71,15 @@ namespace internal namespace { + /** + * We'll use this constant to mark unnumbered degrees of freedom + * during their enumeration in multiple parts of the code. + * This constant is necessary to distinguish between valid and + * invalid degrees of freedom. + */ + const types::global_dof_index enumeration_dof_index = + numbers::invalid_dof_index - 1; + /** * Update the cache used for cell dof indices on all (non-artificial) * active cells of the given DoFHandler. @@ -533,8 +542,8 @@ namespace internal if (fe.dofs_per_line > 0) for (unsigned int l = 0; l < GeometryInfo<2>::lines_per_cell; ++l) { - typename hp::DoFHandler::line_iterator line = - cell->line(l); + const typename hp::DoFHandler::line_iterator + line = cell->line(l); if (line->dof_index(0, fe_index) == numbers::invalid_dof_index) for (unsigned int d = 0; d < fe.dofs_per_line; @@ -593,14 +602,14 @@ namespace internal next_free_dof, fe_index); - // next the four lines. do the same as above: check whether + // next the eight lines. do the same as above: check whether // the line is already numbered for the present fe_index, // and if not do it if (fe.dofs_per_line > 0) for (unsigned int l = 0; l < GeometryInfo<3>::lines_per_cell; ++l) { - typename hp::DoFHandler::line_iterator line = - cell->line(l); + const typename hp::DoFHandler::line_iterator + line = cell->line(l); if (line->dof_index(0, fe_index) == numbers::invalid_dof_index) for (unsigned int d = 0; d < fe.dofs_per_line; @@ -612,8 +621,8 @@ namespace internal if (fe.dofs_per_quad > 0) for (unsigned int q = 0; q < GeometryInfo<3>::quads_per_cell; ++q) { - typename hp::DoFHandler::quad_iterator quad = - cell->quad(q); + const typename hp::DoFHandler::quad_iterator + quad = cell->quad(q); if (quad->dof_index(0, fe_index) == numbers::invalid_dof_index) for (unsigned int d = 0; d < fe.dofs_per_quad; @@ -622,38 +631,828 @@ namespace internal } - // finally for the hex. this one shouldn't be numbered yet - if (fe.dofs_per_hex > 0) + // finally for the hex. this one shouldn't be numbered yet + // because there is no other cell from which we could already + // have gotten to numbering anything on this hex (=cell) + if (fe.dofs_per_hex > 0) + { + Assert((cell->dof_index(0, fe_index) == + numbers::invalid_dof_index), + ExcInternalError()); + + for (unsigned int d = 0; d < fe.dofs_per_hex; + ++d, ++next_free_dof) + cell->set_dof_index(d, next_free_dof, fe_index); + } + + // note that this cell has been processed + cell->set_user_flag(); + + return next_free_dof; + } + + + + /** + * Compute identities between DoFs located on vertices. Called from + * distribute_dofs(). + */ + template + static std::map + compute_vertex_dof_identities( + const hp::DoFHandler &dof_handler) + { + std::map + dof_identities; + + // Note: we may wish to have something here similar to what + // we do for lines and quads, namely that we only identify + // dofs for any fe towards the most dominating one. however, + // it is not clear whether this is actually necessary for + // vertices at all, I can't think of a finite element that + // would make that necessary... + dealii::Table<2, std::unique_ptr> + vertex_dof_identities(dof_handler.get_fe_collection().size(), + dof_handler.get_fe_collection().size()); + + // loop over all vertices and see which one we need to work on + for (unsigned int vertex_index = 0; + vertex_index < dof_handler.get_triangulation().n_vertices(); + ++vertex_index) + if (dof_handler.get_triangulation() + .get_used_vertices()[vertex_index] == true) + { + const unsigned int n_active_fe_indices = + dealii::internal::DoFAccessorImplementation::Implementation:: + n_active_vertex_fe_indices(dof_handler, vertex_index); + if (n_active_fe_indices > 1) + { + const unsigned int first_fe_index = + dealii::internal::DoFAccessorImplementation:: + Implementation::nth_active_vertex_fe_index(dof_handler, + vertex_index, + 0); + + // loop over all the other FEs with which we want + // to identify the DoF indices of the first FE of + for (unsigned int f = 1; f < n_active_fe_indices; ++f) + { + const unsigned int other_fe_index = + dealii::internal::DoFAccessorImplementation:: + Implementation::nth_active_vertex_fe_index( + dof_handler, vertex_index, f); + + // make sure the entry in the equivalence + // table exists + ensure_existence_of_dof_identities<0>( + dof_handler.get_fe(first_fe_index), + dof_handler.get_fe(other_fe_index), + vertex_dof_identities[first_fe_index] + [other_fe_index]); + + // then loop through the identities we + // have. first get the global numbers of the + // dofs we want to identify and make sure they + // are not yet constrained to anything else, + // except for to each other. use the rule that + // we will always constrain the dof with the + // higher fe index to the one with the lower, + // to avoid circular reasoning. + DoFIdentities &identities = + *vertex_dof_identities[first_fe_index] + [other_fe_index]; + for (unsigned int i = 0; i < identities.size(); ++i) + { + const types::global_dof_index lower_dof_index = + dealii::internal::DoFAccessorImplementation:: + Implementation::get_vertex_dof_index( + dof_handler, + vertex_index, + first_fe_index, + identities[i].first); + const types::global_dof_index higher_dof_index = + dealii::internal::DoFAccessorImplementation:: + Implementation::get_vertex_dof_index( + dof_handler, + vertex_index, + other_fe_index, + identities[i].second); + + // on subdomain boundaries, we will encounter + // invalid DoFs on ghost cells, for which we have + // not yet distributed valid indices. depending on + // which finte element is dominating the other on + // this interface, we either have to constrain the + // valid to the invalid indices, or vice versa. + // + // we only store an identity if we are about to + // overwrite a valid DoF. we will skip constraining + // invalid DoFs for now, and consider them later in + // Phase 5. + if (higher_dof_index != numbers::invalid_dof_index) + { + // if the DoF indices of both elements are + // already distributed, i.e., both of these + // 'fe_indices' are associated with a locally + // owned cell, then we should either not have a + // dof_identity yet, or it must come out here to + // be exactly as we had computed before + if (lower_dof_index != + numbers::invalid_dof_index) + Assert((dof_identities.find( + higher_dof_index) == + dof_identities.end()) || + (dof_identities[higher_dof_index] == + lower_dof_index), + ExcInternalError()); + + dof_identities[higher_dof_index] = + lower_dof_index; + } + } + } + } + } + + return dof_identities; + } + + + /** + * Compute identities between DoFs located on lines. Called from + * distribute_dofs(). + */ + template + static std::map + compute_line_dof_identities(const hp::DoFHandler<1, spacedim> &) + { + return std::map(); + } + + + template + static std::map + compute_line_dof_identities( + const hp::DoFHandler &dof_handler) + { + std::map + dof_identities; + + // we will mark lines that we have already treated, so first save and + // clear the user flags on lines and later restore them + std::vector user_flags; + dof_handler.get_triangulation().save_user_flags_line(user_flags); + const_cast &>( + dof_handler.get_triangulation()) + .clear_user_flags_line(); + + // An implementation of the algorithm described in the hp paper, + // including the modification mentioned later in the "complications in + // 3-d" subsections + // + // as explained there, we do something only if there are exactly 2 + // finite elements associated with an object. if there is only one, + // then there is nothing to do anyway, and if there are 3 or more, + // then we can get into trouble. note that this only happens for lines + // in 3d and higher, and for quads only in 4d and higher, so this + // isn't a particularly frequent case + // + // there is one case, however, that we would like to handle (see, for + // example, the hp/crash_15 testcase): if we have + // FESystem(FE_Q(2),FE_DGQ(i)) elements for a bunch of values 'i', + // then we should be able to handle this because we can simply unify + // *all* dofs, not only a some. so what we do is to first treat all + // pairs of finite elements that have *identical* dofs, and then only + // deal with those that are not identical of which we can handle at + // most 2 + dealii::Table<2, std::unique_ptr> line_dof_identities( + dof_handler.fe_collection.size(), dof_handler.fe_collection.size()); + + for (typename hp::DoFHandler::active_cell_iterator + cell = dof_handler.begin_active(); + cell != dof_handler.end(); + ++cell) + for (unsigned int l = 0; l < GeometryInfo::lines_per_cell; ++l) + if (cell->line(l)->user_flag_set() == false) + { + const typename hp::DoFHandler::line_iterator + line = cell->line(l); + line->set_user_flag(); + + unsigned int unique_sets_of_dofs = + line->n_active_fe_indices(); + + // do a first loop over all sets of dofs and do identity + // uniquification + const unsigned int n_active_fe_indices = + line->n_active_fe_indices(); + for (unsigned int f = 0; f < n_active_fe_indices; ++f) + for (unsigned int g = f + 1; g < n_active_fe_indices; ++g) + { + const unsigned int fe_index_1 = + line->nth_active_fe_index(f), + fe_index_2 = + line->nth_active_fe_index(g); + + // as described in the hp paper, we only unify on lines + // when there are at most two different FE objects + // assigned on it. + // however, more than two 'active_fe_indices' can be + // attached that still fulfill the above criterion, + // i.e. when two different FiniteElement objects are + // assigned to neighboring cells that map their degrees + // of freedom one-to-one. + // we cannot verify with certainty if two dofs each of + // separate FiniteElement objects actually map + // one-to-one. however, checking for the number of + // 'dofs_per_line' turned out to be a reasonable + // approach, that also works for e.g. two different + // FE_Q objects of the same order, from which one is + // enhanced by a bubble function that is zero on the + // boundary. + if ((dof_handler.get_fe(fe_index_1).dofs_per_line == + dof_handler.get_fe(fe_index_2).dofs_per_line) && + (dof_handler.get_fe(fe_index_1).dofs_per_line > 0)) + { + ensure_existence_of_dof_identities<1>( + dof_handler.get_fe(fe_index_1), + dof_handler.get_fe(fe_index_2), + line_dof_identities[fe_index_1][fe_index_2]); + // see if these sets of dofs are identical. the + // first condition for this is that indeed there are + // n identities + if (line_dof_identities[fe_index_1][fe_index_2] + ->size() == + dof_handler.get_fe(fe_index_1).dofs_per_line) + { + unsigned int i = 0; + for (; i < dof_handler.get_fe(fe_index_1) + .dofs_per_line; + ++i) + if (((*(line_dof_identities[fe_index_1] + [fe_index_2]))[i] + .first != i) && + ((*(line_dof_identities[fe_index_1] + [fe_index_2]))[i] + .second != i)) + // not an identity + break; + + if (i == dof_handler.get_fe(fe_index_1) + .dofs_per_line) + { + // The line dofs (i.e., the ones interior to + // a line) of these two finite elements are + // identical. Note that there could be + // situations when one element still + // dominates another, e.g.: FE_Q(2) x + // FE_Nothing(dominate) vs FE_Q(2) x FE_Q(1) + + --unique_sets_of_dofs; + + for (unsigned int j = 0; + j < dof_handler.get_fe(fe_index_1) + .dofs_per_line; + ++j) + { + const types::global_dof_index + master_dof_index = + line->dof_index(j, fe_index_1); + const types::global_dof_index + slave_dof_index = + line->dof_index(j, fe_index_2); + + // on subdomain boundaries, we will + // encounter invalid DoFs on ghost + // cells, for which we have not yet + // distributed valid indices. depending + // on which finte element is dominating + // the other on this interface, we + // either have to constrain the valid to + // the invalid indices, or vice versa. + // + // we only store an identity if we are + // about to overwrite a valid DoF. we + // will skip constraining invalid DoFs + // for now, and consider them later in + // Phase 5. + if (slave_dof_index != + numbers::invalid_dof_index) + { + if (master_dof_index != + numbers::invalid_dof_index) + { + // if master dof was already + // constrained, constrain to + // that one, otherwise constrain + // slave to master + if (dof_identities.find( + master_dof_index) != + dof_identities.end()) + { + // if the DoF indices of + // both elements are already + // distributed, i.e., both + // of these 'fe_indices' are + // associated with a locally + // owned cell, then we + // should either not have a + // dof_identity yet, or it + // must come out here to be + // exactly as we had + // computed before + Assert( + dof_identities.find( + dof_identities + [master_dof_index]) == + dof_identities.end(), + ExcInternalError()); + + dof_identities + [slave_dof_index] = + dof_identities + [master_dof_index]; + } + else + { + // see comment above for an + // explanation of this + // assertion + Assert( + (dof_identities.find( + master_dof_index) == + dof_identities.end()) || + (dof_identities + [slave_dof_index] == + master_dof_index), + ExcInternalError()); + + dof_identities + [slave_dof_index] = + master_dof_index; + } + } + else + { + // set slave_dof to + // master_dof_index, which is + // invalid + dof_identities + [slave_dof_index] = + numbers::invalid_dof_index; + } + } + } + } + } + } + } + + // if at this point, there is only one unique set of dofs + // left, then we have taken care of everything above. if there + // are two, then we need to deal with them here. if there are + // more, then we punt, as described in the paper (and + // mentioned above) + // TODO: The check for 'dim==2' was inserted by intuition. It + // fixes + // the previous problems with step-27 in 3D. But an + // explanation for this is still required, and what we do here + // is not what we describe in the paper!. + if ((unique_sets_of_dofs == 2) && (dim == 2)) + { + // find out which is the most dominating finite element of + // the ones that are used on this line + const unsigned int most_dominating_fe_index = + get_most_dominating_fe_index(line); + + // if we found the most dominating element, then use this + // to eliminate some of the degrees of freedom by + // identification. otherwise, the code that computes + // hanging node constraints will have to deal with it by + // computing appropriate constraints along this face/edge + if (most_dominating_fe_index != + numbers::invalid_unsigned_int) + { + const unsigned int n_active_fe_indices = + line->n_active_fe_indices(); + + // loop over the indices of all the finite elements + // that are not dominating, and identify their dofs to + // the most dominating one + for (unsigned int f = 0; f < n_active_fe_indices; ++f) + if (line->nth_active_fe_index(f) != + most_dominating_fe_index) + { + const unsigned int other_fe_index = + line->nth_active_fe_index(f); + + ensure_existence_of_dof_identities<1>( + dof_handler.get_fe(most_dominating_fe_index), + dof_handler.get_fe(other_fe_index), + line_dof_identities[most_dominating_fe_index] + [other_fe_index]); + + DoFIdentities &identities = + *line_dof_identities[most_dominating_fe_index] + [other_fe_index]; + for (unsigned int i = 0; i < identities.size(); + ++i) + { + const types::global_dof_index + master_dof_index = line->dof_index( + identities[i].first, + most_dominating_fe_index); + const types::global_dof_index + slave_dof_index = + line->dof_index(identities[i].second, + other_fe_index); + + // on subdomain boundaries, we will + // encounter invalid DoFs on ghost cells, + // for which we have not yet distributed + // valid indices. depending on which finte + // element is dominating the other on this + // interface, we either have to constrain + // the valid to the invalid indices, or vice + // versa. + // + // we only store an identity if we are about + // to overwrite a valid DoF. we will skip + // constraining invalid DoFs for now, and + // consider them later in Phase 5. + if (slave_dof_index != + numbers::invalid_dof_index) + { + // if the DoF indices of both elements + // are already distributed, i.e., both + // of these 'fe_indices' are associated + // with a locally owned cell, then we + // should either not have a dof_identity + // yet, or it must come out here to be + // exactly as we had computed before + if (master_dof_index != + numbers::invalid_dof_index) + Assert((dof_identities.find( + master_dof_index) == + dof_identities.end()) || + (dof_identities + [slave_dof_index] == + master_dof_index), + ExcInternalError()); + + dof_identities[slave_dof_index] = + master_dof_index; + } + } + } + } + } + } + + // finally restore the user flags + const_cast &>( + dof_handler.get_triangulation()) + .load_user_flags_line(user_flags); + + return dof_identities; + } + + + + /** + * Compute identities between DoFs located on quads. Called from + * distribute_dofs(). + */ + template + static std::map + compute_quad_dof_identities(const hp::DoFHandler &) + { + // this function should only be called for dim<3 where there are + // no quad dof identies. for dim==3, the specialization below should + // take care of it + Assert(dim < 3, ExcInternalError()); + + return std::map(); + } + + + template + static std::map + compute_quad_dof_identities( + const hp::DoFHandler<3, spacedim> &dof_handler) + { + const int dim = 3; + + std::map + dof_identities; + + + // we will mark quads that we have already treated, so first + // save and clear the user flags on quads and later restore + // them + std::vector user_flags; + dof_handler.get_triangulation().save_user_flags_quad(user_flags); + const_cast &>( + dof_handler.get_triangulation()) + .clear_user_flags_quad(); + + // An implementation of the algorithm described in the hp + // paper, including the modification mentioned later in the + // "complications in 3-d" subsections + // + // as explained there, we do something only if there are + // exactly 2 finite elements associated with an object. if + // there is only one, then there is nothing to do anyway, + // and if there are 3 or more, then we can get into + // trouble. note that this only happens for lines in 3d and + // higher, and for quads only in 4d and higher, so this + // isn't a particularly frequent case + dealii::Table<2, std::unique_ptr> quad_dof_identities( + dof_handler.fe_collection.size(), dof_handler.fe_collection.size()); + + for (typename hp::DoFHandler::active_cell_iterator + cell = dof_handler.begin_active(); + cell != dof_handler.end(); + ++cell) + for (unsigned int q = 0; q < GeometryInfo::quads_per_cell; ++q) + if ((cell->quad(q)->user_flag_set() == false) && + (cell->quad(q)->n_active_fe_indices() == 2)) + { + const typename hp::DoFHandler::quad_iterator + quad = cell->quad(q); + quad->set_user_flag(); + + // find out which is the most dominating finite + // element of the ones that are used on this quad + const unsigned int most_dominating_fe_index = + get_most_dominating_fe_index(quad); + + // if we found the most dominating element, then use + // this to eliminate some of the degrees of freedom + // by identification. otherwise, the code that + // computes hanging node constraints will have to + // deal with it by computing appropriate constraints + // along this face/edge + if (most_dominating_fe_index != numbers::invalid_unsigned_int) + { + const unsigned int n_active_fe_indices = + quad->n_active_fe_indices(); + + // loop over the indices of all the finite + // elements that are not dominating, and + // identify their dofs to the most dominating + // one + for (unsigned int f = 0; f < n_active_fe_indices; ++f) + if (quad->nth_active_fe_index(f) != + most_dominating_fe_index) + { + const unsigned int other_fe_index = + quad->nth_active_fe_index(f); + + ensure_existence_of_dof_identities<2>( + dof_handler.get_fe(most_dominating_fe_index), + dof_handler.get_fe(other_fe_index), + quad_dof_identities[most_dominating_fe_index] + [other_fe_index]); + + DoFIdentities &identities = + *quad_dof_identities[most_dominating_fe_index] + [other_fe_index]; + for (unsigned int i = 0; i < identities.size(); ++i) + { + const types::global_dof_index master_dof_index = + quad->dof_index(identities[i].first, + most_dominating_fe_index); + const types::global_dof_index slave_dof_index = + quad->dof_index(identities[i].second, + other_fe_index); + + // we only store an identity if we are about to + // overwrite a valid degree of freedom. we will + // skip invalid degrees of freedom (that are + // associated with ghost cells) for now, and + // consider them later in phase 5. + if (slave_dof_index != + numbers::invalid_dof_index) + { + // if the DoF indices of both elements are + // already distributed, i.e., both of these + // 'fe_indices' are associated with a + // locally owned cell, then we should either + // not have a dof_identity yet, or it must + // come out here to be exactly as we had + // computed before + if (master_dof_index != + numbers::invalid_dof_index) + Assert( + (dof_identities.find( + master_dof_index) == + dof_identities.end()) || + (dof_identities[slave_dof_index] == + master_dof_index), + ExcInternalError()); + + dof_identities[slave_dof_index] = + master_dof_index; + } + } + } + } + } + + // finally restore the user flags + const_cast &>( + dof_handler.get_triangulation()) + .load_user_flags_quad(user_flags); + + return dof_identities; + } + + + + /** + * Compute the constraints that correspond to unifying DoF indices + * on vertices, lines, and quads. Do so in parallel. + */ + template + static void + compute_dof_identities( + const std::vector< + std::map> &, + const DoFHandler &) + {} + + + template + static void + compute_dof_identities(std::vector> + &all_constrained_indices, + const hp::DoFHandler &dof_handler) + { + Assert(all_constrained_indices.size() == dim, ExcInternalError()); + + Threads::TaskGroup<> tasks; + + unsigned int i = 0; + tasks += Threads::new_task([&, i]() { + all_constrained_indices[i] = + compute_vertex_dof_identities(dof_handler); + }); + + if (dim > 1) + { + ++i; + tasks += Threads::new_task([&, i]() { + all_constrained_indices[i] = + compute_line_dof_identities(dof_handler); + }); + } + + if (dim > 2) + { + ++i; + tasks += Threads::new_task([&, i]() { + all_constrained_indices[i] = + compute_quad_dof_identities(dof_handler); + }); + } + + tasks.join_all(); + } + + + + /** + * Once degrees of freedom have been distributed on all cells, we may + * want to eliminate duplicates, and enumerate the remaining ones + * consecutively. This particular function is responsible for the + * latter part. + * + * This function stores the new indices of all DoFs in ascending order + * in @p new_dof_indices, which can be used to renumber all DoFs with + * the renumber_dofs() function later. + * + * This vector will contain enumerated indices, skipping invalid indices + * previously stored in it. Additionally, if a + * @p all_constrained_indices parameter is provided, DoF identity + * relations will be considered as well during the enumeration process + * by identifying similar DoFs on vertices, lines and quads. + * + * Returns the final number of degrees of freedom, which is the number + * of all valid DoF indices in @p new_dof_indices. + */ + template + static types::global_dof_index + enumerate_dof_indices_for_renumbering( + std::vector &new_dof_indices, + const std::vector< + std::map> + &all_constrained_indices, + const DoFHandlerType &) + { + Assert(all_constrained_indices.size() == DoFHandlerType::dimension, + ExcInternalError()); + + // first preset the new DoF indices that are identities + for (const auto &constrained_dof_indices : all_constrained_indices) + for (const auto &p : constrained_dof_indices) + if (new_dof_indices[p.first] != numbers::invalid_dof_index) + { + Assert(new_dof_indices[p.first] == enumeration_dof_index, + ExcInternalError()); + + new_dof_indices[p.first] = p.second; + } + + // then enumerate the rest + types::global_dof_index next_free_dof = 0; + for (auto &new_dof_index : new_dof_indices) + if (new_dof_index == enumeration_dof_index) + new_dof_index = next_free_dof++; + + // then loop over all those that are constrained and record the + // new dof number for those + for (const auto &constrained_dof_indices : all_constrained_indices) + for (const auto &p : constrained_dof_indices) + if (new_dof_indices[p.first] != numbers::invalid_dof_index) + { + Assert(new_dof_indices[p.first] != enumeration_dof_index, + ExcInternalError()); + + if (p.second != numbers::invalid_dof_index) + new_dof_indices[p.first] = new_dof_indices[p.second]; + } + + for (unsigned int i = 0; i < new_dof_indices.size(); ++i) { - Assert((cell->dof_index(0, fe_index) == - numbers::invalid_dof_index), + Assert(new_dof_indices[i] != enumeration_dof_index, + ExcInternalError()); + Assert(new_dof_indices[i] < next_free_dof || + new_dof_indices[i] == numbers::invalid_dof_index, ExcInternalError()); - - for (unsigned int d = 0; d < fe.dofs_per_hex; - ++d, ++next_free_dof) - cell->set_dof_index(d, next_free_dof, fe_index); } - // note that this cell has been processed - cell->set_user_flag(); - return next_free_dof; } /** - * Compute identities between DoFs located on vertices. Called from - * distribute_dofs(). + * Once degrees of freedom have been distributed on all cells, see if + * we can identify DoFs on neighboring cells. This function does nothing + * on regular DoFHandlers, but goes through vertices, lines, and quads + * for hp::DoFHandler objects. + * + * Return the final number of degrees of freedom, which is the old one + * minus however many were identified. */ template - static std::map - compute_vertex_dof_identities( - hp::DoFHandler &dof_handler) + static types::global_dof_index + unify_dof_indices(const DoFHandler &, + const unsigned int n_dofs_before_identification, + const bool) { - std::map - dof_identities; + return n_dofs_before_identification; + } + + + template + static types::global_dof_index + unify_dof_indices(hp::DoFHandler &dof_handler, + const unsigned int n_dofs_before_identification, + const bool check_validity) + { + std::vector< + std::map> + all_constrained_indices(dim); + compute_dof_identities(all_constrained_indices, dof_handler); + + std::vector renumbering( + n_dofs_before_identification, enumeration_dof_index); + const types::global_dof_index n_dofs = + enumerate_dof_indices_for_renumbering(renumbering, + all_constrained_indices, + dof_handler); + + renumber_dofs(renumbering, IndexSet(0), dof_handler, check_validity); + + update_all_active_cell_dof_indices_caches(dof_handler); + + return n_dofs; + } + + + /** + * Merge invalid DoF indices on vertices located on ghost interfaces + * by a dominating valid one. + */ + template + static void + merge_invalid_vertex_dofs_on_ghost_interfaces( + hp::DoFHandler &dof_handler) + { // Note: we may wish to have something here similar to what // we do for lines and quads, namely that we only identify // dofs for any fe towards the most dominating one. however, @@ -664,35 +1463,20 @@ namespace internal vertex_dof_identities(dof_handler.get_fe_collection().size(), dof_handler.get_fe_collection().size()); - // first identify vertices we want to exclude from working on. - // specifically, these are the vertices of artificial and ghost - // cells because at the time when we get here, we do not yet - // know DoF indices on ghost cells (and we will never know - // them for artificial cells). this is, at least the case for - // parallel::distributed::Triangulations. - // - // this means that we will not unify DoF indices between locally - // owned cells and ghost cells, and this is different from what - // we would do if the triangulation were not split into subdomains. - // on the other hand, DoF unification is only an optimization: we - // will still record these identities when we compute hanging - // node constraints; we just end up with more DoFs than we would - // if we unified DoF indices also between locally owned and ghost - // cells, but we end up with a simpler algorithm in return. - std::vector include_vertex = - dof_handler.get_triangulation().get_used_vertices(); + // mark all vertices on ghost cells + std::vector include_vertex( + dof_handler.get_triangulation().n_vertices(), false); if (dynamic_cast< const parallel::distributed::Triangulation *>( &dof_handler.get_triangulation()) != nullptr) for (const auto &cell : dof_handler.active_cell_iterators()) - if (!cell->is_locally_owned()) + if (cell->is_ghost()) for (unsigned int v = 0; v < GeometryInfo::vertices_per_cell; ++v) - include_vertex[cell->vertex_index(v)] = false; + include_vertex[cell->vertex_index(v)] = true; - // loop over all vertices and see which one we need to work - // on + // loop over all vertices and see which one we need to work on for (unsigned int vertex_index = 0; vertex_index < dof_handler.get_triangulation().n_vertices(); ++vertex_index) @@ -703,6 +1487,7 @@ namespace internal const unsigned int n_active_fe_indices = dealii::internal::DoFAccessorImplementation::Implementation:: n_active_vertex_fe_indices(dof_handler, vertex_index); + if (n_active_fe_indices > 1) { const unsigned int first_fe_index = @@ -756,41 +1541,50 @@ namespace internal other_fe_index, identities[i].second); - Assert((dof_identities.find(higher_dof_index) == - dof_identities.end()) || - (dof_identities[higher_dof_index] == - lower_dof_index), - ExcInternalError()); - - dof_identities[higher_dof_index] = lower_dof_index; + // check if we are on an interface between + // a locally owned and a ghost cell on which + // we need to work on. + // + // all degrees of freedom belonging to + // dominating fe indices or to a processor with + // a higher rank have been set at this point + // (either in Phase 2, or after the first ghost + // exchange in Phase 5). thus, we only have to + // set the indices of degrees of freedom that + // have been previously flagged invalid. + if ((higher_dof_index == + numbers::invalid_dof_index) && + (lower_dof_index != numbers::invalid_dof_index)) + dealii::internal::DoFAccessorImplementation:: + Implementation::set_vertex_dof_index( + dof_handler, + vertex_index, + other_fe_index, + identities[i].second, + lower_dof_index); } } } } - - return dof_identities; } + /** - * Compute identities between DoFs located on lines. Called from - * distribute_dofs(). + * Merge invalid DoF indices on lines located on ghost interfaces + * by a dominating valid one. */ template - static std::map - compute_line_dof_identities(hp::DoFHandler<1, spacedim> &) - { - return std::map(); - } + static void merge_invalid_line_dofs_on_ghost_interfaces( + hp::DoFHandler<1, spacedim> &) + {} template - static std::map - compute_line_dof_identities(hp::DoFHandler &dof_handler) + static void + merge_invalid_line_dofs_on_ghost_interfaces( + hp::DoFHandler &dof_handler) { - std::map - dof_identities; - // we will mark lines that we have already treated, so first save and // clear the user flags on lines and later restore them std::vector user_flags; @@ -799,30 +1593,12 @@ namespace internal dof_handler.get_triangulation()) .clear_user_flags_line(); - // exclude lines that bound cells we don't locally own, because - // we do not have information about their dofs at this point. - // this is, at least the case for - // parallel::distributed::Triangulations. - // - // this means that we will not unify DoF indices between locally - // owned cells and ghost cells, and this is different from what - // we would do if the triangulation were not split into subdomains. - // on the other hand, DoF unification is only an optimization: we - // will still record these identities when we compute hanging - // node constraints; we just end up with more DoFs than we would - // if we unified DoF indices also between locally owned and ghost - // cells, but we end up with a simpler algorithm in return. - if (dynamic_cast< - const parallel::distributed::Triangulation *>( - &dof_handler.get_triangulation()) != nullptr) - for (typename hp::DoFHandler::active_cell_iterator - cell = dof_handler.begin_active(); - cell != dof_handler.end(); - ++cell) - if (cell->is_locally_owned() == false) - for (unsigned int l = 0; l < GeometryInfo::lines_per_cell; - ++l) - cell->line(l)->set_user_flag(); + // mark all lines on ghost cells + for (const auto &cell : dof_handler.active_cell_iterators()) + if (cell->is_ghost()) + for (unsigned int l = 0; l < GeometryInfo::lines_per_cell; + ++l) + cell->line(l)->set_user_flag(); // An implementation of the algorithm described in the hp paper, // including the modification mentioned later in the "complications in @@ -851,11 +1627,12 @@ namespace internal cell != dof_handler.end(); ++cell) for (unsigned int l = 0; l < GeometryInfo::lines_per_cell; ++l) - if (cell->line(l)->user_flag_set() == false) + if ((cell->is_locally_owned()) && + (cell->line(l)->user_flag_set() == true)) { const typename hp::DoFHandler::line_iterator line = cell->line(l); - line->set_user_flag(); + line->clear_user_flag(); unsigned int unique_sets_of_dofs = line->n_active_fe_indices(); @@ -872,22 +1649,6 @@ namespace internal fe_index_2 = line->nth_active_fe_index(g); - // as described in the hp paper, we only unify on lines - // when there are at most two different FE objects - // assigned on it. - // however, more than two 'active_fe_indices' can be - // attached that still fulfill the above criterion, - // i.e. when two different FiniteElement objects are - // assigned to neighboring cells that map their degrees - // of freedom one-to-one. - // we cannot verify with certainty if two dofs each of - // separate FiniteElement objects actually map - // one-to-one. however, checking for the number of - // 'dofs_per_line' turned out to be a reasonable - // approach, that also works for e.g. two different - // FE_Q objects of the same order, from which one is - // enhanced by a bubble function that is zero on the - // boundary. if ((dof_handler.get_fe(fe_index_1).dofs_per_line == dof_handler.get_fe(fe_index_2).dofs_per_line) && (dof_handler.get_fe(fe_index_1).dofs_per_line > 0)) @@ -940,35 +1701,26 @@ namespace internal slave_dof_index = line->dof_index(j, fe_index_2); - // if master dof was already - // constrained, constrain to that one, - // otherwise constrain slave to master - if (dof_identities.find( - master_dof_index) != - dof_identities.end()) - { - Assert(dof_identities.find( - dof_identities - [master_dof_index]) == - dof_identities.end(), - ExcInternalError()); - - dof_identities[slave_dof_index] = - dof_identities[master_dof_index]; - } - else - { - Assert((dof_identities.find( - master_dof_index) == - dof_identities.end()) || - (dof_identities - [slave_dof_index] == - master_dof_index), - ExcInternalError()); - - dof_identities[slave_dof_index] = - master_dof_index; - } + // check if we are on an interface + // between a locally owned and a ghost + // cell on which we need to work on. + // + // all degrees of freedom belonging to + // dominating fe_indices or to a + // processor with a higher rank have + // been set at this point (either in + // Phase 2, or after the first ghost + // exchange in Phase 5). thus, we only + // have to set the indices of degrees + // of freedom that have been previously + // flagged invalid. + if ((slave_dof_index == + numbers::invalid_dof_index) && + (master_dof_index != + numbers::invalid_dof_index)) + line->set_dof_index(j, + master_dof_index, + fe_index_2); } } } @@ -1034,15 +1786,25 @@ namespace internal line->dof_index(identities[i].second, other_fe_index); - Assert((dof_identities.find( - master_dof_index) == - dof_identities.end()) || - (dof_identities[slave_dof_index] == - master_dof_index), - ExcInternalError()); - - dof_identities[slave_dof_index] = - master_dof_index; + // check if we are on an interface between + // a locally owned and a ghost cell on which + // we need to work on. + // + // all degrees of freedom belonging to + // dominating fe indices or to a processor + // with a higher rank have been set at this + // point (either in Phase 2, or after the + // first ghost exchange in Phase 5). thus, + // we only have to set the indices of + // degrees of freedom that have been + // previously flagged invalid. + if ((slave_dof_index == + numbers::invalid_dof_index) && + (master_dof_index != + numbers::invalid_dof_index)) + line->set_dof_index(identities[i].second, + master_dof_index, + other_fe_index); } } } @@ -1053,39 +1815,32 @@ namespace internal const_cast &>( dof_handler.get_triangulation()) .load_user_flags_line(user_flags); - - return dof_identities; } /** - * Compute identities between DoFs located on quads. Called from - * distribute_dofs(). + * Merge invalid DoF indices on quads located on ghost interfaces + * by a dominating valid one. */ template - static std::map - compute_quad_dof_identities(hp::DoFHandler &) + static void + merge_invalid_quad_dofs_on_ghost_interfaces( + hp::DoFHandler &) { // this function should only be called for dim<3 where there are // no quad dof identies. for dim>=3, the specialization below should // take care of it Assert(dim < 3, ExcInternalError()); - - return std::map(); } template - static std::map - compute_quad_dof_identities(hp::DoFHandler<3, spacedim> &dof_handler) + static void merge_invalid_quad_dofs_on_ghost_interfaces( + hp::DoFHandler<3, spacedim> &dof_handler) { const int dim = 3; - std::map - dof_identities; - - // we will mark quads that we have already treated, so first // save and clear the user flags on quads and later restore // them @@ -1095,31 +1850,12 @@ namespace internal dof_handler.get_triangulation()) .clear_user_flags_quad(); - // exclude quads that bound cells we don't locally own, because - // we do not have information about their dofs at this point. - // this is, at least the case for - // parallel::distributed::Triangulations. - // - // this means that we will not unify DoF indices between locally - // owned cells and ghost cells, and this is different from what - // we would do if the triangulation were not split into subdomains. - // on the other hand, DoF unification is only an optimization: we - // will still record these identities when we compute hanging - // node constraints; we just end up with more DoFs than we would - // if we unified DoF indices also between locally owned and ghost - // cells, but we end up with a simpler algorithm in return. - if (dynamic_cast< - const parallel::distributed::Triangulation *>( - &dof_handler.get_triangulation()) != nullptr) - for (typename hp::DoFHandler::active_cell_iterator - cell = dof_handler.begin_active(); - cell != dof_handler.end(); - ++cell) - if (cell->is_locally_owned() == false) - for (unsigned int q = 0; q < GeometryInfo::quads_per_cell; - ++q) - cell->quad(q)->set_user_flag(); - + // mark all quads on ghost cells + for (const auto &cell : dof_handler.active_cell_iterators()) + if (cell->is_ghost()) + for (unsigned int q = 0; q < GeometryInfo::quads_per_cell; + ++q) + cell->quad(q)->set_user_flag(); // An implementation of the algorithm described in the hp // paper, including the modification mentioned later in the @@ -1140,12 +1876,13 @@ namespace internal cell != dof_handler.end(); ++cell) for (unsigned int q = 0; q < GeometryInfo::quads_per_cell; ++q) - if ((cell->quad(q)->user_flag_set() == false) && + if ((cell->is_locally_owned()) && + (cell->quad(q)->user_flag_set() == true) && (cell->quad(q)->n_active_fe_indices() == 2)) { const typename hp::DoFHandler::quad_iterator quad = cell->quad(q); - quad->set_user_flag(); + quad->clear_user_flag(); // find out which is the most dominating finite // element of the ones that are used on this quad @@ -1192,14 +1929,24 @@ namespace internal quad->dof_index(identities[i].second, other_fe_index); - Assert((dof_identities.find(master_dof_index) == - dof_identities.end()) || - (dof_identities[slave_dof_index] == - master_dof_index), - ExcInternalError()); - - dof_identities[slave_dof_index] = - master_dof_index; + // check if we are on an interface between + // a locally owned and a ghost cell on which + // we need to work on. + // + // all degrees of freedom belonging to + // dominating fe indices or to a processor with + // a higher rank have been set at this point + // (either in Phase 2, or after the first ghost + // exchange in Phase 5). thus, we only have to + // set the indices of degrees of freedom that + // have been previously flagged invalid. + if ((slave_dof_index == + numbers::invalid_dof_index) && + (master_dof_index != + numbers::invalid_dof_index)) + quad->set_dof_index(identities[i].second, + master_dof_index, + other_fe_index); } } } @@ -1209,59 +1956,47 @@ namespace internal const_cast &>( dof_handler.get_triangulation()) .load_user_flags_quad(user_flags); - - return dof_identities; } /** - * Once degrees of freedom have been distributed on all cells, see if - * we can identify DoFs on neighboring cells. This function does nothing - * on regular DoFHandlers, but goes through vertices, lines, and quads - * for hp::DoFHandler objects. + * After DoF unification in Phase 2, we may still have invalid DoF + * indices left on ghost interfaces that are dominated by a + * FiniteElement object of an adjacent cell, which could be either a + * ghost cell or locally owned, whose DoF indices we did not know at the + * moment of unification. After the first ghost exchange in Phase 5, we + * know the indices of all dominating DoFs, and we have to assign those + * invalid entries to their corresponding global value. * - * Return the final number of degrees of freedom, which is the old one - * minus however many were identified + * This function does nothing on regular DoFHandlers, but goes through + * vertices, lines, and quads for hp::DoFHandler objects. */ template - static unsigned int - unify_dof_indices(const DoFHandler &, - const unsigned int n_dofs_before_identification, - const bool) - { - return n_dofs_before_identification; - } - + static void + merge_invalid_dof_indices_on_ghost_interfaces( + const DoFHandler &) + {} template - static unsigned int - unify_dof_indices(hp::DoFHandler &dof_handler, - const unsigned int n_dofs_before_identification, - const bool check_validity) + static void + merge_invalid_dof_indices_on_ghost_interfaces( + hp::DoFHandler &dof_handler) { - // compute the constraints that correspond to unifying - // dof indices on vertices, lines, and quads. do so - // in parallel - std::map - all_constrained_indices[dim]; - { Threads::TaskGroup<> tasks; unsigned int i = 0; tasks += Threads::new_task([&, i]() { - all_constrained_indices[i] = - compute_vertex_dof_identities(dof_handler); + merge_invalid_vertex_dofs_on_ghost_interfaces(dof_handler); }); if (dim > 1) { ++i; tasks += Threads::new_task([&, i]() { - all_constrained_indices[i] = - compute_line_dof_identities(dof_handler); + merge_invalid_line_dofs_on_ghost_interfaces(dof_handler); }); } @@ -1269,66 +2004,14 @@ namespace internal { ++i; tasks += Threads::new_task([&, i]() { - all_constrained_indices[i] = - compute_quad_dof_identities(dof_handler); + merge_invalid_quad_dofs_on_ghost_interfaces(dof_handler); }); } tasks.join_all(); } - // create a vector that contains the new DoF indices; first preset the - // ones that are identities as determined above, then enumerate the - // rest - std::vector new_dof_indices( - n_dofs_before_identification, numbers::invalid_dof_index); - - for (const auto &constrained_dof_indices : all_constrained_indices) - for (const auto &p : constrained_dof_indices) - { - Assert(new_dof_indices[p.first] == numbers::invalid_dof_index, - ExcInternalError()); - new_dof_indices[p.first] = p.second; - } - - types::global_dof_index next_free_dof = 0; - for (types::global_dof_index i = 0; i < n_dofs_before_identification; - ++i) - if (new_dof_indices[i] == numbers::invalid_dof_index) - { - new_dof_indices[i] = next_free_dof; - ++next_free_dof; - } - - // then loop over all those that are constrained and record the - // new dof number for those: - for (const auto &constrained_dof_indices : all_constrained_indices) - for (const auto &p : constrained_dof_indices) - { - Assert(new_dof_indices[p.first] != numbers::invalid_dof_index, - ExcInternalError()); - - new_dof_indices[p.first] = new_dof_indices[p.second]; - } - - for (types::global_dof_index i = 0; i < n_dofs_before_identification; - ++i) - { - Assert(new_dof_indices[i] != numbers::invalid_dof_index, - ExcInternalError()); - Assert(new_dof_indices[i] < next_free_dof, ExcInternalError()); - } - - // finally, do the renumbering. verify that previous dof indices - // were indeed all valid on all cells that we touch if we were - // told to do so - renumber_dofs(new_dof_indices, - IndexSet(0), - dof_handler, - check_validity); - - - return next_free_dof; + update_all_active_cell_dof_indices_caches(dof_handler); } @@ -1363,18 +2046,6 @@ namespace internal cell, next_free_dof); - // Step 2: unify dof indices in case this is an hp DoFHandler - // - // during unification, we need to renumber DoF indices. there, - // we can check that all previous DoF indices were valid, but - // this only makes sense if we really distributed DoFs on - // all (non-artificial) cells above - next_free_dof = - unify_dof_indices(dof_handler, - next_free_dof, - /* check_validity = */ - (subdomain_id == numbers::invalid_subdomain_id)); - update_all_active_cell_dof_indices_caches(dof_handler); return next_free_dof; @@ -1382,6 +2053,47 @@ namespace internal + /** + * During DoF distribution, DoFs on ghost interfaces get different + * indices assigned by each adjacent subdomain. We need to clarify + * ownership of those DoFs by imposing a criterion, which is that + * the adjacent subdomain belonging to the processor of lowest rank + * prescribes its index. + * + * Thus, we have to invalidate all those DoFs on ghost cells that + * belong to processors of lower rank than the current one, which is + * the @p subdomain_id parameter. Later during ghost exchange in + * Phase 5, these values will be overwritten by the correct one. The + * invalidated indices will be stored in the @p renumbering parameter. + */ + template + static void + invalidate_dof_indices_on_weaker_ghost_cells_for_renumbering( + std::vector &renumbering, + const types::subdomain_id subdomain_id, + const DoFHandlerType & dof_handler) + { + std::vector local_dof_indices; + + for (auto cell : dof_handler.active_cell_iterators()) + if (cell->is_ghost() && (cell->subdomain_id() < subdomain_id)) + { + // we found a neighboring ghost cell whose subdomain + // is "stronger" than our own subdomain + + // delete all dofs that live there and that we have + // previously assigned a number to (i.e. the ones on + // the interface) + local_dof_indices.resize(cell->get_fe().dofs_per_cell); + cell->get_dof_indices(local_dof_indices); + for (auto &local_dof_index : local_dof_indices) + if (local_dof_index != numbers::invalid_dof_index) + renumbering[local_dof_index] = numbers::invalid_dof_index; + } + } + + + /* -------------- distribute_mg_dofs functionality ------------- */ @@ -2542,10 +3254,15 @@ namespace internal NumberCache Sequential::distribute_dofs() const { - const types::global_dof_index n_dofs = + const types::global_dof_index n_initial_dofs = Implementation::distribute_dofs(numbers::invalid_subdomain_id, *dof_handler); + const types::global_dof_index n_dofs = + Implementation::unify_dof_indices(*dof_handler, + n_initial_dofs, + /*check_validity=*/true); + // return a sequential, complete index set return NumberCache(n_dofs); } @@ -2597,7 +3314,7 @@ namespace internal Implementation::renumber_dofs(new_numbers, IndexSet(0), *dof_handler, - true); + /*check_validity=*/true); // return a sequential, complete index set. take into account that the // number of DoF indices may in fact be smaller than there were before @@ -2812,10 +3529,15 @@ namespace internal // first let the sequential algorithm do its magic. it is going to // enumerate DoFs on all cells, regardless of owner - const types::global_dof_index n_dofs = + const types::global_dof_index n_initial_dofs = Implementation::distribute_dofs(numbers::invalid_subdomain_id, *this->dof_handler); + const types::global_dof_index n_dofs = + Implementation::unify_dof_indices(*this->dof_handler, + n_initial_dofs, + /*check_validity=*/true); + // then re-enumerate them based on their subdomain association. // for this, we first have to identify for each current DoF // index which subdomain they belong to. ideally, we would @@ -2826,7 +3548,7 @@ namespace internal // well, whereas we here know what kind of triangulation // we have and can simplify the code accordingly std::vector new_dof_indices( - n_dofs, numbers::invalid_dof_index); + n_dofs, enumeration_dof_index); { // first get the association of each dof with a subdomain and // determine the total number of subdomain ids used @@ -2844,7 +3566,7 @@ namespace internal for (types::global_dof_index i = 0; i < n_dofs; ++i) if (subdomain_association[i] == subdomain) { - Assert(new_dof_indices[i] == numbers::invalid_dof_index, + Assert(new_dof_indices[i] == enumeration_dof_index, ExcInternalError()); new_dof_indices[i] = next_free_index; ++next_free_index; @@ -2854,7 +3576,7 @@ namespace internal Assert(next_free_index == n_dofs, ExcInternalError()); Assert(std::find(new_dof_indices.begin(), new_dof_indices.end(), - numbers::invalid_dof_index) == new_dof_indices.end(), + enumeration_dof_index) == new_dof_indices.end(), ExcInternalError()); } // finally do the renumbering. we can use the sequential @@ -2864,7 +3586,7 @@ namespace internal Implementation::renumber_dofs(new_dof_indices, IndexSet(0), *this->dof_handler, - true); + /*check_validity=*/true); // update the number cache. for this, we first have to find the // subdomain association for each DoF again following renumbering, from @@ -3273,7 +3995,7 @@ namespace internal Implementation::renumber_dofs(global_gathered_numbers, IndexSet(0), *this->dof_handler, - true); + /*check_validity=*/true); const NumberCache number_cache( DoFTools::locally_owned_dofs_per_subdomain(*this->dof_handler), @@ -4120,6 +4842,9 @@ namespace internal const unsigned int n_cpus = Utilities::MPI::n_mpi_processes(triangulation->get_communicator()); + const types::subdomain_id subdomain_id = + triangulation->locally_owned_subdomain(); + /* The following algorithm has a number of stages that are all @@ -4127,61 +4852,63 @@ namespace internal functionality: 1/ locally enumerate dofs on locally owned cells - 2/ un-numerate those that are on interfaces with ghost + 2/ eliminate dof duplicates on all cells. + un-numerate those that are on interfaces with ghost cells and that we don't own based on the tie-breaking - criterion; re-enumerate the remaining ones. the - end result are that we only enumerate locally owned + criterion. unify dofs afterwards. + 3/ unify dofs and re-enumerate the remaining valid ones. + the end result is that we only enumerate locally owned DoFs - 3/ shift indices so that each processor has a unique + 4/ shift indices so that each processor has a unique range of indices - 4/ for all locally owned cells that are ghost + 5/ for all locally owned cells that are ghost cells somewhere else, send our own DoF indices - to the appropriate set of other processors + to the appropriate set of other processors. + overwrite invalid DoF indices on ghost interfaces + with the corresponding valid ones that we now know. + 6/ send DoF indices again to get the correct indices + on ghost cells that we may not have known earlier */ // --------- Phase 1: enumerate dofs on locally owned cells - const dealii::types::global_dof_index n_initial_local_dofs = - Implementation::distribute_dofs( - triangulation->locally_owned_subdomain(), *dof_handler); - - // --------- Phase 2: un-numerate dofs on interfaces to ghost cells - // that we don't own; re-enumerate the remaining ones + const types::global_dof_index n_initial_local_dofs = + Implementation::distribute_dofs(subdomain_id, *dof_handler); - // start with the identity permutation of indices + // --------- Phase 2: eliminate dof duplicates on all cells: + // - un-numerate dofs on interfaces to ghost cells + // that we don't own + // - in case of hp::DoFHandler, unify dofs std::vector renumbering( - n_initial_local_dofs); - for (dealii::types::global_dof_index i = 0; i < renumbering.size(); ++i) - renumbering[i] = i; - - { - std::vector local_dof_indices; - - for (auto cell : dof_handler->active_cell_iterators()) - if (cell->is_ghost() && (cell->subdomain_id() < - triangulation->locally_owned_subdomain())) - { - // we found a neighboring ghost cell whose subdomain - // is "stronger" than our own subdomain - - // delete all dofs that live there and that we have - // previously assigned a number to (i.e. the ones on - // the interface) - local_dof_indices.resize(cell->get_fe().dofs_per_cell); - cell->get_dof_indices(local_dof_indices); - for (auto &local_dof_index : local_dof_indices) - if (local_dof_index != numbers::invalid_dof_index) - renumbering[local_dof_index] = numbers::invalid_dof_index; - } - } - - - // make the remaining indices consecutive - dealii::types::global_dof_index n_locally_owned_dofs = 0; - for (auto &new_index : renumbering) - if (new_index != numbers::invalid_dof_index) - new_index = n_locally_owned_dofs++; - - // --------- Phase 3: shift indices so that each processor has a unique + n_initial_local_dofs, enumeration_dof_index); + + // first, we invalidate degrees of freedom that belong to processors + // of a lower rank, from which we will receive the final (and lower) + // degrees of freedom later. + Implementation:: + invalidate_dof_indices_on_weaker_ghost_cells_for_renumbering( + renumbering, subdomain_id, *dof_handler); + + // then, we identify DoF duplicates if a hp::DoFHandler is used + std::vector> + all_constrained_indices(dim); + Implementation::compute_dof_identities(all_constrained_indices, + *dof_handler); + + // --------- Phase 3: re-enumerate the valid degrees of freedom + // consecutively. thus, we finally receive the + // correct number of locally owned DoFs after + // this step. + // + // the order in which we handle Phases 2 and 3 is important, + // since we want to clarify ownership of degrees of freedom before + // we actually unify and enumerate their indices. otherwise, we could + // end up having a degee of freedom to which only invalid indices will + // be assigned. + const types::global_dof_index n_locally_owned_dofs = + Implementation::enumerate_dof_indices_for_renumbering( + renumbering, all_constrained_indices, *dof_handler); + + // --------- Phase 4: shift indices so that each processor has a unique // range of indices std::vector n_locally_owned_dofs_per_processor(n_cpus); @@ -4199,8 +4926,10 @@ namespace internal const dealii::types::global_dof_index my_shift = std::accumulate(n_locally_owned_dofs_per_processor.begin(), n_locally_owned_dofs_per_processor.begin() + - triangulation->locally_owned_subdomain(), + subdomain_id, static_cast(0)); + + // make dof indices globally consecutive for (auto &new_index : renumbering) if (new_index != numbers::invalid_dof_index) new_index += my_shift; @@ -4211,7 +4940,7 @@ namespace internal Implementation::renumber_dofs(renumbering, IndexSet(0), *dof_handler, - false); + /*check_validity=*/false); // now a little bit of housekeeping const dealii::types::global_dof_index n_global_dofs = @@ -4253,7 +4982,7 @@ namespace internal // each processor. what is missing is communicating DoF indices // on ghost cells - // --------- Phase 4: for all locally owned cells that are ghost + // --------- Phase 5: for all locally owned cells that are ghost // cells somewhere else, send our own DoF indices // to the appropriate set of other processors { @@ -4300,6 +5029,18 @@ namespace internal triangulation->coarse_cell_to_p4est_tree_permutation, triangulation->p4est_tree_to_coarse_cell_permutation); + // in case of hp::DoFHandlers, we may have received valid + // indices of degrees of freedom that are dominated by a fe + // object adjacent to a ghost interface. + // thus, we overwrite the remaining invalid indices with + // the valid ones in this step. + Implementation::merge_invalid_dof_indices_on_ghost_interfaces( + *dof_handler); + + // --------- Phase 6: all locally owned cells have their correct + // DoF indices set. however, some ghost cells + // may still have invalid ones. thus, exchange + // one more time. communicate_dof_indices_on_marked_cells( *dof_handler, vertices_with_ghost_neighbors, @@ -4728,12 +5469,12 @@ namespace internal Implementation::renumber_dofs(new_numbers, dof_handler->locally_owned_dofs(), *dof_handler, - false); + /*check_validity=*/false); // communicate newly assigned DoF indices to other processors // and get the same information for our own ghost cells. // - // this is the same as phase 4 in the distribute_dofs() algorithm + // this is the same as phase 5 in the distribute_dofs() algorithm { std::vector user_flags; triangulation->save_user_flags(user_flags); diff --git a/tests/mpi/hp_unify_dof_indices_01.cc b/tests/mpi/hp_unify_dof_indices_01.cc index 317dc41a16..100bdea0c4 100644 --- a/tests/mpi/hp_unify_dof_indices_01.cc +++ b/tests/mpi/hp_unify_dof_indices_01.cc @@ -17,9 +17,8 @@ // have a 2x1 coarse mesh (or 2x1x1) and verify DoF indices in the hp // case with an FECollection that contains multiple copies of the same -// FE_Q(2) element. in the sequential case, the hp code will unify DoF -// indices on boundaries between locally owned subdomains, but in -// parallel, we don't do that +// FE_Q(2) element. the hp code will unify DoF indices on boundaries +// between all subdomains. #include @@ -86,6 +85,9 @@ test() deallog << i << ' '; deallog << std::endl; } + deallog << " n_locally_owned_dofs: " << dof_handler.n_locally_owned_dofs() + << std::endl; + deallog << " n_global_dofs: " << dof_handler.n_dofs() << std::endl; } diff --git a/tests/mpi/hp_unify_dof_indices_01.mpirun=1.output b/tests/mpi/hp_unify_dof_indices_01.mpirun=1.output index 5a2705a6c2..1ee64a3213 100644 --- a/tests/mpi/hp_unify_dof_indices_01.mpirun=1.output +++ b/tests/mpi/hp_unify_dof_indices_01.mpirun=1.output @@ -4,8 +4,12 @@ DEAL:0:2d:: Cell: 0.0 DEAL:0:2d:: 0 1 2 3 4 5 6 7 8 DEAL:0:2d:: Cell: 0.1 DEAL:0:2d:: 1 9 3 10 5 11 12 13 14 +DEAL:0:2d:: n_locally_owned_dofs: 15 +DEAL:0:2d:: n_global_dofs: 15 DEAL:0:3d::Processor: 0 DEAL:0:3d:: Cell: 0.0 DEAL:0:3d:: 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 DEAL:0:3d:: Cell: 0.1 DEAL:0:3d:: 1 27 3 28 5 29 7 30 9 31 32 33 13 34 35 36 17 37 19 38 21 39 40 41 42 43 44 +DEAL:0:3d:: n_locally_owned_dofs: 45 +DEAL:0:3d:: n_global_dofs: 45 diff --git a/tests/mpi/hp_unify_dof_indices_01.mpirun=2.output b/tests/mpi/hp_unify_dof_indices_01.mpirun=2.output index 23c890083e..1a7e6fb93f 100644 --- a/tests/mpi/hp_unify_dof_indices_01.mpirun=2.output +++ b/tests/mpi/hp_unify_dof_indices_01.mpirun=2.output @@ -3,21 +3,29 @@ DEAL:0:2d::Processor: 0 DEAL:0:2d:: Cell: 0.0 DEAL:0:2d:: 0 1 2 3 4 5 6 7 8 DEAL:0:2d:: Cell: 0.1 -DEAL:0:2d:: 9 10 11 12 13 14 15 16 17 +DEAL:0:2d:: 1 9 3 10 5 11 12 13 14 +DEAL:0:2d:: n_locally_owned_dofs: 9 +DEAL:0:2d:: n_global_dofs: 15 DEAL:0:3d::Processor: 0 DEAL:0:3d:: Cell: 0.0 DEAL:0:3d:: 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 DEAL:0:3d:: Cell: 0.1 -DEAL:0:3d:: 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 +DEAL:0:3d:: 1 27 3 28 5 29 7 30 9 31 32 33 13 34 35 36 17 37 19 38 21 39 40 41 42 43 44 +DEAL:0:3d:: n_locally_owned_dofs: 27 +DEAL:0:3d:: n_global_dofs: 45 DEAL:1:2d::Processor: 1 DEAL:1:2d:: Cell: 0.0 DEAL:1:2d:: 0 1 2 3 4 5 6 7 8 DEAL:1:2d:: Cell: 0.1 -DEAL:1:2d:: 9 10 11 12 13 14 15 16 17 +DEAL:1:2d:: 1 9 3 10 5 11 12 13 14 +DEAL:1:2d:: n_locally_owned_dofs: 6 +DEAL:1:2d:: n_global_dofs: 15 DEAL:1:3d::Processor: 1 DEAL:1:3d:: Cell: 0.0 DEAL:1:3d:: 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 DEAL:1:3d:: Cell: 0.1 -DEAL:1:3d:: 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 +DEAL:1:3d:: 1 27 3 28 5 29 7 30 9 31 32 33 13 34 35 36 17 37 19 38 21 39 40 41 42 43 44 +DEAL:1:3d:: n_locally_owned_dofs: 18 +DEAL:1:3d:: n_global_dofs: 45 diff --git a/tests/mpi/hp_unify_dof_indices_02.cc b/tests/mpi/hp_unify_dof_indices_02.cc new file mode 100644 index 0000000000..f2da85198f --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_02.cc @@ -0,0 +1,123 @@ +// --------------------------------------------------------------------- +// +// Copyright (C) 2017 by the deal.II authors +// +// This file is part of the deal.II library. +// +// The deal.II library is free software; you can use it, redistribute +// it, and/or modify it under the terms of the GNU Lesser General +// Public License as published by the Free Software Foundation; either +// version 2.1 of the License, or (at your option) any later version. +// The full text of the license can be found in the file LICENSE.md at +// the top level directory of deal.II. +// +// --------------------------------------------------------------------- + + + +// have a 2x2 coarse mesh (or 2x2x1) and verify DoF indices in the hp +// case with an FECollection that contains multiple copies of the same +// FE_Q(2) element. the hp code will unify DoF indices on boundaries +// between all subdomains. +// +// in this testcase, three FE objects are distributed on four cells, +// from which two, which are diagonally opposite, get the same +// active_fe_index assigned. + + +#include +#include + +#include + +#include + +#include +#include +#include +#include + +#include +#include + +#include + +#include "../tests.h" + + +template +void +test() +{ + parallel::distributed::Triangulation triangulation( + MPI_COMM_WORLD, Triangulation::limit_level_difference_at_vertices); + + std::vector reps(dim, 1U); + reps[0] = 2; + reps[1] = 2; + Point top_right; + for (unsigned int d = 0; d < dim; ++d) + top_right[d] = (d == 0 ? 2 : 1); + GridGenerator::subdivided_hyper_rectangle(triangulation, + reps, + Point(), + top_right); + Assert(triangulation.n_global_active_cells() == 4, ExcInternalError()); + Assert(triangulation.n_active_cells() == 4, ExcInternalError()); + + hp::FECollection fe; + fe.push_back(FE_Q(2)); + fe.push_back(FE_Q(2)); + fe.push_back(FE_Q(2)); + + hp::DoFHandler dof_handler(triangulation); + for (auto cell : dof_handler.active_cell_iterators()) + { + if (cell->is_locally_owned()) + { + if (cell->id().to_string() == "0_0:") + cell->set_active_fe_index(0); + if (cell->id().to_string() == "1_0:") + cell->set_active_fe_index(1); + if (cell->id().to_string() == "2_0:") + cell->set_active_fe_index(2); + if (cell->id().to_string() == "3_0:") + cell->set_active_fe_index(0); + } + } + dof_handler.distribute_dofs(fe); + + deallog << "Processor: " << Utilities::MPI::this_mpi_process(MPI_COMM_WORLD) + << std::endl; + for (auto cell : dof_handler.active_cell_iterators()) + { + deallog << " Cell: " << cell << std::endl; + + std::vector dof_indices( + cell->get_fe().dofs_per_cell); + cell->get_dof_indices(dof_indices); + deallog << " "; + for (auto i : dof_indices) + deallog << i << ' '; + deallog << std::endl; + } + deallog << " n_locally_owned_dofs: " << dof_handler.n_locally_owned_dofs() + << std::endl; + deallog << " n_global_dofs: " << dof_handler.n_dofs() << std::endl; +} + + +int +main(int argc, char *argv[]) +{ + Utilities::MPI::MPI_InitFinalize mpi_initialization(argc, argv, 1); + MPILogInitAll log; + + deallog.push("2d"); + test<2>(); + deallog.pop(); + + deallog.push("3d"); + test<3>(); + deallog.pop(); +} diff --git a/tests/mpi/hp_unify_dof_indices_02.mpirun=1.output b/tests/mpi/hp_unify_dof_indices_02.mpirun=1.output new file mode 100644 index 0000000000..5631527a96 --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_02.mpirun=1.output @@ -0,0 +1,23 @@ + +DEAL:0:2d::Processor: 0 +DEAL:0:2d:: Cell: 0.0 +DEAL:0:2d:: 0 1 2 3 4 5 6 7 8 +DEAL:0:2d:: Cell: 0.1 +DEAL:0:2d:: 1 9 3 19 5 10 11 12 13 +DEAL:0:2d:: Cell: 0.2 +DEAL:0:2d:: 2 3 14 20 15 16 7 17 18 +DEAL:0:2d:: Cell: 0.3 +DEAL:0:2d:: 3 19 20 21 16 22 12 23 24 +DEAL:0:2d:: n_locally_owned_dofs: 25 +DEAL:0:2d:: n_global_dofs: 25 +DEAL:0:3d::Processor: 0 +DEAL:0:3d:: Cell: 0.0 +DEAL:0:3d:: 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 +DEAL:0:3d:: Cell: 0.1 +DEAL:0:3d:: 1 27 3 53 5 28 7 56 9 29 30 61 13 31 32 65 17 33 19 67 21 34 35 36 37 38 39 +DEAL:0:3d:: Cell: 0.2 +DEAL:0:3d:: 2 3 40 54 6 7 41 57 42 59 11 43 44 63 15 45 18 19 46 68 47 48 23 49 50 51 52 +DEAL:0:3d:: Cell: 0.3 +DEAL:0:3d:: 3 53 54 55 7 56 57 58 59 60 61 62 63 64 65 66 19 67 68 69 48 70 36 71 72 73 74 +DEAL:0:3d:: n_locally_owned_dofs: 75 +DEAL:0:3d:: n_global_dofs: 75 diff --git a/tests/mpi/hp_unify_dof_indices_02.mpirun=2.output b/tests/mpi/hp_unify_dof_indices_02.mpirun=2.output new file mode 100644 index 0000000000..c8721102ca --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_02.mpirun=2.output @@ -0,0 +1,47 @@ + +DEAL:0:2d::Processor: 0 +DEAL:0:2d:: Cell: 0.0 +DEAL:0:2d:: 0 1 2 3 4 5 6 7 8 +DEAL:0:2d:: Cell: 0.1 +DEAL:0:2d:: 1 9 3 19 5 10 11 12 13 +DEAL:0:2d:: Cell: 0.2 +DEAL:0:2d:: 2 3 14 20 15 16 7 17 18 +DEAL:0:2d:: Cell: 0.3 +DEAL:0:2d:: 3 19 20 21 16 22 12 23 24 +DEAL:0:2d:: n_locally_owned_dofs: 14 +DEAL:0:2d:: n_global_dofs: 25 +DEAL:0:3d::Processor: 0 +DEAL:0:3d:: Cell: 0.0 +DEAL:0:3d:: 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 +DEAL:0:3d:: Cell: 0.1 +DEAL:0:3d:: 1 27 3 53 5 28 7 56 9 29 30 61 13 31 32 65 17 33 19 67 21 34 35 36 37 38 39 +DEAL:0:3d:: Cell: 0.2 +DEAL:0:3d:: 2 3 40 54 6 7 41 57 42 59 11 43 44 63 15 45 18 19 46 68 47 48 23 49 50 51 52 +DEAL:0:3d:: Cell: 0.3 +DEAL:0:3d:: 3 53 54 55 7 56 57 58 59 60 61 62 63 64 65 66 19 67 68 69 48 70 36 71 72 73 74 +DEAL:0:3d:: n_locally_owned_dofs: 40 +DEAL:0:3d:: n_global_dofs: 75 + +DEAL:1:2d::Processor: 1 +DEAL:1:2d:: Cell: 0.0 +DEAL:1:2d:: 0 1 2 3 4 5 6 7 8 +DEAL:1:2d:: Cell: 0.1 +DEAL:1:2d:: 1 9 3 19 5 10 11 12 13 +DEAL:1:2d:: Cell: 0.2 +DEAL:1:2d:: 2 3 14 20 15 16 7 17 18 +DEAL:1:2d:: Cell: 0.3 +DEAL:1:2d:: 3 19 20 21 16 22 12 23 24 +DEAL:1:2d:: n_locally_owned_dofs: 11 +DEAL:1:2d:: n_global_dofs: 25 +DEAL:1:3d::Processor: 1 +DEAL:1:3d:: Cell: 0.0 +DEAL:1:3d:: 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 +DEAL:1:3d:: Cell: 0.1 +DEAL:1:3d:: 1 27 3 53 5 28 7 56 9 29 30 61 13 31 32 65 17 33 19 67 21 34 35 36 37 38 39 +DEAL:1:3d:: Cell: 0.2 +DEAL:1:3d:: 2 3 40 54 6 7 41 57 42 59 11 43 44 63 15 45 18 19 46 68 47 48 23 49 50 51 52 +DEAL:1:3d:: Cell: 0.3 +DEAL:1:3d:: 3 53 54 55 7 56 57 58 59 60 61 62 63 64 65 66 19 67 68 69 48 70 36 71 72 73 74 +DEAL:1:3d:: n_locally_owned_dofs: 35 +DEAL:1:3d:: n_global_dofs: 75 + diff --git a/tests/mpi/hp_unify_dof_indices_03.cc b/tests/mpi/hp_unify_dof_indices_03.cc new file mode 100644 index 0000000000..2789e71f24 --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_03.cc @@ -0,0 +1,108 @@ +// --------------------------------------------------------------------- +// +// Copyright (C) 2017 by the deal.II authors +// +// This file is part of the deal.II library. +// +// The deal.II library is free software; you can use it, redistribute +// it, and/or modify it under the terms of the GNU Lesser General +// Public License as published by the Free Software Foundation; either +// version 2.1 of the License, or (at your option) any later version. +// The full text of the license can be found in the file LICENSE.md at +// the top level directory of deal.II. +// +// --------------------------------------------------------------------- + + + +// have a 2x2 coarse mesh (or 2x2x1) and verify DoF indices in the hp +// case with an FECollection that contains a FE_Q(4) and a FE_Q(2) element. +// the hp code will unify DoF indices on boundaries between all subdomains. +// +// in this testcase, each cell has a face neighbor with a different +// active_fe_index, which is either locally owned or a ghost cell. + + +#include +#include + +#include + +#include + +#include +#include +#include +#include + +#include +#include + +#include + +#include "../tests.h" + + +template +void +test() +{ + parallel::distributed::Triangulation triangulation( + MPI_COMM_WORLD, Triangulation::limit_level_difference_at_vertices); + + std::vector reps(dim, 1U); + reps[0] = 2; + reps[1] = 2; + Point top_right; + for (unsigned int d = 0; d < dim; ++d) + top_right[d] = (d == 0 ? 2 : 1); + GridGenerator::subdivided_hyper_rectangle(triangulation, + reps, + Point(), + top_right); + Assert(triangulation.n_global_active_cells() == 4, ExcInternalError()); + Assert(triangulation.n_active_cells() == 4, ExcInternalError()); + + hp::FECollection fe; + fe.push_back(FE_Q(4)); + fe.push_back(FE_Q(2)); + + hp::DoFHandler dof_handler(triangulation); + for (auto cell : dof_handler.active_cell_iterators()) + { + if (cell->is_locally_owned()) + { + if (cell->id().to_string() == "0_0:") + cell->set_active_fe_index(0); + if (cell->id().to_string() == "1_0:") + cell->set_active_fe_index(1); + if (cell->id().to_string() == "2_0:") + cell->set_active_fe_index(1); + if (cell->id().to_string() == "3_0:") + cell->set_active_fe_index(0); + } + } + dof_handler.distribute_dofs(fe); + + deallog << "Processor: " << Utilities::MPI::this_mpi_process(MPI_COMM_WORLD) + << std::endl; + deallog << " n_locally_owned_dofs: " << dof_handler.n_locally_owned_dofs() + << std::endl; + deallog << " n_global_dofs: " << dof_handler.n_dofs() << std::endl; +} + + +int +main(int argc, char *argv[]) +{ + Utilities::MPI::MPI_InitFinalize mpi_initialization(argc, argv, 1); + MPILogInitAll log; + + deallog.push("2d"); + test<2>(); + deallog.pop(); + + deallog.push("3d"); + test<3>(); + deallog.pop(); +} diff --git a/tests/mpi/hp_unify_dof_indices_03.mpirun=1.output b/tests/mpi/hp_unify_dof_indices_03.mpirun=1.output new file mode 100644 index 0000000000..8f70f2e150 --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_03.mpirun=1.output @@ -0,0 +1,7 @@ + +DEAL:0:2d::Processor: 0 +DEAL:0:2d:: n_locally_owned_dofs: 57 +DEAL:0:2d:: n_global_dofs: 57 +DEAL:0:3d::Processor: 0 +DEAL:0:3d:: n_locally_owned_dofs: 282 +DEAL:0:3d:: n_global_dofs: 282 diff --git a/tests/mpi/hp_unify_dof_indices_03.mpirun=2.output b/tests/mpi/hp_unify_dof_indices_03.mpirun=2.output new file mode 100644 index 0000000000..89f3a37cb3 --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_03.mpirun=2.output @@ -0,0 +1,15 @@ + +DEAL:0:2d::Processor: 0 +DEAL:0:2d:: n_locally_owned_dofs: 29 +DEAL:0:2d:: n_global_dofs: 57 +DEAL:0:3d::Processor: 0 +DEAL:0:3d:: n_locally_owned_dofs: 144 +DEAL:0:3d:: n_global_dofs:282 + +DEAL:1:2d::Processor: 1 +DEAL:1:2d:: n_locally_owned_dofs: 28 +DEAL:1:2d:: n_global_dofs: 57 +DEAL:1:3d::Processor: 1 +DEAL:1:3d:: n_locally_owned_dofs: 138 +DEAL:1:3d:: n_global_dofs: 282 + diff --git a/tests/mpi/hp_unify_dof_indices_04.cc b/tests/mpi/hp_unify_dof_indices_04.cc new file mode 100644 index 0000000000..798d79f220 --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_04.cc @@ -0,0 +1,109 @@ +// --------------------------------------------------------------------- +// +// Copyright (C) 2017 by the deal.II authors +// +// This file is part of the deal.II library. +// +// The deal.II library is free software; you can use it, redistribute +// it, and/or modify it under the terms of the GNU Lesser General +// Public License as published by the Free Software Foundation; either +// version 2.1 of the License, or (at your option) any later version. +// The full text of the license can be found in the file LICENSE.md at +// the top level directory of deal.II. +// +// --------------------------------------------------------------------- + + + +// have a 2x2 coarse mesh (or 2x2x1) and verify DoF indices in the hp +// case with an FECollection that contains a FE_Q(4) and a FE_Q(2) element. +// the hp code will unify DoF indices on boundaries between all subdomains. +// +// in this testcase, each cell has a face neighbor which is +// - locally owned with the same active_fe_index +// - a ghost cell with a different active_fe_index + + +#include +#include + +#include + +#include + +#include +#include +#include +#include + +#include +#include + +#include + +#include "../tests.h" + + +template +void +test() +{ + parallel::distributed::Triangulation triangulation( + MPI_COMM_WORLD, Triangulation::limit_level_difference_at_vertices); + + std::vector reps(dim, 1U); + reps[0] = 2; + reps[1] = 2; + Point top_right; + for (unsigned int d = 0; d < dim; ++d) + top_right[d] = (d == 0 ? 2 : 1); + GridGenerator::subdivided_hyper_rectangle(triangulation, + reps, + Point(), + top_right); + Assert(triangulation.n_global_active_cells() == 4, ExcInternalError()); + Assert(triangulation.n_active_cells() == 4, ExcInternalError()); + + hp::FECollection fe; + fe.push_back(FE_Q(4)); + fe.push_back(FE_Q(2)); + + hp::DoFHandler dof_handler(triangulation); + for (auto cell : dof_handler.active_cell_iterators()) + { + if (cell->is_locally_owned()) + { + if (cell->id().to_string() == "0_0:") + cell->set_active_fe_index(0); + if (cell->id().to_string() == "1_0:") + cell->set_active_fe_index(0); + if (cell->id().to_string() == "2_0:") + cell->set_active_fe_index(1); + if (cell->id().to_string() == "3_0:") + cell->set_active_fe_index(1); + } + } + dof_handler.distribute_dofs(fe); + + deallog << "Processor: " << Utilities::MPI::this_mpi_process(MPI_COMM_WORLD) + << std::endl; + deallog << " n_locally_owned_dofs: " << dof_handler.n_locally_owned_dofs() + << std::endl; + deallog << " n_global_dofs: " << dof_handler.n_dofs() << std::endl; +} + + +int +main(int argc, char *argv[]) +{ + Utilities::MPI::MPI_InitFinalize mpi_initialization(argc, argv, 1); + MPILogInitAll log; + + deallog.push("2d"); + test<2>(); + deallog.pop(); + + deallog.push("3d"); + test<3>(); + deallog.pop(); +} diff --git a/tests/mpi/hp_unify_dof_indices_04.mpirun=1.output b/tests/mpi/hp_unify_dof_indices_04.mpirun=1.output new file mode 100644 index 0000000000..645895d597 --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_04.mpirun=1.output @@ -0,0 +1,7 @@ + +DEAL:0:2d::Processor: 0 +DEAL:0:2d:: n_locally_owned_dofs: 55 +DEAL:0:2d:: n_global_dofs: 55 +DEAL:0:3d::Processor: 0 +DEAL:0:3d:: n_locally_owned_dofs: 262 +DEAL:0:3d:: n_global_dofs: 262 diff --git a/tests/mpi/hp_unify_dof_indices_04.mpirun=2.output b/tests/mpi/hp_unify_dof_indices_04.mpirun=2.output new file mode 100644 index 0000000000..7a30c99061 --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_04.mpirun=2.output @@ -0,0 +1,15 @@ + +DEAL:0:2d::Processor: 0 +DEAL:0:2d:: n_locally_owned_dofs: 43 +DEAL:0:2d:: n_global_dofs: 55 +DEAL:0:3d::Processor: 0 +DEAL:0:3d:: n_locally_owned_dofs: 223 +DEAL:0:3d:: n_global_dofs: 262 + +DEAL:1:2d::Processor: 1 +DEAL:1:2d:: n_locally_owned_dofs: 12 +DEAL:1:2d:: n_global_dofs: 55 +DEAL:1:3d::Processor: 1 +DEAL:1:3d:: n_locally_owned_dofs: 39 +DEAL:1:3d:: n_global_dofs: 262 + diff --git a/tests/mpi/hp_unify_dof_indices_05.cc b/tests/mpi/hp_unify_dof_indices_05.cc new file mode 100644 index 0000000000..60360cec43 --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_05.cc @@ -0,0 +1,109 @@ +// --------------------------------------------------------------------- +// +// Copyright (C) 2017 by the deal.II authors +// +// This file is part of the deal.II library. +// +// The deal.II library is free software; you can use it, redistribute +// it, and/or modify it under the terms of the GNU Lesser General +// Public License as published by the Free Software Foundation; either +// version 2.1 of the License, or (at your option) any later version. +// The full text of the license can be found in the file LICENSE.md at +// the top level directory of deal.II. +// +// --------------------------------------------------------------------- + + + +// have a 2x2 coarse mesh (or 2x2x1) and verify DoF indices in the hp +// case with an FECollection that contains a FE_Q(4) and a FE_Q(2) element. +// the hp code will unify DoF indices on boundaries between all subdomains. +// +// in this testcase, each cell has a face neighbor which is +// - locally owned with a different active_fe_index +// - a ghost cell with the same active_fe_index + + +#include +#include + +#include + +#include + +#include +#include +#include +#include + +#include +#include + +#include + +#include "../tests.h" + + +template +void +test() +{ + parallel::distributed::Triangulation triangulation( + MPI_COMM_WORLD, Triangulation::limit_level_difference_at_vertices); + + std::vector reps(dim, 1U); + reps[0] = 2; + reps[1] = 2; + Point top_right; + for (unsigned int d = 0; d < dim; ++d) + top_right[d] = (d == 0 ? 2 : 1); + GridGenerator::subdivided_hyper_rectangle(triangulation, + reps, + Point(), + top_right); + Assert(triangulation.n_global_active_cells() == 4, ExcInternalError()); + Assert(triangulation.n_active_cells() == 4, ExcInternalError()); + + hp::FECollection fe; + fe.push_back(FE_Q(4)); + fe.push_back(FE_Q(2)); + + hp::DoFHandler dof_handler(triangulation); + for (auto cell : dof_handler.active_cell_iterators()) + { + if (cell->is_locally_owned()) + { + if (cell->id().to_string() == "0_0:") + cell->set_active_fe_index(0); + if (cell->id().to_string() == "1_0:") + cell->set_active_fe_index(1); + if (cell->id().to_string() == "2_0:") + cell->set_active_fe_index(0); + if (cell->id().to_string() == "3_0:") + cell->set_active_fe_index(1); + } + } + dof_handler.distribute_dofs(fe); + + deallog << "Processor: " << Utilities::MPI::this_mpi_process(MPI_COMM_WORLD) + << std::endl; + deallog << " n_locally_owned_dofs: " << dof_handler.n_locally_owned_dofs() + << std::endl; + deallog << " n_global_dofs: " << dof_handler.n_dofs() << std::endl; +} + + +int +main(int argc, char *argv[]) +{ + Utilities::MPI::MPI_InitFinalize mpi_initialization(argc, argv, 1); + MPILogInitAll log; + + deallog.push("2d"); + test<2>(); + deallog.pop(); + + deallog.push("3d"); + test<3>(); + deallog.pop(); +} diff --git a/tests/mpi/hp_unify_dof_indices_05.mpirun=1.output b/tests/mpi/hp_unify_dof_indices_05.mpirun=1.output new file mode 100644 index 0000000000..645895d597 --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_05.mpirun=1.output @@ -0,0 +1,7 @@ + +DEAL:0:2d::Processor: 0 +DEAL:0:2d:: n_locally_owned_dofs: 55 +DEAL:0:2d:: n_global_dofs: 55 +DEAL:0:3d::Processor: 0 +DEAL:0:3d:: n_locally_owned_dofs: 262 +DEAL:0:3d:: n_global_dofs: 262 diff --git a/tests/mpi/hp_unify_dof_indices_05.mpirun=2.output b/tests/mpi/hp_unify_dof_indices_05.mpirun=2.output new file mode 100644 index 0000000000..d9bb94c1fb --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_05.mpirun=2.output @@ -0,0 +1,15 @@ + +DEAL:0:2d::Processor: 0 +DEAL:0:2d:: n_locally_owned_dofs: 31 +DEAL:0:2d:: n_global_dofs: 55 +DEAL:0:3d::Processor: 0 +DEAL:0:3d:: n_locally_owned_dofs: 147 +DEAL:0:3d:: n_global_dofs: 262 + +DEAL:1:2d::Processor: 1 +DEAL:1:2d:: n_locally_owned_dofs: 24 +DEAL:1:2d:: n_global_dofs: 55 +DEAL:1:3d::Processor: 1 +DEAL:1:3d:: n_locally_owned_dofs: 115 +DEAL:1:3d:: n_global_dofs: 262 + diff --git a/tests/mpi/hp_unify_dof_indices_06.cc b/tests/mpi/hp_unify_dof_indices_06.cc new file mode 100644 index 0000000000..e71891d80d --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_06.cc @@ -0,0 +1,110 @@ +// --------------------------------------------------------------------- +// +// Copyright (C) 2017 by the deal.II authors +// +// This file is part of the deal.II library. +// +// The deal.II library is free software; you can use it, redistribute +// it, and/or modify it under the terms of the GNU Lesser General +// Public License as published by the Free Software Foundation; either +// version 2.1 of the License, or (at your option) any later version. +// The full text of the license can be found in the file LICENSE.md at +// the top level directory of deal.II. +// +// --------------------------------------------------------------------- + + + +// have a 2x2 coarse mesh (or 2x2x1) and verify DoF indices in the hp +// case with an FECollection that contains multiple copies of the same +// FE_Q(2) element. the hp code will unify DoF indices on boundaries +// between all subdomains. +// +// in this testcase, the dominating FE object is located on a cell +// owned by a processor of low rank (in case of n_cpus > 1). + + +#include +#include + +#include + +#include + +#include +#include +#include +#include + +#include +#include + +#include + +#include "../tests.h" + + +template +void +test() +{ + parallel::distributed::Triangulation triangulation( + MPI_COMM_WORLD, Triangulation::limit_level_difference_at_vertices); + + std::vector reps(dim, 1U); + reps[0] = 2; + reps[1] = 2; + Point top_right; + for (unsigned int d = 0; d < dim; ++d) + top_right[d] = (d == 0 ? 2 : 1); + GridGenerator::subdivided_hyper_rectangle(triangulation, + reps, + Point(), + top_right); + Assert(triangulation.n_global_active_cells() == 4, ExcInternalError()); + Assert(triangulation.n_active_cells() == 4, ExcInternalError()); + + hp::FECollection fe; + fe.push_back(FE_Q(4)); + fe.push_back(FE_Q(2)); + + + hp::DoFHandler dof_handler(triangulation); + for (auto cell : dof_handler.active_cell_iterators()) + { + if (cell->is_locally_owned()) + { + if (cell->id().to_string() == "0_0:") + cell->set_active_fe_index(0); + if (cell->id().to_string() == "1_0:") + cell->set_active_fe_index(0); + if (cell->id().to_string() == "2_0:") + cell->set_active_fe_index(1); + if (cell->id().to_string() == "3_0:") + cell->set_active_fe_index(0); + } + } + dof_handler.distribute_dofs(fe); + + deallog << "Processor: " << Utilities::MPI::this_mpi_process(MPI_COMM_WORLD) + << std::endl; + deallog << " n_locally_owned_dofs: " << dof_handler.n_locally_owned_dofs() + << std::endl; + deallog << " n_global_dofs: " << dof_handler.n_dofs() << std::endl; +} + + +int +main(int argc, char *argv[]) +{ + Utilities::MPI::MPI_InitFinalize mpi_initialization(argc, argv, 1); + MPILogInitAll log; + + deallog.push("2d"); + test<2>(); + deallog.pop(); + + deallog.push("3d"); + test<3>(); + deallog.pop(); +} diff --git a/tests/mpi/hp_unify_dof_indices_06.mpirun=1.output b/tests/mpi/hp_unify_dof_indices_06.mpirun=1.output new file mode 100644 index 0000000000..8872e4f21d --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_06.mpirun=1.output @@ -0,0 +1,7 @@ + +DEAL:0:2d::Processor: 0 +DEAL:0:2d:: n_locally_owned_dofs: 69 +DEAL:0:2d:: n_global_dofs: 69 +DEAL:0:3d::Processor: 0 +DEAL:0:3d:: n_locally_owned_dofs: 344 +DEAL:0:3d:: n_global_dofs: 344 diff --git a/tests/mpi/hp_unify_dof_indices_06.mpirun=2.output b/tests/mpi/hp_unify_dof_indices_06.mpirun=2.output new file mode 100644 index 0000000000..40ccf9aa8b --- /dev/null +++ b/tests/mpi/hp_unify_dof_indices_06.mpirun=2.output @@ -0,0 +1,15 @@ + +DEAL:0:2d::Processor: 0 +DEAL:0:2d:: n_locally_owned_dofs: 44 +DEAL:0:2d:: n_global_dofs: 69 +DEAL:0:3d::Processor: 0 +DEAL:0:3d:: n_locally_owned_dofs: 224 +DEAL:0:3d:: n_global_dofs: 344 + +DEAL:1:2d::Processor: 1 +DEAL:1:2d:: n_locally_owned_dofs: 25 +DEAL:1:2d:: n_global_dofs: 69 +DEAL:1:3d::Processor: 1 +DEAL:1:3d:: n_locally_owned_dofs: 120 +DEAL:1:3d:: n_global_dofs: 344 +