From: Martin Kronbichler Date: Fri, 13 Oct 2023 18:18:56 +0000 (+0200) Subject: AffineConstraints::close(): Simplify combination of constraints X-Git-Tag: relicensing~392^2 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=refs%2Fpull%2F16136%2Fhead;p=dealii.git AffineConstraints::close(): Simplify combination of constraints --- diff --git a/include/deal.II/lac/affine_constraints.templates.h b/include/deal.II/lac/affine_constraints.templates.h index 75bf4a9506..3cc940ff66 100644 --- a/include/deal.II/lac/affine_constraints.templates.h +++ b/include/deal.II/lac/affine_constraints.templates.h @@ -782,10 +782,8 @@ AffineConstraints::close() #ifdef DEBUG size_type iteration = 0; #endif - bool chained_constraint_replaced = false; - std::vector line_finalized(lines.size(), false); - std::vector sub_constraints; - std::vector entries_to_delete; + bool chained_constraint_replaced = false; + std::vector line_finalized(lines.size(), false); do { chained_constraint_replaced = false; @@ -805,128 +803,112 @@ AffineConstraints::close() // have appended in this go around) and see whether they are // further constrained. ignore elements that we don't store on // the current processor. - // - // If we find that one of the entries in the current line is indeed - // constrained, then store the address of the line it corresponds to - // for further processing; this avoids having to look it up again, - // which requires an IndexSet lookup. If not, store a nullptr. - sub_constraints.resize(line.entries.size()); - bool has_sub_constraints = false; - for (unsigned int entry = 0; entry < line.entries.size(); ++entry) - if (((local_lines.size() == 0) || - (local_lines.is_element(line.entries[entry].first))) && - is_constrained(line.entries[entry].first)) - { - const size_type dof_index = line.entries[entry].first; - sub_constraints[entry] = - &lines[lines_cache[calculate_line_index(dof_index)]]; - has_sub_constraints = true; - } - else - sub_constraints[entry] = nullptr; - - // If none of the entries in the current line refer to DoFs that are - // themselves constrained, then we can move on: - if (has_sub_constraints == false) - { - line_finalized[line_index] = true; - continue; - } - - // Now walk through the original entries. We may replace some of - // them, and we may add some, but we only walk through the original - // entries (and also don't touch the replacements) even though in - // principle we could also do the ones we have added or replaced. We - // don't because we don't have information for those in the - // sub_constraints array above. But there is no harm in doing so: - // we will simply treat those in the next round around of the outer - // iteration. - // - // Since we want to delete some entries (see below) but don't want - // to disturb the order of the correspondence between lines.entries - // and sub_constraints, we store up which entries we will later - // have to delete. - const unsigned int n_original_entries = line.entries.size(); - entries_to_delete.clear(); + const unsigned int n_original_entries = line.entries.size(); + bool has_sub_constraints = false; + const size_type lines_cache_size = lines_cache.size(); for (unsigned int entry = 0; entry < n_original_entries; ++entry) - if (sub_constraints[entry] != nullptr) - { - // ok, this entry is further constrained: - chained_constraint_replaced = true; - - // look up the chain of constraints for this entry - [[maybe_unused]] const size_type dof_index = - line.entries[entry].first; - const number weight = line.entries[entry].second; - - Assert(dof_index != line.index, - ExcMessage("Cycle in constraints detected!")); + { + const size_type dof_index = + calculate_line_index(line.entries[entry].first); - const ConstraintLine &constrained_line = - *sub_constraints[entry]; - Assert(constrained_line.index == dof_index, - ExcInternalError()); + if (dof_index < lines_cache_size && + lines_cache[dof_index] != numbers::invalid_size_type) + { + // Now we found an index that is further constrained, so + // we need to resolve the entries. We may replace some of + // them, and we may add some, but we only walk through the + // original entries (and also don't touch the + // replacements) even though in principle we could also do + // the ones we have added or replaced. There is no harm in + // doing so: we will simply treat those in the next round + // around of the outer iteration. + has_sub_constraints = true; + + const number weight = line.entries[entry].second; + Assert(line.entries[entry].first != line.index, + ExcMessage("Cycle in constraints detected!")); + + const ConstraintLine &constrained_line = + lines[lines_cache[dof_index]]; + Assert(constrained_line.index == line.entries[entry].first, + ExcInternalError()); + + // now we have to replace an entry by its expansion. we do + // that by overwriting the entry by the first entry of the + // expansion and adding the remaining ones to the end, + // where we will later process them once more + // + // we can of course only do that if the DoF that we are + // currently handling is constrained by a linear combination + // of other dofs: + if (constrained_line.entries.size() > 0) + { + for (size_type i = 0; + i < constrained_line.entries.size(); + ++i) + Assert(line.entries[entry].first != + constrained_line.entries[i].first, + ExcMessage("Cycle in constraints detected!")); + + // replace first entry, then tack the rest to the end + // of the list + line.entries[entry] = std::pair( + constrained_line.entries[0].first, + constrained_line.entries[0].second * weight); + + for (size_type i = 1; + i < constrained_line.entries.size(); + ++i) + line.entries.emplace_back( + constrained_line.entries[i].first, + constrained_line.entries[i].second * weight); - // now we have to replace an entry by its expansion. we do - // that by overwriting the entry by the first entry of the - // expansion and adding the remaining ones to the end, - // where we will later process them once more - // - // we can of course only do that if the DoF that we are - // currently handling is constrained by a linear combination - // of other dofs: - if (constrained_line.entries.size() > 0) - { - for (size_type i = 0; i < constrained_line.entries.size(); - ++i) - Assert(dof_index != constrained_line.entries[i].first, +#ifdef DEBUG + // keep track of how many entries we replace in this + // line. If we do more than there are constraints or + // dofs in our system, we must have a cycle. + ++n_replacements; + Assert(n_replacements / 2 < largest_idx, ExcMessage("Cycle in constraints detected!")); +#endif + } + else + // the DoF that we encountered is not constrained by a + // linear combination of other dofs but is equal to just + // the inhomogeneity (i.e. its chain of entries is + // empty). in that case, we can't just overwrite the + // current entry, but we have to actually eliminate + // it. we do not want to change the loop length above we + // do so by setting the 'first' entry to + // invalid_size_type here to finally remove entries in a + // second loop + { + line.entries[entry].first = numbers::invalid_size_type; + } - // replace first entry, then tack the rest to the end - // of the list - line.entries[entry] = std::pair( - constrained_line.entries[0].first, - constrained_line.entries[0].second * weight); + line.inhomogeneity += + constrained_line.inhomogeneity * weight; + } + } - for (size_type i = 1; i < constrained_line.entries.size(); - ++i) - line.entries.emplace_back( - constrained_line.entries[i].first, - constrained_line.entries[i].second * weight); + // If none of the entries in the current line refer to DoFs that are + // themselves constrained, then we can move on: + if (has_sub_constraints == false) + line_finalized[line_index] = true; + else + { + chained_constraint_replaced = true; -#ifdef DEBUG - // keep track of how many entries we replace in this - // line. If we do more than there are constraints or - // dofs in our system, we must have a cycle. - ++n_replacements; - Assert(n_replacements / 2 < largest_idx, - ExcMessage("Cycle in constraints detected!")); -#endif - } - else - // the DoF that we encountered is not constrained by a - // linear combination of other dofs but is equal to just - // the inhomogeneity (i.e. its chain of entries is - // empty). in that case, we can't just overwrite the - // current entry, but we have to actually eliminate it + // Now delete the elements we have marked for deletion. + auto remaining_entries = line.entries.begin(); + for (const auto &entry : line.entries) + if (entry.first != numbers::invalid_size_type) { - entries_to_delete.emplace_back(entry); + *remaining_entries = entry; + ++remaining_entries; } - - line.inhomogeneity += constrained_line.inhomogeneity * weight; - } - - // Now delete the elements we have marked for deletion. Do - // so in reverse order so that we compress the array walking - // backward from the end without having to keep track that - // we have already erased earlier elements (as we would have to - // do if we walked the list of entries to delete in forward - // order). - std::sort(entries_to_delete.begin(), entries_to_delete.end()); - for (auto it = entries_to_delete.rbegin(); - it != entries_to_delete.rend(); - ++it) - line.entries.erase(line.entries.begin() + *it); + line.entries.erase(remaining_entries, line.entries.end()); + } } #ifdef DEBUG