From: Giovanni Alzetta Date: Wed, 20 Feb 2019 15:49:07 +0000 (+0100) Subject: GridTools::compute_point_locations uses rtrees for cell search, uses try/catch only... X-Git-Tag: v9.1.0-rc1~83^2 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=refs%2Fpull%2F7743%2Fhead;p=dealii.git GridTools::compute_point_locations uses rtrees for cell search, uses try/catch only when necessary. --- diff --git a/include/deal.II/grid/grid_tools.h b/include/deal.II/grid/grid_tools.h index 00e434cc3a..c179c01a6a 100644 --- a/include/deal.II/grid/grid_tools.h +++ b/include/deal.II/grid/grid_tools.h @@ -737,6 +737,11 @@ namespace GridTools * The type is abbreviated in the online documentation to improve readability * of this page. * + * @note This function optimizes the search by making use of + * GridTools::Cache::get_cell_bounding_boxes_rtree(), which either returns + * a cached rtree or builds and stores one. Building an rtree might hinder + * the performance if the function is called only once on few points. + * * @author Giovanni Alzetta, 2017 */ template @@ -775,6 +780,11 @@ namespace GridTools * > * @endcode * + * @note This function optimizes the search by making use of + * GridTools::Cache::get_cell_bounding_boxes_rtree(), which either returns + * a cached rtree or builds and stores one. Building an rtree might hinder + * the performance if the function is called only once on few points. + * * For a more detailed documentation see * GridTools::compute_point_locations(). */ diff --git a/source/grid/grid_tools.cc b/source/grid/grid_tools.cc index 58d12d3a94..a84d0cc366 100644 --- a/source/grid/grid_tools.cc +++ b/source/grid/grid_tools.cc @@ -4231,19 +4231,23 @@ namespace GridTools &cell_hint) { // How many points are here? - const unsigned int np = points.size(); - std::vector points_outside; + const unsigned int np = points.size(); - std::tuple< - std::vector::active_cell_iterator>, - std::vector>>, - std::vector>, - std::vector> - cell_qpoint_map; + std::vector::active_cell_iterator> + cells_out; + std::vector>> qpoints_out; + std::vector> maps_out; + std::vector missing_points_out; // Now the easy case. if (np == 0) - return cell_qpoint_map; + return std::make_tuple(std::move(cells_out), + std::move(qpoints_out), + std::move(maps_out), + std::move(missing_points_out)); + + // For the search we shall use the following tree + const auto &b_tree = cache.get_cell_bounding_boxes_rtree(); // We begin by finding the cell/transform of the first point std::pair::active_cell_iterator, @@ -4252,6 +4256,8 @@ namespace GridTools bool found = false; unsigned int points_checked = 0; + + // If a hint cell was given, use it if (cell_hint.state() == IteratorState::valid) { try @@ -4263,25 +4269,99 @@ namespace GridTools } catch (const GridTools::ExcPointNotFound &) { - points_outside.emplace_back(0); + missing_points_out.emplace_back(0); } ++points_checked; } + // The tree search returns + // - a bounding box covering the cell + // - the active cell iterator + std::vector< + std::pair, + typename Triangulation::active_cell_iterator>> + box_cell; + + // This is used as an index for box_cell + int cell_candidate_idx = -1; + // If any of the cells in box_cell is a ghost cell, + // an artificial cell or at the boundary, + // we want to use try/catch + bool use_try = false; while (!found && points_checked < np) { - try + box_cell.clear(); + b_tree.query(boost::geometry::index::intersects(points[points_checked]), + std::back_inserter(box_cell)); + + // Checking box_cell result for a suitable candidate + cell_candidate_idx = -1; + for (unsigned int i = 0; i < box_cell.size(); ++i) { - my_pair = - GridTools::find_active_cell_around_point(cache, - points[points_checked]); - found = true; + // As a candidate we don't want artificial cells + if (!box_cell[i].second->is_artificial()) + cell_candidate_idx = i; + + // If the cell is not locally owned or at boundary + // we check for exceptions + if (cell_candidate_idx != -1 && + (!box_cell[i].second->is_locally_owned() || + box_cell[i].second->at_boundary())) + use_try = true; + + + if (cell_candidate_idx != -1) + break; } - catch (const GridTools::ExcPointNotFound &) + + // If a suitable cell was found, use it as hint + if (cell_candidate_idx != -1) + { + if (use_try) + { + try + { + my_pair = GridTools::find_active_cell_around_point( + cache, + points[points_checked], + box_cell[cell_candidate_idx].second); + found = true; + } + catch (const GridTools::ExcPointNotFound &) + { + missing_points_out.emplace_back(points_checked); + } + } + else + { + my_pair = GridTools::find_active_cell_around_point( + cache, + points[points_checked], + box_cell[cell_candidate_idx].second); + found = true; + } + } + else { - points_outside.emplace_back(points_checked); + try + { + my_pair = GridTools::find_active_cell_around_point( + cache, points[points_checked]); + // If we arrive here the cell was not among + // the candidates returned by the tree, so we're adding it + // by hand + found = true; + cell_candidate_idx = box_cell.size(); + box_cell.push_back( + std::make_pair(my_pair.first->bounding_box(), my_pair.first)); + } + catch (const GridTools::ExcPointNotFound &) + { + missing_points_out.emplace_back(points_checked); + } } + // Updating the position of the analyzed points ++points_checked; } @@ -4289,93 +4369,167 @@ namespace GridTools // If the point has been found in a cell, adding it if (found) { - std::get<0>(cell_qpoint_map).emplace_back(my_pair.first); - std::get<1>(cell_qpoint_map).emplace_back(1, my_pair.second); - std::get<2>(cell_qpoint_map).emplace_back(1, points_checked - 1); + cells_out.emplace_back(my_pair.first); + qpoints_out.emplace_back(1, my_pair.second); + maps_out.emplace_back(1, points_checked - 1); } // Now the second easy case. - if (np == points_outside.size()) - return cell_qpoint_map; - // Computing the cell center and diameter - Point cell_center = std::get<0>(cell_qpoint_map)[0]->center(); - double cell_diameter = std::get<0>(cell_qpoint_map)[0]->diameter() * - (0.5 + std::numeric_limits::epsilon()); + if (np == qpoints_out.size()) + return std::make_tuple(std::move(cells_out), + std::move(qpoints_out), + std::move(maps_out), + std::move(missing_points_out)); // Cycle over all points left for (unsigned int p = points_checked; p < np; ++p) { - // Checking if the point is close to the cell center, in which - // case calling find active cell with a cell hint - try + // We assume the last used cell contains the point: checking it + if (cell_candidate_idx != -1) + if (!box_cell[cell_candidate_idx].first.point_inside(points[p])) + // Point ouside candidate cell: we have no candidate + cell_candidate_idx = -1; + + // If there's no candidate, run a tree search + if (cell_candidate_idx == -1) { - if (cell_center.distance(points[p]) < cell_diameter) - my_pair = GridTools::find_active_cell_around_point( - cache, points[p], std::get<0>(cell_qpoint_map).back()); - else - my_pair = - GridTools::find_active_cell_around_point(cache, points[p]); + // Using the b_tree to find new candidates + box_cell.clear(); + b_tree.query(boost::geometry::index::intersects(points[p]), + std::back_inserter(box_cell)); + // Checking the returned bounding boxes/cells + use_try = false; + cell_candidate_idx = -1; + for (unsigned int i = 0; i < box_cell.size(); ++i) + { + // As a candidate we don't want artificial cells + if (!box_cell[i].second->is_artificial()) + cell_candidate_idx = i; + + // If the cell is not locally owned or at boundary + // we check for exceptions + if (cell_candidate_idx != -1 && + (!box_cell[i].second->is_locally_owned() || + box_cell[i].second->at_boundary())) + use_try = true; + + // If a cell candidate was found we can stop + if (cell_candidate_idx != -1) + break; + } } - catch (const GridTools::ExcPointNotFound &) + + if (cell_candidate_idx == -1) { - points_outside.push_back(p); - continue; + // No candidate cell, but the cell might + // still be inside the mesh, this is our final check: + try + { + my_pair = + GridTools::find_active_cell_around_point(cache, points[p]); + // If we arrive here the cell was not among + // the candidates returned by the tree, so we're adding it + // by hand + cell_candidate_idx = box_cell.size(); + box_cell.push_back( + std::make_pair(my_pair.first->bounding_box(), my_pair.first)); + } + catch (const GridTools::ExcPointNotFound &) + { + missing_points_out.emplace_back(p); + continue; + } + } + else + { + // We have a candidate cell + if (use_try) + { + try + { + my_pair = GridTools::find_active_cell_around_point( + cache, points[p], box_cell[cell_candidate_idx].second); + } + catch (const GridTools::ExcPointNotFound &) + { + missing_points_out.push_back(p); + continue; + } + } + else + { + my_pair = GridTools::find_active_cell_around_point( + cache, points[p], box_cell[cell_candidate_idx].second); + } + + // If the point was found in another cell, + // updating cell_candidate_idx + if (my_pair.first != box_cell[cell_candidate_idx].second) + { + for (unsigned int i = 0; i < box_cell.size(); ++i) + { + if (my_pair.first == box_cell[i].second) + { + cell_candidate_idx = i; + break; + } + } + + if (my_pair.first != box_cell[cell_candidate_idx].second) + { + // The cell was not among the candidates returned by the + // tree + cell_candidate_idx = box_cell.size(); + box_cell.push_back( + std::make_pair(my_pair.first->bounding_box(), + my_pair.first)); + } + } } - // Assuming the cell is probably the last cell added - if (my_pair.first == std::get<0>(cell_qpoint_map).back()) + + // Assuming the point is more likely to be in the last + // used cell + if (my_pair.first == cells_out.back()) { // Found in the last cell: adding the data - std::get<1>(cell_qpoint_map).back().emplace_back(my_pair.second); - std::get<2>(cell_qpoint_map).back().emplace_back(p); + qpoints_out.back().emplace_back(my_pair.second); + maps_out.back().emplace_back(p); } else { // Check if it is in another cell already found typename std::vector:: active_cell_iterator>::iterator cells_it = - std::find(std::get<0>(cell_qpoint_map).begin(), - std::get<0>(cell_qpoint_map).end() - 1, - my_pair.first); + std::find(cells_out.begin(), cells_out.end() - 1, my_pair.first); - if (cells_it == std::get<0>(cell_qpoint_map).end() - 1) + if (cells_it == cells_out.end() - 1) { // Cell not found: adding a new cell - std::get<0>(cell_qpoint_map).emplace_back(my_pair.first); - std::get<1>(cell_qpoint_map).emplace_back(1, my_pair.second); - std::get<2>(cell_qpoint_map).emplace_back(1, p); - // Updating center and radius of the cell - cell_center = std::get<0>(cell_qpoint_map).back()->center(); - cell_diameter = - std::get<0>(cell_qpoint_map).back()->diameter() * - (0.5 + std::numeric_limits::epsilon()); + cells_out.emplace_back(my_pair.first); + qpoints_out.emplace_back(1, my_pair.second); + maps_out.emplace_back(1, p); } else { - unsigned int current_cell = - cells_it - std::get<0>(cell_qpoint_map).begin(); // Cell found: just adding the point index and qpoint to the // list - std::get<1>(cell_qpoint_map)[current_cell].emplace_back( - my_pair.second); - std::get<2>(cell_qpoint_map)[current_cell].emplace_back(p); + unsigned int current_cell = cells_it - cells_out.begin(); + qpoints_out[current_cell].emplace_back(my_pair.second); + maps_out[current_cell].emplace_back(p); } } } // Debug Checking - Assert(std::get<0>(cell_qpoint_map).size() == - std::get<2>(cell_qpoint_map).size(), - ExcDimensionMismatch(std::get<0>(cell_qpoint_map).size(), - std::get<2>(cell_qpoint_map).size())); + Assert(cells_out.size() == maps_out.size(), + ExcDimensionMismatch(cells_out.size(), maps_out.size())); - Assert(std::get<0>(cell_qpoint_map).size() == - std::get<1>(cell_qpoint_map).size(), - ExcDimensionMismatch(std::get<0>(cell_qpoint_map).size(), - std::get<1>(cell_qpoint_map).size())); + Assert(cells_out.size() == qpoints_out.size(), + ExcDimensionMismatch(cells_out.size(), qpoints_out.size())); #ifdef DEBUG - unsigned int c = std::get<0>(cell_qpoint_map).size(); + unsigned int c = cells_out.size(); unsigned int qps = 0; // The number of points in all // the cells must be the same as @@ -4384,19 +4538,19 @@ namespace GridTools // plus the points which were ignored for (unsigned int n = 0; n < c; ++n) { - Assert(std::get<1>(cell_qpoint_map)[n].size() == - std::get<2>(cell_qpoint_map)[n].size(), - ExcDimensionMismatch(std::get<1>(cell_qpoint_map)[n].size(), - std::get<2>(cell_qpoint_map)[n].size())); - qps += std::get<1>(cell_qpoint_map)[n].size(); + Assert(qpoints_out[n].size() == maps_out[n].size(), + ExcDimensionMismatch(qpoints_out[n].size(), maps_out[n].size())); + qps += qpoints_out[n].size(); } - Assert(qps + points_outside.size() == np, - ExcDimensionMismatch(qps + points_outside.size(), np)); + Assert(qps + missing_points_out.size() == np, + ExcDimensionMismatch(qps + missing_points_out.size(), np)); #endif - std::get<3>(cell_qpoint_map) = points_outside; - return cell_qpoint_map; + return std::make_tuple(std::move(cells_out), + std::move(qpoints_out), + std::move(maps_out), + std::move(missing_points_out)); }