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@@ -850,7 +850,7 @@ void NavMeshGenerator2D::generator_bake_from_source_geometry_data(Ref<Navigation
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using namespace Clipper2Lib;
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PathsD traversable_polygon_paths;
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PathsD obstruction_polygon_paths;
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- int obstruction_polygon_path_size = 0;
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+ bool empty_projected_obstructions = true;
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{
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RWLockRead read_lock(p_source_geometry_data->geometry_rwlock);
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@@ -886,7 +886,8 @@ void NavMeshGenerator2D::generator_bake_from_source_geometry_data(Ref<Navigation
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traversable_polygon_paths.push_back(std::move(subject_path));
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}
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- if (!projected_obstructions.is_empty()) {
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+ empty_projected_obstructions = projected_obstructions.is_empty();
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+ if (!empty_projected_obstructions) {
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for (const NavigationMeshSourceGeometryData2D::ProjectedObstruction &projected_obstruction : projected_obstructions) {
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if (projected_obstruction.carve) {
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continue;
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@@ -907,7 +908,6 @@ void NavMeshGenerator2D::generator_bake_from_source_geometry_data(Ref<Navigation
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}
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}
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- obstruction_polygon_path_size = obstruction_polygon_paths.size();
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for (const Vector<Vector2> &obstruction_outline : obstruction_outlines) {
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PathD clip_path;
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clip_path.reserve(obstruction_outline.size());
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@@ -919,7 +919,6 @@ void NavMeshGenerator2D::generator_bake_from_source_geometry_data(Ref<Navigation
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}
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Rect2 baking_rect = p_navigation_mesh->get_baking_rect();
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- PathsD area_obstruction_polygon_paths;
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if (baking_rect.has_area()) {
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Vector2 baking_rect_offset = p_navigation_mesh->get_baking_rect_offset();
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@@ -931,27 +930,48 @@ void NavMeshGenerator2D::generator_bake_from_source_geometry_data(Ref<Navigation
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RectD clipper_rect = RectD(rect_begin_x, rect_begin_y, rect_end_x, rect_end_y);
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traversable_polygon_paths = RectClip(clipper_rect, traversable_polygon_paths);
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- area_obstruction_polygon_paths = RectClip(clipper_rect, obstruction_polygon_paths);
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- } else {
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- area_obstruction_polygon_paths = obstruction_polygon_paths;
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+ obstruction_polygon_paths = RectClip(clipper_rect, obstruction_polygon_paths);
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}
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// first merge all traversable polygons according to user specified fill rule
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PathsD dummy_clip_path;
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traversable_polygon_paths = Union(traversable_polygon_paths, dummy_clip_path, FillRule::NonZero);
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// merge all obstruction polygons, don't allow holes for what is considered "solid" 2D geometry
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- area_obstruction_polygon_paths = Union(area_obstruction_polygon_paths, dummy_clip_path, FillRule::NonZero);
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+ obstruction_polygon_paths = Union(obstruction_polygon_paths, dummy_clip_path, FillRule::NonZero);
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- PathsD path_solution = Difference(traversable_polygon_paths, area_obstruction_polygon_paths, FillRule::NonZero);
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+ PathsD path_solution = Difference(traversable_polygon_paths, obstruction_polygon_paths, FillRule::NonZero);
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real_t agent_radius_offset = p_navigation_mesh->get_agent_radius();
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if (agent_radius_offset > 0.0) {
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path_solution = InflatePaths(path_solution, -agent_radius_offset, JoinType::Miter, EndType::Polygon);
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}
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- if (obstruction_polygon_path_size > 0) {
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- obstruction_polygon_paths.resize(obstruction_polygon_path_size);
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- path_solution = Difference(path_solution, obstruction_polygon_paths, FillRule::NonZero);
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+ // Apply obstructions that are not affected by agent radius, the ones with carve enabled.
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+ if (!empty_projected_obstructions) {
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+ RWLockRead read_lock(p_source_geometry_data->geometry_rwlock);
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+ const Vector<NavigationMeshSourceGeometryData2D::ProjectedObstruction> &projected_obstructions = p_source_geometry_data->_projected_obstructions;
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+ obstruction_polygon_paths.resize(0);
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+ for (const NavigationMeshSourceGeometryData2D::ProjectedObstruction &projected_obstruction : projected_obstructions) {
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+ if (!projected_obstruction.carve) {
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+ continue;
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+ }
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+ if (projected_obstruction.vertices.is_empty() || projected_obstruction.vertices.size() % 2 != 0) {
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+ continue;
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+ }
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+
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+ PathD clip_path;
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+ clip_path.reserve(projected_obstruction.vertices.size() / 2);
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+ for (int i = 0; i < projected_obstruction.vertices.size() / 2; i++) {
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+ clip_path.emplace_back(projected_obstruction.vertices[i * 2], projected_obstruction.vertices[i * 2 + 1]);
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+ }
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+ if (!IsPositive(clip_path)) {
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+ std::reverse(clip_path.begin(), clip_path.end());
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+ }
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+ obstruction_polygon_paths.push_back(std::move(clip_path));
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+ }
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+ if (obstruction_polygon_paths.size() > 0) {
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+ path_solution = Difference(path_solution, obstruction_polygon_paths, FillRule::NonZero);
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+ }
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}
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//path_solution = RamerDouglasPeucker(path_solution, 0.025); //
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Thaddeus Crews