#ifndef QUICK_HULL_H #define QUICK_HULL_H /* quick_hull.h */ #include "core/containers/list.h" #include "core/math/aabb.h" #include "core/math/geometry.h" #include "core/containers/rb_set.h" class QuickHull { public: struct Edge { union { uint32_t vertices[2]; uint64_t id; }; bool operator<(const Edge &p_edge) const { return id < p_edge.id; } Edge(int p_vtx_a = 0, int p_vtx_b = 0) { if (p_vtx_a > p_vtx_b) { SWAP(p_vtx_a, p_vtx_b); } vertices[0] = p_vtx_a; vertices[1] = p_vtx_b; } }; struct Face { Plane plane; uint32_t vertices[3]; Vector points_over; bool operator<(const Face &p_face) const { return points_over.size() < p_face.points_over.size(); } }; private: struct FaceConnect { List::Element *left, *right; FaceConnect() { left = nullptr; right = nullptr; } }; struct RetFaceConnect { List::Element *left, *right; RetFaceConnect() { left = nullptr; right = nullptr; } }; static int find_or_create_output_index(int p_old_index, Vector &r_out_indices) { for (int n = 0; n < r_out_indices.size(); n++) { if (r_out_indices[n] == p_old_index) { return n; } } r_out_indices.push_back(p_old_index); return r_out_indices.size() - 1; } public: static uint32_t debug_stop_after; static bool _flag_warnings; static Error build(const Vector &p_points, Geometry::MeshData &r_mesh, real_t p_over_tolerance_epsilon = 3.0 * UNIT_EPSILON); }; #endif // QUICK_HULL_H