#include "meshing.hpp" namespace netgen { static inline Point<2> P2( Point<3> p ) { return {p[0], p[1]}; } static inline Point<3> P3( Point<2> p ) { return {p[0], p[1], 0}; } class DelaunayTrig { PointIndex pnums[3]; Point<2> c; public: double r; double rad2; DelaunayTrig () = default; DelaunayTrig (int p1, int p2, int p3) { pnums[0] = p1; pnums[1] = p2; pnums[2] = p3; } PointIndex & operator[] (int j) { return pnums[j]; } const PointIndex & operator[] (int j) const { return pnums[j]; } void CalcCenter (FlatArray, PointIndex> points); Point<2> Center() const { return c; } double Radius2() const { return rad2; } Box<2> BoundingBox() const { return Box<2> (c-Vec<2>(r,r), c+Vec<2>(r,r)); } mutable PointIndex visited_pi = -1; }; class DelaunayMesh { ngcore::ClosedHashTable, IVec<2>> edge_to_trig; Array trigs; unique_ptr> tree; Array, PointIndex> & points; Array closeels; Array intersecting; Array> edges; int GetNeighbour( int eli, int edge ); void SetNeighbour( int eli, int edge ); void UnsetNeighbours( int eli ); void AppendTrig( int pi0, int pi1, int pi2 ); public: DelaunayMesh( Array, PointIndex> & points_, Box<2> box ); void CalcIntersecting( PointIndex pi_new ); void CalcWeights( PointIndex pi_new, std::map & weights ); void AddPoint( PointIndex pi_new ); Array & GetElements() { return trigs; } unique_ptr GetMesh(PointIndex pi_new); // for debugging purposes }; } // namespace netgen