/******************************************************************************* * Author : Angus Johnson * * Date : 24 March 2024 * * Website : http://www.angusj.com * * Copyright : Angus Johnson 2010-2024 * * Purpose : Path Offset (Inflate/Shrink) * * License : http://www.boost.org/LICENSE_1_0.txt * *******************************************************************************/ #ifndef CLIPPER_OFFSET_H_ #define CLIPPER_OFFSET_H_ #include "clipper.core.h" #include "clipper.engine.h" namespace Clipper2Lib { enum class JoinType { Square, Bevel, Round, Miter }; //Square : Joins are 'squared' at exactly the offset distance (more complex code) //Bevel : Similar to Square, but the offset distance varies with angle (simple code & faster) enum class EndType {Polygon, Joined, Butt, Square, Round}; //Butt : offsets both sides of a path, with square blunt ends //Square : offsets both sides of a path, with square extended ends //Round : offsets both sides of a path, with round extended ends //Joined : offsets both sides of a path, with joined ends //Polygon: offsets only one side of a closed path typedef std::function DeltaCallback64; class ClipperOffset { private: class Group { public: Paths64 paths_in; std::optional lowest_path_idx{}; bool is_reversed = false; JoinType join_type; EndType end_type; Group(const Paths64& _paths, JoinType _join_type, EndType _end_type); }; int error_code_ = 0; double delta_ = 0.0; double group_delta_ = 0.0; double temp_lim_ = 0.0; double steps_per_rad_ = 0.0; double step_sin_ = 0.0; double step_cos_ = 0.0; PathD norms; Path64 path_out; Paths64* solution = nullptr; PolyTree64* solution_tree = nullptr; std::vector groups_; JoinType join_type_ = JoinType::Bevel; EndType end_type_ = EndType::Polygon; double miter_limit_ = 0.0; double arc_tolerance_ = 0.0; bool preserve_collinear_ = false; bool reverse_solution_ = false; #ifdef USINGZ ZCallback64 zCallback64_ = nullptr; void ZCB(const Point64& bot1, const Point64& top1, const Point64& bot2, const Point64& top2, Point64& ip); #endif DeltaCallback64 deltaCallback64_ = nullptr; size_t CalcSolutionCapacity(); bool CheckReverseOrientation(); void DoBevel(const Path64& path, size_t j, size_t k); void DoSquare(const Path64& path, size_t j, size_t k); void DoMiter(const Path64& path, size_t j, size_t k, double cos_a); void DoRound(const Path64& path, size_t j, size_t k, double angle); void BuildNormals(const Path64& path); void OffsetPolygon(Group& group, const Path64& path); void OffsetOpenJoined(Group& group, const Path64& path); void OffsetOpenPath(Group& group, const Path64& path); void OffsetPoint(Group& group, const Path64& path, size_t j, size_t k); void DoGroupOffset(Group &group); void ExecuteInternal(double delta); public: explicit ClipperOffset(double miter_limit = 2.0, double arc_tolerance = 0.0, bool preserve_collinear = false, bool reverse_solution = false) : miter_limit_(miter_limit), arc_tolerance_(arc_tolerance), preserve_collinear_(preserve_collinear), reverse_solution_(reverse_solution) { }; ~ClipperOffset() { Clear(); }; int ErrorCode() const { return error_code_; }; void AddPath(const Path64& path, JoinType jt_, EndType et_); void AddPaths(const Paths64& paths, JoinType jt_, EndType et_); void Clear() { groups_.clear(); norms.clear(); }; void Execute(double delta, Paths64& paths); void Execute(double delta, PolyTree64& polytree); void Execute(DeltaCallback64 delta_cb, Paths64& paths); double MiterLimit() const { return miter_limit_; } void MiterLimit(double miter_limit) { miter_limit_ = miter_limit; } //ArcTolerance: needed for rounded offsets (See offset_triginometry2.svg) double ArcTolerance() const { return arc_tolerance_; } void ArcTolerance(double arc_tolerance) { arc_tolerance_ = arc_tolerance; } bool PreserveCollinear() const { return preserve_collinear_; } void PreserveCollinear(bool preserve_collinear){preserve_collinear_ = preserve_collinear;} bool ReverseSolution() const { return reverse_solution_; } void ReverseSolution(bool reverse_solution) {reverse_solution_ = reverse_solution;} #ifdef USINGZ void SetZCallback(ZCallback64 cb) { zCallback64_ = cb; } #endif void SetDeltaCallback(DeltaCallback64 cb) { deltaCallback64_ = cb; } }; } #endif /* CLIPPER_OFFSET_H_ */