PrusaSlicer-NonPlainar/xs/src/libslic3r/Polygon.hpp

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#ifndef slic3r_Polygon_hpp_
#define slic3r_Polygon_hpp_
#include "libslic3r.h"
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#include <vector>
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#include <string>
#include "Line.hpp"
#include "MultiPoint.hpp"
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#include "Polyline.hpp"
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namespace Slic3r {
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class Polygon;
typedef std::vector<Polygon> Polygons;
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class Polygon : public MultiPoint {
public:
operator Polygons() const;
operator Polyline() const;
Point& operator[](Points::size_type idx);
const Point& operator[](Points::size_type idx) const;
Polygon() {}
explicit Polygon(const Points &points): MultiPoint(points) {}
Polygon(const Polygon &other) : MultiPoint(other.points) {}
Polygon(Polygon &&other) : MultiPoint(std::move(other.points)) {}
Polygon& operator=(const Polygon &other) { points = other.points; return *this; }
Polygon& operator=(Polygon &&other) { points = std::move(other.points); return *this; }
Point last_point() const;
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virtual Lines lines() const;
Polyline split_at_vertex(const Point &point) const;
// Split a closed polygon into an open polyline, with the split point duplicated at both ends.
Polyline split_at_index(int index) const;
// Split a closed polygon into an open polyline, with the split point duplicated at both ends.
Polyline split_at_first_point() const;
Points equally_spaced_points(double distance) const;
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double area() const;
bool is_counter_clockwise() const;
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bool is_clockwise() const;
bool make_counter_clockwise();
bool make_clockwise();
bool is_valid() const;
// Does an unoriented polygon contain a point?
// Tested by counting intersections along a horizontal line.
bool contains(const Point &point) const;
Polygons simplify(double tolerance) const;
void simplify(double tolerance, Polygons &polygons) const;
void triangulate_convex(Polygons* polygons) const;
Point centroid() const;
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std::string wkt() const;
Points concave_points(double angle = PI) const;
Points convex_points(double angle = PI) const;
// Projection of a point onto the polygon.
Point point_projection(const Point &point) const;
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};
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extern BoundingBox get_extents(const Polygon &poly);
extern BoundingBox get_extents(const Polygons &polygons);
extern BoundingBox get_extents_rotated(const Polygon &poly, double angle);
extern BoundingBox get_extents_rotated(const Polygons &polygons, double angle);
extern std::vector<BoundingBox> get_extents_vector(const Polygons &polygons);
inline double total_length(const Polygons &polylines) {
double total = 0;
for (Polygons::const_iterator it = polylines.begin(); it != polylines.end(); ++it)
total += it->length();
return total;
}
// Remove sticks (tentacles with zero area) from the polygon.
extern bool remove_sticks(Polygon &poly);
extern bool remove_sticks(Polygons &polys);
// Remove polygons with less than 3 edges.
extern bool remove_degenerate(Polygons &polys);
extern bool remove_small(Polygons &polys, double min_area);
// Append a vector of polygons at the end of another vector of polygons.
inline void polygons_append(Polygons &dst, const Polygons &src) { dst.insert(dst.end(), src.begin(), src.end()); }
inline void polygons_append(Polygons &dst, Polygons &&src)
{
if (dst.empty()) {
dst = std::move(src);
} else {
std::move(std::begin(src), std::end(src), std::back_inserter(dst));
src.clear();
}
}
inline void polygons_rotate(Polygons &polys, double angle)
{
const double cos_angle = cos(angle);
const double sin_angle = sin(angle);
for (Polygon &p : polys)
p.rotate(cos_angle, sin_angle);
}
inline Points to_points(const Polygon &poly)
{
return poly.points;
}
inline Points to_points(const Polygons &polys)
{
size_t n_points = 0;
for (size_t i = 0; i < polys.size(); ++ i)
n_points += polys[i].points.size();
Points points;
points.reserve(n_points);
for (const Polygon &poly : polys)
append(points, poly.points);
return points;
}
inline Lines to_lines(const Polygon &poly)
{
Lines lines;
lines.reserve(poly.points.size());
for (Points::const_iterator it = poly.points.begin(); it != poly.points.end()-1; ++it)
lines.push_back(Line(*it, *(it + 1)));
lines.push_back(Line(poly.points.back(), poly.points.front()));
return lines;
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}
inline Lines to_lines(const Polygons &polys)
{
size_t n_lines = 0;
for (size_t i = 0; i < polys.size(); ++ i)
n_lines += polys[i].points.size();
Lines lines;
lines.reserve(n_lines);
for (size_t i = 0; i < polys.size(); ++ i) {
const Polygon &poly = polys[i];
for (Points::const_iterator it = poly.points.begin(); it != poly.points.end()-1; ++it)
lines.push_back(Line(*it, *(it + 1)));
lines.push_back(Line(poly.points.back(), poly.points.front()));
}
return lines;
}
inline Polylines to_polylines(const Polygons &polys)
{
Polylines polylines;
polylines.assign(polys.size(), Polyline());
size_t idx = 0;
for (Polygons::const_iterator it = polys.begin(); it != polys.end(); ++ it) {
Polyline &pl = polylines[idx ++];
pl.points = it->points;
pl.points.push_back(it->points.front());
}
assert(idx == polylines.size());
return polylines;
}
#if SLIC3R_CPPVER >= 11
inline Polylines to_polylines(Polygons &&polys)
{
Polylines polylines;
polylines.assign(polys.size(), Polyline());
size_t idx = 0;
for (Polygons::const_iterator it = polys.begin(); it != polys.end(); ++ it) {
Polyline &pl = polylines[idx ++];
pl.points = std::move(it->points);
pl.points.push_back(it->points.front());
}
assert(idx == polylines.size());
return polylines;
}
#endif
} // Slic3r
// start Boost
#include <boost/polygon/polygon.hpp>
namespace boost { namespace polygon {
template <>
struct geometry_concept<Slic3r::Polygon>{ typedef polygon_concept type; };
template <>
struct polygon_traits<Slic3r::Polygon> {
typedef coord_t coordinate_type;
typedef Slic3r::Points::const_iterator iterator_type;
typedef Slic3r::Point point_type;
// Get the begin iterator
static inline iterator_type begin_points(const Slic3r::Polygon& t) {
return t.points.begin();
}
// Get the end iterator
static inline iterator_type end_points(const Slic3r::Polygon& t) {
return t.points.end();
}
// Get the number of sides of the polygon
static inline std::size_t size(const Slic3r::Polygon& t) {
return t.points.size();
}
// Get the winding direction of the polygon
static inline winding_direction winding(const Slic3r::Polygon& /* t */) {
return unknown_winding;
}
};
template <>
struct polygon_mutable_traits<Slic3r::Polygon> {
// expects stl style iterators
template <typename iT>
static inline Slic3r::Polygon& set_points(Slic3r::Polygon& polygon, iT input_begin, iT input_end) {
polygon.points.clear();
while (input_begin != input_end) {
polygon.points.push_back(Slic3r::Point());
boost::polygon::assign(polygon.points.back(), *input_begin);
++input_begin;
}
// skip last point since Boost will set last point = first point
polygon.points.pop_back();
return polygon;
}
};
template <>
struct geometry_concept<Slic3r::Polygons> { typedef polygon_set_concept type; };
//next we map to the concept through traits
template <>
struct polygon_set_traits<Slic3r::Polygons> {
typedef coord_t coordinate_type;
typedef Slic3r::Polygons::const_iterator iterator_type;
typedef Slic3r::Polygons operator_arg_type;
static inline iterator_type begin(const Slic3r::Polygons& polygon_set) {
return polygon_set.begin();
}
static inline iterator_type end(const Slic3r::Polygons& polygon_set) {
return polygon_set.end();
}
//don't worry about these, just return false from them
static inline bool clean(const Slic3r::Polygons& /* polygon_set */) { return false; }
static inline bool sorted(const Slic3r::Polygons& /* polygon_set */) { return false; }
};
template <>
struct polygon_set_mutable_traits<Slic3r::Polygons> {
template <typename input_iterator_type>
static inline void set(Slic3r::Polygons& polygons, input_iterator_type input_begin, input_iterator_type input_end) {
polygons.assign(input_begin, input_end);
}
};
} }
// end Boost
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#endif