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FillAdaptive:

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1) More accurate trimming of an anchor with another infill line
   or by another anchor line.
2) Trimming of very short infill lines, which are not anchored,
   by another infill lines.
This commit is contained in:
Vojtech Bubnik 2020-11-11 16:49:11 +01:00
parent 26836db629
commit 4d102ac8ca
3 changed files with 83 additions and 81 deletions
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16
src/libslic3r/Point.hpp
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@ -61,18 +61,14 @@ inline int64_t cross2(const Vec2i64 &v1, const Vec2i64 &v2) { return v1(0) * v2(
inline float cross2(const Vec2f &v1, const Vec2f &v2) { return v1(0) * v2(1) - v1(1) * v2(0); }
inline double cross2(const Vec2d &v1, const Vec2d &v2) { return v1(0) * v2(1) - v1(1) * v2(0); }
template<class T, int N> Eigen::Matrix<T, 2, 1, Eigen::DontAlign>
to_2d(const Eigen::Matrix<T, N, 1, Eigen::DontAlign> &ptN) { return {ptN(0), ptN(1)}; }
template<typename T, int Options>
inline Eigen::Matrix<T, 2, 1, Eigen::DontAlign> perp(const Eigen::MatrixBase<Eigen::Matrix<T, 2, 1, Options>> &v) { return Eigen::Matrix<T, 2, 1, Eigen::DontAlign>(- v.y(), v.x()); }
//inline Vec2i32 to_2d(const Vec3i32 &pt3) { return Vec2i32(pt3(0), pt3(1)); }
//inline Vec2i64 to_2d(const Vec3i64 &pt3) { return Vec2i64(pt3(0), pt3(1)); }
//inline Vec2f to_2d(const Vec3f &pt3) { return Vec2f (pt3(0), pt3(1)); }
//inline Vec2d to_2d(const Vec3d &pt3) { return Vec2d (pt3(0), pt3(1)); }
template<class T, int N, int Options>
Eigen::Matrix<T, 2, 1, Eigen::DontAlign> to_2d(const Eigen::MatrixBase<Eigen::Matrix<T, N, 1, Options>> &ptN) { return { ptN(0), ptN(1) }; }
inline Vec3d to_3d(const Vec2d &v, double z) { return Vec3d(v(0), v(1), z); }
inline Vec3f to_3d(const Vec2f &v, float z) { return Vec3f(v(0), v(1), z); }
inline Vec3i64 to_3d(const Vec2i64 &v, float z) { return Vec3i64(int64_t(v(0)), int64_t(v(1)), int64_t(z)); }
inline Vec3crd to_3d(const Vec3crd &p, coord_t z) { return Vec3crd(p(0), p(1), z); }
template<class T, int Options>
Eigen::Matrix<T, 3, 1, Eigen::DontAlign> to_3d(const Eigen::MatrixBase<Eigen::Matrix<T, 2, 1, Options>> & pt, const T z) { return { pt(0), pt(1), z }; }
inline Vec2d unscale(coord_t x, coord_t y) { return Vec2d(unscale<double>(x), unscale<double>(y)); }
inline Vec2d unscale(const Vec2crd &pt) { return Vec2d(unscale<double>(pt(0)), unscale<double>(pt(1))); }