Korean translations by @ulsanether
WIP: New icons by Memory WIP: Bicubic interpolation for SLA luminosity correction.
bubnikv
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resources/icons/move_hover.png
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resources/icons/move_off.png
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resources/icons/scale_hover.png
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resources/localization/ko_KR/Slic3rPE.mo
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resources/localization/ko_KR/Slic3rPE.po
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src/libslic3r/Rasterizer/bicubic.h
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#ifndef BICUBIC_HPP
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#define BICUBIC_HPP
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#include <algorithm>
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#include <vector>
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#include <cmath>
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#include <Eigen/Dense>
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namespace Slic3r {
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namespace BicubicInternal {
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// Linear kernel, to be able to test cubic methods with hat kernels.
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template<typename T>
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struct LinearKernel
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{
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typedef T FloatType;
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static T a00() { return T(0.); }
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static T a01() { return T(0.); }
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static T a02() { return T(0.); }
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static T a03() { return T(0.); }
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static T a10() { return T(1.); }
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static T a11() { return T(-1.); }
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static T a12() { return T(0.); }
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static T a13() { return T(0.); }
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static T a20() { return T(0.); }
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static T a21() { return T(1.); }
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static T a22() { return T(0.); }
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static T a23() { return T(0.); }
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static T a30() { return T(0.); }
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static T a31() { return T(0.); }
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static T a32() { return T(0.); }
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static T a33() { return T(0.); }
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};
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// Interpolation kernel aka Catmul-Rom aka Keyes kernel.
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template<typename T>
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struct CubicCatmulRomKernel
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{
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typedef T FloatType;
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static T a00() { return 0; }
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static T a01() { return (T)-0.5; }
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static T a02() { return (T) 1.; }
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static T a03() { return (T)-0.5; }
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static T a10() { return (T) 1.; }
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static T a11() { return 0; }
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static T a12() { return (T)-5./2.; }
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static T a13() { return (T) 3./2.; }
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static T a20() { return 0; }
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static T a21() { return (T) 0.5; }
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static T a22() { return (T) 2.; }
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static T a23() { return (T)-3./2.; }
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static T a30() { return 0; }
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static T a31() { return 0; }
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static T a32() { return (T)-0.5; }
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static T a33() { return (T) 0.5; }
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};
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// B-spline kernel
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template<typename T>
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struct CubicBSplineKernel
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{
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typedef T FloatType;
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static T a00() { return (T) 1./6.; }
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static T a01() { return (T) -3./6.; }
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static T a02() { return (T) 3./6.; }
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static T a03() { return (T) -1./6.; }
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static T a10() { return (T) 4./6.; }
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static T a11() { return 0; }
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static T a12() { return (T) -6./6.; }
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static T a13() { return (T) 3./6.; }
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static T a20() { return (T) 1./6.; }
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static T a21() { return (T) 3./6.; }
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static T a22() { return (T) 3./6.; }
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static T a23() { return (T)- 3./6.; }
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static T a30() { return 0; }
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static T a31() { return 0; }
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static T a32() { return 0; }
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static T a33() { return (T) 1./6.; }
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};
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template<class T>
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inline T clamp(T a, T lower, T upper)
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{
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return (a < lower) ? lower :
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(a > upper) ? upper : a;
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}
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}
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template<typename KERNEL>
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struct CubicKernel
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{
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typedef typename KERNEL KernelInternal;
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typedef typename KERNEL::FloatType FloatType;
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static FloatType kernel(FloatType x)
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{
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x = fabs(x);
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if (x >= (FloatType)2.)
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return 0.0f;
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if (x <= (FloatType)1.) {
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FloatType x2 = x * x;
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FloatType x3 = x2 * x;
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return KERNEL::a10() + KERNEL::a11() * x + KERNEL::a12() * x2 + KERNEL::a13() * x3;
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}
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assert(x > (FloatType)1. && x < (FloatType)2.);
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x -= (FloatType)1.;
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FloatType x2 = x * x;
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FloatType x3 = x2 * x;
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return KERNEL::a00() + KERNEL::a01() * x + KERNEL::a02() * x2 + KERNEL::a03() * x3;
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}
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static FloatType interpolate(FloatType f0, FloatType f1, FloatType f2, FloatType f3, FloatType x)
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{
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const FloatType x2 = x*x;
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const FloatType x3 = x*x*x;
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return f0*(KERNEL::a00() + KERNEL::a01() * x + KERNEL::a02() * x2 + KERNEL::a03() * x3) +
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f1*(KERNEL::a10() + KERNEL::a11() * x + KERNEL::a12() * x2 + KERNEL::a13() * x3) +
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f2*(KERNEL::a20() + KERNEL::a21() * x + KERNEL::a22() * x2 + KERNEL::a23() * x3) +
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f3*(KERNEL::a30() + KERNEL::a31() * x + KERNEL::a32() * x2 + KERNEL::a33() * x3);
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}
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};
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// Linear splines
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typedef CubicKernel<BicubicInternal::LinearKernel<float>> LinearKernelf;
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typedef CubicKernel<BicubicInternal::LinearKernel<double>> LinearKerneld;
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// Catmul-Rom splines
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typedef CubicKernel<BicubicInternal::CubicCatmulRomKernel<float>> CubicCatmulRomKernelf;
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typedef CubicKernel<BicubicInternal::CubicCatmulRomKernel<double>> CubicCatmulRomKerneld;
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typedef CubicKernel<BicubicInternal::CubicCatmulRomKernel<float>> CubicInterpolationKernelf;
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typedef CubicKernel<BicubicInternal::CubicCatmulRomKernel<double>> CubicInterpolationKerneld;
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// Cubic B-splines
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typedef CubicKernel<BicubicInternal::CubicBSplineKernel<float>> CubicBSplineKernelf;
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typedef CubicKernel<BicubicInternal::CubicBSplineKernel<double>> CubicBSplineKerneld;
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template<typename KERNEL, typename Derived>
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static float cubic_interpolate(const Eigen::ArrayBase<Derived> &F, const typename KERNEL::FloatType pt, const typename KERNEL::FloatType dx)
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{
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typedef typename KERNEL::FloatType T;
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const int w = int(F.size());
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const int ix = (int)floor(pt);
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const T s = pt - (T)ix;
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if (ix > 1 && ix + 2 < w) {
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// Inside the fully interpolated region.
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return KERNEL::interpolate(F[ix - 1], F[ix], F[ix + 1], F[ix + 2], s);
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}
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// Transition region. Extend with a constant function.
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auto f = [&F, w](x) { return F[BicubicInternal::clamp(x, 0, w - 1)]; }
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return KERNEL::interpolate(f(ix - 1), f(ix), f(ix + 1), f(ix + 2), s);
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}
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template<typename KERNEL, typename Derived>
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static float bicubic_interpolate(const Eigen::MatrixBase<Derived> &F, const Eigen::Matrix<typename KERNEL::FloatType, 2, 1, Eigen::DontAlign> &pt, const typename KERNEL::FloatType dx)
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{
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typedef typename KERNEL::FloatType T;
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const int w = F.cols();
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const int h = F.rows();
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const int ix = (int)floor(pt[0]);
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const int iy = (int)floor(pt[1]);
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const T s = pt[0] - (T)ix;
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const T t = pt[1] - (T)iy;
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if (ix > 1 && ix + 2 < w && iy > 1 && iy + 2 < h) {
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// Inside the fully interpolated region.
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return KERNEL::interpolate(
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KERNEL::interpolate(F(ix-1,iy-1),F(ix ,iy-1),F(ix+1,iy-1),F(ix+2,iy-1),s),
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KERNEL::interpolate(F(ix-1,iy ),F(ix ,iy ),F(ix+1,iy ),F(ix+2,iy ),s),
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KERNEL::interpolate(F(ix-1,iy+1),F(ix ,iy+1),F(ix+1,iy+1),F(ix+2,iy+1),s),
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KERNEL::interpolate(F(ix-1,iy+2),F(ix ,iy+2),F(ix+1,iy+2),F(ix+2,iy+2),s),t);
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}
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// Transition region. Extend with a constant function.
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auto f = [&f, w, h](int x, int y) { return F(BicubicInternal::clamp(x,0,w-1),BicubicInternal::clamp(y,0,h-1)); }
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return KERNEL::interpolate(
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KERNEL::interpolate(f(ix-1,iy-1),f(ix ,iy-1),f(ix+1,iy-1),f(ix+2,iy-1),s),
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KERNEL::interpolate(f(ix-1,iy ),f(ix ,iy ),f(ix+1,iy ),f(ix+2,iy ),s),
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KERNEL::interpolate(f(ix-1,iy+1),f(ix ,iy+1),f(ix+1,iy+1),f(ix+2,iy+1),s),
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KERNEL::interpolate(f(ix-1,iy+2),f(ix ,iy+2),f(ix+1,iy+2),f(ix+2,iy+2),s),t);
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}
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} // namespace Slic3r
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#endif /* BICUBIC_HPP */
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