#ifndef OPENVDBUTILS_HPP #define OPENVDBUTILS_HPP #include #ifdef _MSC_VER // Suppress warning C4146 in include/gmp.h(2177,31): unary minus operator applied to unsigned type, result still unsigned #pragma warning(push) #pragma warning(disable : 4146) #endif // _MSC_VER #include #ifdef _MSC_VER #pragma warning(pop) #endif // _MSC_VER namespace Slic3r { inline Vec3f to_vec3f(const openvdb::Vec3s &v) { return Vec3f{v.x(), v.y(), v.z()}; } inline Vec3d to_vec3d(const openvdb::Vec3s &v) { return to_vec3f(v).cast(); } inline Vec3i to_vec3i(const openvdb::Vec3I &v) { return Vec3i{int(v[0]), int(v[1]), int(v[2])}; } // Here voxel_scale defines the scaling of voxels which affects the voxel count. // 1.0 value means a voxel for every unit cube. 2 means the model is scaled to // be 2x larger and the voxel count is increased by the increment in the scaled // volume, thus 4 times. This kind a sampling accuracy selection is not // achievable through the Transform parameter. (TODO: or is it?) // The resulting grid will contain the voxel_scale in its metadata under the // "voxel_scale" key to be used in grid_to_mesh function. openvdb::FloatGrid::Ptr mesh_to_grid(const indexed_triangle_set & mesh, const openvdb::math::Transform &tr = {}, float voxel_scale = 1.f, float exteriorBandWidth = 3.0f, float interiorBandWidth = 3.0f); indexed_triangle_set grid_to_mesh(const openvdb::FloatGrid &grid, double isovalue = 0.0, double adaptivity = 0.0, bool relaxDisorientedTriangles = true); openvdb::FloatGrid::Ptr redistance_grid(const openvdb::FloatGrid &grid, double iso); openvdb::FloatGrid::Ptr redistance_grid(const openvdb::FloatGrid &grid, double iso, double ext_range, double int_range); } // namespace Slic3r #endif // OPENVDBUTILS_HPP