#ifndef SUPPORTTREEMESHER_HPP #define SUPPORTTREEMESHER_HPP #include "libslic3r/Point.hpp" #include "libslic3r/SLA/SupportTreeBuilder.hpp" #include "libslic3r/TriangleMesh.hpp" //#include "libslic3r/SLA/Contour3D.hpp" namespace Slic3r { namespace sla { using Portion = std::tuple; inline Portion make_portion(double a, double b) { return std::make_tuple(a, b); } indexed_triangle_set sphere(double rho, Portion portion = make_portion(0., 2. * PI), double fa = (2. * PI / 360.)); // Down facing cylinder in Z direction with arguments: // r: radius // h: Height // ssteps: how many edges will create the base circle // sp: starting point indexed_triangle_set cylinder(double r, double h, size_t steps = 45, const Vec3d &sp = Vec3d::Zero()); indexed_triangle_set pinhead(double r_pin, double r_back, double length, size_t steps = 45); indexed_triangle_set halfcone(double baseheight, double r_bottom, double r_top, const Vec3d &pt = Vec3d::Zero(), size_t steps = 45); inline indexed_triangle_set get_mesh(const Head &h, size_t steps) { indexed_triangle_set mesh = pinhead(h.r_pin_mm, h.r_back_mm, h.width_mm, steps); for (auto& p : mesh.vertices) p.z() -= (h.fullwidth() - h.r_back_mm); using Quaternion = Eigen::Quaternion; // We rotate the head to the specified direction. The head's pointing // side is facing upwards so this means that it would hold a support // point with a normal pointing straight down. This is the reason of // the -1 z coordinate auto quatern = Quaternion::FromTwoVectors(Vec3f{0.f, 0.f, -1.f}, h.dir.cast()); Vec3f pos = h.pos.cast(); for (auto& p : mesh.vertices) p = quatern * p + pos; return mesh; } inline indexed_triangle_set get_mesh(const Pillar &p, size_t steps) { if(p.height > EPSILON) { // Endpoint is below the starting point // We just create a bridge geometry with the pillar parameters and // move the data. return cylinder(p.r, p.height, steps, p.endpoint()); } return {}; } inline indexed_triangle_set get_mesh(const Pedestal &p, size_t steps) { return halfcone(p.height, p.r_bottom, p.r_top, p.pos, steps); } inline indexed_triangle_set get_mesh(const Junction &j, size_t steps) { indexed_triangle_set mesh = sphere(j.r, make_portion(0, PI), 2 *PI / steps); Vec3f pos = j.pos.cast(); for(auto& p : mesh.vertices) p += pos; return mesh; } inline indexed_triangle_set get_mesh(const Bridge &br, size_t steps) { using Quaternion = Eigen::Quaternion; Vec3d v = (br.endp - br.startp); Vec3d dir = v.normalized(); double d = v.norm(); indexed_triangle_set mesh = cylinder(br.r, d, steps); auto quater = Quaternion::FromTwoVectors(Vec3f{0.f, 0.f, 1.f}, dir.cast()); Vec3f startp = br.startp.cast(); for(auto& p : mesh.vertices) p = quater * p + startp; return mesh; } inline indexed_triangle_set get_mesh(const DiffBridge &br, size_t steps) { double h = br.get_length(); indexed_triangle_set mesh = halfcone(h, br.r, br.end_r, Vec3d::Zero(), steps); using Quaternion = Eigen::Quaternion; // We rotate the head to the specified direction. The head's pointing // side is facing upwards so this means that it would hold a support // point with a normal pointing straight down. This is the reason of // the -1 z coordinate auto quatern = Quaternion::FromTwoVectors(Vec3f{0.f, 0.f, 1.f}, br.get_dir().cast()); Vec3f startp = br.startp.cast(); for(auto& p : mesh.vertices) p = quatern * p + startp; return mesh; } }} // namespace Slic3r::sla #endif // SUPPORTTREEMESHER_HPP