// // Created by Иван Ильин on 13.01.2021. // #include #include "Mesh.h" #include "ResourceManager.h" using namespace std; Mesh &Mesh::operator*=(const Matrix4x4 &matrix4X4) { std::vector newTriangles; for(auto &t : _tris) { newTriangles.emplace_back(t * matrix4X4); } setTriangles(newTriangles); return *this; } Mesh &Mesh::loadObj(const std::string& filename, const Vec3D& scale) { auto objects = ResourceManager::loadObjects(filename); for(auto& obj : objects) { for (auto &tri : obj->triangles()) { _tris.push_back(tri); } } this->scale(scale); return *this; } Mesh::Mesh(const std::string& filename, const Vec3D& scale){ loadObj(filename, scale); } Mesh::Mesh(const vector &tries) : _tris(tries) { } Mesh Mesh::Obj(const std::string& filename) { return Mesh(filename); } void Mesh::rotate(const Vec3D &r) { Object::rotate(r); *this *= Matrix4x4::Rotation(r); } void Mesh::rotate(const Vec3D &v, double r) { Object::rotate(v, r); *this *= Matrix4x4::Rotation(v, r); } void Mesh::scale(const Vec3D &s) { Object::scale(s); *this *= Matrix4x4::Scale(s); } void Mesh::rotateRelativePoint(const Vec3D &s, const Vec3D &r) { Object::rotateRelativePoint(s, r); *this *= Matrix4x4::Rotation(r); } void Mesh::rotateRelativePoint(const Vec3D &s, const Vec3D &v, double r) { Object::rotateRelativePoint(s, v, r); *this *= Matrix4x4::Rotation(v, r); } void Mesh::setColor(const sf::Color& c) { _color = c; // change color of all mesh triangles: std::vector newTriangles; for(auto &t : _tris) { newTriangles.emplace_back(Triangle(t[0], t[1], t[2], c)); } setTriangles(newTriangles); } Mesh Mesh::LineTo(const Vec3D& from, const Vec3D& to, double line_width, const sf::Color& color) { Mesh line; Vec3D v1 = (to - from).normalized(); Vec3D v2 = from.cross(from + Vec3D{1, 0, 0}).normalized(); Vec3D v3 = v1.cross(v2).normalized(); // from plane Point4D p1 = (from - v2 * line_width/2.0 - v3 * line_width/2.0).makePoint4D(); Point4D p2 = (from - v2 * line_width/2.0 + v3 * line_width/2.0).makePoint4D(); Point4D p3 = (from + v2 * line_width/2.0 + v3 * line_width/2.0).makePoint4D(); Point4D p4 = (from + v2 * line_width/2.0 - v3 * line_width/2.0).makePoint4D(); // to plane Point4D p5 = (to - v2 * line_width/2.0 - v3 * line_width/2.0).makePoint4D(); Point4D p6 = (to - v2 * line_width/2.0 + v3 * line_width/2.0).makePoint4D(); Point4D p7 = (to + v2 * line_width/2.0 + v3 * line_width/2.0).makePoint4D(); Point4D p8 = (to + v2 * line_width/2.0 - v3 * line_width/2.0).makePoint4D(); line._tris = std::move(std::vector{ { p2, p4, p1 }, { p2, p3, p4 }, { p1, p6, p2 }, { p1, p5, p6 }, { p2, p6, p7 }, { p2, p7, p3 }, { p6, p5, p8 }, { p6, p8, p7 }, { p4, p3, p7 }, { p4, p7, p8 }, { p1, p8, p5 }, { p1, p4, p8 } }); line.setColor(color); return line; } Mesh::Mesh(const Mesh &mesh) : _tris(mesh._tris), _color(mesh._color), _visible(mesh._visible) { } void Mesh::setTriangles(const vector &t) { _tris.clear(); for (auto & tri : t) { _tris.push_back(tri); } } Mesh::~Mesh() { _tris.clear(); }