// // Created by Иван Ильин on 12.01.2021. // #ifndef ENGINE_POINT4D_H #define ENGINE_POINT4D_H #include class Point4D { private: std::array _arr_point{}; public: Point4D () = default; Point4D (const Point4D& point4D); Point4D& operator=(const Point4D& point4D) { _arr_point = point4D._arr_point; return *this; }; explicit Point4D (double x, double y = 0.0, double z = 0.0, double w = 0.0); [[nodiscard]] double x() const { return _arr_point[0]; } [[nodiscard]] double y() const { return _arr_point[1]; } [[nodiscard]] double z() const { return _arr_point[2]; } [[nodiscard]] double w() const { return _arr_point[3]; } [[nodiscard]] double operator[] (int i) const; [[nodiscard]] Point4D operator-() const; // Boolean operations bool operator==(const Point4D& point4D) const; bool operator!=(const Point4D& point4D) const; // Operations with Point4D [[nodiscard]] Point4D operator+(const Point4D& point4D) const; [[nodiscard]] Point4D operator-(const Point4D& point4D) const; [[nodiscard]] double dot(const Point4D& point4D) const; // Returns dot product [[nodiscard]] Point4D cross3D(const Point4D& point4D) const; // Returns cross product // Operations with numbers [[nodiscard]] Point4D operator*(double number) const; [[nodiscard]] Point4D operator/(double number) const; // Other useful methods [[nodiscard]] double sqrAbs() const; // Returns squared vector length [[nodiscard]] double abs() const; // Returns vector length [[nodiscard]] Point4D normalized() const; // Returns normalized vector without changing }; #endif //INC_3DZAVR_POINT4D_H