/// /// \file include/scmp/geom/Coord2D.h /// \author K. Isom /// \date 2017-06-05 /// \brief 2D point and polar coordinate systems. /// /// Copyright 2017 K. Isom /// /// Permission to use, copy, modify, and/or distribute this software for /// any purpose with or without fee is hereby granted, provided that /// the above copyright notice and this permission notice appear in all /// copies. /// /// THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL /// WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED /// WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE /// AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL /// DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA /// OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER /// TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR /// PERFORMANCE OF THIS SOFTWARE. /// #ifndef SCMATH_GEOM_COORD2D_H #define SCMATH_GEOM_COORD2D_H #include #include #include #include namespace scmp { namespace geom { class Point2D; class Polar2D; /// \brief Point2D is a logical grouping of a set of 2D cartesian /// coordinates. class Point2D : public Vector { public: /// \brief A Point2D defaults to (0,0). Point2D(); /// \brief Initialize a Point2D At (_x, _y). Point2D(int _x, int _y); /// \brief Initialize a Point2D from a Polar2D coordinate. Point2D(const Polar2D &pol); /// \brief Return the X component of the point. int X() const; /// \brief Set the X component of the point. void X(int _x); /// \brief Return the Y component of the point. int Y() const; /// Set the Y component of the point. void Y(int _y); /// \brief ToString returns a string in the format (x,y). std::string ToString(); /// \brief ToPolar converts the Point2D to a polar coordinate /// in-place. void ToPolar(Polar2D &); /// \brief Rotate rotates the point by theta radians. /// /// \param rotated Stores the rotated point. /// \param theta The Angle (in radians) to Rotate the point. void Rotate(Point2D& rotated, double theta); /// \brief Rotate this point around a series of vertices. /// /// \param vertices A series of vertices to Rotate this point around. /// \param theta The Angle to Rotate by. /// \return A series of rotated points. std::vector Rotate(std::vector vertices, double theta); /// \brief Translate adds this point to the first argument, /// storing the result in the second argument. /// /// \param other The point to translate by. /// \param translated The point to store the translation in. void Translate(const Point2D &other, Point2D &translated); /// \brief Distance returns the distance from this point to another. int Distance(const Point2D &other) const; friend std::ostream &operator<<(std::ostream &outs, const Point2D &pt); }; // A Polar2D is a 2D polar coordinate, specified in terms of the radius from // some origin and the Angle from the positive X Axis of a cartesian coordinate // system. class Polar2D : public Vector { public: // A Polar2D can be initialised as a zeroised polar coordinate, by specifying // the radius and Angle directly, or via conversion from a Point2D. Polar2D(); Polar2D(double _r, double _theta); Polar2D(const Point2D &); double R() const; void R(const double _r); double Theta() const; void Theta(const double _theta); std::string ToString(); void ToPoint(Point2D &); // Rotate rotates the polar coordinate by the number of radians, storing the result // in the Polar2D argument. void Rotate(Polar2D &, double); // RotateAround rotates this point about by theta radians, storing the rotated point // in result. void RotateAround(const Point2D &other, Point2D &result, double tjeta); bool operator==(const Polar2D &) const; bool operator!=(const Polar2D &rhs) const { return !(*this == rhs); } friend std::ostream &operator<<(std::ostream &, const Polar2D &); }; } // end namespace geom } // end namespace math #endif