/* Classes which define rotations about the x, y, and z axes. Using these, any arbitrary orientation can be described. Methods implemented for vector multiplication as well as generating the inverse of the rotation. */ #ifndef ROTATION_H #define ROTATION_H #include "Vec3.h" namespace Mask { class XRotation { public: XRotation(); XRotation(double ang); ~XRotation(); Vec3 Rotate(const Vec3& vector); inline void SetAngle(double ang) { m_angle = ang; GenerateMatrix(); }; inline XRotation GetInverse() { return XRotation(-m_angle); }; inline Vec3 operator*(const Vec3& vector) { double x = m_matrix[0][0]*vector[0] + m_matrix[0][1]*vector[1] + m_matrix[0][2]*vector[2]; double y = m_matrix[1][0]*vector[0] + m_matrix[1][1]*vector[1] + m_matrix[1][2]*vector[2]; double z = m_matrix[2][0]*vector[0] + m_matrix[2][1]*vector[1] + m_matrix[2][2]*vector[2]; return Vec3(x, y, z); }; private: void GenerateMatrix(); double m_angle; double m_matrix[3][3]; }; class YRotation { public: YRotation(); YRotation(double ang); ~YRotation(); Vec3 Rotate(const Vec3& vector); inline void SetAngle(double ang) { m_angle = ang; GenerateMatrix(); }; inline YRotation GetInverse() { return YRotation(-m_angle); }; inline Vec3 operator*(const Vec3& vector) { double x = m_matrix[0][0]*vector[0] + m_matrix[0][1]*vector[1] + m_matrix[0][2]*vector[2]; double y = m_matrix[1][0]*vector[0] + m_matrix[1][1]*vector[1] + m_matrix[1][2]*vector[2]; double z = m_matrix[2][0]*vector[0] + m_matrix[2][1]*vector[1] + m_matrix[2][2]*vector[2]; return Vec3(x, y, z); }; private: void GenerateMatrix(); double m_angle; double m_matrix[3][3]; }; class ZRotation { public: ZRotation(); ZRotation(double ang); ~ZRotation(); Vec3 Rotate(const Vec3& vector); inline void SetAngle(double ang) { m_angle = ang; GenerateMatrix();}; inline ZRotation GetInverse() { return ZRotation(-m_angle); }; inline Vec3 operator*(const Vec3& vector) { double x = m_matrix[0][0]*vector[0] + m_matrix[0][1]*vector[1] + m_matrix[0][2]*vector[2]; double y = m_matrix[1][0]*vector[0] + m_matrix[1][1]*vector[1] + m_matrix[1][2]*vector[2]; double z = m_matrix[2][0]*vector[0] + m_matrix[2][1]*vector[1] + m_matrix[2][2]*vector[2]; return Vec3(x, y, z); }; private: void GenerateMatrix(); double m_angle; double m_matrix[3][3]; }; }; #endif