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#ifndef MATH_H
#define MATH_H
#include <glm/glm.hpp>
#include <glm/gtc/constants.hpp>
#include <utility>
struct Arc : public std::pair<float, float> {
using std::pair<float, float>::pair;
Arc(const glm::vec3 & centre3, const glm::vec3 & e0p, const glm::vec3 & e1p);
float
operator[](unsigned int i) const
{
return i ? second : first;
}
};
constexpr const glm::vec3 up {0, 1, 0};
constexpr const glm::vec3 north {0, 0, 1};
constexpr const glm::vec3 south {0, 0, -1};
constexpr const glm::vec3 east {-1, 0, 0};
constexpr const glm::vec3 west {1, 0, 0};
constexpr auto half_pi {glm::half_pi<float>()};
constexpr auto quarter_pi {half_pi / 2};
constexpr auto pi {glm::pi<float>()};
constexpr auto two_pi {glm::two_pi<float>()};
glm::mat4 flat_orientation(const glm::vec3 & diff);
float vector_yaw(const glm::vec3 & diff);
float vector_pitch(const glm::vec3 & diff);
float round_frac(const float & v, const float & frac);
constexpr inline glm::vec2
operator!(const glm::vec3 & v)
{
return {v.x, v.z};
}
constexpr inline glm::vec3
operator!(const glm::vec2 & v)
{
return {v.x, 0, v.y};
}
constexpr inline float
arc_length(const Arc & arc)
{
return arc.second - arc.first;
}
float normalize(float ang);
std::pair<glm::vec2, bool> find_arc_centre(glm::vec2 start, float entrys, glm::vec2 end, float entrye);
std::pair<glm::vec2, bool> find_arc_centre(glm::vec2 start, glm::vec2 ad, glm::vec2 end, glm::vec2 bd);
std::pair<float, float> find_arcs_radius(glm::vec2 start, float entrys, glm::vec2 end, float entrye);
float find_arcs_radius(glm::vec2 start, glm::vec2 ad, glm::vec2 end, glm::vec2 bd);
#endif
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