#include "Sphere.h" #include"Ray.h" #include Sphere::Sphere(const Vector3 & origin, float radius) { mOrigin = origin; mRadius = radius; } void Sphere::set(const Vector3 & origin, float radius) { mOrigin = origin; mRadius = radius; } bool Sphere::HitTest(const Ray& input_ray, float min_distance, float max_distance, HitPoint& hit_point) { Vector3 sphere_center_to_ray = input_ray.mOrigin - mOrigin; float a = Dot(input_ray.mDirection, input_ray.mDirection); float b = 2.0f * Dot(sphere_center_to_ray, input_ray.mDirection); float c = Dot(sphere_center_to_ray, sphere_center_to_ray) - mRadius * mRadius; float determinant = b * b - 4.0f * a * c; bool isHited = false; float distance = -1.0f; if (determinant > 0.0f) { distance = (-b - sqrtf(determinant))/ 2.0f; if (distance > min_distance && distance < max_distance) { isHited = true; } distance = (-b + sqrtf(determinant)) / 2.0f; if (distance > min_distance && distance < max_distance) { isHited = true; } } else if (determinant == 0.0f) { distance = -b / 2.0f; if (distance > min_distance && distance < max_distance) { isHited = true; } } if (isHited) { hit_point.mPosition = input_ray.PointAt(distance); Vector3 normal = hit_point.mPosition - mOrigin; normal.Normalize(); hit_point.mDistance = distance; hit_point.mNormal = normal; } return isHited; }