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c90b185b8d
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c6b0fb59ae |
86
src/rotate_y.rs
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86
src/rotate_y.rs
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@ -0,0 +1,86 @@
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use crate::hittable::{HitRecord, Hittable};
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use crate::{Aabb, Point3, Ray, Vec3};
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pub struct RotateY<H: Hittable> {
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hittable: H,
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sin_theta: f64,
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cos_theta: f64,
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bounding_box: Option<Aabb>
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}
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impl<H: Hittable> RotateY<H> {
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pub fn new(hittable: H, degrees: f64) -> Self {
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let radians = degrees.to_radians();
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let sin_theta = radians.sin();
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let cos_theta = radians.cos();
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let mut bounding_box = hittable.bounding_box(0.0, 1.0);
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if let Some(bbox) = bounding_box {
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let mut min = Point3::new(f64::INFINITY, f64::INFINITY, f64::INFINITY);
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let mut max = Point3::new(f64::NEG_INFINITY, f64::NEG_INFINITY, f64::NEG_INFINITY);
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for i in 0..2 {
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for j in 0..2 {
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for k in 0..2 {
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let x = (i as f64)*bbox.maximum.x() + ((1 - i) as f64)*bbox.minimum.x();
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let y = (i as f64)*bbox.maximum.y() + ((1 - j) as f64)*bbox.minimum.y();
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let z = (i as f64)*bbox.maximum.z() + ((1 - k) as f64)*bbox.minimum.z();
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let x = cos_theta * x + sin_theta * z;
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let z = -sin_theta * x + cos_theta * z;
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let tester = Vec3::new(x, y, z);
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for c in 0..3 {
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min[c] = min[c].min(tester[c]);
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max[c] = max[c].max(tester[c]);
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}
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}
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}
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}
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bounding_box = Some(Aabb {
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minimum: min,
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maximum: max
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});
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}
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Self { hittable, sin_theta, cos_theta, bounding_box }
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}
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}
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impl<H: Hittable> Hittable for RotateY<H> {
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fn hit(&self, ray: &Ray, t_min: f64, t_max: f64) -> Option<HitRecord> {
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let mut origin = ray.origin();
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let mut direction = ray.direction();
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origin[0] = self.cos_theta * ray.origin()[0] - self.sin_theta*ray.origin()[2];
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origin[2] = self.sin_theta * ray.origin()[0] + self.cos_theta*ray.origin()[2];
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direction[0] = self.cos_theta * ray.direction()[0] - self.sin_theta*ray.direction()[2];
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direction[2] = self.sin_theta * ray.direction()[0] + self.cos_theta*ray.direction()[2];
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let rotated = Ray::new(origin, direction, ray.time());
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match self.hittable.hit(&rotated, t_min, t_max) {
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Some(rec) => {
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let mut p = rec.point;
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let mut normal = rec.normal;
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p[0] = self.cos_theta*rec.point[0] + self.sin_theta * rec.point[2];
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p[2] = -self.sin_theta*rec.point[0] + self.cos_theta * rec.point[2];
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normal[0] = self.cos_theta*rec.normal[0] + self.sin_theta * rec.normal[2];
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normal[2] = -self.sin_theta*rec.normal[0] + self.cos_theta * rec.normal[2];
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let mut new_rec = HitRecord {
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point: p,
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normal,
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t: rec.t,
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u: rec.u,
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v: rec.v,
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front_face: rec.front_face,
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material: rec.material,
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};
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new_rec.normalized(&rotated);
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Some(new_rec)
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},
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_ => None
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}
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}
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fn bounding_box(&self, _time0: f64, _time1: f64) -> Option<Aabb> {
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self.bounding_box
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}
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}
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