library: render: scene: handle refraction cleanly
The refraction information was incorrect in the previous implementation. We never updated the medium information when going out of a transparent material. It is now handled using a small structure holding both the old index, and new_index. We can now handle any number of successive medium changes, with the associated change of indices correctly. This implementation assumes that any ray going into an object is going to come out in the same medium that it was originally travelling in before entering said object. This is an acceptable approximation to me.
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@ -121,6 +121,7 @@ impl Scene {
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let (x, y) = self.camera.film().pixel_ratio(x, y);
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let (x, y) = self.camera.film().pixel_ratio(x, y);
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let pixel = self.camera.film().pixel_at_ratio(x, y);
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let pixel = self.camera.film().pixel_at_ratio(x, y);
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let direction = (pixel - self.camera.origin()).normalize();
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let direction = (pixel - self.camera.origin()).normalize();
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let indices = RefractionInfo::with_index(self.diffraction_index);
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self.cast_ray(Ray::new(pixel, direction))
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self.cast_ray(Ray::new(pixel, direction))
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.map_or_else(LinearColor::black, |(t, obj)| {
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.map_or_else(LinearColor::black, |(t, obj)| {
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self.color_at(
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self.color_at(
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@ -128,7 +129,7 @@ impl Scene {
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obj,
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obj,
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direction,
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direction,
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self.reflection_limit,
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self.reflection_limit,
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self.diffraction_index,
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indices,
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)
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)
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})
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})
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}
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}
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@ -164,7 +165,7 @@ impl Scene {
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object: &Object,
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object: &Object,
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incident_ray: Vector,
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incident_ray: Vector,
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reflection_limit: u32,
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reflection_limit: u32,
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diffraction_index: f32,
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mut indices: RefractionInfo,
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) -> LinearColor {
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) -> LinearColor {
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let texel = object.shape.project_texel(&point);
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let texel = object.shape.project_texel(&point);
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let properties = object.material.properties(texel);
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let properties = object.material.properties(texel);
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@ -178,17 +179,17 @@ impl Scene {
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// Avoid calculating reflection when not needed
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// Avoid calculating reflection when not needed
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return lighting;
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return lighting;
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}
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}
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let reflected = self.reflection(point, reflected_ray, reflection_limit, diffraction_index);
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let reflected = self.reflection(point, reflected_ray, reflection_limit, indices.clone());
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// We can unwrap safely thanks to the check for None before
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// We can unwrap safely thanks to the check for None before
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match properties.refl_trans.unwrap() {
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match properties.refl_trans.unwrap() {
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ReflTransEnum::Transparency { coef, index } => {
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ReflTransEnum::Transparency { coef, index } => {
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// Calculate the refracted ray, if it was refracted
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// Calculate the refracted ray, if it was refracted, and mutate indices accordingly
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refracted(incident_ray, normal, diffraction_index, index).map_or_else(
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refracted(incident_ray, normal, &mut indices, index).map_or_else(
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// Total reflection
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// Total reflection
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|| reflected.clone(),
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|| reflected.clone(),
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// Refraction (refracted ray, amount of *reflection*)
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// Refraction (refracted ray, amount of *reflection*)
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|(r, refl_t)| {
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|(r, refl_t)| {
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let refracted = self.refraction(point, coef, r, reflection_limit, index);
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let refracted = self.refraction(point, coef, r, reflection_limit, indices);
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let refr_light = refracted * (1. - refl_t) + reflected.clone() * refl_t;
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let refr_light = refracted * (1. - refl_t) + reflected.clone() * refl_t;
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refr_light * coef + lighting * (1. - coef)
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refr_light * coef + lighting * (1. - coef)
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},
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},
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@ -204,7 +205,7 @@ impl Scene {
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transparency: f32,
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transparency: f32,
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refracted: Vector,
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refracted: Vector,
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reflection_limit: u32,
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reflection_limit: u32,
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new_index: f32,
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indices: RefractionInfo,
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) -> LinearColor {
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) -> LinearColor {
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if transparency > 1e-5 && reflection_limit > 0 {
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if transparency > 1e-5 && reflection_limit > 0 {
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let refraction_start = point + refracted * 0.001;
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let refraction_start = point + refracted * 0.001;
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@ -215,7 +216,7 @@ impl Scene {
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obj,
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obj,
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refracted,
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refracted,
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reflection_limit - 1,
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reflection_limit - 1,
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new_index,
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indices,
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);
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);
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return refracted * transparency;
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return refracted * transparency;
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}
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}
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@ -228,7 +229,7 @@ impl Scene {
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point: Point,
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point: Point,
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reflected: Vector,
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reflected: Vector,
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reflection_limit: u32,
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reflection_limit: u32,
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diffraction_index: f32,
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indices: RefractionInfo,
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) -> LinearColor {
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) -> LinearColor {
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if reflection_limit > 0 {
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if reflection_limit > 0 {
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let reflection_start = point + reflected * 0.001;
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let reflection_start = point + reflected * 0.001;
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@ -239,7 +240,7 @@ impl Scene {
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obj,
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obj,
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reflected,
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reflected,
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reflection_limit - 1,
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reflection_limit - 1,
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diffraction_index,
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indices,
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);
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);
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return color;
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return color;
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}
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}
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@ -302,9 +303,24 @@ fn reflected(incident: Vector, normal: Vector) -> Vector {
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}
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}
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/// Returns None if the ray was totally reflected, Some(refracted_ray, reflected_amount) if not
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/// Returns None if the ray was totally reflected, Some(refracted_ray, reflected_amount) if not
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fn refracted(incident: Vector, normal: Vector, n_1: f32, n_2: f32) -> Option<(Vector, f32)> {
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/// Adds an element to the top of indices that should be removed
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fn refracted(
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incident: Vector,
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normal: Vector,
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indices: &mut RefractionInfo,
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new_index: f32,
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) -> Option<(Vector, f32)> {
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let cos1 = incident.dot(&normal);
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let cos1 = incident.dot(&normal);
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let normal = if cos1 < 0. { normal } else { -normal };
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let normal = if cos1 < 0. {
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// Entering object, change the medium
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indices.enter_medium(new_index); // The old index is now in old_index
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normal
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} else {
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// Exiting object, exit the medium
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indices.exit_medium(); // We swapped the indices
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-normal
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};
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let (n_1, n_2) = (indices.old_index, indices.new_index);
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let eta = n_1 / n_2;
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let eta = n_1 / n_2;
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let k = 1. - eta * eta * (1. - cos1 * cos1);
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let k = 1. - eta * eta * (1. - cos1 * cos1);
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if k < 0. {
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if k < 0. {
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@ -320,6 +336,32 @@ fn refracted(incident: Vector, normal: Vector, n_1: f32, n_2: f32) -> Option<(Ve
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Some((refracted.normalize(), refl_t))
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Some((refracted.normalize(), refl_t))
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}
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}
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#[derive(Debug, PartialEq, Clone)]
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struct RefractionInfo {
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pub old_index: f32,
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pub new_index: f32,
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}
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impl RefractionInfo {
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pub fn with_index(index: f32) -> Self {
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RefractionInfo {
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old_index: index,
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new_index: index,
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}
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}
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pub fn enter_medium(&mut self, index: f32) {
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*self = RefractionInfo {
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old_index: self.new_index,
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new_index: index,
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}
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}
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pub fn exit_medium(&mut self) {
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std::mem::swap(&mut self.old_index, &mut self.new_index)
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}
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}
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#[derive(Debug, PartialEq, Deserialize)]
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#[derive(Debug, PartialEq, Deserialize)]
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struct SerializedScene {
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struct SerializedScene {
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camera: Camera,
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camera: Camera,
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