Add light attenuation
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6 changed files with 140 additions and 17 deletions
15
assignment-1b/examples/attenuation-demo.txt
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15
assignment-1b/examples/attenuation-demo.txt
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@ -0,0 +1,15 @@
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imsize 600 200
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eye 0 0 15
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viewdir 0 0 -1
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hfov 90
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updir 0 1 0
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bkgcolor 0.4 0.4 0.4
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attlight -15 10 5 1 1 1 1 0 0.25 0.03
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mtlcolor 0.6 1 0.8 1 1 1 0.4 1 0.5 15
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sphere -10 0 0 2
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sphere -5 0 0 2
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sphere 0 0 0 2
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sphere 5 0 0 2
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sphere 10 0 0 2
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@ -66,7 +66,12 @@ pub struct Material {
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#[derive(Debug)]
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pub enum LightKind {
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/// A point light source exists at a point and emits light in all directions
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Point { location: Vector3<f64> },
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Point {
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location: Vector3<f64>,
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/// Whether light attenuation is enabled for this light
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attenuation: Option<Attenuation>,
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},
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/// A directional light source exists at an infinitely far location but emits
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/// light in a specific direction
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@ -87,7 +92,7 @@ impl Light {
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/// light source
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pub fn direction_from(&self, point: Vector3<f64>) -> Vector3<f64> {
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match self.kind {
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LightKind::Point { location } => location - point,
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LightKind::Point { location, .. } => location - point,
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LightKind::Directional { direction } => -direction,
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}
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.normalize()
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@ -131,6 +136,28 @@ impl Default for DepthCueing {
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}
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}
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/// Light attenuation dropoff coefficients
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#[derive(Debug)]
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pub struct Attenuation {
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pub c1: f64,
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pub c2: f64,
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pub c3: f64,
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}
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/// A default implementation here needs to simulate what would happen if there
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/// was no light attenuation specified. In this case, c1 would just be a
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/// constant of 1 and all the coefficients for anything involving distance would
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/// be zeroed out
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impl Default for Attenuation {
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fn default() -> Self {
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Self {
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c1: 1.0,
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c2: 0.0,
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c3: 0.0,
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}
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}
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}
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impl Scene {
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/// Determine the boundaries of the viewing window in world coordinates
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pub fn compute_viewing_window(&self, distance: f64) -> Rect {
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@ -61,14 +61,37 @@ impl Scene {
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.max(0.0)
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.powf(material.exponent);
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// Shadow coefficient between 0 and 1 to control how bright this pixel
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// should be from being in the shadow of another object (could be
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// between 0 and 1 when applying soft shadows)
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let shadow_coefficient = self.compute_shadow_coefficient(
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obj_idx,
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intersection_context.point,
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light,
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);
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let attenuation_coefficient = match &light.kind {
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LightKind::Point {
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location,
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attenuation: Some(att),
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} => {
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let dist = (location - intersection_context.point).norm();
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let denom = att.c1 + att.c2 * dist + att.c3 * dist.powi(2);
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if denom == 0.0 {
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warn!("Light attenuation coefficients produced a denominator of 0. Check your inputs...");
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1.0 // Some kind of graceful fallback here
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} else {
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1.0 / denom
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}
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}
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_ => 1.0,
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};
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let diffuse_and_specular = diffuse_component + specular_component;
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shadow_coefficient * light.color.component_mul(&diffuse_and_specular)
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attenuation_coefficient
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* shadow_coefficient
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* light.color.component_mul(&diffuse_and_specular)
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})
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.sum();
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@ -141,7 +164,7 @@ impl Scene {
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match light.kind {
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// In the case of point lights, we must check to see if both t > 0 and
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// t is less than the time it took to even get to the light.
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LightKind::Point { location } => {
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LightKind::Point { location, .. } => {
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let light_time = (location - ray.origin).norm();
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if intersection_time <= 0.0 || intersection_time >= light_time {
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@ -5,7 +5,7 @@ use nalgebra::Vector3;
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use crate::scene::{
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cylinder::Cylinder,
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data::{Light, LightKind, Material, Object},
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data::{Light, LightKind, Material, Object, Attenuation},
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sphere::Sphere,
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Scene,
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};
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@ -79,6 +79,33 @@ impl Scene {
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},
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1 => LightKind::Point {
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location: read_vec3(0)?,
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attenuation: None,
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},
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_ => bail!("Invalid w; must be either 0 or 1"),
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};
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let light = Light {
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kind,
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color: read_vec3(4)?,
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};
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scene.lights.push(light);
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}
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// attlight x y z w r g b c1 c2 c3
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"attlight" => {
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ensure!(parts.len() == 10, "Attenuated light requires 10 params");
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let kind = match parts[3] as usize {
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// TODO: Is this even defined? Pending TA answer
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0 => LightKind::Directional {
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direction: read_vec3(0)?,
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},
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1 => LightKind::Point {
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location: read_vec3(0)?,
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attenuation: Some(Attenuation {
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c1: parts[7],
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c2: parts[8],
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c3: parts[9],
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}),
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},
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_ => bail!("Invalid w; must be either 0 or 1"),
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};
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@ -8,7 +8,7 @@ use nalgebra::Vector3;
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use crate::image::Color;
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use self::data::{DepthCueing, Light, Material, Object};
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use self::data::{DepthCueing, Light, Material, Object, Attenuation};
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#[derive(Debug, Default)]
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pub struct Scene {
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@ -26,6 +26,7 @@ pub struct Scene {
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/// Background color
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pub bkg_color: Color,
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pub depth_cueing: DepthCueing,
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pub attenuation: Attenuation,
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pub materials: Vec<Material>,
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pub lights: Vec<Light>,
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@ -5,13 +5,15 @@ output: pdf_document
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# Raytracer part B
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This project implements a raytracer with Blinn-Phong illumination implemented.
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The primary formula that is used by this implementation is:
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This project implements a raytracer with Blinn-Phong illumination and shadows
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implemented. The primary formula that is used by this implementation is:
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\begin{equation}
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I_{\lambda} =
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k_a O_{d\lambda} +
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\sum_{i=1}^{n_\textrm{lights}} \left(
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f_\textrm{att} \cdot
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S_i \cdot
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IL_{i\lambda} \left[
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k_d O_{d\lambda} \max ( 0, \vec{N} \cdot \vec{L_i} ) +
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k_s O_{s\lambda} \max ( 0, \vec{N} \cdot \vec{H_i} )^n
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@ -26,6 +28,8 @@ Where:
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- $k_d$ is the material's diffuse reflectivity
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- $k_s$ is the material's specular reflectivity
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- $n_\textrm{lights}$ is the number of lights
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- $f_\textrm{att}$ is the light attenuation factor (1.0 if attenuation is not on)
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- $S_i$ is the shadow coefficient for light $i$
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- $IL_{i\lambda}$ is the intensity of light $i$
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- $O_{d\lambda}$ is the object's diffuse color
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- $O_{s\lambda}$ is the object's specular color
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@ -35,6 +39,11 @@ Where:
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direction to the viewer
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- $n$ is the exponent for the specular component
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In this report we will look through how these various factors influence the
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rendering of the scene. All the images along with their source `.txt` files,
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rendered `.ppm` files, and converted `.png` files can be found in the `examples`
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directory of this handin.
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## Varying $k_a$
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$k_a$ is the strength of ambient light. It's used as a coefficient for the
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@ -44,21 +53,21 @@ $k_a$ between 0.2 and 1. Note how the overall color of the ball increases or
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decreases in brightness when all other factors remain constant.
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![Varying $k_a$](examples/ka-demo.png){width=360px}
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\
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\
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## Varying $k_d$
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TODO
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![Varying $k_d$](examples/kd-demo.png){width=360px}
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\
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\
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## Varying $k_s$
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TODO
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![Varying $k_s$](examples/ks-demo.png){width=360px}
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\
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\
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## Varying $n$
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@ -68,7 +77,7 @@ the image below, I varied $n$ between 2 and 100. Note how the size of the shine
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is more focused but covers a smaller area as $n$ increases.
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![Varying $n$](examples/n-demo.png){width=360px}
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\
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\
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## Multiple lights
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@ -80,7 +89,7 @@ is clamped against 1.0. Below is an example of a scene with two lights; one to
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the left and one to the right:
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![Multiple lights](examples/multiple-lights-demo.png){width=360px}
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\
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\
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## Shadows
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@ -97,7 +106,29 @@ object. Taking the proportion of rays that hit as a coefficient for the shadow,
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we can get some soft shadow effects like this:
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![Soft shadows](examples/soft-shadow-demo.png){width=360px}
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\
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\
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## Light attenuation
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Light attenuation is when more of the light is applied for objects that are
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closer to a particular light source. The function that's applied is an inverse
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quadratic formula with respect to the distance the object is from the light:
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\begin{equation}
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f_\textrm{att}(d) = \frac{1}{c_1 + c_2 d + c_3 d^2}
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\end{equation}
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Where:
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- $f_\textrm{att}$ is the attenuation factor
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- $d$ is the distance the object is from the light
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- $c_1$, $c_2$, and $c_3$ are user-supplied coefficients
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As you can see below, the effect of the light drops off with the distance from
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the light (light coming from the left):
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![Light attenuation](examples/attenuation-demo.png){width=360px}
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\
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## Depth Cueing
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@ -107,7 +138,7 @@ the image below; note how the objects are less and less bright the further they
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are away from the eye.
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![Depth cueing](examples/depth-cueing-demo.png){width=360px}
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\
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\
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## Shortcomings of the model
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# Arbitrary Objects
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![Objects in the scene](examples/objects.png){width=360px}
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\
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\
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