get started on writeup

assignment-1b/Cargo.toml

@@ -10,7 +10,7 @@ path = "src/main.rs"
 
 [dependencies]
 anyhow = "1.0.68"
-clap = { version = "4.1.4", features = ["derive"] }
+clap = { version = "4.1.4", features = ["cargo", "derive"] }
 derivative = "2.2.0"
 nalgebra = "0.32.1"
 num = { version = "0.4.0", features = ["serde"] }

assignment-1b/src/image.rs

@@ -8,13 +8,13 @@ pub type Color = Vector3<f64>;
 /// A representation of an image
 pub struct Image {
   /// Width in pixels
-  pub(crate) width: usize,
+  pub width: usize,
 
   /// Height in pixels
-  pub(crate) height: usize,
+  pub height: usize,
 
   /// Pixel data in row-major form.
-  pub(crate) data: Vec<Color>,
+  pub data: Vec<Color>,
 }
 
 impl Image {

assignment-1b/src/lib.rs

@@ -0,0 +1,11 @@
+#![doc = include_str!("../writeup.md")]
+
+#[macro_use]
+extern crate anyhow;
+#[macro_use]
+extern crate derivative;
+
+pub mod image;
+pub mod ray;
+pub mod scene;
+pub mod utils;

assignment-1b/src/main.rs

@@ -1,22 +1,11 @@
-#[macro_use]
-extern crate anyhow;
-#[macro_use]
-extern crate derivative;
-
-mod image;
-mod ray;
-mod scene;
-mod utils;
-
 use std::fs::File;
 use std::path::PathBuf;
 
 use anyhow::Result;
+use assignment_1b::image::Image;
+use assignment_1b::ray::Ray;
+use assignment_1b::scene::Scene;
 use clap::Parser;
-use scene::Scene;
-
-use crate::image::Image;
-use crate::ray::Ray;
 
 /// Simple raycaster.
 #[derive(Parser)]

assignment-1b/src/scene/data.rs

@@ -50,18 +50,19 @@ pub struct Material {
 #[derive(Debug)]
 pub enum LightKind {
   /// A point light source exists at a point and emits light in all directions
-  Point {
-    location: Vector3<f64>,
-  },
+  Point { location: Vector3<f64> },
 
-  Directional {
-    direction: Vector3<f64>,
-  },
+  /// A directional light source exists at an infinitely far location but emits
+  /// light in a specific direction
+  Directional { direction: Vector3<f64> },
 }
 
 #[derive(Debug)]
 pub struct Light {
+  /// The kind of light source, as well as its associated information
   pub kind: LightKind,
+
+  /// The color, or intensity, of the light source
   pub color: Vector3<f64>,
 }
 
@@ -115,7 +116,8 @@ impl Scene {
 
     // Compute viewing window corners
     let n = self.view_dir.normalize();
-    #[rustfmt::skip] // Otherwise this line wraps over
+
+    #[rustfmt::skip] // Don't format, or else this line wraps over
     let view_window = Rect {
       upper_left: self.eye_pos + n * distance - u * (viewing_width / 2.0) + v * (viewing_height / 2.0),
       upper_right: self.eye_pos + n * distance + u * (viewing_width / 2.0) + v * (viewing_height / 2.0),

assignment-1b/writeup.md

@@ -3,6 +3,20 @@ geometry: margin=2cm
 output: pdf_document
 ---
 
+This project implements a raytracer with Blinn-Phong illumination implemented.
+The primary formula that is used by this implementation is:
+
+$$
+I_{\lambda} = k_a O_{d\lambda} +
+  \sum_{i=1}^{n_\textrm{lights}} \left(
+    IL_{i\lambda} \left[
+      k_d O_{d\lambda} \textrm{max} \{
+        % 0, \overrightarrow{N} \middot \vec{L_i}
+      \}
+    \right]
+  \right)
+$$
+
 ## Varying $k_a$
 
 ![Varying $k_a$](examples/ka-demo.png){width=240px}
@@ -22,4 +36,3 @@ output: pdf_document
 # Arbitrary Objects
 
 ![Varying $n$](examples/objects.png){width=240px}
-