Long, long ago (December 2015) I wanted to learn how emulators worked, so I decided to write an NES emulator. Not only that, but I opted to write it in Rust, a language which I had never used before. A crazy idea, to be certain, but once I was done I had indeed learned a great deal about emulators, the NES, and Rust.
Anyway, I’ve been working on that project again lately, doing some maintenance work and upgrades.
Hello! This is a detailed example of exposing Rust code to other languages (in this case, Python). Most articles I’ve seen that cover this topic uses really trivial example functions, skipping over a lot of the complexity. Even the better ones out there typically don’t have a pre-existing, reasonably complex program to work with. I’m going to start with trivial functions and build my way up to being able to define a scene for my raytracer in Python using a series of calls to Rust, then render it and return the resulting image data back to Python.
Hello again, and welcome to the final part of my series on writing a raytracer in Rust (Part 1, Part 2). Previously we implemented a basic raytracer which could handle diffuse shading of planes and spheres with multiple objects and multiple lights. This time, we’ll add texturing, reflection and transparent objects.
First, I’ve refactored the common parts of Sphere and Plane out to a separate structure. Since this post is all about handling more complex surface properties, we’ll need a structure to represent them and avoid duplication.
Welcome to Part 2 of my series on writing a raytracer in Rust. If you haven’t already, you may wish to read Part 1. Previously, we implemented a basic raytracer which can render only a single sphere with no lighting. This time, we’ll add multiple objects, planes, and basic lighting.
Multiple Objects It’s pretty easy to change our scene definition to contain a Vec of spheres instead of just a single one.
Hello! This is part one of a short series of posts on writing a simple raytracer in Rust. I’ve never written one of these before, so it should be a learning experience all around.
So what is a raytracer anyway? The short version is it’s a computer program that traces the paths of simulated rays of light through a scene to produce high-quality 3D-rendered images. Despite that, it also happens to be the simplest way to render 3D images.