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A framework-agnostic Rust/WASM + WebGL2 Rendering library, compatible with calling from both Rust and JavaScript on the web.

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austintheriot/wrend

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wrend

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This library is currently in early development. Feel free to use it, but do so with the knowledge that APIs are likely to change without consideration for backwards compatibility.

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About

Wrend is a wrapper library around raw WebGL2 code and is written in Rust, which then gets compiled to WebAssembly for running in the browser. Its goal is to make working with WebGL more convenient when writing Rust and/or JavaScript/TypeScript code. Though most of the demo app examples are built using Yew, wrend itself is framework agnostic and is designed to be used in a variety of settings with diverse rendering pipelines. See the examples directory of the repo for examples.

If you're wondering about the name, wrend is short for WebGL2 Rendering Library.

Why

This library exists because I found myself writing the same verbose, (occasionally unsafe) WebGL code over and over again, often struggling to find the right level and type of abstraction over WebGL calls. Wrend is designed to ease the pain of working with low-level WebGL programming in Rust. This includes abstraction over requestAnimationFrame calls, making continuous animations as simple as calling start_animating and then holding the returned handle in memory. Stopping is also as easy as dropping the returned renderer handle and/or calling stop_animating.

Another strength of Wrend is its flexibility: rather than focusing on more common 3D rasterization techniques, Wrend enables constructing unique graphics pipelines for things like ray tracers, flow fields, and other non-traditional methods of rendering.

Demos

Realtime ray tracer written from scratch, inspired by the Ray Tracing in One Weekend series by Peter Shirley and adapted for use with Rust & WebGL.

I initially started this project as a software ray tracer running on Rust/WASM alone, but the render times that I experienced were so frustratingly slow that I quickly looked into implementing a hardware ray tracer that could take better advantage of the GPU's parallelization power. Once I switched to using WebGL2, render times went from around 1-6 minutes for a decent render to less than a second, and I was able to implement some realtime ray tracing elements like moving the camera, etc. by averaging many low-sample frames together rather than calculating them all at once (progressive rendering).

Ray-traced image created using the Wrend library

100,000 particles moving across the canvas, dropping pigment as they move. The movement of the particles is determined by a 2D noise texture generated at runtime.

A particle flow field

The classic.

Screenshot of Conway's Game of Life simulation

This is similar to the classic Conway's Game of Life, except it uses an 11x11 convolution kernel (rather than the classic 3x3) to calculate the next state of each cell. This results in more organic, formations that behave surprisingly similar to the original.

Screenshot of the Larger Than Life simulation

About

A framework-agnostic Rust/WASM + WebGL2 Rendering library, compatible with calling from both Rust and JavaScript on the web.

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