AssemblyScript compiles strictly typed TypeScript (basically JavaScript with types) to WebAssembly using Binaryen. It generates lean and mean WebAssembly modules while being just an npm install
away.
Try it out in WebAssembly Studio!
The core team members and most contributors do this open source work in their free time. If you use AssemblyScript for a serious task or plan to do so, and you'd like us to invest more time on it, please donate to our OpenCollective. By sponsoring this project, your logo will show up above. Thank you so much for your support!
AssemblyScript was frictionless. Not only does it allow you to use TypeScript to write WebAssembly, [...] it also produces glue-free WebAssembly modules that are very small with decent performance. – Surma, Replacing a hot path in your app's JavaScript with WebAssembly (Feb 16, 2019)
Perhaps the fundamental issue [to get a small .wasm file] is that JavaScript is the only language for which the Web runtime is a perfect fit. Close relatives that were designed to compile to it, like TypeScript, can be very efficient as well. But languages like C, C++, Rust, and so forth were not originally designed for that purpose. – Alon Zakai, Small WebAssembly Binaries with Rust + Emscripten (Apr 18, 2018)
JavaScript's heyday as the only browser language is over, but most web developers are used to writing JavaScript, and learning a new syntax just to get access to WebAssembly is not (always) ideal. If only there was something in to bridge the gap… – Jani Tarvainen, TypeScript is the bridge between JavaScript and WebAssembly (Feb 20, 2018)
I do think [compiling TypeScript into WASM] is tremendously useful. It allows JavaScript developers to create WASM modules without having to learn C. – Colin Eberhardt, Exploring different approaches to building WebAssembly modules (Oct 17, 2017)
All the details are provided in the AssemblyScript wiki - make sure to pay it a visit. With that being said, the easiest way to get started with AssemblyScript is to point npm at the GitHub repository (for now)
$> npm install --save-dev AssemblyScript/assemblyscript
followed by scaffolding a new project including the necessary configuration files, for example in the current directory:
$> npx asinit .
Once the project is set up, it's just a matter of using your existing TypeScript tooling while coding, and using the CLI to build to WebAssembly, either manually, or using (and maybe modifying) the generated build task in the generated package.json
:
$> npm run asbuild
The CLI API can also be used programmatically.
If you rather prefer an installation suitable for development, pretty much the same can be achieved by cloning the GitHub repository instead:
$> git clone https://github.com/AssemblyScript/assemblyscript.git
$> cd assemblyscript
$> npm install
$> npm link
Note that a fresh clone of the compiler will use the distribution files in dist/
, but it can also run the sources directly through ts-node after an npm run clean
, which is useful in development. This condition can also be checked by running asc -v
(it is running the sources if it states -dev
).
-
Conway's Game of Life [ demo | fiddle ]
Continuously updates the cellular automaton and visualizes its state on a canvas. -
Mandelbrot Set [ demo | fiddle ]
Renders the Mandelbrot set to a canvas. -
i64 polyfill
Exposes WebAssembly's i64 operations to JavaScript using 32-bit integers (low and high bits). -
PSON decoder
A simple decoder for the PSON binary format. -
WASM parser
A WebAssembly binary parser in WebAssembly. -
N-body system [ demo ]
An implementation of the N-body system from the Computer Language Benchmarks Game.
To build an UMD bundle to dist/assemblyscript.js
(depends on binaryen.js), including a browser version of asc to dist/asc.js
(depends on assemblyscript.js):
$> npm run build
Cleaning the distribution files (again):
$> npm run clean
Linting potential changes:
$> npm run check
Running the tests:
$> npm test
Running everything in order (lint, clean, test, build, test):
$> npm run all