Isomorphic library to handle passing high-level data structures between AssemblyScript and JavaScript. π€π
- Features
- Installation
- Quick Start
- Additional Examples
- Supported Data Types
- Supported AssemblyScript Runtime Variants
- Reference API
- Motivation
- Performance
- Production
- Projects using as-bind
- Contributing
- License
- The library is isomorphic. Meaning it supports both the Browser, and Node! And has ESM, AMD, CommonJS, and IIFE bundles! π
- Wraps around the AssemblyScript Loader. The loader handles all the heavy-lifting of passing data into WebAssembly linear memory. πͺ
- Wraps around imported JavaScript functions, and exported AssemblyScript functions of the AssemblyScript Wasm Module. This allows high-level data types to be passed directly to exported AssemblyScript functions! π€―
- Moves a lot of work to compile-time using AssemblyScript Transforms and completely avoids module-specific βglue codeβ. π
- Installable from package managers (npm), with a modern JavaScript API syntax. π¦
- The library is < 4KB (minified and gzip'd), including the AssemblyScript Loader ! π²
- This library is currently (as of January, 2020) the wasm-bindgen of AssemblyScript. π
You can install as-bind in your project by running the following:
npm install --save as-bind
1. Compiling your Assemblyscript
To enable as-bind for your AssemblyScript Wasm modules, add the as-bind transform when compiling your module:
asc your-entryfile.ts --exportRuntime --transform as-bind [...other cli options...]
The things to notice are:
--transform as-bind
- This is the as-bind transform that runs at compile time. It embeds all the required type information into the WebAssembly Module.--exportRuntime
- This is required for the AssemblyScript Loader to work properly. It exposes functions on the module to allocate memory from JavaScript.
For optional testing purposes , let's export an example function we can try in your-entryfile.ts
:
export function myExportedFunctionThatTakesAString(value: string): string {
return "AsBind: " + value;
}
2. In your Javascript
For browser JavaScript. We can do the following:
// If you are using a Javascript bundler, use the ESM bundle with import syntax
import * as AsBind from "as-bind";
// If you are not using a bundler add a <script> tag to your HTML
// Where the `src` points to the iife bundle (as-bind.iife.js), for example: https://unpkg.com/as-bind
// Then, INSTEAD of using the import syntax, do: `const { AsBind } = AsBindIIFE;`
const wasm = fetch("./path-to-my-wasm.wasm");
const asyncTask = async () => {
const asBindInstance = await AsBind.instantiate(wasm);
// You can now use your wasm / as-bind instance!
const response = asBindInstance.exports.myExportedFunctionThatTakesAString(
"Hello World!"
);
console.log(response); // AsBind: Hello World!
};
asyncTask();
For Node JavaScript, we would use the CommonJS bundle by doing the following:
// We need to import the direct as-bind.cjs.js for Node applications.
// This is because the default "main" key in the `package.json`,
// is the as-bind transform script
const AsBind = require("as-bind/dist/as-bind.cjs.js");
const fs = require("fs");
const wasm = fs.readFileSync("./path-to-my-wasm.wasm");
const asyncTask = async () => {
const asBindInstance = await AsBind.instantiate(wasm);
// You can now use your wasm / as-bind instance!
const response = asBindInstance.exports.myExportedFunctionThatTakesAString(
"Hello World!"
);
console.log(response); // AsBind: Hello World!
};
asyncTask();
In this example, we will implement a console.log
that we can call from AssemblyScript!
AssemblyScript
Inside of myWasmFileName.ts
:
declare function consoleLog(message: string): void;
export function myExportedFunctionThatWillCallConsoleLog(): void {
consoleLog("Hello from AS!");
}
JavaScript
import { AsBind } from "as-bind";
const wasm = fetch("./path-to-my-wasm.wasm");
const asyncTask = async () => {
// Instantiate the wasm file, and pass in our importObject
const asBindInstance = await AsBind.instantiate(wasm, {
myWasmFileName: {
consoleLog: message => {
console.log(message);
}
}
});
// Should call consoleLog, and log: "Hello from AS!"
asBindInstance.exports.myExportedFunctionThatWillCallConsoleLog();
};
asyncTask();
All primitive types, ie. Numbers (u8
, f32
, ...) , Strings, Typed Arrays (Uint8Array
, Float32Array
, ...) are supported. All of those types can also be used with Array<T>
.
Custom classes are currently not support, but planned.
as-bind works with the Browser SDK. For a fully working example, see the browser-sdk
example.
The default exported ESM class of as-bind
, also available as import { AsBind } from "as-bind"
/ const { AsBind } = require('as-bind')
.
The AsBind
class is meant to vaguely act as the WebAssembly Object exposed to JavaScript environments.
AsBind.version: string
Value that is the current version of your imported AsBind.
AsBind.instantiate: (
moduleOrBuffer: (
WebAssembly.Module |
BufferSource |
Response |
PromiseLike<WebAssembly.Module>
),
imports?: WasmImports
) => Promise<AsBindInstance>`
This function is the equivalent to the AssemblyScript Loader instantiate function, which is similar to the WebAssembly.instantiateStreaming function. It essentially takes as its parameters:
-
Any type of object that can be (resolved) and instantied into a WebAssembly instance. Which in our case would be an AsBindInstance.
-
A WebAssembly importObject, which would have all of your imported functions that can be called from within your AssemblyScript module.
AsBind.instantiateSync: (
moduleOrBuffer: (
WebAssembly.Module |
BufferSource
),
imports?: WasmImports
) => AsBindInstance`
This is a synchronous version of AsBind.instantiate
. This does not accept a promise-like as its module, and returns an AsBindInstance instead of a Promise that resolves an AsBindInstance. This is only reccomended for use in testing or development. Please see the Documentation sections for AsBind.instantiate
for more information.
An AsBindInstance is vaguely similar to a WebAssembly instance.
The raw, untouched instance of the WebAssembly Module.
Similar to to WebAssembly.Instance.prototype.exports, this is an object containing all of the exported fields from the WebAssembly module. However, exported functions are bound / wrapped in which they will handle passing the supported high-level data types to the exported AssemblyScript function.
Similar to to WebAssembly.instantiateStreaming() importObject, this is the augmented importObject
. Itβs based on the original that was passed to one of the instantiation functions, but functions have been wrapped to handle high-level types.
This library was inspired by several chats I had with some awesome buddies of mine in the WebAssembly Community:
-
Till Schneidereit and I had a chat about WasmBoy, and about how I had a really good experience writing the emulator, even though I had to do my own memory management. But they helped me realize, building something low level isn't that bad with manual memory management, but building something like a markdown parser would be very tedious since you have to manually write the string back and forth. Which then inspired this library, and its markdown parser demo.
-
While I was building WasmByExample I wanted to start building the "High Level Data Structures" section. I then realized how much work it would be to maintain code for passing data between WebAssembly Linear memory would be for each data type, and how much work it would be to created each individual example. Then, my buddy Ashley Williams helped me realize, if your docs are becoming too complex, it may be a good idea to write a tool. That way you have less docs to write, and users will have an easier time using your stuff!
Thus, this library was made to help AssemblyScript/JavaScript users build awesome things! I also want to give a huge thanks to the AssemblyScript team and community for the help they provided me. I'm super appreciative of you all! ππ
(Also! Huge Shoutout to @surma for doing the awesome refactor to use AssemblyScript compiler transforms! π)
TL;DR This library should be pretty darn fast. π€
The transform embeds all the required type information of imported and exported functions into a custom section of the WebAssembly module. All the runtime does is utilize the AssemblyScript Loader to convert these types from JS to ASC and vice-versa. Apart from Array<T>
, which needs to be handled recursively, the overhead is fairly static and minimal.
In the future, these types of high-level data passing tools might not be needed at all, as the WebAssembly Inteface Types proposal aims to give WebAssembly an understanding of higher-level types.
-
The as-bind example is a Markdown Parser, in which as-bind takes in a string, passes it to a rough markdown parser / compiler written in AssemblyScript, and returns a string. (Live Demo), (Source Code)
-
use-as-bind is a React hook for using as-bind with an as-bind enabled WASM source. It's goal is to provide a simple API for React users to add WASM to their apps. (Live Demo)
-
as-loader is a webpack loader for AssemblyScript with built-in as-bind support.
If you're project is using as-bind, and you would like to be featured here. Please open a README with links to your project, and if appropriate, explaining how as-bind is being used. π
Contributions are definitely welcome! Feel free to open a PR for small fixes such as typos and things. Larger fixes, or new features should start out as an issue for discussion, in which then a PR should be made. π₯³
This project will also adhere to the AssemblyScript Code of Conduct.
MIT. π