Write low-level WebAssembly, from JavaScript

wasmati is a TS library that lets you create Wasm modules by writing out their instructions.

• 🥷 You want to create low-level, hand-optimized Wasm libraries? wasmati is the tool to do so effectively.
• 🚀 You want to sprinkle some Wasm in your JS app, to speed up critical parts? wasmati gives you a JS-native way to achieve that.
• ⚠️ You want to compile Wasm modules from a high-level language, like Rust or C? wasmati is not for you.

npm i wasmati

// example.ts
import { i64, func, Module } from "wasmati";

const myMultiply = func({ in: [i64, i64], out: [i64] }, ([x, y]) => {
  i64.mul(x, y);
});

let module = Module({ exports: { myMultiply } });
let { instance } = await module.instantiate();

let result = instance.exports.myMultiply(5n, 20n);
console.log({ result });

$ ts-node-esm example.ts
{ result: 100n }

• Works in all modern browsers, node and deno

• Parity with WebAssembly. The API directly corresponds to Wasm opcodes, like i32.add etc. All opcodes and language features of the latest WebAssembly spec (2.0) are supported.
  In addition, wasmati supports the following extensions which are not part of the spec at the time of writing:

  • threads and atomics

• Readability. Wasm code looks imperative - like writing WAT by hand, just with better DX:

const myFunction = func({ in: [i32, i32], out: [i32] }, ([x, y]) => {
  local.get(x);
  local.get(y);
  i32.add();
  i32.const(2);
  i32.shl();
  call(otherFunction);
});

• Optional syntax sugar to reduce boilerplate assembly like local.get and i32.const

const myFunction = func({ in: [i32, i32], out: [i32] }, ([x, y]) => {
  i32.add(x, y); // local.get(x), local.get(y) are filled in
  i32.shl($, 2); // $ is the top of the stack; i32.const(2) is filled in
  call(otherFunction);
});

// or also

const myFunction = func({ in: [i32, i32], out: [i32] }, ([x, y]) => {
  let z = i32.add(x, y);
  call(otherFunction, [i32.shl(z, 2)]);
});

• Type-safe. Example: Local variables are typed; instructions know their input types:

const myFunction = func(
  { in: [i32, i32], locals: [i64], out: [i32] },
  ([x, y], [u]) => {
    i32.add(x, u); // type error: Type '"i64"' is not assignable to type '"i32"'.
  }
);

• Great debugging DX. Stack traces point to the exact line in your code where an invalid opcode is called:

Error: i32.add: Expected i32 on the stack, got i64.
    ...
    at file:///home/gregor/code/wasmati/examples/example.ts:16:9

• Easy construction of modules. Just declare exports; dependencies and imports are collected for you. Nothing ends up in the module which isn't needed by any of its exports or its start function.

let mem = memory({ min: 10 });

let module = Module({ exports: { myFunction, mem } });
let instance = await module.instantiate();

• Excellent type inference. Example: Exported function types are inferred from func definitions:

instance.exports.myFunction;
//                 ^ (arg_0: number, arg_1: number) => number

• Atomic import declaration. Imports are declared as types along with their JS values. Abstracts away the global "import object" that is separate from "import declaration".

const consoleLog = importFunc({ in: [i32], out: [] }, (x) =>
  console.log("logging from wasm:", x)
);

const myFunction = func({ in: [i32, i32], out: [i32] }, ([x, y]) => {
  call(consoleLog, [x]);
  i32.add(x, y);
});

• Great composability and IO
  • Internal representation of modules / funcs / etc is a readable JSON object
    • close to the spec's type layout (but improves readability or JS ergonomics where necessary)
  • Convert to/from Wasm bytecode with module.toBytes(), Module.fromBytes(bytes)

PRs welcome!

• Wasmati build. We want to add an optional build step which takes as input a file that exports your Module, and compiles it to a file which doesn't depend on wasmati at runtime. Instead, it hard-codes the Wasm bytecode as base64 string, correctly imports all dependencies (imports) for the instantiation like the original file did, instantiates the module (top-level await) and exports the module's exports.

// example.ts
let module = Module({ exports: { myFunction, mem } });

export { module as default };

import { myFunction } from "./example.wasm.js"; // example.wasm.js does not depend on wasmati at runtime

• Experimental Wasm opcodes. We want to support opcodes from recently standardized or in-progress feature proposals (like this one) which haven't yet made it to the spec. The eventual goal is to support proposals as soon as they are implemented in at least one JS engine.

• Custom module sections. We want to support creation and parsing of "custom sections" like the name section

• Decompiler: take any Wasm file and create wasmati TS code from it -- to modify it, debug it etc
• Source maps, so you can look at the culprit JS code when Wasm throws an error
• Optional JS interpreter which can take DSL code and execute it in JS
  • could enable even more flexible debugging -- inspect the stack, global/local scope etc