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@thi.ng/wasm-api
Advanced tools
Generic, modular, extensible API bridge and infrastructure for hybrid JS & WebAssembly projects
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Generic, modular, extensible API bridge and infrastructure for hybrid JS & WebAssembly projects.
This package provides the following:
WasmBridge
class as generic interop basis and much reduced boilerplate for hybrid JS/WebAssembly
applications.The
WasmBridge
can be extented via custom defined API modules. Such API extensions will consist
of a collection of JS/TS functions & variables, their related counterparts
(import definitions) for the WASM target and (optionally) some shared data types
(bindings for which can be generated by this package
too).
On the JS side, custom API modules can be easily integrated via the IWasmAPI
interface. The
following example provides a brief overview:
import { IWasmAPI, WasmBridge } from "@thi.ng/wasm-api";
export class CustomAPI implements IWasmAPI {
// Unique API module identifier to group WASM imports,
// must match ID used by native code (see further below).
readonly id = "custom";
// optionally list IDs of other API modules this module depends on
// these are used to infer the correct initialization order
readonly dependencies = [];
parent!: WasmBridge;
async init(parent: WasmBridge) {
this.parent = parent;
this.parent.logger.debug("initializing custom API");
// any other tasks you might need to do...
return true;
}
/**
* Returns object of functions to import as externals into the
* WASM module during instantiation. These imports are merged
* into a larger imports object alongside the bridge's core API...
*/
getImports(): WebAssembly.Imports {
return {
/**
* Writes `num` random float32 numbers from given address
*/
fillRandom: (addr: number, num: number) => {
addr >>>= 2;
while(num-- > 0) this.parent.f32[addr++] = Math.random();
}
};
}
}
Now we can supply this custom API when creating the main WASM bridge:
export const bridge = new WasmBridge([new CustomAPI()]);
In Zig (or any other language of your choice) we can then utilize this custom API like so (Please also see example projects & other example snippets in this readme):
Bindings file / lib:
//! custom.zig - extern definitions of custom JS API
/// JS external to fill a slice w/ random values
/// Note: Each API module uses a separate import object to avoid naming clashes
/// Here we declare an external binding belonging to the "custom" import group
///
/// The bridge core API uses "wasmapi" as reserved import group name
extern "custom" fn fillRandom(addr: [*]f32, num: usize) void;
Main Zig file:
// Import JS core API
const js = @import("wasm-api");
const custom = @import("custom.zig");
export fn test_randomVec4() void {
var foo = [4]f32{ 1, 2, 3, 4 };
// print original
js.printF32Array(foo[0..]);
// populate foo with random numbers
custom.fillRandom(&foo, foo.len);
// print result
js.printF32Array(foo[0..]);
}
Most low-level languages deal with strings very differently and alas there's no
general standard. Some have UTF-8/16 support, others don't. In some languages
(incl. C & Zig), strings are stored as zero terminated, in others they aren't...
It's outside the scope of this package to provide an allround out-of-the-box
solution. The WasmBridge
provides read & write accessors to obtain JS strings
from UTF-8 encoded WASM memory. See
getString()
and
setString()
for details.
Furthermore, the package provides these string wrapper types:
Finally, see more information in the @thi.ng/wasm-api-bindgen package readme.
If explicitly enabled on the WASM side, the WasmBridge
includes support for
malloc/free-style allocations (within the linear WASM memory) from the JS side.
The actual allocator is implementation specific and suitable generic mechanisms are defined for both the included Zig & C bindings. Please see for further reference:
/zig/lib.zig
:
comments about WASM-side allocator handling in Zig/include/wasmapi.h
:
comments about WASM-side allocator handling in C/C++WasmBridge.allocate()
:
allocating memory from JS sideWasmBridge.free()
:
freeing previously allocated memory from JS sideNote: The provided Zig library supports the idiomatic (Zig) pattern of working with multiple allocators in different parts of the application and supports dynamic assignments/swapping of the exposed allocator. See comments in source file and tests for more details...
try {
// allocate 256 bytes of memory for passing a string to WASM side
// the function returns a tuple of `[address, len]`
const [addr, len] = bridge.allocate(256);
// write zero terminated string to reserved memory (max. `len` bytes)
// function returns number of bytes written (excl. sentinel)
const num = bridge.setString("hello WASM world!", addr, len, true);
// call WASM function doing something w/ the string
bridge.exports.doSomethingWithString(addr, num);
// cleanup
bridge.free([addr, len]);
} catch(e) {
// deal with allocation error
// ...
}
The supplied child APIs
(wasm-api-dom,
wasm-api-schedule
etc.) use an auto-intialization hook related to the above WASM_ALLOCATOR
mechanism: If that allocator is available, the WASM side of these modules will
auto initialize and thus reduce boilerplate. However, if no such central
allocator is defined and/or a custom allocator should be used, then these API
modules will be have to be initialized manually.
Since only numeric values can be exchanged between the WASM module and the JS
host, any JS native objects the WASM side might want to be working with must be
managed manually in JS. For this purpose the ObjectIndex
class can be
used by API modules to handle ID generation (incl. recycling, using
@thi.ng/idgen)
and the indexing of different types of JS objects/values. Only the numeric IDs
(handles) will then need to be exchanged with the WASM module...
import { ObjectIndex } from "@thi.ng/wasm-api";
const canvases = new ObjectIndex<HTMLCanvasElement>({ name: "canvas" });
// index item and assign new ID
canvases.add(document.createElement("canvas"));
// 0
// look up item by ID
canvases.get(0);
// <canvas ...>
// work w/ retrieved item
canvases.get(0).id = "foo";
// check if item for ID exists (O(1))
canvases.has(1)
// false
// by default invalid IDs throw error
canvases.get(1)
// Uncaught Error: Assertion failed: missing canvas for ID: 2
// error can be disabled via 2nd arg
canvases.get(1, false)
// undefined
// find ID using custom predicate (same failure behavior as .get())
canvases.find((x) => x.id == "bar")
// Uncaught Error: Assertion failed: given predicate matched no canvas
canvases.delete(0);
// true
The supplied Zig core library also includes a
ManagedIndex
for similar resource management on the Zig side of the application. For example,
in the
@thi.ng/wasm-api-dom
&
@thi.ng/wasm-api-schedule
packages this is used to manage Zig-side event listeners.
This package provides utilities to simplify using hybrid TS/Zig WASM API modules which are distributed as NPM packages. Using these utils, a build file for Zig's built-in build system is as simple as:
IMPORTANT: Due to recent syntax & build system changes in Zig v0.11.0, support for older Zig versions had to be removed...
const std = @import("std");
pub fn build(b: *std.Build) void {
// obtain a standard std.Build.Step.Compile, pre-configured w/ given options
// see source comments in imported build.zig for further details...
var lib = @import("node_modules/@thi.ng/wasm-api/zig/build.zig").wasmLib(b, .{
// Declare extra WASM API modules to use
// Each can also declare dependencies to other modules
// (`wasm-api` and `wasm-api-bindgen` are made available everywhere)
.modules = &.{
.{ .name = "wasm-api-dom", .path = "@thi.ng/wasm-api-dom/zig/lib.zig" },
.{ .name = "wasm-api-schedule", .path = "@thi.ng/wasm-api-schedule/zig/lib.zig" },
},
// (optional) optimization mode override
// if commented out, we can pass CLI args to choose mode (default: .Debug)
.optimize = .ReleaseSmall,
});
// optionally, add further custom configuration
// ...
// finally trigger build & install
b.installArtifact(lib);
}
All bundled example projects (see list below) are being built via this script. Please find more details/options in the commented source code:
To avoid guesswork about the internals of any of the supplied WASM API modules, please also consult the information in #368.
ALPHA - bleeding edge / work-in-progress
Search or submit any issues for this package
yarn add @thi.ng/wasm-api
ES module import:
<script type="module" src="https://cdn.skypack.dev/@thi.ng/wasm-api"></script>
For Node.js REPL:
const wasmApi = await import("@thi.ng/wasm-api");
Package sizes (brotli'd, pre-treeshake): ESM: 2.69 KB
Several projects in this repo's /examples directory are using this package:
Screenshot | Description | Live demo | Source |
---|---|---|---|
Zig-based DOM creation & canvas drawing app | Demo | Source | |
Zig-based 2D multi-behavior cellular automata | Demo | Source | |
Simple Zig/WASM click counter DOM component | Demo | Source | |
Zig-based To-Do list, DOM creation, local storage task persistence | Demo | Source |
import { WasmBridge, WasmExports } from "@thi.ng/wasm-api";
import { readFileSync } from "fs";
// WASM exports from our dummy module (below)
interface App extends WasmExports {
start: () => void;
}
(async () => {
// new API bridge with defaults
// (i.e. no child API modules and using console logger)
const bridge = new WasmBridge<App>();
// instantiate WASM module using imports provided by the bridge
// this also initializes any bindings & bridge child APIs (if any)
// (also accepts a fetch() `Response` as input)
await bridge.instantiate(readFileSync("hello.wasm"));
// call an exported WASM function
bridge.exports.start();
})();
Requires Zig to be installed:
//! Example Zig application (hello.zig)
/// import externals
/// see build command for configuration
const js = @import("wasm-api");
export fn start() void {
js.printStr("hello world!");
}
The WASM binary can be built using the following command (or for more complex
scenarios add the supplied .zig file(s) to your build.zig
and/or source
folder):
# compile WASM binary
zig build-lib \
--pkg-begin wasm-api node_modules/@thi.ng/wasm-api/zig/lib.zig --pkg-end \
-target wasm32-freestanding \
-O ReleaseSmall -dynamic -rdynamic \
hello.zig
# disassemble WASM
wasm-dis -o hello.wast hello.wasm
The resulting WASM:
(module
(type $i32_i32_=>_none (func (param i32 i32)))
(type $none_=>_none (func))
(type $i32_=>_i32 (func (param i32) (result i32)))
(import "wasmapi" "_printStr" (func $fimport$0 (param i32 i32)))
(global $global$0 (mut i32) (i32.const 1048576))
(memory $0 17)
(data (i32.const 1048576) "hello world!\00")
(export "memory" (memory $0))
(export "start" (func $0))
(export "_wasm_allocate" (func $1))
(export "_wasm_free" (func $2))
(func $0
(call $fimport$0
(i32.const 1048576)
(i32.const 12)
)
)
(func $1 (param $0 i32) (result i32)
(i32.const 0)
)
(func $2 (param $0 i32) (param $1 i32)
)
)
Requires Emscripten to be installed:
#include <wasmapi.h>
void WASMAPI_KEEP start() {
wasm_printStrZ("hello world!");
}
Building the WASM module:
emcc -Os -Inode_modules/@thi.ng/wasm-api/include \
-sERROR_ON_UNDEFINED_SYMBOLS=0 --no-entry \
-o hello.wasm hello.c
If this project contributes to an academic publication, please cite it as:
@misc{thing-wasm-api,
title = "@thi.ng/wasm-api",
author = "Karsten Schmidt",
note = "https://thi.ng/wasm-api",
year = 2022
}
© 2022 - 2024 Karsten Schmidt // Apache License 2.0
FAQs
Generic, modular, extensible API bridge and infrastructure for hybrid JS & WebAssembly projects
The npm package @thi.ng/wasm-api receives a total of 100 weekly downloads. As such, @thi.ng/wasm-api popularity was classified as not popular.
We found that @thi.ng/wasm-api demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 0 open source maintainers collaborating on the project.
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