wasm-bindgen/crates/wasm-bindgen-cli/src/bin/wasm2es6js.rs

#[macro_use]
extern crate serde_derive;
extern crate docopt;
extern crate parity_wasm;
extern crate wasm_bindgen_cli_support;

use std::fs::File;
use std::io::{Write, Read};
use std::path::PathBuf;

use docopt::Docopt;

const USAGE: &'static str = "
Converts a wasm file to an ES6 JS module

Usage:
    wasm2es6js [options] <input>
    wasm2es6js -h | --help

Options:
    -h --help               Show this screen.
    -o --output FILE        File to place output in
    --output-ts FILE        File to place a typescript definition of the module to
    --base64                Inline the wasm module using base64 encoding
";

#[derive(Debug, Deserialize)]
struct Args {
    flag_output: Option<PathBuf>,
    flag_output_ts: Option<PathBuf>,
    flag_base64: bool,
    arg_input: PathBuf,
}

fn main() {
    let args: Args = Docopt::new(USAGE)
        .and_then(|d| d.deserialize())
        .unwrap_or_else(|e| e.exit());

    if !args.flag_base64 {
        panic!("unfortunately only works right now with base64");
    }

    let mut wasm = Vec::new();
    File::open(&args.arg_input).expect("failed to open input")
        .read_to_end(&mut wasm).expect("failed to read input");

    let object = wasm_bindgen_cli_support::wasm2es6js::Config::new()
        .base64(args.flag_base64)
        .generate(&wasm)
        .expect("failed to parse wasm");

    if let Some(ref p) = args.flag_output_ts {
        File::create(p).expect("failed to create output")
            .write_all(object.typescript().as_bytes()).expect("failed to write output");
    }

    let js = object.js();

    match args.flag_output {
        Some(ref p) => {
            File::create(p).expect("failed to create output")
                .write_all(js.as_bytes()).expect("failed to write output");
        }
        None => {
            println!("{}", js);
        }
    }
}
Rewrite wasm-bindgen with ES6 modules in mind This commit is a mostly-rewrite of the `wasm-bindgen` tool. After some recent discussions it's clear that the previous model wasn't quite going to cut it, and this iteration is one which primarily embraces ES6 modules and the idea that this is a polyfill for host bindings. The overall interface and functionality hasn't changed much but the underlying technology has now changed significantly. Previously `wasm-bindgen` would emit a JS file that acted as an ES6 module but had a bit of a wonky interface. It exposed an async function for instantiation of the wasm module, but that's the bundler's job, not ours! Instead this iteration views each input and output as a discrete ES6 module. The input wasm file is interpreted as "this should be an ES6 module with rich types" and the output is "well here's some ES6 modules that fulfill that contract". Notably the tool now replaces the original wasm ES6 module with a JS ES6 module that has the "rich interface". Additionally a second ES6 module is emitted (the actual wasm file) which imports and exports to the original ES6 module. This strategy is hoped to be much more amenable to bundlers and controlling how the wasm itself is instantiated. The emitted files files purely assume ES6 modules and should be able to work as-is once ES6 module integration for wasm is completed. Note that there aren't a ton of tools to pretend a wasm module is an ES6 module at the moment but those should be coming soon! In the meantime a local `wasm2es6js` hack was added to help make something work today. The README has also been updated with instructions for interacting with this model. 2018-01-29 21:20:38 -08:00			`#[macro_use]`
			`extern crate serde_derive;`
			`extern crate docopt;`
			`extern crate parity_wasm;`
			`extern crate wasm_bindgen_cli_support;`

			`use std::fs::File;`
			`use std::io::{Write, Read};`
			`use std::path::PathBuf;`

			`use docopt::Docopt;`

			`const USAGE: &'static str = "`
			`Converts a wasm file to an ES6 JS module`

			`Usage:`
			`wasm2es6js [options] <input>`
			`wasm2es6js -h \| --help`

			`Options:`
			`-h --help Show this screen.`
			`-o --output FILE File to place output in`
Expose typescript option in wasm2es6js 2018-01-30 07:45:36 -08:00			`--output-ts FILE File to place a typescript definition of the module to`
Rewrite wasm-bindgen with ES6 modules in mind This commit is a mostly-rewrite of the `wasm-bindgen` tool. After some recent discussions it's clear that the previous model wasn't quite going to cut it, and this iteration is one which primarily embraces ES6 modules and the idea that this is a polyfill for host bindings. The overall interface and functionality hasn't changed much but the underlying technology has now changed significantly. Previously `wasm-bindgen` would emit a JS file that acted as an ES6 module but had a bit of a wonky interface. It exposed an async function for instantiation of the wasm module, but that's the bundler's job, not ours! Instead this iteration views each input and output as a discrete ES6 module. The input wasm file is interpreted as "this should be an ES6 module with rich types" and the output is "well here's some ES6 modules that fulfill that contract". Notably the tool now replaces the original wasm ES6 module with a JS ES6 module that has the "rich interface". Additionally a second ES6 module is emitted (the actual wasm file) which imports and exports to the original ES6 module. This strategy is hoped to be much more amenable to bundlers and controlling how the wasm itself is instantiated. The emitted files files purely assume ES6 modules and should be able to work as-is once ES6 module integration for wasm is completed. Note that there aren't a ton of tools to pretend a wasm module is an ES6 module at the moment but those should be coming soon! In the meantime a local `wasm2es6js` hack was added to help make something work today. The README has also been updated with instructions for interacting with this model. 2018-01-29 21:20:38 -08:00			`--base64 Inline the wasm module using base64 encoding`
			`";`

			`#[derive(Debug, Deserialize)]`
			`struct Args {`
			`flag_output: Option<PathBuf>,`
Expose typescript option in wasm2es6js 2018-01-30 07:45:36 -08:00			`flag_output_ts: Option<PathBuf>,`
Rewrite wasm-bindgen with ES6 modules in mind This commit is a mostly-rewrite of the `wasm-bindgen` tool. After some recent discussions it's clear that the previous model wasn't quite going to cut it, and this iteration is one which primarily embraces ES6 modules and the idea that this is a polyfill for host bindings. The overall interface and functionality hasn't changed much but the underlying technology has now changed significantly. Previously `wasm-bindgen` would emit a JS file that acted as an ES6 module but had a bit of a wonky interface. It exposed an async function for instantiation of the wasm module, but that's the bundler's job, not ours! Instead this iteration views each input and output as a discrete ES6 module. The input wasm file is interpreted as "this should be an ES6 module with rich types" and the output is "well here's some ES6 modules that fulfill that contract". Notably the tool now replaces the original wasm ES6 module with a JS ES6 module that has the "rich interface". Additionally a second ES6 module is emitted (the actual wasm file) which imports and exports to the original ES6 module. This strategy is hoped to be much more amenable to bundlers and controlling how the wasm itself is instantiated. The emitted files files purely assume ES6 modules and should be able to work as-is once ES6 module integration for wasm is completed. Note that there aren't a ton of tools to pretend a wasm module is an ES6 module at the moment but those should be coming soon! In the meantime a local `wasm2es6js` hack was added to help make something work today. The README has also been updated with instructions for interacting with this model. 2018-01-29 21:20:38 -08:00			`flag_base64: bool,`
			`arg_input: PathBuf,`
			`}`

			`fn main() {`
			`let args: Args = Docopt::new(USAGE)`
			`.and_then(\|d\| d.deserialize())`
			`.unwrap_or_else(\|e\| e.exit());`

			`if !args.flag_base64 {`
			`panic!("unfortunately only works right now with base64");`
			`}`

			`let mut wasm = Vec::new();`
			`File::open(&args.arg_input).expect("failed to open input")`
			`.read_to_end(&mut wasm).expect("failed to read input");`

			`let object = wasm_bindgen_cli_support::wasm2es6js::Config::new()`
			`.base64(args.flag_base64)`
			`.generate(&wasm)`
			`.expect("failed to parse wasm");`
Expose typescript option in wasm2es6js 2018-01-30 07:45:36 -08:00
			`if let Some(ref p) = args.flag_output_ts {`
			`File::create(p).expect("failed to create output")`
			`.write_all(object.typescript().as_bytes()).expect("failed to write output");`
			`}`

Rewrite wasm-bindgen with ES6 modules in mind This commit is a mostly-rewrite of the `wasm-bindgen` tool. After some recent discussions it's clear that the previous model wasn't quite going to cut it, and this iteration is one which primarily embraces ES6 modules and the idea that this is a polyfill for host bindings. The overall interface and functionality hasn't changed much but the underlying technology has now changed significantly. Previously `wasm-bindgen` would emit a JS file that acted as an ES6 module but had a bit of a wonky interface. It exposed an async function for instantiation of the wasm module, but that's the bundler's job, not ours! Instead this iteration views each input and output as a discrete ES6 module. The input wasm file is interpreted as "this should be an ES6 module with rich types" and the output is "well here's some ES6 modules that fulfill that contract". Notably the tool now replaces the original wasm ES6 module with a JS ES6 module that has the "rich interface". Additionally a second ES6 module is emitted (the actual wasm file) which imports and exports to the original ES6 module. This strategy is hoped to be much more amenable to bundlers and controlling how the wasm itself is instantiated. The emitted files files purely assume ES6 modules and should be able to work as-is once ES6 module integration for wasm is completed. Note that there aren't a ton of tools to pretend a wasm module is an ES6 module at the moment but those should be coming soon! In the meantime a local `wasm2es6js` hack was added to help make something work today. The README has also been updated with instructions for interacting with this model. 2018-01-29 21:20:38 -08:00			`let js = object.js();`

			`match args.flag_output {`
			`Some(ref p) => {`
			`File::create(p).expect("failed to create output")`
			`.write_all(js.as_bytes()).expect("failed to write output");`
			`}`
			`None => {`
			`println!("{}", js);`
			`}`
			`}`
			`}`