WebAssembly vs asm.js
First, let's take a look how, in principle, WebAssembly is different from asm.js, and whether there's potential to reuse existing knowledge and tooling. The following gives pretty good overview:
Let's recapitulate, WebAssembly (MVP, as there's more on its roadmap, roughly):
- is convertible (to some extent) to/from asm.js.
Thus, currently WebAssembly is an iteration on asm.js and targets only C/C++ (and similar languages).
Python on the Web
It doesn't look like GC is the only thing that stops Python code from targeting WebAssembly/asm.js. Both represent low-level statically typed code, in which Python code can't (realistically) be represented. As current toolchain of WebAssembly/asm.js is based on LLVM, a language that can be easily compiled to LLVM IR can be converted to WebAssembly/asm.js. But alas, Python is too dynamic to fit into it as well, as proven by Unladen Swallow and several attempts of PyPy.
This asm.js presentation has slides about the state of dynamic languages. What it means is that currently it's only possible to compile whole VM (language implementation in C/C++) to WebAssembly/asm.js and interpret (with JIT where possible) original sources. For Python there're several existing projects:
PyPy: PyPy.js (author's talk at PyCon). Here's release repo. Main JS file,
pypyjs.vm.js, is 13 MB (2MB after
gzip -6) + Python stdlib + other stuff.
CPython: pyodide, EmPython, CPython-Emscripten, EmCPython, etc.
empython.js is 5.8 MB (2.1 MB after
gzip -6), no stdlib.
Micropython: this fork.
There was no built JS file there, so I was able to build it with
trzeci/emscripten/, a ready-made Emscripten toolchain. Something like:
git clone https://github.com/matthewelse/micropython.git
docker run --rm -it -v $(pwd):/src trzeci/emscripten bash
apt-get update && apt-get install -y python3
# to run REPL: npm install && nodejs server.js
micropython.js of 1.1 MB (225 KB after
gzip -d). The latter is already something to consider, if you need only very compliant implementation without stdlib.
To produce WebAssembly build you can change line 13 of the
CC = emcc -s RESERVED_FUNCTION_POINTERS=20 -s WASM=1
make -j produces:
113 KB micropython.js
240 KB micropython.wasm
You can look at HTML output of
emcc hello.c -s WASM=1 -o hello.html, to see how to use these files.
This way you can also potentially build PyPy and CPython in WebAssembly to interpret your Python application in a compliant browser.
Another potentially interesting thing here is Nuitka, a Python to C++ compiler. Potentially it can be possible to build your Python app to C++ and then compile it along with CPython with Emscripten. But practically I've no idea how to do it.
Otherwise, if download size is not an issue, and you're ready to tackle a lot of rough edges, choose between the three above.
Q3 2020 update
The port is available as a npm package called MicroPython.js.
You can try it out in RunKit.
There's an actively developed Python implementation in Rust, called
RustPython. Because Rust officially supports WebAssembly as
compile target, no surprise there's demo link right in the
top of the readme. Though, it's early. Their disclaimer follows.
RustPython is in a development phase and should not be used in
production or a fault intolerant setting.
Our current build supports only a subset of Python syntax.