A Python-3 (CPython >= 3.12.0) Interpreter written in Rust π π± π€.
Check out our online demo running on WebAssembly.
RustPython requires Rust latest stable version (e.g 1.67.1 at February 7th 2023). If you don't currently have Rust installed on your system you can do so by following the instructions at rustup.rs.
To check the version of Rust you're currently running, use rustc --version
. If you wish to update,
rustup update stable
will update your Rust installation to the most recent stable release.
To build RustPython locally, first, clone the source code:
git clone https://github.com/RustPython/RustPython
Then you can change into the RustPython directory and run the demo (Note: --release
is
needed to prevent stack overflow on Windows):
$ cd RustPython
$ cargo run --release demo_closures.py
Hello, RustPython!
Or use the interactive shell:
$ cargo run --release
Welcome to rustpython
>>>>> 2+2
4
NOTE: For windows users, please set RUSTPYTHONPATH
environment variable as Lib
path in project directory.
(e.g. When RustPython directory is C:\RustPython
, set RUSTPYTHONPATH
as C:\RustPython\Lib
)
You can also install and run RustPython with the following:
$ cargo install --git https://github.com/RustPython/RustPython
$ rustpython
Welcome to the magnificent Rust Python interpreter
>>>>>
If you'd like to make https requests, you can enable the ssl
feature, which
also lets you install the pip
package manager. Note that on Windows, you may
need to install OpenSSL, or you can enable the ssl-vendor
feature instead,
which compiles OpenSSL for you but requires a C compiler, perl, and make
.
Once you've installed rustpython with SSL support, you can install pip by running:
cargo install --git https://github.com/RustPython/RustPython --features ssl
rustpython --install-pip
You can also install RustPython through the conda
package manager, though
this isn't officially supported and may be out of date:
conda install rustpython -c conda-forge
rustpython
You can compile RustPython to a standalone WebAssembly WASI module so it can run anywhere.
Build
cargo build --target wasm32-wasi --no-default-features --features freeze-stdlib,stdlib --release
Run by wasmer
wasmer run --dir . target/wasm32-wasi/release/rustpython.wasm extra_tests/snippets/stdlib_random.py
Run by wapm
$ wapm install rustpython
$ wapm run rustpython
>>>>> 2+2
4
You can build the WebAssembly WASI file with:
cargo build --release --target wasm32-wasi --features="freeze-stdlib"
Note: we use the
freeze-stdlib
to include the standard library inside the binary. You also have to run oncerustup target add wasm32-wasi
.
RustPython has a very experimental JIT compiler that compile python functions into native code.
By default the JIT compiler isn't enabled, it's enabled with the jit
cargo feature.
cargo run --features jit
This requires autoconf, automake, libtool, and clang to be installed.
To compile a function, call __jit__()
on it.
def foo():
a = 5
return 10 + a
foo.__jit__() # this will compile foo to native code and subsequent calls will execute that native code
assert foo() == 15
Interested in exposing Python scripting in an application written in Rust,
perhaps to allow quickly tweaking logic where Rust's compile times would be inhibitive?
Then examples/hello_embed.rs
and examples/mini_repl.rs
may be of some assistance.
RustPython is in development, and while the interpreter certainly can be used in interesting use cases like running Python in WASM and embedding into a Rust project, do note that RustPython is not totally production-ready.
Contribution is more than welcome! See our contribution section for more information on this.
Checkout those talks on conferences:
Although RustPython is a fairly young project, a few people have used it to make cool projects:
- GreptimeDB: an open-source, cloud-native, distributed time-series database. Using RustPython for embedded scripting.
- pyckitup: a game engine written in rust.
- Robot Rumble: an arena-based AI competition platform
- Ruff: an extremely fast Python linter, written in Rust
- Full Python-3 environment entirely in Rust (not CPython bindings)
- A clean implementation without compatibility hacks
Currently along with other areas of the project, documentation is still in an early phase.
You can read the online documentation for the latest release, or the user guide.
You can also generate documentation locally by running:
cargo doc # Including documentation for all dependencies
cargo doc --no-deps --all # Excluding all dependencies
Documentation HTML files can then be found in the target/doc
directory or you can append --open
to the previous commands to
have the documentation open automatically on your default browser.
For a high level overview of the components, see the architecture document.
Contributions are more than welcome, and in many cases we are happy to guide contributors through PRs or on Discord. Please refer to the development guide as well for tips on developments.
With that in mind, please note this project is maintained by volunteers, some of the best ways to get started are below:
Most tasks are listed in the issue tracker. Check issues labeled with good first issue if you wish to start coding.
To enhance CPython compatibility, try to increase unittest coverage by checking this article: How to contribute to RustPython by CPython unittest
Another approach is to checkout the source code: builtin functions and object methods are often the simplest and easiest way to contribute.
You can also simply run ./whats_left.py
to assist in finding any unimplemented
method.
Chat with us on Discord.
Our code of conduct can be found here.
The initial work was based on windelbouwman/rspython and shinglyu/RustPython
These are some useful links to related projects:
- https://github.com/ProgVal/pythonvm-rust
- https://github.com/shinglyu/RustPython
- https://github.com/windelbouwman/rspython
This project is licensed under the MIT license. Please see the LICENSE file for more details.
The project logo is licensed under the CC-BY-4.0 license. Please see the LICENSE-logo file for more details.