7.6 KiB
PyO3
Rust bindings for Python. This includes running and interacting with Python code from a Rust binary, as well as writing native Python modules.
A comparison with rust-cpython can be found in the guide.
Usage
PyO3 supports Python 3.5 and up. The minimum required Rust version is 1.39.0.
PyPy is also supported (via cpyext) for Python 3.5 only, targeted PyPy version is 7.0.0. Please refer to the pypy section in the guide.
You can either write a native Python module in Rust, or use Python from a Rust binary.
However, on some OSs, you need some additional packages. E.g. if you are on Ubuntu 18.04, please run
sudo apt install python3-dev python-dev
Using Rust from Python
PyO3 can be used to generate a native Python module.
Cargo.toml
[package]
name = "string-sum"
version = "0.1.0"
edition = "2018"
[lib]
name = "string_sum"
crate-type = ["cdylib"]
[dependencies.pyo3]
version = "0.11.0"
features = ["extension-module"]
src/lib.rs
use pyo3::prelude::*;
use pyo3::wrap_pyfunction;
/// Formats the sum of two numbers as string.
#[pyfunction]
fn sum_as_string(a: usize, b: usize) -> PyResult<String> {
Ok((a + b).to_string())
}
/// A Python module implemented in Rust.
#[pymodule]
fn string_sum(py: Python, m: &PyModule) -> PyResult<()> {
m.add_wrapped(wrap_pyfunction!(sum_as_string))?;
Ok(())
}
On Windows and Linux, you can build normally with cargo build --release
. On macOS, you need to set additional linker arguments. One option is to compile with cargo rustc --release -- -C link-arg=-undefined -C link-arg=dynamic_lookup
, the other is to create a .cargo/config
with the following content:
[target.x86_64-apple-darwin]
rustflags = [
"-C", "link-arg=-undefined",
"-C", "link-arg=dynamic_lookup",
]
While developing, you can symlink (or copy) and rename the shared library from the target folder: On MacOS, rename libstring_sum.dylib
to string_sum.so
, on Windows libstring_sum.dll
to string_sum.pyd
, and on Linux libstring_sum.so
to string_sum.so
. Then open a Python shell in the same folder and you'll be able to import string_sum
.
Adding the cdylib
arguments in the Cargo.toml
files changes the way your crate is compiled.
Other Rust projects using your crate will have to link against the .so
or .pyd
file rather than include your library directly as normal.
In order to make available your crate in the usual way for Rust user, you you might want to consider using both crate-type = ["cdylib", "rlib"]
so that Rust users can use the rlib
(the default lib crate type).
Another possibility is to create a new crate to perform the binding.
To build, test and publish your crate as a Python module, you can use maturin or setuptools-rust. You can find an example for setuptools-rust in examples/word-count, while maturin should work on your crate without any configuration.
Using Python from Rust
If you want your Rust application to create a Python interpreter internally and
use it to run Python code, add pyo3
to your Cargo.toml
like this:
[dependencies]
pyo3 = "0.11.0"
Example program displaying the value of sys.version
and the current user name:
use pyo3::prelude::*;
use pyo3::types::IntoPyDict;
fn main() -> Result<(), ()> {
let gil = Python::acquire_gil();
let py = gil.python();
main_(py).map_err(|e| {
// We can't display Python exceptions via std::fmt::Display,
// so print the error here manually.
e.print_and_set_sys_last_vars(py);
})
}
fn main_(py: Python) -> PyResult<()> {
let sys = py.import("sys")?;
let version: String = sys.get("version")?.extract()?;
let locals = [("os", py.import("os")?)].into_py_dict(py);
let code = "os.getenv('USER') or os.getenv('USERNAME') or 'Unknown'";
let user: String = py.eval(code, None, Some(&locals))?.extract()?;
println!("Hello {}, I'm Python {}", user, version);
Ok(())
}
Our guide has a section with lots of examples about this topic.
Tools and libraries
- maturin Zero configuration build tool for Rust-made Python extensions.
- setuptools-rust Setuptools plugin for Rust support.
- pyo3-built Simple macro to expose metadata obtained with the
built
crate as aPyDict
- rust-numpy Rust binding of NumPy C-API
- dict-derive Derive FromPyObject to automatically transform Python dicts into Rust structs
Examples
- hyperjson A hyper-fast Python module for reading/writing JSON data using Rust's serde-json
- html-py-ever Using html5ever through kuchiki to speed up html parsing and css-selecting.
- point-process High level API for pointprocesses as a Python library
- autopy A simple, cross-platform GUI automation library for Python and Rust.
- Contains an example of building wheels on TravisCI and appveyor using cibuildwheel
- orjson Fast Python JSON library
- inline-python Inline Python code directly in your Rust code
- Rogue-Gym Customizable rogue-like game for AI experiments
- Contains an example of building wheels on Azure Pipelines
- fastuuid Python bindings to Rust's UUID library
- python-ext-wasm Python library to run WebAssembly binaries
- mocpy Astronomical Python library offering data structures for describing any arbitrary coverage regions on the unit sphere
- tokenizers Python bindings to the Hugging Face tokenizers (NLP) written in Rust
License
PyO3 is licensed under the Apache-2.0 license. Python is licensed under the Python License.