#![feature(specialization)] //! Rust bindings to the Python interpreter. //! //! Look at [the guide](https://pyo3.rs/) for a detailed introduction. //! //! # Ownership and Lifetimes //! //! In Python, all objects are implicitly reference counted. //! In rust, we will use the `PyObject` type to represent a reference to a Python object. //! //! Because all Python objects potentially have multiple owners, the //! concept of Rust mutability does not apply to Python objects. //! As a result, this API will allow mutating Python objects even if they are not stored //! in a mutable Rust variable. //! //! The Python interpreter uses a global interpreter lock (GIL) //! to ensure thread-safety. //! This API uses a zero-sized `struct Python<'p>` as a token to indicate //! that a function can assume that the GIL is held. //! //! You obtain a `Python` instance by acquiring the GIL, //! and have to pass it into all operations that call into the Python runtime. //! //! # Error Handling //! The vast majority of operations in this library will return `PyResult<...>`. //! This is an alias for the type `Result<..., PyErr>`. //! //! A `PyErr` represents a Python exception. Errors within the `PyO3` library are //! also exposed as Python exceptions. //! //! # Example //! //! ## Using rust from python //! //! Pyo3 can be used to generate a native python module. //! //! **`Cargo.toml`** //! //! ```toml //! [package] //! name = "string-sum" //! version = "0.1.0" //! edition = "2018" //! //! [lib] //! name = "string_sum" //! crate-type = ["cdylib"] //! //! [dependencies.pyo3] //! version = "0.7.0" //! features = ["extension-module"] //! ``` //! //! **`src/lib.rs`** //! //! ```rust //! use pyo3::prelude::*; //! use pyo3::wrap_pyfunction; //! //! #[pyfunction] //! /// Formats the sum of two numbers as string //! fn sum_as_string(a: usize, b: usize) -> PyResult { //! Ok((a + b).to_string()) //! } //! //! /// This module is 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: //! //! ```toml //! [target.x86_64-apple-darwin] //! rustflags = [ //! "-C", "link-arg=-undefined", //! "-C", "link-arg=dynamic_lookup", //! ] //! ``` //! //! For developing, you can 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`. //! //! To build, test and publish your crate as python module, you can use [pyo3-pack](https://github.com/PyO3/pyo3-pack) or [setuptools-rust](https://github.com/PyO3/setuptools-rust). You can find an example for setuptools-rust in [examples/word-count](examples/word-count), while pyo3-pack should work on your crate without any configuration. //! //! ## Using python from rust //! //! Add `pyo3` this to your `Cargo.toml`: //! //! ```toml //! [dependencies] //! pyo3 = "0.7.0" //! ``` //! //! Example program displaying the value of `sys.version`: //! //! ```rust //! use pyo3::prelude::*; //! use pyo3::types::IntoPyDict; //! //! fn main() -> PyResult<()> { //! let gil = Python::acquire_gil(); //! let py = gil.python(); //! 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(()) //! } //! ``` pub use crate::class::*; pub use crate::conversion::{ AsPyPointer, FromPy, FromPyObject, FromPyPointer, IntoPy, IntoPyObject, IntoPyPointer, PyTryFrom, PyTryInto, ToBorrowedObject, ToPyObject, }; pub use crate::err::{PyDowncastError, PyErr, PyErrArguments, PyErrValue, PyResult}; pub use crate::gil::{init_once, GILGuard, GILPool}; pub use crate::instance::{AsPyRef, ManagedPyRef, Py, PyNativeType, PyRef, PyRefMut}; pub use crate::object::PyObject; pub use crate::objectprotocol::ObjectProtocol; pub use crate::python::{prepare_freethreaded_python, Python}; pub use crate::type_object::{PyObjectAlloc, PyRawObject, PyTypeInfo}; // Re-exported for wrap_function #[doc(hidden)] pub use mashup; // Re-exported for py_run #[doc(hidden)] pub use indoc; // Re-exported for pymethods #[doc(hidden)] pub use inventory; // Re-exported for the `__wrap` functions #[doc(hidden)] pub use libc; /// Raw ffi declarations for the c interface of python pub mod ffi; mod ffi3; pub mod buffer; #[doc(hidden)] pub mod callback; pub mod class; mod conversion; #[doc(hidden)] pub mod derive_utils; mod err; pub mod exceptions; pub mod freelist; mod gil; mod instance; pub mod marshal; mod object; mod objectprotocol; pub mod prelude; mod python; pub mod type_object; pub mod types; /// The proc macros, which are also part of the prelude pub mod proc_macro { pub use pyo3cls::pymodule; /// The proc macro attributes pub use pyo3cls::{pyclass, pyfunction, pymethods, pyproto}; } /// Returns a function that takes a [Python] instance and returns a python function. /// /// Use this together with `#[pyfunction]` and [types::PyModule::add_wrapped]. #[macro_export] macro_rules! wrap_pyfunction { ($function_name:ident) => {{ // Get the mashup macro and its helpers into scope use pyo3::mashup::*; mashup! { // Make sure this ident matches the one in function_wrapper_ident m["method"] = __pyo3_get_function_ $function_name; } m! { &"method" } }}; } /// Returns a function that takes a [Python] instance and returns a python module. /// /// Use this together with `#[pymodule]` and [types::PyModule::add_wrapped]. #[macro_export] macro_rules! wrap_pymodule { ($module_name:ident) => {{ use pyo3::mashup::*; mashup! { m["method"] = PyInit_ $module_name; } m! { &|py| unsafe { pyo3::PyObject::from_owned_ptr(py, "method"()) } } }}; } /// A convinient macro to execute a Python code snippet, with some local variables set. /// /// # Example /// ``` /// use pyo3::{prelude::*, py_run, types::PyList}; /// let gil = Python::acquire_gil(); /// let py = gil.python(); /// let obj = pyo3::types::PyDict::new(py); /// let list = PyList::new(py, &[1, 2, 3]); /// py_run!(py, list, "assert list == [1, 2, 3]"); /// ``` /// /// You can use this macro to test pyfunctions or pyclasses quickly. /// /// # Example /// ``` /// use pyo3::{prelude::*, PyRawObject, py_run}; /// #[pyclass] /// struct Time { /// hour: u32, /// minute: u32, /// second: u32, /// } /// #[pymethods] /// impl Time { /// fn repl_japanese(&self) -> String { /// format!("{}時{}分{}秒", self.hour, self.minute, self.second) /// } /// #[getter] /// fn hour(&self) -> PyResult { /// Ok(self.hour) /// } /// } /// let gil = Python::acquire_gil(); /// let py = gil.python(); /// let time = PyRef::new(py, Time {hour: 8, minute: 43, second: 16}).unwrap(); /// py_run!(py, time, r#" /// assert time.hour == 8 /// assert time.repl_japanese() == "8時43分16秒" /// "#); /// ``` #[macro_export] macro_rules! py_run { ($py:expr, $($val:ident )+, $code:literal) => {{ pyo3::py_run_impl!($py, $($val)+, pyo3::indoc::indoc!($code)) }}; ($py:expr, $($val:ident )+, $code:expr) => {{ pyo3::py_run_impl!($py, $($val)+, &pyo3::_indoc_runtime($code)) }}; } #[macro_export] #[doc(hidden)] macro_rules! py_run_impl { ($py:expr, $($val:ident )+, $code:expr) => {{ use pyo3::types::IntoPyDict; let d = [$((stringify!($val), &$val))*].into_py_dict($py); $py.run($code, None, Some(d)) .map_err(|e| { e.print($py); // So when this c api function the last line called printed the error to stderr, // the output is only written into a buffer which is never flushed because we // panic before flushing. This is where this hack comes into place $py.run("import sys; sys.stderr.flush()", None, None) .unwrap(); }) .expect($code) }}; } /// Removes indentation from multiline strings in pyrun commands #[doc(hidden)] pub fn _indoc_runtime(commands: &str) -> String { let indent; if let Some(second) = commands.lines().nth(1) { indent = second .chars() .take_while(char::is_ascii_whitespace) .collect::(); } else { indent = "".to_string(); } commands .trim_end() .replace(&("\n".to_string() + &indent), "\n") + "\n" } /// Test readme and user guide #[doc(hidden)] pub mod doc_test { macro_rules! doc_comment { ($x:expr, $($tt:tt)*) => { #[doc = $x] $($tt)* }; } macro_rules! doctest { ($x:expr, $y:ident) => { doc_comment!(include_str!($x), mod $y {}); }; } doctest!("../README.md", readme_md); doctest!("../guide/src/advanced.md", guide_advanced_md); doctest!( "../guide/src/building_and_distribution.md", guide_building_and_distribution_md ); doctest!("../guide/src/class.md", guide_class_md); doctest!("../guide/src/conversions.md", guide_conversions_md); doctest!("../guide/src/debugging.md", guide_debugging_md); doctest!("../guide/src/exception.md", guide_exception_md); doctest!("../guide/src/function.md", guide_function_md); doctest!("../guide/src/get_started.md", guide_get_started_md); doctest!("../guide/src/module.md", guide_module_md); doctest!("../guide/src/parallelism.md", guide_parallelism_md); doctest!("../guide/src/pypy.md", guide_pypy_md); doctest!("../guide/src/rust_cpython.md", guide_rust_cpython_md); }