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# PyO3: Architecture
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This document roughly describes the high-level architecture of PyO3.
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If you want to become familiar with the codebase you are in the right place!
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## Overview
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PyO3 provides a bridge between Rust and Python, based on the [Python/C API].
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Thus, PyO3 has low-level bindings of these API as its core.
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On top of that, we have higher-level bindings to operate Python objects safely.
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Also, to define Python classes and functions in Rust code, we have `trait PyClass` and a set of
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protocol traits (e.g., `PyIterProtocol`) for supporting object protocols (i.e., `__dunder__` methods).
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Since implementing `PyClass` requires lots of boilerplate, we have a proc-macro `#[pyclass]`.
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To summarize, there are six main parts to the PyO3 codebase.
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1. [Low-level bindings of Python/C API.](#1-low-level-bindings-of-python-capi)
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- [`src/ffi`]
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2. [Bindings to Python objects.](#2-bindings-to-python-objects)
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- [`src/instance.rs`] and [`src/types`]
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3. [`PyClass` and related functionalities.](#3-pyclass-and-related-functionalities)
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- [`src/pycell.rs`], [`src/pyclass.rs`], and more
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4. [Protocol methods like `__getitem__`.](#4-protocol-methods)
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- [`src/class`]
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5. [Procedural macros to simplify usage for users.](#5-procedural-macros-to-simplify-usage-for-users)
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- [`src/derive_utils.rs`], [`pyo3-macros`] and [`pyo3-macros-backend`]
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6. [`build.rs`](#6-buildrs)
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- [`build.rs`](https://github.com/PyO3/pyo3/tree/master/build.rs)
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## 1. Low-level bindings of Python/C API
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[`src/ffi`] contains wrappers of [Python/C API].
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We aim to provide straight-forward Rust wrappers resembling the file structure of
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[`cpython/Include`](https://github.com/python/cpython/tree/v3.9.2/Include).
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However, we still lack some APIs and are continuously updating the module to match
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the file contents upstream in CPython.
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The tracking issue is [#1289](https://github.com/PyO3/pyo3/issues/1289), and contribution is welcome.
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In the [`src/ffi`] module, there is lots of conditional compilation such as `#[cfg(Py_LIMITED_API)]`,
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`#[cfg(Py_37)]`, and `#[cfg(PyPy)]`.
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`Py_LIMITED_API` corresponds to `#define Py_LIMITED_API` macro in Python/C API.
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With `Py_LIMITED_API`, we can build a Python-version-agnostic binary called an
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[abi3 wheel](https://pyo3.rs/latest/building_and_distribution.html#py_limited_apiabi3).
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`Py_37` means that the API is available from Python >= 3.7.
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There are also `Py_38`, `Py_39`, and so on.
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`PyPy` means that the API definition is for PyPy.
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Those flags are set in [`build.rs`](#6-buildrs).
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## 2. Bindings to Python objects
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[`src/types`] contains bindings to [built-in types](https://docs.python.org/3/library/stdtypes.html)
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of Python, such as `dict` and `list`.
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For historical reasons, Python's `object` is called `PyAny` in PyO3 and located in [`src/types/any.rs`].
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Currently, `PyAny` is a straightforward wrapper of `ffi::PyObject`, defined as:
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```rust
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#[repr(transparent)]
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pub struct PyAny(UnsafeCell<ffi::PyObject>);
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```
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All built-in types are defined as a C struct.
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For example, `dict` is defined as:
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```c
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typedef struct {
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/* Base object */
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PyObject ob_base;
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/* Number of items in the dictionary */
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Py_ssize_t ma_used;
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/* Dictionary version */
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uint64_t ma_version_tag;
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PyDictKeysObject *ma_keys;
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PyObject **ma_values;
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} PyDictObject;
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```
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However, we cannot access such a specific data structure with `#[cfg(Py_LIMITED_API)]` set.
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Thus, all builtin objects are implemented as opaque types by wrapping `PyAny`, e.g.,:
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```rust
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#[repr(transparent)]
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pub struct PyDict(PyAny);
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```
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Note that `PyAny` is not a pointer, and it is usually used as a pointer to the object in the
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Python heap, as `&PyAny`.
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This design choice can be changed
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(see the discussion in [#1056](https://github.com/PyO3/pyo3/issues/1056)).
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Since we need lots of boilerplate for implementing common traits for these types
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(e.g., `AsPyPointer`, `AsRef<PyAny>`, and `Debug`), we have some macros in
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[`src/types/mod.rs`].
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## 3. `PyClass` and related functionalities
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[`src/pycell.rs`], [`src/pyclass.rs`], and [`src/type_object.rs`] contain types and
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traits to make `#[pyclass]` work.
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Also, [`src/pyclass_init.rs`] and [`src/pyclass_slots.rs`] have related functionalities.
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To realize object-oriented programming in C, all Python objects must have the following two fields
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at the beginning.
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```rust
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#[repr(C)]
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pub struct PyObject {
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pub ob_refcnt: usize,
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pub ob_type: *mut PyTypeObject,
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...
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}
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```
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Thanks to this guarantee, casting `*mut A` to `*mut PyObject` is valid if `A` is a Python object.
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To ensure this guarantee, we have a wrapper struct `PyCell<T>` in [`src/pycell.rs`] which is roughly:
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```rust
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#[repr(C)]
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pub struct PyCell<T: PyClass> {
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object: crate::ffi::PyObject,
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inner: T,
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}
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```
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Thus, when copying a Rust struct to a Python object, we first allocate `PyCell` on the Python heap and then
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move `T` into it.
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Also, `PyCell` provides [RefCell](https://doc.rust-lang.org/std/cell/struct.RefCell.html)-like methods
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to ensure Rust's borrow rules.
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See [the documentation](https://docs.rs/pyo3/latest/pyo3/pycell/struct.PyCell.html) for more.
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`PyCell<T>` requires that `T` implements `PyClass`.
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This trait is somewhat complex and derives many traits, but the most important one is `PyTypeObject`
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in [`src/type_object.rs`].
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`PyTypeObject` is also implemented for built-in types.
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In Python, all objects have their types, and types are also objects of `type`.
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For example, you can see `type({})` shows `dict` and `type(type({}))` shows `type` in Python REPL.
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`T: PyTypeObject` implies that `T` has a corresponding type object.
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## 4. Protocol methods
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Python has some built-in special methods called dunder, such as `__iter__`.
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They are called [abstract objects layer](https://docs.python.org/3/c-api/abstract.html) in
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Python/C API.
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We provide a way to implement those protocols by using `#[pyproto]` and specific traits, such
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as `PyIterProtocol`.
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[`src/class`] defines these traits.
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Each protocol method has a corresponding FFI function.
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For example, `PyIterProtocol::__iter__` has
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`pub unsafe extern "C" fn iter<T>(slf: *mut PyObject) -> *mut PyObject`.
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When `#[pyproto]` finds that `T` implements `PyIterProtocol::__iter__`, it automatically
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sets `iter<T>` on the type object of `T`.
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Also, [`src/class/methods.rs`] has utilities for `#[pyfunction]` and [`src/class/impl_.rs`] has
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some internal tricks for making `#[pyproto]` flexible.
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## 5. Procedural macros to simplify usage for users.
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[`pyo3-macros`] provides six proc-macro APIs: `pymodule`, `pyproto`, `pyfunction`, `pyclass`,
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`pymethods`, and `#[derive(FromPyObject)]`.
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[`pyo3-macros-backend`] has the actual implementations of these APIs.
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[`src/derive_utils.rs`] contains some utilities used in code generated by these proc-macros,
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such as parsing function arguments.
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## 6. `build.rs`
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PyO3's [`build.rs`](https://github.com/PyO3/pyo3/tree/master/build.rs) is relatively long
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(about 900 lines) to support multiple architectures, interpreters, and usages.
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Below is a non-exhaustive list of its functionality:
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- Cross-compiling support.
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- If `TARGET` architecture and `HOST` architecture differ, we find cross compile information
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from environment variables (`PYO3_CROSS_LIB_DIR` and `PYO3_CROSS_PYTHON_VERSION`) or system files.
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- Find the interpreter for build and detect the Python version.
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- We have to set some version flags like `Py_37`.
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- If the interpreter is PyPy, we set `PyPy`.
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- If `PYO3_NO_PYTHON` environment variable is set then the interpreter detection is bypassed
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entirely and only abi3 extensions can be built.
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- Check if we are building a Python extension.
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- If we are building an extension (e.g., Python library installable by `pip`),
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we don't link `libpython`.
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Currently we use the `extension-module` feature for this purpose. This may change in the future.
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See [#1123](https://github.com/PyO3/pyo3/pull/1123).
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<!-- External Links -->
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[python/c api]: https://docs.python.org/3/c-api/
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<!-- Crates -->
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[`pyo3-macros`]: https://github.com/PyO3/pyo3/tree/master/pyo3-macros
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[`pyo3-macros-backend`]: https://github.com/PyO3/pyo3/tree/master/pyo3-macros-backend
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<!-- Directories -->
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[`src/class`]: https://github.com/PyO3/pyo3/tree/master/src/class
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[`src/ffi`]: https://github.com/PyO3/pyo3/tree/master/src/ffi
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[`src/types`]: https://github.com/PyO3/pyo3/tree/master/src/types
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<!-- Files -->
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[`src/derive_utils.rs`]: https://github.com/PyO3/pyo3/tree/master/src/derive_utils.rs
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[`src/instance.rs`]: https://github.com/PyO3/pyo3/tree/master/src/instance.rs
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[`src/pycell.rs`]: https://github.com/PyO3/pyo3/tree/master/src/pycell.rs
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[`src/pyclass.rs`]: https://github.com/PyO3/pyo3/tree/master/src/pyclass.rs
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[`src/pyclass_init.rs`]: https://github.com/PyO3/pyo3/tree/master/src/pyclass_init.rs
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[`src/pyclass_slot.rs`]: https://github.com/PyO3/pyo3/tree/master/src/pyclass_slot.rs
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[`src/type_object.rs`]: https://github.com/PyO3/pyo3/tree/master/src/type_object.rs
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[`src/class/methods.rs`]: https://github.com/PyO3/pyo3/tree/master/src/class/methods.rs
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[`src/class/impl_.rs`]: https://github.com/PyO3/pyo3/tree/master/src/class/impl_.rs
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[`src/types/any.rs`]: https://github.com/PyO3/pyo3/tree/master/src/types/any.rs
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[`src/types/mod.rs`]: https://github.com/PyO3/pyo3/tree/master/src/types/mod.rs
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