pyo3/src/instance.rs

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// Copyright (c) 2017-present PyO3 Project and Contributors
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use crate::err::{PyErr, PyResult};
use crate::ffi;
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use crate::gil;
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use crate::instance;
use crate::object::PyObject;
use crate::objectprotocol::ObjectProtocol;
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use crate::type_object::PyTypeCreate;
use crate::type_object::{PyTypeInfo, PyTypeObject};
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use crate::types::PyObjectRef;
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use crate::AsPyPointer;
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use crate::IntoPyPointer;
use crate::Python;
use crate::{FromPyObject, IntoPyObject, ToPyObject};
use std::marker::PhantomData;
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use std::mem;
use std::ops::{Deref, DerefMut};
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use std::ptr::NonNull;
use std::rc::Rc;
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/// Types that are built into the python interpreter.
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///
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/// pyo3 is designed in a way that that all references to those types are bound to the GIL,
/// which is why you can get a token from all references of those types.
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pub unsafe trait PyNativeType: Sized {
fn py(&self) -> Python {
unsafe { Python::assume_gil_acquired() }
}
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}
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/// A special reference of type `T`. `PyRef<T>` refers a instance of T, which exists in the Python
/// heap as a part of a Python object.
///
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/// We can't implement `AsPyPointer` or `ToPyObject` for `pyclass`es, because they're not Python
/// objects until copied to the Python heap. So, instead of treating `&pyclass`es as Python objects,
/// we need to use special reference types `PyRef` and `PyRefMut`.
///
/// # Example
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///
/// ```
/// use pyo3::prelude::*;
/// use pyo3::types::IntoPyDict;
/// #[pyclass]
/// struct Point {
/// x: i32,
/// y: i32,
/// }
/// #[pymethods]
/// impl Point {
/// fn length(&self) -> i32 {
/// self.x * self.y
/// }
/// }
/// let gil = Python::acquire_gil();
/// let py = gil.python();
/// let obj = PyRef::new(gil.python(), Point { x: 3, y: 4 }).unwrap();
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/// let d = [("p", obj)].into_py_dict(py);
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/// py.run("assert p.length() == 12", None, Some(d)).unwrap();
/// ```
#[derive(Debug)]
pub struct PyRef<'a, T: PyTypeInfo>(&'a T, PhantomData<Rc<()>>);
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fn ref_to_ptr<T>(t: &T) -> *mut ffi::PyObject
where
T: PyTypeInfo,
{
unsafe { (t as *const _ as *mut u8).offset(-T::OFFSET) as *mut _ }
}
impl<'a, T: PyTypeInfo> PyRef<'a, T> {
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pub(crate) fn from_ref(r: &'a T) -> Self {
PyRef(r, PhantomData)
}
}
impl<'a, T> PyRef<'a, T>
where
T: PyTypeInfo + PyTypeObject + PyTypeCreate,
{
pub fn new(py: Python, value: T) -> PyResult<PyRef<T>> {
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let obj = T::create(py)?;
obj.init(value);
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let ref_ = unsafe { py.from_owned_ptr(obj.into_ptr()) };
Ok(PyRef::from_ref(ref_))
}
}
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impl<'a, T: PyTypeInfo> AsPyPointer for PyRef<'a, T> {
fn as_ptr(&self) -> *mut ffi::PyObject {
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ref_to_ptr(self.0)
}
}
impl<'a, T: PyTypeInfo> ToPyObject for PyRef<'a, T> {
fn to_object(&self, py: Python) -> PyObject {
unsafe { PyObject::from_borrowed_ptr(py, self.as_ptr()) }
}
}
impl<'a, T: PyTypeInfo> Deref for PyRef<'a, T> {
type Target = T;
fn deref(&self) -> &T {
self.0
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}
}
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/// Mutable version of [`PyRef`](struct.PyRef.html).
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/// # Example
/// ```
/// use pyo3::prelude::*;
/// use pyo3::types::IntoPyDict;
/// #[pyclass]
/// struct Point {
/// x: i32,
/// y: i32,
/// }
/// #[pymethods]
/// impl Point {
/// fn length(&self) -> i32 {
/// self.x * self.y
/// }
/// }
/// let gil = Python::acquire_gil();
/// let py = gil.python();
/// let mut obj = PyRefMut::new(gil.python(), Point { x: 3, y: 4 }).unwrap();
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/// let d = vec![("p", obj.to_object(py))].into_py_dict(py);
/// obj.x = 5; obj.y = 20;
/// py.run("assert p.length() == 100", None, Some(d)).unwrap();
/// ```
#[derive(Debug)]
pub struct PyRefMut<'a, T: PyTypeInfo>(&'a mut T, PhantomData<Rc<()>>);
impl<'a, T: PyTypeInfo> PyRefMut<'a, T> {
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pub(crate) fn from_mut(t: &'a mut T) -> Self {
PyRefMut(t, PhantomData)
}
}
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impl<'a, T> PyRefMut<'a, T>
where
T: PyTypeInfo + PyTypeObject + PyTypeCreate,
{
pub fn new(py: Python, value: T) -> PyResult<PyRefMut<T>> {
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let obj = T::create(py)?;
obj.init(value);
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let ref_ = unsafe { py.mut_from_owned_ptr(obj.into_ptr()) };
Ok(PyRefMut::from_mut(ref_))
}
}
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impl<'a, T: PyTypeInfo> AsPyPointer for PyRefMut<'a, T> {
fn as_ptr(&self) -> *mut ffi::PyObject {
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ref_to_ptr(self.0)
}
}
impl<'a, T: PyTypeInfo> ToPyObject for PyRefMut<'a, T> {
fn to_object(&self, py: Python) -> PyObject {
unsafe { PyObject::from_borrowed_ptr(py, self.as_ptr()) }
}
}
impl<'a, T: PyTypeInfo> Deref for PyRefMut<'a, T> {
type Target = T;
fn deref(&self) -> &T {
self.0
}
}
impl<'a, T: PyTypeInfo> DerefMut for PyRefMut<'a, T> {
fn deref_mut(&mut self) -> &mut T {
self.0
}
}
impl<'a, T> From<PyRef<'a, T>> for &'a PyObjectRef
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where
T: PyTypeInfo,
{
fn from(pref: PyRef<'a, T>) -> &'a PyObjectRef {
unsafe { &*(pref.as_ptr() as *const PyObjectRef) }
}
}
impl<'a, T> From<PyRefMut<'a, T>> for &'a PyObjectRef
where
T: PyTypeInfo,
{
fn from(pref: PyRefMut<'a, T>) -> &'a PyObjectRef {
unsafe { &*(pref.as_ptr() as *const PyObjectRef) }
}
}
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/// Trait implements object reference extraction from python managed pointer.
pub trait AsPyRef<T: PyTypeInfo>: Sized {
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/// Return reference to object.
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fn as_ref(&self, py: Python) -> PyRef<T>;
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/// Return mutable reference to object.
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fn as_mut(&mut self, py: Python) -> PyRefMut<T>;
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/// Acquire python gil and call closure with object reference.
fn with<F, R>(&self, f: F) -> R
where
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F: FnOnce(Python, PyRef<T>) -> R,
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{
let gil = Python::acquire_gil();
let py = gil.python();
f(py, self.as_ref(py))
}
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/// Acquire python gil and call closure with mutable object reference.
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fn with_mut<F, R>(&mut self, f: F) -> R
where
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F: FnOnce(Python, PyRefMut<T>) -> R,
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{
let gil = Python::acquire_gil();
let py = gil.python();
f(py, self.as_mut(py))
}
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fn into_py<F, R>(self, f: F) -> R
where
Self: IntoPyPointer,
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F: FnOnce(Python, PyRef<T>) -> R,
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{
let gil = Python::acquire_gil();
let py = gil.python();
let result = f(py, self.as_ref(py));
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py.xdecref(self);
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result
}
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fn into_mut_py<F, R>(mut self, f: F) -> R
where
Self: IntoPyPointer,
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F: FnOnce(Python, PyRefMut<T>) -> R,
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{
let gil = Python::acquire_gil();
let py = gil.python();
let result = f(py, self.as_mut(py));
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py.xdecref(self);
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result
}
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}
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/// Safe wrapper around unsafe `*mut ffi::PyObject` pointer with specified type information.
///
/// `Py<T>` is thread-safe, because any python related operations require a Python<'p> token.
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#[derive(Debug)]
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#[repr(transparent)]
pub struct Py<T>(NonNull<ffi::PyObject>, std::marker::PhantomData<T>);
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unsafe impl<T> Send for Py<T> {}
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unsafe impl<T> Sync for Py<T> {}
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impl<T> Py<T> {
/// Create new instance of T and move it under python management
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pub fn new(py: Python, value: T) -> PyResult<Py<T>>
where
T: PyTypeCreate,
{
let ob = T::create(py)?;
ob.init(value);
let ob = unsafe { Py::from_owned_ptr(ob.into_ptr()) };
Ok(ob)
}
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/// Creates a `Py<T>` instance for the given FFI pointer.
/// This moves ownership over the pointer into the `Py<T>`.
/// Undefined behavior if the pointer is NULL or invalid.
#[inline]
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pub unsafe fn from_owned_ptr(ptr: *mut ffi::PyObject) -> Py<T> {
debug_assert!(
!ptr.is_null() && ffi::Py_REFCNT(ptr) > 0,
format!("REFCNT: {:?} - {:?}", ptr, ffi::Py_REFCNT(ptr))
);
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Py(NonNull::new_unchecked(ptr), std::marker::PhantomData)
}
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/// Creates a `Py<T>` instance for the given FFI pointer.
/// Panics if the pointer is `null`.
/// Undefined behavior if the pointer is invalid.
#[inline]
pub unsafe fn from_owned_ptr_or_panic(ptr: *mut ffi::PyObject) -> Py<T> {
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match NonNull::new(ptr) {
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Some(nonnull_ptr) => Py(nonnull_ptr, std::marker::PhantomData),
None => {
crate::err::panic_after_error();
}
}
}
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/// Construct `Py<T>` from the result of a Python FFI call that
/// returns a new reference (owned pointer).
/// Returns `Err(PyErr)` if the pointer is `null`.
/// Unsafe because the pointer might be invalid.
pub unsafe fn from_owned_ptr_or_err(py: Python, ptr: *mut ffi::PyObject) -> PyResult<Py<T>> {
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match NonNull::new(ptr) {
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Some(nonnull_ptr) => Ok(Py(nonnull_ptr, std::marker::PhantomData)),
None => Err(PyErr::fetch(py)),
}
}
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/// Creates a `Py<T>` instance for the given Python FFI pointer.
/// Calls Py_INCREF() on the ptr.
/// Undefined behavior if the pointer is NULL or invalid.
#[inline]
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pub unsafe fn from_borrowed_ptr(ptr: *mut ffi::PyObject) -> Py<T> {
debug_assert!(
!ptr.is_null() && ffi::Py_REFCNT(ptr) > 0,
format!("REFCNT: {:?} - {:?}", ptr, ffi::Py_REFCNT(ptr))
);
ffi::Py_INCREF(ptr);
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Py(NonNull::new_unchecked(ptr), std::marker::PhantomData)
}
/// Gets the reference count of the ffi::PyObject pointer.
#[inline]
pub fn get_refcnt(&self) -> isize {
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unsafe { ffi::Py_REFCNT(self.0.as_ptr()) }
}
/// Clone self, Calls Py_INCREF() on the ptr.
#[inline]
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pub fn clone_ref(&self, _py: Python) -> Py<T> {
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unsafe { Py::from_borrowed_ptr(self.0.as_ptr()) }
}
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/// Returns the inner pointer without decreasing the refcount
///
/// This will eventually move into its own trait
pub(crate) fn into_non_null(self) -> NonNull<ffi::PyObject> {
let pointer = self.0;
mem::forget(self);
pointer
}
}
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/// Specialization workaround
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trait AsPyRefDispatch<T: PyTypeInfo>: AsPyPointer {
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fn as_ref_dispatch(&self, _py: Python) -> &T {
unsafe {
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let ptr = (self.as_ptr() as *mut u8).offset(T::OFFSET) as *mut T;
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ptr.as_ref().expect("Py has a null pointer")
}
}
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fn as_mut_dispatch(&mut self, _py: Python) -> &mut T {
unsafe {
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let ptr = (self.as_ptr() as *mut u8).offset(T::OFFSET) as *mut T;
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ptr.as_mut().expect("Py has a null pointer")
}
}
}
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impl<T: PyTypeInfo> AsPyRefDispatch<T> for Py<T> {}
impl<T: PyTypeInfo + PyNativeType> AsPyRefDispatch<T> for Py<T> {
fn as_ref_dispatch(&self, _py: Python) -> &T {
unsafe { &*(self as *const instance::Py<T> as *const T) }
}
fn as_mut_dispatch(&mut self, _py: Python) -> &mut T {
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unsafe { &mut *(self as *mut _ as *mut T) }
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}
}
impl<T> AsPyRef<T> for Py<T>
where
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T: PyTypeInfo,
{
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#[inline]
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fn as_ref(&self, py: Python) -> PyRef<T> {
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PyRef::from_ref(self.as_ref_dispatch(py))
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}
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#[inline]
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fn as_mut(&mut self, py: Python) -> PyRefMut<T> {
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PyRefMut::from_mut(self.as_mut_dispatch(py))
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}
}
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impl<T> ToPyObject for Py<T> {
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/// Converts `Py` instance -> PyObject.
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fn to_object(&self, py: Python) -> PyObject {
unsafe { PyObject::from_borrowed_ptr(py, self.as_ptr()) }
}
}
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impl<T> IntoPyObject for Py<T> {
/// Converts `Py` instance -> PyObject.
/// Consumes `self` without calling `Py_DECREF()`
#[inline]
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fn into_object(self, py: Python) -> PyObject {
unsafe { PyObject::from_owned_ptr(py, self.into_ptr()) }
}
}
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impl<T> AsPyPointer for Py<T> {
/// Gets the underlying FFI pointer, returns a borrowed pointer.
#[inline]
fn as_ptr(&self) -> *mut ffi::PyObject {
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self.0.as_ptr()
}
}
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impl<T> IntoPyPointer for Py<T> {
/// Gets the underlying FFI pointer, returns a owned pointer.
#[inline]
#[must_use]
fn into_ptr(self) -> *mut ffi::PyObject {
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let ptr = self.0.as_ptr();
std::mem::forget(self);
ptr
}
}
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impl<T> PartialEq for Py<T> {
#[inline]
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fn eq(&self, o: &Py<T>) -> bool {
self.0 == o.0
}
}
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/// Dropping a `Py` instance decrements the reference count on the object by 1.
impl<T> Drop for Py<T> {
fn drop(&mut self) {
unsafe {
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gil::register_pointer(self.0);
}
}
}
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impl<T> std::convert::From<Py<T>> for PyObject {
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#[inline]
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fn from(ob: Py<T>) -> Self {
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unsafe { PyObject::from_not_null(ob.into_non_null()) }
}
}
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impl<'a, T> std::convert::From<PyRef<'a, T>> for Py<T>
where
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T: PyTypeInfo,
{
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fn from(ob: PyRef<'a, T>) -> Self {
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unsafe { Py::from_borrowed_ptr(ob.as_ptr()) }
}
}
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impl<'a, T> std::convert::From<PyRefMut<'a, T>> for Py<T>
where
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T: PyTypeInfo,
{
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fn from(ob: PyRefMut<'a, T>) -> Self {
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unsafe { Py::from_borrowed_ptr(ob.as_ptr()) }
}
}
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impl<'a, T> std::convert::From<&'a T> for PyObject
where
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T: AsPyPointer,
{
fn from(ob: &'a T) -> Self {
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unsafe { Py::<T>::from_borrowed_ptr(ob.as_ptr()) }.into()
}
}
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impl<'a, T> std::convert::From<&'a mut T> for PyObject
where
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T: AsPyPointer,
{
fn from(ob: &'a mut T) -> Self {
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unsafe { Py::<T>::from_borrowed_ptr(ob.as_ptr()) }.into()
}
}
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impl<'a, T> FromPyObject<'a> for Py<T>
where
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T: AsPyPointer,
&'a T: 'a + FromPyObject<'a>,
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{
/// Extracts `Self` from the source `PyObject`.
fn extract(ob: &'a PyObjectRef) -> PyResult<Self> {
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unsafe {
ob.extract::<&T>()
.map(|val| Py::from_borrowed_ptr(val.as_ptr()))
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}
}
}
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/// Reference to a converted [ToPyObject].
///
/// Many methods want to take anything that can be converted into a python object. This type
/// takes care of both types types that are already python object (i.e. implement
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/// [AsPyPointer]) and those that don't (i.e. [ToPyObject] types).
/// For the [AsPyPointer] types, we just use the borrowed pointer, which is a lot faster
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/// and simpler than creating a new extra object. The remaning [ToPyObject] types are
/// converted to python objects, the owned pointer is stored and decref'd on drop.
///
/// # Example
///
/// ```
/// use pyo3::ffi;
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/// use pyo3::{ToPyObject, AsPyPointer, PyNativeType, ManagedPyRef};
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/// use pyo3::types::{PyDict, PyObjectRef};
///
/// pub fn get_dict_item<'p>(dict: &'p PyDict, key: &impl ToPyObject) -> Option<&'p PyObjectRef> {
/// let key = ManagedPyRef::from_to_pyobject(dict.py(), key);
/// unsafe {
/// dict.py().from_borrowed_ptr_or_opt(ffi::PyDict_GetItem(dict.as_ptr(), key.as_ptr()))
/// }
/// }
/// ```
#[repr(transparent)]
pub struct ManagedPyRef<'p, T: ToPyObject + ?Sized> {
data: *mut ffi::PyObject,
data_type: PhantomData<T>,
_py: Python<'p>,
}
/// This should eventually be replaced with a generic `IntoPy` trait impl by figuring
/// out the correct lifetime annotation to make the compiler happy
impl<'p, T: ToPyObject> ManagedPyRef<'p, T> {
pub fn from_to_pyobject(py: Python<'p>, to_pyobject: &T) -> Self {
to_pyobject.to_managed_py_ref(py)
}
}
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impl<'p, T: ToPyObject> AsPyPointer for ManagedPyRef<'p, T> {
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fn as_ptr(&self) -> *mut ffi::PyObject {
self.data
}
}
/// Helper trait to choose the right implementation for [BorrowedPyRef]
pub trait ManagedPyRefDispatch: ToPyObject {
/// Optionally converts into a python object and stores the pointer to the python heap.
///
/// Contains the case 1 impl (with to_object) to avoid a specialization error
fn to_managed_py_ref<'p>(&self, py: Python<'p>) -> ManagedPyRef<'p, Self> {
ManagedPyRef {
data: self.to_object(py).into_ptr(),
data_type: PhantomData,
_py: py,
}
}
/// Dispatch over a xdecref and a noop drop impl
///
/// Contains the case 1 impl (decref) to avoid a specialization error
fn drop_impl(borrowed: &mut ManagedPyRef<Self>) {
unsafe { ffi::Py_DECREF(borrowed.data) };
}
}
/// Case 1: It's a rust object which still needs to be converted to a python object.
/// This means we're storing the owned pointer that into_ptr() has given us
/// and therefore need to xdecref when we're done.
///
/// Note that the actual implementations are part of the trait declaration to avoid
/// a specialization error
impl<T: ToPyObject + ?Sized> ManagedPyRefDispatch for T {}
/// Case 2: It's an object on the python heap, we're just storing a borrowed pointer.
/// The object we're getting is an owned pointer, it might have it's own drop impl.
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impl<T: ToPyObject + AsPyPointer + ?Sized> ManagedPyRefDispatch for T {
/// Use AsPyPointer to copy the pointer and store it as borrowed pointer
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fn to_managed_py_ref<'p>(&self, py: Python<'p>) -> ManagedPyRef<'p, Self> {
ManagedPyRef {
data: self.as_ptr(),
data_type: PhantomData,
_py: py,
}
}
/// We have a borrowed pointer, so nothing to do here
fn drop_impl(_: &mut ManagedPyRef<T>) {}
}
impl<'p, T: ToPyObject + ?Sized> Drop for ManagedPyRef<'p, T> {
/// Uses the internal [ManagedPyRefDispatch] trait to get the right drop impl without causing
/// a specialization error
fn drop(&mut self) {
ManagedPyRefDispatch::drop_impl(self);
}
}
#[cfg(test)]
mod test {
use crate::ffi;
use crate::types::PyDict;
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use crate::{AsPyPointer, ManagedPyRef, Python};
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#[test]
fn borrowed_py_ref_with_to_pointer() {
let gil = Python::acquire_gil();
let py = gil.python();
let native = PyDict::new(py);
let ref_count = unsafe { ffi::Py_REFCNT(native.as_ptr()) };
let borrowed = ManagedPyRef::from_to_pyobject(py, native);
assert_eq!(native.as_ptr(), borrowed.data);
assert_eq!(ref_count, unsafe { ffi::Py_REFCNT(borrowed.data) });
drop(borrowed);
assert_eq!(ref_count, unsafe { ffi::Py_REFCNT(native.as_ptr()) });
}
#[test]
fn borrowed_py_ref_with_to_object() {
let gil = Python::acquire_gil();
let py = gil.python();
let convertible = (1, 2, 3);
let borrowed = ManagedPyRef::from_to_pyobject(py, &convertible);
let ptr = borrowed.data;
// The refcountwould become 0 after dropping, which means the gc can free the pointer
// and getting the refcount would be UB. This incref ensures that it remains 1
unsafe {
ffi::Py_INCREF(ptr);
}
assert_eq!(2, unsafe { ffi::Py_REFCNT(ptr) });
drop(borrowed);
assert_eq!(1, unsafe { ffi::Py_REFCNT(ptr) });
unsafe {
ffi::Py_DECREF(ptr);
}
}
}