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rust-dirstate-status: update bridge for new rust version of `dirstate.status`...
rust-dirstate-status: update bridge for new rust version of `dirstate.status` Differential Revision: https://phab.mercurial-scm.org/D7530

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ref_sharing.rs
636 lines | 20.5 KiB | application/rls-services+xml | RustLexer
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r43352 // ref_sharing.rs
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r42997 //
// Copyright 2019 Raphaël Gomès <rgomes@octobus.net>
//
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r43352 // Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to
// deal in the Software without restriction, including without limitation the
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
// IN THE SOFTWARE.
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//! Macros for use in the `hg-cpython` bridge library.
use crate::exceptions::AlreadyBorrowed;
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r43605 use cpython::{exc, PyClone, PyErr, PyObject, PyResult, Python};
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r43609 use std::cell::{Ref, RefCell, RefMut};
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r43604 use std::ops::{Deref, DerefMut};
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r43605 use std::sync::atomic::{AtomicUsize, Ordering};
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/// Manages the shared state between Python and Rust
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r43605 ///
/// `PySharedState` is owned by `PySharedRefCell`, and is shared across its
/// derived references. The consistency of these references are guaranteed
/// as follows:
///
/// - The immutability of `py_class!` object fields. Any mutation of
/// `PySharedRefCell` is allowed only through its `borrow_mut()`.
/// - The `py: Python<'_>` token, which makes sure that any data access is
/// synchronized by the GIL.
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r43608 /// - The underlying `RefCell`, which prevents `PySharedRefCell` data from
/// being directly borrowed or leaked while it is mutably borrowed.
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r43606 /// - The `borrow_count`, which is the number of references borrowed from
/// `PyLeaked`. Just like `RefCell`, mutation is prohibited while `PyLeaked`
/// is borrowed.
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r43605 /// - The `generation` counter, which increments on `borrow_mut()`. `PyLeaked`
/// reference is valid only if the `current_generation()` equals to the
/// `generation` at the time of `leak_immutable()`.
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r43443 #[derive(Debug, Default)]
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r43582 struct PySharedState {
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r43605 // The counter variable could be Cell<usize> since any operation on
// PySharedState is synchronized by the GIL, but being "atomic" makes
// PySharedState inherently Sync. The ordering requirement doesn't
// matter thanks to the GIL.
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r43606 borrow_count: AtomicUsize,
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r43605 generation: AtomicUsize,
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r42997 }
impl PySharedState {
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r43582 fn borrow_mut<'a, T>(
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r42997 &'a self,
py: Python<'a>,
pyrefmut: RefMut<'a, T>,
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r43610 ) -> PyResult<RefMut<'a, T>> {
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r43606 match self.current_borrow_count(py) {
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r42997 0 => {
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r43605 // Note that this wraps around to the same value if mutably
// borrowed more than usize::MAX times, which wouldn't happen
// in practice.
self.generation.fetch_add(1, Ordering::Relaxed);
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r43610 Ok(pyrefmut)
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r42997 }
_ => Err(AlreadyBorrowed::new(
py,
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r43606 "Cannot borrow mutably while immutably borrowed",
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r42997 )),
}
}
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r43446 /// Return a reference to the wrapped data and its state with an
/// artificial static lifetime.
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r42997 /// We need to be protected by the GIL for thread-safety.
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r43117 ///
/// # Safety
///
/// This is highly unsafe since the lifetime of the given data can be
/// extended. Do not call this function directly.
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r43582 unsafe fn leak_immutable<T>(
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r42997 &self,
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r43609 _py: Python,
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r43608 data: Ref<T>,
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r43611 ) -> (&'static T, &'static PySharedState) {
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r43608 let ptr: *const T = &*data;
let state_ptr: *const PySharedState = self;
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r43611 (&*ptr, &*state_ptr)
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r42997 }
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r43606 fn current_borrow_count(&self, _py: Python) -> usize {
self.borrow_count.load(Ordering::Relaxed)
}
fn increase_borrow_count(&self, _py: Python) {
// Note that this wraps around if there are more than usize::MAX
// borrowed references, which shouldn't happen due to memory limit.
self.borrow_count.fetch_add(1, Ordering::Relaxed);
}
fn decrease_borrow_count(&self, _py: Python) {
let prev_count = self.borrow_count.fetch_sub(1, Ordering::Relaxed);
assert!(prev_count > 0);
}
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r43605 fn current_generation(&self, _py: Python) -> usize {
self.generation.load(Ordering::Relaxed)
}
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r42997 }
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r43606 /// Helper to keep the borrow count updated while the shared object is
/// immutably borrowed without using the `RefCell` interface.
struct BorrowPyShared<'a> {
py: Python<'a>,
py_shared_state: &'a PySharedState,
}
impl<'a> BorrowPyShared<'a> {
fn new(
py: Python<'a>,
py_shared_state: &'a PySharedState,
) -> BorrowPyShared<'a> {
py_shared_state.increase_borrow_count(py);
BorrowPyShared {
py,
py_shared_state,
}
}
}
impl Drop for BorrowPyShared<'_> {
fn drop(&mut self) {
self.py_shared_state.decrease_borrow_count(self.py);
}
}
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r43115 /// `RefCell` wrapper to be safely used in conjunction with `PySharedState`.
///
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r43582 /// This object can be stored in a `py_class!` object as a data field. Any
/// operation is allowed through the `PySharedRef` interface.
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r43115 #[derive(Debug)]
pub struct PySharedRefCell<T> {
inner: RefCell<T>,
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r43448 py_shared_state: PySharedState,
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r43115 }
impl<T> PySharedRefCell<T> {
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r43443 pub fn new(value: T) -> PySharedRefCell<T> {
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r43115 Self {
inner: RefCell::new(value),
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r43443 py_shared_state: PySharedState::default(),
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r43115 }
}
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r43582 fn borrow<'a>(&'a self, _py: Python<'a>) -> Ref<'a, T> {
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r43115 // py_shared_state isn't involved since
// - inner.borrow() would fail if self is mutably borrowed,
// - and inner.borrow_mut() would fail while self is borrowed.
self.inner.borrow()
}
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r43444 // TODO: maybe this should be named as try_borrow_mut(), and use
// inner.try_borrow_mut(). The current implementation panics if
// self.inner has been borrowed, but returns error if py_shared_state
// refuses to borrow.
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r43610 fn borrow_mut<'a>(&'a self, py: Python<'a>) -> PyResult<RefMut<'a, T>> {
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r43444 self.py_shared_state.borrow_mut(py, self.inner.borrow_mut())
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r43115 }
}
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r43448 /// Sharable data member of type `T` borrowed from the `PyObject`.
pub struct PySharedRef<'a, T> {
py: Python<'a>,
owner: &'a PyObject,
data: &'a PySharedRefCell<T>,
}
impl<'a, T> PySharedRef<'a, T> {
/// # Safety
///
/// The `data` must be owned by the `owner`. Otherwise, the leak count
/// would get wrong.
pub unsafe fn new(
py: Python<'a>,
owner: &'a PyObject,
data: &'a PySharedRefCell<T>,
) -> Self {
Self { py, owner, data }
}
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r43566 pub fn borrow(&self) -> Ref<'a, T> {
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r43580 self.data.borrow(self.py)
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r43448 }
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r43610 pub fn borrow_mut(&self) -> PyResult<RefMut<'a, T>> {
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r43448 self.data.borrow_mut(self.py)
}
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r43579 /// Returns a leaked reference.
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r43608 ///
/// # Panics
///
/// Panics if this is mutably borrowed.
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r43611 pub fn leak_immutable(&self) -> PyLeaked<&'static T> {
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r43579 let state = &self.data.py_shared_state;
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r43608 // make sure self.data isn't mutably borrowed; otherwise the
// generation number can't be trusted.
let data_ref = self.borrow();
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r43579 unsafe {
let (static_ref, static_state_ref) =
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r43611 state.leak_immutable(self.py, data_ref);
PyLeaked::new(self.py, self.owner, static_ref, static_state_ref)
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r43579 }
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r43448 }
}
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r42997 /// Allows a `py_class!` generated struct to share references to one of its
/// data members with Python.
///
/// # Parameters
///
/// * `$name` is the same identifier used in for `py_class!` macro call.
/// * `$inner_struct` is the identifier of the underlying Rust struct
/// * `$data_member` is the identifier of the data member of `$inner_struct`
/// that will be shared.
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r43448 /// * `$shared_accessor` is the function name to be generated, which allows
/// safe access to the data member.
///
/// # Safety
///
/// `$data_member` must persist while the `$name` object is alive. In other
/// words, it must be an accessor to a data field of the Python object.
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r42997 ///
/// # Example
///
/// ```
/// struct MyStruct {
/// inner: Vec<u32>;
/// }
///
/// py_class!(pub class MyType |py| {
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r43115 /// data inner: PySharedRefCell<MyStruct>;
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r42997 /// });
///
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r43448 /// py_shared_ref!(MyType, MyStruct, inner, inner_shared);
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r42997 /// ```
macro_rules! py_shared_ref {
(
$name: ident,
$inner_struct: ident,
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r43448 $data_member: ident,
$shared_accessor: ident
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r42997 ) => {
impl $name {
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r43448 /// Returns a safe reference to the shared `$data_member`.
///
/// This function guarantees that `PySharedRef` is created with
/// the valid `self` and `self.$data_member(py)` pair.
fn $shared_accessor<'a>(
&'a self,
py: Python<'a>,
) -> $crate::ref_sharing::PySharedRef<'a, $inner_struct> {
use cpython::PythonObject;
use $crate::ref_sharing::PySharedRef;
let owner = self.as_object();
let data = self.$data_member(py);
unsafe { PySharedRef::new(py, owner, data) }
}
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r42997 }
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r43447 };
}
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r42997
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r43447 /// Manage immutable references to `PyObject` leaked into Python iterators.
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r43605 ///
/// This reference will be invalidated once the original value is mutably
/// borrowed.
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r43603 pub struct PyLeaked<T> {
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r43579 inner: PyObject,
data: Option<T>,
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r43447 py_shared_state: &'static PySharedState,
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r43605 /// Generation counter of data `T` captured when PyLeaked is created.
generation: usize,
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r43447 }
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r43603 // DO NOT implement Deref for PyLeaked<T>! Dereferencing PyLeaked
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r43605 // without taking Python GIL wouldn't be safe. Also, the underling reference
// is invalid if generation != py_shared_state.generation.
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r43579
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r43603 impl<T> PyLeaked<T> {
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r43447 /// # Safety
///
/// The `py_shared_state` must be owned by the `inner` Python object.
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r43582 fn new(
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r43447 py: Python,
inner: &PyObject,
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r43578 data: T,
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r43447 py_shared_state: &'static PySharedState,
) -> Self {
Self {
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r43579 inner: inner.clone_ref(py),
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r43578 data: Some(data),
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r43447 py_shared_state,
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r43605 generation: py_shared_state.current_generation(py),
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r42997 }
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r43447 }
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r43579
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r43604 /// Immutably borrows the wrapped value.
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r43605 ///
/// Borrowing fails if the underlying reference has been invalidated.
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r43604 pub fn try_borrow<'a>(
&'a self,
py: Python<'a>,
) -> PyResult<PyLeakedRef<'a, T>> {
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r43605 self.validate_generation(py)?;
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r43604 Ok(PyLeakedRef {
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r43606 _borrow: BorrowPyShared::new(py, self.py_shared_state),
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r43604 data: self.data.as_ref().unwrap(),
})
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r43579 }
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r43604 /// Mutably borrows the wrapped value.
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r43579 ///
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r43605 /// Borrowing fails if the underlying reference has been invalidated.
///
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r43579 /// Typically `T` is an iterator. If `T` is an immutable reference,
/// `get_mut()` is useless since the inner value can't be mutated.
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r43604 pub fn try_borrow_mut<'a>(
&'a mut self,
py: Python<'a>,
) -> PyResult<PyLeakedRefMut<'a, T>> {
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r43605 self.validate_generation(py)?;
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r43604 Ok(PyLeakedRefMut {
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r43606 _borrow: BorrowPyShared::new(py, self.py_shared_state),
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r43604 data: self.data.as_mut().unwrap(),
})
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r43579 }
/// Converts the inner value by the given function.
///
/// Typically `T` is a static reference to a container, and `U` is an
/// iterator of that container.
///
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r43605 /// # Panics
///
/// Panics if the underlying reference has been invalidated.
///
/// This is typically called immediately after the `PyLeaked` is obtained.
/// In which case, the reference must be valid and no panic would occur.
///
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r43579 /// # Safety
///
/// The lifetime of the object passed in to the function `f` is cheated.
/// It's typically a static reference, but is valid only while the
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r43603 /// corresponding `PyLeaked` is alive. Do not copy it out of the
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r43579 /// function call.
pub unsafe fn map<U>(
mut self,
py: Python,
f: impl FnOnce(T) -> U,
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r43603 ) -> PyLeaked<U> {
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r43605 // Needs to test the generation value to make sure self.data reference
// is still intact.
self.validate_generation(py)
.expect("map() over invalidated leaked reference");
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r43579 // f() could make the self.data outlive. That's why map() is unsafe.
// In order to make this function safe, maybe we'll need a way to
// temporarily restrict the lifetime of self.data and translate the
// returned object back to Something<'static>.
let new_data = f(self.data.take().unwrap());
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r43603 PyLeaked {
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r43579 inner: self.inner.clone_ref(py),
data: Some(new_data),
py_shared_state: self.py_shared_state,
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r43605 generation: self.generation,
}
}
fn validate_generation(&self, py: Python) -> PyResult<()> {
if self.py_shared_state.current_generation(py) == self.generation {
Ok(())
} else {
Err(PyErr::new::<exc::RuntimeError, _>(
py,
"Cannot access to leaked reference after mutation",
))
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r43579 }
}
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r43447 }
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r42997
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r43604 /// Immutably borrowed reference to a leaked value.
pub struct PyLeakedRef<'a, T> {
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rust-cpython: allow mutation unless leaked reference is borrowed...
r43606 _borrow: BorrowPyShared<'a>,
Yuya Nishihara
rust-cpython: add stub wrapper that'll prevent leaked data from being mutated...
r43604 data: &'a T,
}
impl<T> Deref for PyLeakedRef<'_, T> {
type Target = T;
fn deref(&self) -> &T {
self.data
}
}
/// Mutably borrowed reference to a leaked value.
pub struct PyLeakedRefMut<'a, T> {
Yuya Nishihara
rust-cpython: allow mutation unless leaked reference is borrowed...
r43606 _borrow: BorrowPyShared<'a>,
Yuya Nishihara
rust-cpython: add stub wrapper that'll prevent leaked data from being mutated...
r43604 data: &'a mut T,
}
impl<T> Deref for PyLeakedRefMut<'_, T> {
type Target = T;
fn deref(&self) -> &T {
self.data
}
}
impl<T> DerefMut for PyLeakedRefMut<'_, T> {
fn deref_mut(&mut self) -> &mut T {
self.data
}
}
Raphaël Gomès
rust-cpython: add macro for sharing references...
r42997 /// Defines a `py_class!` that acts as a Python iterator over a Rust iterator.
Yuya Nishihara
rust-cpython: replace dyn Iterator<..> of mapping with concrete type...
r43158 ///
/// TODO: this is a bit awkward to use, and a better (more complicated)
/// procedural macro would simplify the interface a lot.
///
/// # Parameters
///
/// * `$name` is the identifier to give to the resulting Rust struct.
/// * `$leaked` corresponds to `$leaked` in the matching `py_shared_ref!` call.
/// * `$iterator_type` is the type of the Rust iterator.
/// * `$success_func` is a function for processing the Rust `(key, value)`
/// tuple on iteration success, turning it into something Python understands.
/// * `$success_func` is the return type of `$success_func`
///
/// # Example
///
/// ```
/// struct MyStruct {
/// inner: HashMap<Vec<u8>, Vec<u8>>;
/// }
///
/// py_class!(pub class MyType |py| {
/// data inner: PySharedRefCell<MyStruct>;
///
/// def __iter__(&self) -> PyResult<MyTypeItemsIterator> {
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rust-cpython: remove useless PyResult<> from leak_immutable()...
r43611 /// let leaked_ref = self.inner_shared(py).leak_immutable();
Yuya Nishihara
rust-cpython: leverage py_shared_iterator::from_inner() where appropriate
r43161 /// MyTypeItemsIterator::from_inner(
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rust-cpython: replace dyn Iterator<..> of mapping with concrete type...
r43158 /// py,
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rust-cpython: make PyLeakedRef operations relatively safe...
r43579 /// unsafe { leaked_ref.map(py, |o| o.iter()) },
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rust-cpython: replace dyn Iterator<..> of mapping with concrete type...
r43158 /// )
/// }
/// });
///
/// impl MyType {
/// fn translate_key_value(
/// py: Python,
/// res: (&Vec<u8>, &Vec<u8>),
/// ) -> PyResult<Option<(PyBytes, PyBytes)>> {
/// let (f, entry) = res;
/// Ok(Some((
/// PyBytes::new(py, f),
/// PyBytes::new(py, entry),
/// )))
/// }
/// }
///
/// py_shared_ref!(MyType, MyStruct, inner, MyTypeLeakedRef);
///
Yuya Nishihara
rust-cpython: rename py_shared_iterator_impl to py_shared_iterator...
r43159 /// py_shared_iterator!(
Yuya Nishihara
rust-cpython: replace dyn Iterator<..> of mapping with concrete type...
r43158 /// MyTypeItemsIterator,
Yuya Nishihara
rust-cpython: rename PyLeakedRef to PyLeaked...
r43603 /// PyLeaked<HashMap<'static, Vec<u8>, Vec<u8>>>,
Yuya Nishihara
rust-cpython: replace dyn Iterator<..> of mapping with concrete type...
r43158 /// MyType::translate_key_value,
/// Option<(PyBytes, PyBytes)>
/// );
/// ```
Yuya Nishihara
rust-cpython: rename py_shared_iterator_impl to py_shared_iterator...
r43159 macro_rules! py_shared_iterator {
Raphaël Gomès
rust-cpython: add macro for sharing references...
r42997 (
$name: ident,
Yuya Nishihara
rust-cpython: move $leaked struct out of macro...
r43447 $leaked: ty,
Raphaël Gomès
rust-cpython: add macro for sharing references...
r42997 $success_func: expr,
$success_type: ty
) => {
py_class!(pub class $name |py| {
Yuya Nishihara
rust-cpython: remove useless Option<$leaked> from py_shared_iterator...
r43607 data inner: RefCell<$leaked>;
Raphaël Gomès
rust-cpython: add macro for sharing references...
r42997
def __next__(&self) -> PyResult<$success_type> {
Yuya Nishihara
rust-cpython: remove useless Option<$leaked> from py_shared_iterator...
r43607 let mut leaked = self.inner(py).borrow_mut();
let mut iter = leaked.try_borrow_mut(py)?;
match iter.next() {
None => Ok(None),
Some(res) => $success_func(py, res),
Raphaël Gomès
rust-cpython: add macro for sharing references...
r42997 }
}
def __iter__(&self) -> PyResult<Self> {
Ok(self.clone_ref(py))
}
});
impl $name {
pub fn from_inner(
py: Python,
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rust-cpython: remove Option<_> from interface of py_shared_iterator...
r43160 leaked: $leaked,
Raphaël Gomès
rust-cpython: add macro for sharing references...
r42997 ) -> PyResult<Self> {
Self::create_instance(
py,
Yuya Nishihara
rust-cpython: remove useless Option<$leaked> from py_shared_iterator...
r43607 RefCell::new(leaked),
Raphaël Gomès
rust-cpython: add macro for sharing references...
r42997 )
}
}
};
}
Yuya Nishihara
rust-cpython: prepare for writing tests that require libpython...
r43583
#[cfg(test)]
#[cfg(any(feature = "python27-bin", feature = "python3-bin"))]
mod test {
use super::*;
use cpython::{GILGuard, Python};
py_class!(class Owner |py| {
data string: PySharedRefCell<String>;
});
py_shared_ref!(Owner, String, string, string_shared);
fn prepare_env() -> (GILGuard, Owner) {
let gil = Python::acquire_gil();
let py = gil.python();
let owner =
Owner::create_instance(py, PySharedRefCell::new("new".to_owned()))
.unwrap();
(gil, owner)
}
#[test]
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rust-cpython: add stub wrapper that'll prevent leaked data from being mutated...
r43604 fn test_leaked_borrow() {
let (gil, owner) = prepare_env();
let py = gil.python();
Yuya Nishihara
rust-cpython: remove useless PyResult<> from leak_immutable()...
r43611 let leaked = owner.string_shared(py).leak_immutable();
Yuya Nishihara
rust-cpython: add stub wrapper that'll prevent leaked data from being mutated...
r43604 let leaked_ref = leaked.try_borrow(py).unwrap();
assert_eq!(*leaked_ref, "new");
}
#[test]
fn test_leaked_borrow_mut() {
let (gil, owner) = prepare_env();
let py = gil.python();
Yuya Nishihara
rust-cpython: remove useless PyResult<> from leak_immutable()...
r43611 let leaked = owner.string_shared(py).leak_immutable();
Yuya Nishihara
rust-cpython: add stub wrapper that'll prevent leaked data from being mutated...
r43604 let mut leaked_iter = unsafe { leaked.map(py, |s| s.chars()) };
let mut leaked_ref = leaked_iter.try_borrow_mut(py).unwrap();
assert_eq!(leaked_ref.next(), Some('n'));
assert_eq!(leaked_ref.next(), Some('e'));
assert_eq!(leaked_ref.next(), Some('w'));
assert_eq!(leaked_ref.next(), None);
}
#[test]
Yuya Nishihara
rust-cpython: add generation counter to leaked reference...
r43605 fn test_leaked_borrow_after_mut() {
let (gil, owner) = prepare_env();
let py = gil.python();
Yuya Nishihara
rust-cpython: remove useless PyResult<> from leak_immutable()...
r43611 let leaked = owner.string_shared(py).leak_immutable();
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rust-cpython: add generation counter to leaked reference...
r43605 owner.string_shared(py).borrow_mut().unwrap().clear();
assert!(leaked.try_borrow(py).is_err());
}
#[test]
fn test_leaked_borrow_mut_after_mut() {
let (gil, owner) = prepare_env();
let py = gil.python();
Yuya Nishihara
rust-cpython: remove useless PyResult<> from leak_immutable()...
r43611 let leaked = owner.string_shared(py).leak_immutable();
Yuya Nishihara
rust-cpython: add generation counter to leaked reference...
r43605 let mut leaked_iter = unsafe { leaked.map(py, |s| s.chars()) };
owner.string_shared(py).borrow_mut().unwrap().clear();
assert!(leaked_iter.try_borrow_mut(py).is_err());
}
#[test]
#[should_panic(expected = "map() over invalidated leaked reference")]
fn test_leaked_map_after_mut() {
let (gil, owner) = prepare_env();
let py = gil.python();
Yuya Nishihara
rust-cpython: remove useless PyResult<> from leak_immutable()...
r43611 let leaked = owner.string_shared(py).leak_immutable();
Yuya Nishihara
rust-cpython: add generation counter to leaked reference...
r43605 owner.string_shared(py).borrow_mut().unwrap().clear();
let _leaked_iter = unsafe { leaked.map(py, |s| s.chars()) };
}
#[test]
Yuya Nishihara
rust-cpython: allow mutation unless leaked reference is borrowed...
r43606 fn test_borrow_mut_while_leaked_ref() {
Yuya Nishihara
rust-cpython: prepare for writing tests that require libpython...
r43583 let (gil, owner) = prepare_env();
let py = gil.python();
assert!(owner.string_shared(py).borrow_mut().is_ok());
Yuya Nishihara
rust-cpython: remove useless PyResult<> from leak_immutable()...
r43611 let leaked = owner.string_shared(py).leak_immutable();
Yuya Nishihara
rust-cpython: allow mutation unless leaked reference is borrowed...
r43606 {
let _leaked_ref = leaked.try_borrow(py).unwrap();
assert!(owner.string_shared(py).borrow_mut().is_err());
{
let _leaked_ref2 = leaked.try_borrow(py).unwrap();
assert!(owner.string_shared(py).borrow_mut().is_err());
}
assert!(owner.string_shared(py).borrow_mut().is_err());
}
assert!(owner.string_shared(py).borrow_mut().is_ok());
}
#[test]
fn test_borrow_mut_while_leaked_ref_mut() {
let (gil, owner) = prepare_env();
let py = gil.python();
assert!(owner.string_shared(py).borrow_mut().is_ok());
Yuya Nishihara
rust-cpython: remove useless PyResult<> from leak_immutable()...
r43611 let leaked = owner.string_shared(py).leak_immutable();
Yuya Nishihara
rust-cpython: allow mutation unless leaked reference is borrowed...
r43606 let mut leaked_iter = unsafe { leaked.map(py, |s| s.chars()) };
{
let _leaked_ref = leaked_iter.try_borrow_mut(py).unwrap();
assert!(owner.string_shared(py).borrow_mut().is_err());
}
assert!(owner.string_shared(py).borrow_mut().is_ok());
Yuya Nishihara
rust-cpython: prepare for writing tests that require libpython...
r43583 }
Yuya Nishihara
rust-cpython: leverage RefCell::borrow() to guarantee there's no mutable ref...
r43608
#[test]
#[should_panic(expected = "mutably borrowed")]
fn test_leak_while_borrow_mut() {
let (gil, owner) = prepare_env();
let py = gil.python();
let _mut_ref = owner.string_shared(py).borrow_mut();
Yuya Nishihara
rust-cpython: remove useless PyResult<> from leak_immutable()...
r43611 owner.string_shared(py).leak_immutable();
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rust-cpython: leverage RefCell::borrow() to guarantee there's no mutable ref...
r43608 }
Yuya Nishihara
rust-cpython: prepare for writing tests that require libpython...
r43583 }