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//! This module takes care of all conversions involving `rusthg` (hg-cpython)
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//! objects in the PyO3 call context.
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//!
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//! For source code clarity, we only import (`use`) [`cpython`] traits and not
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//! any of its data objects. We are instead using full qualifiers, such as
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//! `cpython::PyObject`, and believe that the added heaviness is an acceptatble
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//! price to pay to avoid confusion.
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//!
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//! Also it, is customary in [`cpython`] to label the GIL lifetime as `'p`,
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//! whereas it is `'py` in PyO3 context. We keep both these conventions in
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//! the arguments side of function signatures when they are not simply elided.
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use pyo3::exceptions::PyTypeError;
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use pyo3::prelude::*;
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use cpython::ObjectProtocol;
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use cpython::PythonObject;
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use lazy_static::lazy_static;
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use hg::revlog::index::Index as CoreIndex;
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use rusthg::revlog::{InnerRevlog, PySharedIndex};
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/// Force cpython's GIL handle with the appropriate lifetime
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///
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/// In `pyo3`, the fact that we have the GIL is expressed by the lifetime of
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/// the incoming [`Bound`] smart pointer. We therefore simply instantiate
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/// the `cpython` handle and coerce its lifetime by the function signature.
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///
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/// Reacquiring the GIL is also a possible alternative, as the CPython
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/// documentation explicitely states that "recursive calls are allowed"
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/// (we interpret that as saying that acquiring the GIL within a thread that
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/// already has it works) *as long as it is properly released*
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/// reference:
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/// <https://docs.python.org/3.8/c-api/init.html#c.PyGILState_Ensure>
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pub(crate) fn cpython_handle<'py, T>(
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_bound: &Bound<'py, T>,
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) -> cpython::Python<'py> {
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// safety: this is safe because the returned object has the 'py lifetime
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unsafe { cpython::Python::assume_gil_acquired() }
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}
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/// Force PyO3 GIL handle from cpython's.
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///
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/// Very similar to [`cpython_handle`]
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pub fn pyo3_handle(_py: cpython::Python<'_>) -> Python<'_> {
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// safety: this is safe because the returned object has the same lifetime
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// as the incoming object.
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unsafe { Python::assume_gil_acquired() }
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}
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/// Convert a PyO3 [`PyObject`] into a [`cpython::PyObject`]
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///
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/// During this process, the reference count is increased, then decreased.
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/// This means that the GIL (symbolized by the lifetime on the `obj`
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/// argument) is needed.
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///
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/// We could make something perhaps more handy by simply stealing the
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/// pointer, forgetting the incoming and then implement `From` with "newtype".
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/// It would be worth the effort for a generic cpython-to-pyo3 crate, perhaps
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/// not for the current endeavour.
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pub(crate) fn to_cpython_py_object<'py>(
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obj: &Bound<'py, PyAny>,
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) -> (cpython::Python<'py>, cpython::PyObject) {
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let py = cpython_handle(obj);
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// public alias of the private cpython::fii::PyObject (!)
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let raw = obj.as_ptr() as *mut python3_sys::PyObject;
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// both pyo3 and rust-cpython will decrement the refcount on drop.
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// If we use from_owned_ptr, that's a segfault.
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(py, unsafe { cpython::PyObject::from_borrowed_ptr(py, raw) })
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}
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/// Convert a [`cpython::PyObject`] into a PyO3 [`PyObject`]
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///
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/// During this process, the reference count is increased, then decreased.
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/// This means that the GIL (symbolized by the PyO3 [`Python`] handle is
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/// needed.
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///
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/// We could make something perhaps more handy by simply stealing the
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/// pointer, forgetting the incoming and then implement `From` with "newtype".
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/// It would be worth the effort for a generic cpython-to-pyo3 crate, perhaps
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/// not for the current endeavour.
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pub(crate) fn from_cpython_py_object(
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py: Python<'_>,
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obj: cpython::PyObject,
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) -> PyObject {
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let raw = obj.as_ptr() as *mut pyo3::ffi::PyObject;
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unsafe { Py::from_borrowed_ptr(py, raw) }
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}
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/// Convert [`cpython::PyErr`] into [`pyo3::PyErr`]
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///
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/// The exception class remains the same as the original exception,
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/// hence if it is also defined in another dylib based on `cpython` crate,
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/// it will need to be converted to be downcasted in this crate.
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pub(crate) fn from_cpython_pyerr(
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py: cpython::Python<'_>,
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mut e: cpython::PyErr,
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) -> PyErr {
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let pyo3_py = pyo3_handle(py);
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let cpython_exc_obj = e.instance(py);
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let pyo3_exc_obj = from_cpython_py_object(pyo3_py, cpython_exc_obj);
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PyErr::from_value(pyo3_exc_obj.into_bound(pyo3_py))
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}
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/// Retrieve the PyType for objects from the `mercurial.rustext` crate.
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fn retrieve_cpython_py_type(
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submodule_name: &str,
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type_name: &str,
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) -> cpython::PyResult<cpython::PyType> {
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let guard = cpython::Python::acquire_gil();
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let py = guard.python();
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let module = py.import(&format!("mercurial.rustext.{submodule_name}"))?;
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module.get(py, type_name)?.extract::<cpython::PyType>(py)
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}
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lazy_static! {
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static ref INNER_REVLOG_PY_TYPE: cpython::PyType = {
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retrieve_cpython_py_type("revlog", "InnerRevlog")
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.expect("Could not import InnerRevlog in Python")
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};
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}
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/// Downcast [`InnerRevlog`], with the appropriate Python type checking.
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///
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/// The PyType object representing the `InnerRevlog` Python class is not the
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/// the same in this dylib as it is in the `mercurial.rustext` module.
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/// This is because the code created with the [`cpython::py_class!`]
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/// macro is itself duplicated in both dylibs. In the case of this crate, this
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/// happens by linking to the [`rusthg`] crate and provides the `InnerRevlog`
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/// that is visible from this crate. The `InnerRevlog::get_type` associated
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/// function turns out to return a `static mut` (look for `TYPE_OBJECT` in
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/// `py_class_impl3.rs`), which obviously is different in both dylibs.
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///
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/// The consequence of that is that downcasting an `InnerRevlog` originally
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/// from the `mecurial.rustext` module to our `InnerRevlog` cannot be done with
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/// the usual `extract::<InnerRevlog>(py)`, as it would perform the type
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/// checking with the `PyType` that is embedded in `mercurial.pyo3_rustext`.
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/// We must check the `PyType` that is within `mercurial.rustext` instead.
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/// This is what this function does.
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fn extract_inner_revlog(
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py: cpython::Python,
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inner_revlog: cpython::PyObject,
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) -> PyResult<InnerRevlog> {
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if !(*INNER_REVLOG_PY_TYPE).is_instance(py, &inner_revlog) {
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return Err(PyTypeError::new_err("Not an InnerRevlog instance"));
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}
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// Safety: this is safe because we checked the PyType already, with the
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// value embedded in `mercurial.rustext`.
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Ok(unsafe { InnerRevlog::unchecked_downcast_from(inner_revlog) })
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}
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/// This is similar to [`rusthg.py_rust_index_to_graph`], with difference in
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/// how we retrieve the [`InnerRevlog`].
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pub fn py_rust_index_to_graph(
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py: cpython::Python,
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index_proxy: cpython::PyObject,
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) -> PyResult<cpython::UnsafePyLeaked<PySharedIndex>> {
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let inner_revlog = extract_inner_revlog(
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py,
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index_proxy
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.getattr(py, "inner")
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.map_err(|e| from_cpython_pyerr(py, e))?,
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)?;
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let leaked = inner_revlog.pub_inner(py).leak_immutable();
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// Safety: we don't leak the "faked" reference out of the `UnsafePyLeaked`
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Ok(unsafe { leaked.map(py, |idx| PySharedIndex { inner: &idx.index }) })
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}
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pub(crate) fn proxy_index_py_leak<'py>(
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index_proxy: &Bound<'py, PyAny>,
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) -> PyResult<(cpython::Python<'py>, cpython::UnsafePyLeaked<PySharedIndex>)> {
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let (py, idx_proxy) = to_cpython_py_object(index_proxy);
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let py_leaked = py_rust_index_to_graph(py, idx_proxy)?;
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Ok((py, py_leaked))
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}
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/// Full extraction of the proxy index object as received in PyO3 to a
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/// [`CoreIndex`] reference.
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///
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/// # Safety
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///
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/// The invariants to maintain are those of the underlying
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/// [`UnsafePyLeaked::try_borrow`]: the caller must not leak the inner
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/// reference.
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pub(crate) unsafe fn proxy_index_extract<'py>(
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index_proxy: &Bound<'py, PyAny>,
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) -> PyResult<&'py CoreIndex> {
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let (py, py_leaked) = proxy_index_py_leak(index_proxy)?;
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let py_shared = &*unsafe {
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py_leaked
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.try_borrow(py)
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.map_err(|e| from_cpython_pyerr(py, e))?
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};
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Ok(py_shared.inner)
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}
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