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//! <span class="module-item stab portability" style="display: inline; border-radius: 3px; padding: 2px; font-size: 80%; line-height: 1.2;"><code>async-std-runtime</code></span> PyO3 Asyncio functions specific to the async-std runtime
//!
//! Items marked with
//! <span
//! class="module-item stab portability"
//! style="display: inline; border-radius: 3px; padding: 2px; font-size: 80%; line-height: 1.2;"
//! ><code>unstable-streams</code></span>
//! are only available when the `unstable-streams` Cargo feature is enabled:
//!
//! ```toml
//! [dependencies.pyo3-asyncio]
//! version = "0.20"
//! features = ["unstable-streams"]
//! ```
use std::{any::Any, cell::RefCell, future::Future, panic::AssertUnwindSafe, pin::Pin};
use async_std::task;
use futures::FutureExt;
use pyo3::prelude::*;
use crate::{
generic::{self, ContextExt, JoinError, LocalContextExt, Runtime, SpawnLocalExt},
TaskLocals,
};
/// <span class="module-item stab portability" style="display: inline; border-radius: 3px; padding: 2px; font-size: 80%; line-height: 1.2;"><code>attributes</code></span>
/// re-exports for macros
#[cfg(feature = "attributes")]
pub mod re_exports {
/// re-export spawn_blocking for use in `#[test]` macro without external dependency
pub use async_std::task::spawn_blocking;
}
/// <span class="module-item stab portability" style="display: inline; border-radius: 3px; padding: 2px; font-size: 80%; line-height: 1.2;"><code>attributes</code></span> Provides the boilerplate for the `async-std` runtime and runs an async fn as main
#[cfg(feature = "attributes")]
pub use pyo3_asyncio_macros::async_std_main as main;
/// <span class="module-item stab portability" style="display: inline; border-radius: 3px; padding: 2px; font-size: 80%; line-height: 1.2;"><code>attributes</code></span>
/// <span class="module-item stab portability" style="display: inline; border-radius: 3px; padding: 2px; font-size: 80%; line-height: 1.2;"><code>testing</code></span>
/// Registers an `async-std` test with the `pyo3-asyncio` test harness
#[cfg(all(feature = "attributes", feature = "testing"))]
pub use pyo3_asyncio_macros::async_std_test as test;
struct AsyncStdJoinErr(Box<dyn Any + Send + 'static>);
impl JoinError for AsyncStdJoinErr {
fn is_panic(&self) -> bool {
true
}
fn into_panic(self) -> Box<dyn Any + Send + 'static> {
self.0
}
}
async_std::task_local! {
static TASK_LOCALS: RefCell<Option<TaskLocals>> = RefCell::new(None);
}
struct AsyncStdRuntime;
impl Runtime for AsyncStdRuntime {
type JoinError = AsyncStdJoinErr;
type JoinHandle = task::JoinHandle<Result<(), AsyncStdJoinErr>>;
fn spawn<F>(fut: F) -> Self::JoinHandle
where
F: Future<Output = ()> + Send + 'static,
{
task::spawn(async move {
AssertUnwindSafe(fut)
.catch_unwind()
.await
.map_err(|e| AsyncStdJoinErr(e))
})
}
}
impl ContextExt for AsyncStdRuntime {
fn scope<F, R>(locals: TaskLocals, fut: F) -> Pin<Box<dyn Future<Output = R> + Send>>
where
F: Future<Output = R> + Send + 'static,
{
let old = TASK_LOCALS.with(|c| c.replace(Some(locals)));
Box::pin(async move {
let result = fut.await;
TASK_LOCALS.with(|c| c.replace(old));
result
})
}
fn get_task_locals() -> Option<TaskLocals> {
match TASK_LOCALS.try_with(|c| c.borrow().clone()) {
Ok(locals) => locals,
Err(_) => None,
}
}
}
impl SpawnLocalExt for AsyncStdRuntime {
fn spawn_local<F>(fut: F) -> Self::JoinHandle
where
F: Future<Output = ()> + 'static,
{
task::spawn_local(async move {
fut.await;
Ok(())
})
}
}
impl LocalContextExt for AsyncStdRuntime {
fn scope_local<F, R>(locals: TaskLocals, fut: F) -> Pin<Box<dyn Future<Output = R>>>
where
F: Future<Output = R> + 'static,
{
let old = TASK_LOCALS.with(|c| c.replace(Some(locals)));
Box::pin(async move {
let result = fut.await;
TASK_LOCALS.with(|c| c.replace(old));
result
})
}
}
/// Set the task local event loop for the given future
pub async fn scope<F, R>(locals: TaskLocals, fut: F) -> R
where
F: Future<Output = R> + Send + 'static,
{
AsyncStdRuntime::scope(locals, fut).await
}
/// Set the task local event loop for the given !Send future
pub async fn scope_local<F, R>(locals: TaskLocals, fut: F) -> R
where
F: Future<Output = R> + 'static,
{
AsyncStdRuntime::scope_local(locals, fut).await
}
/// Get the current event loop from either Python or Rust async task local context
///
/// This function first checks if the runtime has a task-local reference to the Python event loop.
/// If not, it calls [`get_running_loop`](`crate::get_running_loop`) to get the event loop
/// associated with the current OS thread.
pub fn get_current_loop(py: Python) -> PyResult<&PyAny> {
generic::get_current_loop::<AsyncStdRuntime>(py)
}
/// Either copy the task locals from the current task OR get the current running loop and
/// contextvars from Python.
pub fn get_current_locals(py: Python) -> PyResult<TaskLocals> {
generic::get_current_locals::<AsyncStdRuntime>(py)
}
/// Run the event loop until the given Future completes
///
/// The event loop runs until the given future is complete.
///
/// After this function returns, the event loop can be resumed with [`run_until_complete`]
///
/// # Arguments
/// * `event_loop` - The Python event loop that should run the future
/// * `fut` - The future to drive to completion
///
/// # Examples
///
/// ```
/// # use std::time::Duration;
/// #
/// # use pyo3::prelude::*;
/// #
/// # pyo3::prepare_freethreaded_python();
/// #
/// # Python::with_gil(|py| -> PyResult<()> {
/// # let event_loop = py.import("asyncio")?.call_method0("new_event_loop")?;
/// pyo3_asyncio::async_std::run_until_complete(event_loop, async move {
/// async_std::task::sleep(Duration::from_secs(1)).await;
/// Ok(())
/// })?;
/// # Ok(())
/// # }).unwrap();
/// ```
pub fn run_until_complete<F, T>(event_loop: &PyAny, fut: F) -> PyResult<T>
where
F: Future<Output = PyResult<T>> + Send + 'static,
T: Send + Sync + 'static,
{
generic::run_until_complete::<AsyncStdRuntime, _, T>(event_loop, fut)
}
/// Run the event loop until the given Future completes
///
/// # Arguments
/// * `py` - The current PyO3 GIL guard
/// * `fut` - The future to drive to completion
///
/// # Examples
///
/// ```no_run
/// # use std::time::Duration;
/// #
/// # use pyo3::prelude::*;
/// #
/// fn main() {
/// // call this or use pyo3 0.14 "auto-initialize" feature
/// pyo3::prepare_freethreaded_python();
///
/// Python::with_gil(|py| {
/// pyo3_asyncio::async_std::run(py, async move {
/// async_std::task::sleep(Duration::from_secs(1)).await;
/// Ok(())
/// })
/// .map_err(|e| {
/// e.print_and_set_sys_last_vars(py);
/// })
/// .unwrap();
/// })
/// }
/// ```
pub fn run<F, T>(py: Python, fut: F) -> PyResult<T>
where
F: Future<Output = PyResult<T>> + Send + 'static,
T: Send + Sync + 'static,
{
generic::run::<AsyncStdRuntime, F, T>(py, fut)
}
/// Convert a Rust Future into a Python awaitable
///
/// If the `asyncio.Future` returned by this conversion is cancelled via `asyncio.Future.cancel`,
/// the Rust future will be cancelled as well (new behaviour in `v0.15`).
///
/// Python `contextvars` are preserved when calling async Python functions within the Rust future
/// via [`into_future`] (new behaviour in `v0.15`).
///
/// > Although `contextvars` are preserved for async Python functions, synchronous functions will
/// unfortunately fail to resolve them when called within the Rust future. This is because the
/// function is being called from a Rust thread, not inside an actual Python coroutine context.
/// >
/// > As a workaround, you can get the `contextvars` from the current task locals using
/// [`get_current_locals`] and [`TaskLocals::context`](`crate::TaskLocals::context`), then wrap your
/// synchronous function in a call to `contextvars.Context.run`. This will set the context, call the
/// synchronous function, and restore the previous context when it returns or raises an exception.
///
/// # Arguments
/// * `py` - PyO3 GIL guard
/// * `locals` - The task locals for the given future
/// * `fut` - The Rust future to be converted
///
/// # Examples
///
/// ```
/// use std::time::Duration;
///
/// use pyo3::prelude::*;
///
/// /// Awaitable sleep function
/// #[pyfunction]
/// fn sleep_for<'p>(py: Python<'p>, secs: &'p PyAny) -> PyResult<&'p PyAny> {
/// let secs = secs.extract()?;
/// pyo3_asyncio::async_std::future_into_py_with_locals(
/// py,
/// pyo3_asyncio::async_std::get_current_locals(py)?,
/// async move {
/// async_std::task::sleep(Duration::from_secs(secs)).await;
/// Python::with_gil(|py| Ok(py.None()))
/// }
/// )
/// }
/// ```
pub fn future_into_py_with_locals<F, T>(py: Python, locals: TaskLocals, fut: F) -> PyResult<&PyAny>
where
F: Future<Output = PyResult<T>> + Send + 'static,
T: IntoPy<PyObject>,
{
generic::future_into_py_with_locals::<AsyncStdRuntime, F, T>(py, locals, fut)
}
/// Convert a Rust Future into a Python awaitable
///
/// If the `asyncio.Future` returned by this conversion is cancelled via `asyncio.Future.cancel`,
/// the Rust future will be cancelled as well (new behaviour in `v0.15`).
///
/// Python `contextvars` are preserved when calling async Python functions within the Rust future
/// via [`into_future`] (new behaviour in `v0.15`).
///
/// > Although `contextvars` are preserved for async Python functions, synchronous functions will
/// unfortunately fail to resolve them when called within the Rust future. This is because the
/// function is being called from a Rust thread, not inside an actual Python coroutine context.
/// >
/// > As a workaround, you can get the `contextvars` from the current task locals using
/// [`get_current_locals`] and [`TaskLocals::context`](`crate::TaskLocals::context`), then wrap your
/// synchronous function in a call to `contextvars.Context.run`. This will set the context, call the
/// synchronous function, and restore the previous context when it returns or raises an exception.
///
/// # Arguments
/// * `py` - The current PyO3 GIL guard
/// * `fut` - The Rust future to be converted
///
/// # Examples
///
/// ```
/// use std::time::Duration;
///
/// use pyo3::prelude::*;
///
/// /// Awaitable sleep function
/// #[pyfunction]
/// fn sleep_for<'p>(py: Python<'p>, secs: &'p PyAny) -> PyResult<&'p PyAny> {
/// let secs = secs.extract()?;
/// pyo3_asyncio::async_std::future_into_py(py, async move {
/// async_std::task::sleep(Duration::from_secs(secs)).await;
/// Ok(())
/// })
/// }
/// ```
pub fn future_into_py<F, T>(py: Python, fut: F) -> PyResult<&PyAny>
where
F: Future<Output = PyResult<T>> + Send + 'static,
T: IntoPy<PyObject>,
{
generic::future_into_py::<AsyncStdRuntime, _, T>(py, fut)
}
/// Convert a `!Send` Rust Future into a Python awaitable
///
/// If the `asyncio.Future` returned by this conversion is cancelled via `asyncio.Future.cancel`,
/// the Rust future will be cancelled as well (new behaviour in `v0.15`).
///
/// Python `contextvars` are preserved when calling async Python functions within the Rust future
/// via [`into_future`] (new behaviour in `v0.15`).
///
/// > Although `contextvars` are preserved for async Python functions, synchronous functions will
/// unfortunately fail to resolve them when called within the Rust future. This is because the
/// function is being called from a Rust thread, not inside an actual Python coroutine context.
/// >
/// > As a workaround, you can get the `contextvars` from the current task locals using
/// [`get_current_locals`] and [`TaskLocals::context`](`crate::TaskLocals::context`), then wrap your
/// synchronous function in a call to `contextvars.Context.run`. This will set the context, call the
/// synchronous function, and restore the previous context when it returns or raises an exception.
///
/// # Arguments
/// * `py` - PyO3 GIL guard
/// * `locals` - The task locals for the given future
/// * `fut` - The Rust future to be converted
///
/// # Examples
///
/// ```
/// use std::{rc::Rc, time::Duration};
///
/// use pyo3::prelude::*;
///
/// /// Awaitable non-send sleep function
/// #[pyfunction]
/// fn sleep_for(py: Python, secs: u64) -> PyResult<&PyAny> {
/// // Rc is non-send so it cannot be passed into pyo3_asyncio::async_std::future_into_py
/// let secs = Rc::new(secs);
/// Ok(pyo3_asyncio::async_std::local_future_into_py_with_locals(
/// py,
/// pyo3_asyncio::async_std::get_current_locals(py)?,
/// async move {
/// async_std::task::sleep(Duration::from_secs(*secs)).await;
/// Python::with_gil(|py| Ok(py.None()))
/// }
/// )?.into())
/// }
///
/// # #[cfg(all(feature = "async-std-runtime", feature = "attributes"))]
/// #[pyo3_asyncio::async_std::main]
/// async fn main() -> PyResult<()> {
/// Python::with_gil(|py| {
/// let py_future = sleep_for(py, 1)?;
/// pyo3_asyncio::async_std::into_future(py_future)
/// })?
/// .await?;
///
/// Ok(())
/// }
/// # #[cfg(not(all(feature = "async-std-runtime", feature = "attributes")))]
/// # fn main() {}
/// ```
#[deprecated(
since = "0.18.0",
note = "Questionable whether these conversions have real-world utility (see https://github.com/awestlake87/pyo3-asyncio/issues/59#issuecomment-1008038497 and let me know if you disagree!)"
)]
#[allow(deprecated)]
pub fn local_future_into_py_with_locals<F, T>(
py: Python,
locals: TaskLocals,
fut: F,
) -> PyResult<&PyAny>
where
F: Future<Output = PyResult<T>> + 'static,
T: IntoPy<PyObject>,
{
generic::local_future_into_py_with_locals::<AsyncStdRuntime, _, T>(py, locals, fut)
}
/// Convert a `!Send` Rust Future into a Python awaitable
///
/// If the `asyncio.Future` returned by this conversion is cancelled via `asyncio.Future.cancel`,
/// the Rust future will be cancelled as well (new behaviour in `v0.15`).
///
/// Python `contextvars` are preserved when calling async Python functions within the Rust future
/// via [`into_future`] (new behaviour in `v0.15`).
///
/// > Although `contextvars` are preserved for async Python functions, synchronous functions will
/// unfortunately fail to resolve them when called within the Rust future. This is because the
/// function is being called from a Rust thread, not inside an actual Python coroutine context.
/// >
/// > As a workaround, you can get the `contextvars` from the current task locals using
/// [`get_current_locals`] and [`TaskLocals::context`](`crate::TaskLocals::context`), then wrap your
/// synchronous function in a call to `contextvars.Context.run`. This will set the context, call the
/// synchronous function, and restore the previous context when it returns or raises an exception.
///
/// # Arguments
/// * `py` - The current PyO3 GIL guard
/// * `fut` - The Rust future to be converted
///
/// # Examples
///
/// ```
/// use std::{rc::Rc, time::Duration};
///
/// use pyo3::prelude::*;
///
/// /// Awaitable non-send sleep function
/// #[pyfunction]
/// fn sleep_for(py: Python, secs: u64) -> PyResult<&PyAny> {
/// // Rc is non-send so it cannot be passed into pyo3_asyncio::async_std::future_into_py
/// let secs = Rc::new(secs);
/// pyo3_asyncio::async_std::local_future_into_py(py, async move {
/// async_std::task::sleep(Duration::from_secs(*secs)).await;
/// Ok(())
/// })
/// }
///
/// # #[cfg(all(feature = "async-std-runtime", feature = "attributes"))]
/// #[pyo3_asyncio::async_std::main]
/// async fn main() -> PyResult<()> {
/// Python::with_gil(|py| {
/// let py_future = sleep_for(py, 1)?;
/// pyo3_asyncio::async_std::into_future(py_future)
/// })?
/// .await?;
///
/// Ok(())
/// }
/// # #[cfg(not(all(feature = "async-std-runtime", feature = "attributes")))]
/// # fn main() {}
/// ```
#[deprecated(
since = "0.18.0",
note = "Questionable whether these conversions have real-world utility (see https://github.com/awestlake87/pyo3-asyncio/issues/59#issuecomment-1008038497 and let me know if you disagree!)"
)]
#[allow(deprecated)]
pub fn local_future_into_py<F, T>(py: Python, fut: F) -> PyResult<&PyAny>
where
F: Future<Output = PyResult<T>> + 'static,
T: IntoPy<PyObject>,
{
generic::local_future_into_py::<AsyncStdRuntime, _, T>(py, fut)
}
/// Convert a Python `awaitable` into a Rust Future
///
/// This function converts the `awaitable` into a Python Task using `run_coroutine_threadsafe`. A
/// completion handler sends the result of this Task through a
/// `futures::channel::oneshot::Sender<PyResult<PyObject>>` and the future returned by this function
/// simply awaits the result through the `futures::channel::oneshot::Receiver<PyResult<PyObject>>`.
///
/// # Arguments
/// * `awaitable` - The Python `awaitable` to be converted
///
/// # Examples
///
/// ```
/// use std::time::Duration;
///
/// use pyo3::prelude::*;
///
/// const PYTHON_CODE: &'static str = r#"
/// import asyncio
///
/// async def py_sleep(duration):
/// await asyncio.sleep(duration)
/// "#;
///
/// async fn py_sleep(seconds: f32) -> PyResult<()> {
/// let test_mod = Python::with_gil(|py| -> PyResult<PyObject> {
/// Ok(
/// PyModule::from_code(
/// py,
/// PYTHON_CODE,
/// "test_into_future/test_mod.py",
/// "test_mod"
/// )?
/// .into()
/// )
/// })?;
///
/// Python::with_gil(|py| {
/// pyo3_asyncio::async_std::into_future(
/// test_mod
/// .call_method1(py, "py_sleep", (seconds.into_py(py),))?
/// .as_ref(py),
/// )
/// })?
/// .await?;
/// Ok(())
/// }
/// ```
pub fn into_future(awaitable: &PyAny) -> PyResult<impl Future<Output = PyResult<PyObject>> + Send> {
generic::into_future::<AsyncStdRuntime>(awaitable)
}
/// <span class="module-item stab portability" style="display: inline; border-radius: 3px; padding: 2px; font-size: 80%; line-height: 1.2;"><code>unstable-streams</code></span> Convert an async generator into a stream
///
/// **This API is marked as unstable** and is only available when the
/// `unstable-streams` crate feature is enabled. This comes with no
/// stability guarantees, and could be changed or removed at any time.
///
/// # Arguments
/// * `gen` - The Python async generator to be converted
///
/// # Examples
/// ```
/// use pyo3::prelude::*;
/// use futures::{StreamExt, TryStreamExt};
///
/// const TEST_MOD: &str = r#"
/// import asyncio
///
/// async def gen():
/// for i in range(10):
/// await asyncio.sleep(0.1)
/// yield i
/// "#;
///
/// # #[cfg(all(feature = "unstable-streams", feature = "attributes"))]
/// # #[pyo3_asyncio::async_std::main]
/// # async fn main() -> PyResult<()> {
/// let stream = Python::with_gil(|py| {
/// let test_mod = PyModule::from_code(
/// py,
/// TEST_MOD,
/// "test_rust_coroutine/test_mod.py",
/// "test_mod",
/// )?;
///
/// pyo3_asyncio::async_std::into_stream_v1(test_mod.call_method0("gen")?)
/// })?;
///
/// let vals = stream
/// .map(|item| Python::with_gil(|py| -> PyResult<i32> { Ok(item?.as_ref(py).extract()?) }))
/// .try_collect::<Vec<i32>>()
/// .await?;
///
/// assert_eq!((0..10).collect::<Vec<i32>>(), vals);
///
/// Ok(())
/// # }
/// # #[cfg(not(all(feature = "unstable-streams", feature = "attributes")))]
/// # fn main() {}
/// ```
#[cfg(feature = "unstable-streams")]
pub fn into_stream_v1<'p>(
gen: &'p PyAny,
) -> PyResult<impl futures::Stream<Item = PyResult<PyObject>> + 'static> {
generic::into_stream_v1::<AsyncStdRuntime>(gen)
}
/// <span class="module-item stab portability" style="display: inline; border-radius: 3px; padding: 2px; font-size: 80%; line-height: 1.2;"><code>unstable-streams</code></span> Convert an async generator into a stream
///
/// **This API is marked as unstable** and is only available when the
/// `unstable-streams` crate feature is enabled. This comes with no
/// stability guarantees, and could be changed or removed at any time.
///
/// # Arguments
/// * `locals` - The current task locals
/// * `gen` - The Python async generator to be converted
///
/// # Examples
/// ```
/// use pyo3::prelude::*;
/// use futures::{StreamExt, TryStreamExt};
///
/// const TEST_MOD: &str = r#"
/// import asyncio
///
/// async def gen():
/// for i in range(10):
/// await asyncio.sleep(0.1)
/// yield i
/// "#;
///
/// # #[cfg(all(feature = "unstable-streams", feature = "attributes"))]
/// # #[pyo3_asyncio::async_std::main]
/// # async fn main() -> PyResult<()> {
/// let stream = Python::with_gil(|py| {
/// let test_mod = PyModule::from_code(
/// py,
/// TEST_MOD,
/// "test_rust_coroutine/test_mod.py",
/// "test_mod",
/// )?;
///
/// pyo3_asyncio::async_std::into_stream_with_locals_v1(
/// pyo3_asyncio::async_std::get_current_locals(py)?,
/// test_mod.call_method0("gen")?
/// )
/// })?;
///
/// let vals = stream
/// .map(|item| Python::with_gil(|py| -> PyResult<i32> { Ok(item?.as_ref(py).extract()?) }))
/// .try_collect::<Vec<i32>>()
/// .await?;
///
/// assert_eq!((0..10).collect::<Vec<i32>>(), vals);
///
/// Ok(())
/// # }
/// # #[cfg(not(all(feature = "unstable-streams", feature = "attributes")))]
/// # fn main() {}
/// ```
#[cfg(feature = "unstable-streams")]
pub fn into_stream_with_locals_v1<'p>(
locals: TaskLocals,
gen: &'p PyAny,
) -> PyResult<impl futures::Stream<Item = PyResult<PyObject>> + 'static> {
generic::into_stream_with_locals_v1::<AsyncStdRuntime>(locals, gen)
}
/// <span class="module-item stab portability" style="display: inline; border-radius: 3px; padding: 2px; font-size: 80%; line-height: 1.2;"><code>unstable-streams</code></span> Convert an async generator into a stream
///
/// **This API is marked as unstable** and is only available when the
/// `unstable-streams` crate feature is enabled. This comes with no
/// stability guarantees, and could be changed or removed at any time.
///
/// # Arguments
/// * `locals` - The current task locals
/// * `gen` - The Python async generator to be converted
///
/// # Examples
/// ```
/// use pyo3::prelude::*;
/// use futures::{StreamExt, TryStreamExt};
///
/// const TEST_MOD: &str = r#"
/// import asyncio
///
/// async def gen():
/// for i in range(10):
/// await asyncio.sleep(0.1)
/// yield i
/// "#;
///
/// # #[cfg(all(feature = "unstable-streams", feature = "attributes"))]
/// # #[pyo3_asyncio::async_std::main]
/// # async fn main() -> PyResult<()> {
/// let stream = Python::with_gil(|py| {
/// let test_mod = PyModule::from_code(
/// py,
/// TEST_MOD,
/// "test_rust_coroutine/test_mod.py",
/// "test_mod",
/// )?;
///
/// pyo3_asyncio::async_std::into_stream_with_locals_v2(
/// pyo3_asyncio::async_std::get_current_locals(py)?,
/// test_mod.call_method0("gen")?
/// )
/// })?;
///
/// let vals = stream
/// .map(|item| Python::with_gil(|py| -> PyResult<i32> { Ok(item.as_ref(py).extract()?) }))
/// .try_collect::<Vec<i32>>()
/// .await?;
///
/// assert_eq!((0..10).collect::<Vec<i32>>(), vals);
///
/// Ok(())
/// # }
/// # #[cfg(not(all(feature = "unstable-streams", feature = "attributes")))]
/// # fn main() {}
/// ```
#[cfg(feature = "unstable-streams")]
pub fn into_stream_with_locals_v2<'p>(
locals: TaskLocals,
gen: &'p PyAny,
) -> PyResult<impl futures::Stream<Item = PyObject> + 'static> {
generic::into_stream_with_locals_v2::<AsyncStdRuntime>(locals, gen)
}
/// <span class="module-item stab portability" style="display: inline; border-radius: 3px; padding: 2px; font-size: 80%; line-height: 1.2;"><code>unstable-streams</code></span> Convert an async generator into a stream
///
/// **This API is marked as unstable** and is only available when the
/// `unstable-streams` crate feature is enabled. This comes with no
/// stability guarantees, and could be changed or removed at any time.
///
/// # Arguments
/// * `gen` - The Python async generator to be converted
///
/// # Examples
/// ```
/// use pyo3::prelude::*;
/// use futures::{StreamExt, TryStreamExt};
///
/// const TEST_MOD: &str = r#"
/// import asyncio
///
/// async def gen():
/// for i in range(10):
/// await asyncio.sleep(0.1)
/// yield i
/// "#;
///
/// # #[cfg(all(feature = "unstable-streams", feature = "attributes"))]
/// # #[pyo3_asyncio::async_std::main]
/// # async fn main() -> PyResult<()> {
/// let stream = Python::with_gil(|py| {
/// let test_mod = PyModule::from_code(
/// py,
/// TEST_MOD,
/// "test_rust_coroutine/test_mod.py",
/// "test_mod",
/// )?;
///
/// pyo3_asyncio::async_std::into_stream_v2(test_mod.call_method0("gen")?)
/// })?;
///
/// let vals = stream
/// .map(|item| Python::with_gil(|py| -> PyResult<i32> { Ok(item.as_ref(py).extract()?) }))
/// .try_collect::<Vec<i32>>()
/// .await?;
///
/// assert_eq!((0..10).collect::<Vec<i32>>(), vals);
///
/// Ok(())
/// # }
/// # #[cfg(not(all(feature = "unstable-streams", feature = "attributes")))]
/// # fn main() {}
/// ```
#[cfg(feature = "unstable-streams")]
pub fn into_stream_v2<'p>(
gen: &'p PyAny,
) -> PyResult<impl futures::Stream<Item = PyObject> + 'static> {
generic::into_stream_v2::<AsyncStdRuntime>(gen)
}