Make AvailableTask public, deduplicate
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@ -8,6 +8,8 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
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## Unreleased
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## Unreleased
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- Replaced Pender. Implementations now must define an extern function called `__pender`.
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- Replaced Pender. Implementations now must define an extern function called `__pender`.
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- Made `raw::AvailableTask` public
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- Made `SpawnToken::new_failed` public
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## 0.2.1 - 2023-08-10
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## 0.2.1 - 2023-08-10
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@ -147,10 +147,7 @@ impl<F: Future + 'static> TaskStorage<F> {
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pub fn spawn(&'static self, future: impl FnOnce() -> F) -> SpawnToken<impl Sized> {
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pub fn spawn(&'static self, future: impl FnOnce() -> F) -> SpawnToken<impl Sized> {
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let task = AvailableTask::claim(self);
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let task = AvailableTask::claim(self);
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match task {
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match task {
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Some(task) => {
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Some(task) => task.initialize(future),
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let task = task.initialize(future);
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unsafe { SpawnToken::<F>::new(task) }
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}
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None => SpawnToken::new_failed(),
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None => SpawnToken::new_failed(),
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}
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}
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}
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}
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@ -186,12 +183,16 @@ impl<F: Future + 'static> TaskStorage<F> {
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}
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}
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}
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}
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struct AvailableTask<F: Future + 'static> {
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/// An uninitialized [`TaskStorage`].
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pub struct AvailableTask<F: Future + 'static> {
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task: &'static TaskStorage<F>,
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task: &'static TaskStorage<F>,
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}
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}
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impl<F: Future + 'static> AvailableTask<F> {
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impl<F: Future + 'static> AvailableTask<F> {
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fn claim(task: &'static TaskStorage<F>) -> Option<Self> {
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/// Try to claim a [`TaskStorage`].
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///
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/// This function returns `None` if a task has already been spawned and has not finished running.
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pub fn claim(task: &'static TaskStorage<F>) -> Option<Self> {
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task.raw
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task.raw
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.state
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.state
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.compare_exchange(0, STATE_SPAWNED | STATE_RUN_QUEUED, Ordering::AcqRel, Ordering::Acquire)
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.compare_exchange(0, STATE_SPAWNED | STATE_RUN_QUEUED, Ordering::AcqRel, Ordering::Acquire)
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@ -199,61 +200,30 @@ impl<F: Future + 'static> AvailableTask<F> {
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.map(|_| Self { task })
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.map(|_| Self { task })
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}
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}
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fn initialize(self, future: impl FnOnce() -> F) -> TaskRef {
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fn initialize_impl<S>(self, future: impl FnOnce() -> F) -> SpawnToken<S> {
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unsafe {
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unsafe {
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self.task.raw.poll_fn.set(Some(TaskStorage::<F>::poll));
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self.task.raw.poll_fn.set(Some(TaskStorage::<F>::poll));
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self.task.future.write(future());
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self.task.future.write(future());
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}
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TaskRef::new(self.task)
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}
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}
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/// Raw storage that can hold up to N tasks of the same type.
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let task = TaskRef::new(self.task);
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///
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/// This is essentially a `[TaskStorage<F>; N]`.
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pub struct TaskPool<F: Future + 'static, const N: usize> {
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pool: [TaskStorage<F>; N],
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}
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impl<F: Future + 'static, const N: usize> TaskPool<F, N> {
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SpawnToken::new(task)
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/// Create a new TaskPool, with all tasks in non-spawned state.
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pub const fn new() -> Self {
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Self {
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pool: [TaskStorage::NEW; N],
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}
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}
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}
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}
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/// Try to spawn a task in the pool.
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/// Initialize the [`TaskStorage`] to run the given future.
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///
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pub fn initialize(self, future: impl FnOnce() -> F) -> SpawnToken<F> {
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/// See [`TaskStorage::spawn()`] for details.
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self.initialize_impl::<F>(future)
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///
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/// This will loop over the pool and spawn the task in the first storage that
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/// is currently free. If none is free, a "poisoned" SpawnToken is returned,
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/// which will cause [`Spawner::spawn()`](super::Spawner::spawn) to return the error.
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pub fn spawn(&'static self, future: impl FnOnce() -> F) -> SpawnToken<impl Sized> {
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let task = self.pool.iter().find_map(AvailableTask::claim);
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match task {
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Some(task) => {
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let task = task.initialize(future);
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unsafe { SpawnToken::<F>::new(task) }
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}
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None => SpawnToken::new_failed(),
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}
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}
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}
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/// Like spawn(), but allows the task to be send-spawned if the args are Send even if
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/// Initialize the [`TaskStorage`] to run the given future.
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/// the future is !Send.
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///
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///
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/// Not covered by semver guarantees. DO NOT call this directly. Intended to be used
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/// # Safety
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/// by the Embassy macros ONLY.
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///
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///
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/// SAFETY: `future` must be a closure of the form `move || my_async_fn(args)`, where `my_async_fn`
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/// `future` must be a closure of the form `move || my_async_fn(args)`, where `my_async_fn`
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/// is an `async fn`, NOT a hand-written `Future`.
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/// is an `async fn`, NOT a hand-written `Future`.
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#[doc(hidden)]
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#[doc(hidden)]
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pub unsafe fn _spawn_async_fn<FutFn>(&'static self, future: FutFn) -> SpawnToken<impl Sized>
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pub unsafe fn __initialize_async_fn<FutFn>(self, future: impl FnOnce() -> F) -> SpawnToken<FutFn> {
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where
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FutFn: FnOnce() -> F,
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{
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// When send-spawning a task, we construct the future in this thread, and effectively
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// When send-spawning a task, we construct the future in this thread, and effectively
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// "send" it to the executor thread by enqueuing it in its queue. Therefore, in theory,
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// "send" it to the executor thread by enqueuing it in its queue. Therefore, in theory,
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// send-spawning should require the future `F` to be `Send`.
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// send-spawning should require the future `F` to be `Send`.
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@ -279,16 +249,59 @@ impl<F: Future + 'static, const N: usize> TaskPool<F, N> {
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//
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//
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// This ONLY holds for `async fn` futures. The other `spawn` methods can be called directly
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// This ONLY holds for `async fn` futures. The other `spawn` methods can be called directly
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// by the user, with arbitrary hand-implemented futures. This is why these return `SpawnToken<F>`.
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// by the user, with arbitrary hand-implemented futures. This is why these return `SpawnToken<F>`.
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self.initialize_impl::<FutFn>(future)
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let task = self.pool.iter().find_map(AvailableTask::claim);
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match task {
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Some(task) => {
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let task = task.initialize(future);
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unsafe { SpawnToken::<FutFn>::new(task) }
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}
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}
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}
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/// Raw storage that can hold up to N tasks of the same type.
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///
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/// This is essentially a `[TaskStorage<F>; N]`.
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pub struct TaskPool<F: Future + 'static, const N: usize> {
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pool: [TaskStorage<F>; N],
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}
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impl<F: Future + 'static, const N: usize> TaskPool<F, N> {
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/// Create a new TaskPool, with all tasks in non-spawned state.
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pub const fn new() -> Self {
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Self {
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pool: [TaskStorage::NEW; N],
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}
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}
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fn spawn_impl<T>(&'static self, future: impl FnOnce() -> F) -> SpawnToken<T> {
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match self.pool.iter().find_map(AvailableTask::claim) {
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Some(task) => task.initialize_impl::<T>(future),
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None => SpawnToken::new_failed(),
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None => SpawnToken::new_failed(),
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}
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}
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}
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}
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/// Try to spawn a task in the pool.
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///
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/// See [`TaskStorage::spawn()`] for details.
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///
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/// This will loop over the pool and spawn the task in the first storage that
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/// is currently free. If none is free, a "poisoned" SpawnToken is returned,
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/// which will cause [`Spawner::spawn()`](super::Spawner::spawn) to return the error.
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pub fn spawn(&'static self, future: impl FnOnce() -> F) -> SpawnToken<impl Sized> {
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self.spawn_impl::<F>(future)
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}
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/// Like spawn(), but allows the task to be send-spawned if the args are Send even if
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/// the future is !Send.
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///
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/// Not covered by semver guarantees. DO NOT call this directly. Intended to be used
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/// by the Embassy macros ONLY.
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///
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/// SAFETY: `future` must be a closure of the form `move || my_async_fn(args)`, where `my_async_fn`
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/// is an `async fn`, NOT a hand-written `Future`.
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#[doc(hidden)]
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pub unsafe fn _spawn_async_fn<FutFn>(&'static self, future: FutFn) -> SpawnToken<impl Sized>
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where
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FutFn: FnOnce() -> F,
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{
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// See the comment in AvailableTask::__initialize_async_fn for explanation.
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self.spawn_impl::<FutFn>(future)
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}
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}
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}
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#[derive(Clone, Copy)]
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#[derive(Clone, Copy)]
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@ -33,7 +33,8 @@ impl<S> SpawnToken<S> {
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}
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}
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}
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}
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pub(crate) fn new_failed() -> Self {
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/// Return a SpawnToken that represents a failed spawn.
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pub fn new_failed() -> Self {
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Self {
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Self {
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raw_task: None,
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raw_task: None,
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phantom: PhantomData,
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phantom: PhantomData,
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