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Diffstat (limited to 'library/core/src/sync/exclusive.rs')
-rw-r--r-- | library/core/src/sync/exclusive.rs | 173 |
1 files changed, 173 insertions, 0 deletions
diff --git a/library/core/src/sync/exclusive.rs b/library/core/src/sync/exclusive.rs new file mode 100644 index 000000000..a7519ab5a --- /dev/null +++ b/library/core/src/sync/exclusive.rs @@ -0,0 +1,173 @@ +//! Defines [`Exclusive`]. + +use core::fmt; +use core::future::Future; +use core::pin::Pin; +use core::task::{Context, Poll}; + +/// `Exclusive` provides only _mutable_ access, also referred to as _exclusive_ +/// access to the underlying value. It provides no _immutable_, or _shared_ +/// access to the underlying value. +/// +/// While this may seem not very useful, it allows `Exclusive` to _unconditionally_ +/// implement [`Sync`]. Indeed, the safety requirements of `Sync` state that for `Exclusive` +/// to be `Sync`, it must be sound to _share_ across threads, that is, it must be sound +/// for `&Exclusive` to cross thread boundaries. By design, a `&Exclusive` has no API +/// whatsoever, making it useless, thus harmless, thus memory safe. +/// +/// Certain constructs like [`Future`]s can only be used with _exclusive_ access, +/// and are often `Send` but not `Sync`, so `Exclusive` can be used as hint to the +/// rust compiler that something is `Sync` in practice. +/// +/// ## Examples +/// Using a non-`Sync` future prevents the wrapping struct from being `Sync` +/// ```compile_fail +/// use core::cell::Cell; +/// +/// async fn other() {} +/// fn assert_sync<T: Sync>(t: T) {} +/// struct State<F> { +/// future: F +/// } +/// +/// assert_sync(State { +/// future: async { +/// let cell = Cell::new(1); +/// let cell_ref = &cell; +/// other().await; +/// let value = cell_ref.get(); +/// } +/// }); +/// ``` +/// +/// `Exclusive` ensures the struct is `Sync` without stripping the future of its +/// functionality. +/// ``` +/// #![feature(exclusive_wrapper)] +/// use core::cell::Cell; +/// use core::sync::Exclusive; +/// +/// async fn other() {} +/// fn assert_sync<T: Sync>(t: T) {} +/// struct State<F> { +/// future: Exclusive<F> +/// } +/// +/// assert_sync(State { +/// future: Exclusive::new(async { +/// let cell = Cell::new(1); +/// let cell_ref = &cell; +/// other().await; +/// let value = cell_ref.get(); +/// }) +/// }); +/// ``` +/// +/// ## Parallels with a mutex +/// In some sense, `Exclusive` can be thought of as a _compile-time_ version of +/// a mutex, as the borrow-checker guarantees that only one `&mut` can exist +/// for any value. This is a parallel with the fact that +/// `&` and `&mut` references together can be thought of as a _compile-time_ +/// version of a read-write lock. +/// +/// +/// [`Sync`]: core::marker::Sync +#[unstable(feature = "exclusive_wrapper", issue = "98407")] +#[doc(alias = "SyncWrapper")] +#[doc(alias = "SyncCell")] +#[doc(alias = "Unique")] +// `Exclusive` can't have `PartialOrd`, `Clone`, etc. impls as they would +// use `&` access to the inner value, violating the `Sync` impl's safety +// requirements. +#[derive(Default)] +#[repr(transparent)] +pub struct Exclusive<T: ?Sized> { + inner: T, +} + +// See `Exclusive`'s docs for justification. +#[unstable(feature = "exclusive_wrapper", issue = "98407")] +unsafe impl<T: ?Sized> Sync for Exclusive<T> {} + +#[unstable(feature = "exclusive_wrapper", issue = "98407")] +impl<T: ?Sized> fmt::Debug for Exclusive<T> { + fn fmt(&self, f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> { + f.debug_struct("Exclusive").finish_non_exhaustive() + } +} + +impl<T: Sized> Exclusive<T> { + /// Wrap a value in an `Exclusive` + #[unstable(feature = "exclusive_wrapper", issue = "98407")] + #[must_use] + pub const fn new(t: T) -> Self { + Self { inner: t } + } + + /// Unwrap the value contained in the `Exclusive` + #[unstable(feature = "exclusive_wrapper", issue = "98407")] + #[must_use] + pub const fn into_inner(self) -> T { + self.inner + } +} + +impl<T: ?Sized> Exclusive<T> { + /// Get exclusive access to the underlying value. + #[unstable(feature = "exclusive_wrapper", issue = "98407")] + #[must_use] + pub const fn get_mut(&mut self) -> &mut T { + &mut self.inner + } + + /// Get pinned exclusive access to the underlying value. + /// + /// `Exclusive` is considered to _structurally pin_ the underlying + /// value, which means _unpinned_ `Exclusive`s can produce _unpinned_ + /// access to the underlying value, but _pinned_ `Exclusive`s only + /// produce _pinned_ access to the underlying value. + #[unstable(feature = "exclusive_wrapper", issue = "98407")] + #[must_use] + pub const fn get_pin_mut(self: Pin<&mut Self>) -> Pin<&mut T> { + // SAFETY: `Exclusive` can only produce `&mut T` if itself is unpinned + // `Pin::map_unchecked_mut` is not const, so we do this conversion manually + unsafe { Pin::new_unchecked(&mut self.get_unchecked_mut().inner) } + } + + /// Build a _mutable_ references to an `Exclusive<T>` from + /// a _mutable_ reference to a `T`. This allows you to skip + /// building an `Exclusive` with [`Exclusive::new`]. + #[unstable(feature = "exclusive_wrapper", issue = "98407")] + #[must_use] + pub const fn from_mut(r: &'_ mut T) -> &'_ mut Exclusive<T> { + // SAFETY: repr is ≥ C, so refs have the same layout; and `Exclusive` properties are `&mut`-agnostic + unsafe { &mut *(r as *mut T as *mut Exclusive<T>) } + } + + /// Build a _pinned mutable_ references to an `Exclusive<T>` from + /// a _pinned mutable_ reference to a `T`. This allows you to skip + /// building an `Exclusive` with [`Exclusive::new`]. + #[unstable(feature = "exclusive_wrapper", issue = "98407")] + #[must_use] + pub const fn from_pin_mut(r: Pin<&'_ mut T>) -> Pin<&'_ mut Exclusive<T>> { + // SAFETY: `Exclusive` can only produce `&mut T` if itself is unpinned + // `Pin::map_unchecked_mut` is not const, so we do this conversion manually + unsafe { Pin::new_unchecked(Self::from_mut(r.get_unchecked_mut())) } + } +} + +#[unstable(feature = "exclusive_wrapper", issue = "98407")] +impl<T> From<T> for Exclusive<T> { + fn from(t: T) -> Self { + Self::new(t) + } +} + +#[unstable(feature = "exclusive_wrapper", issue = "98407")] +impl<T: Future + ?Sized> Future for Exclusive<T> { + type Output = T::Output; + + fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { + self.get_pin_mut().poll(cx) + } +} |