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use core::cell::UnsafeCell;
use core::convert::Infallible;
use core::fmt;
use core::future::Future;
use core::mem::{forget, MaybeUninit};
use core::ptr;
use core::sync::atomic::{AtomicUsize, Ordering};
#[cfg(all(feature = "std", not(target_family = "wasm")))]
use core::task::{Context, Poll, RawWaker, RawWakerVTable, Waker};
use event_listener::{Event, EventListener};
use event_listener_strategy::{NonBlocking, Strategy};
/// The current state of the `OnceCell`.
#[derive(Copy, Clone, PartialEq, Eq)]
#[repr(usize)]
enum State {
/// The `OnceCell` is uninitialized.
Uninitialized = 0,
/// The `OnceCell` is being initialized.
Initializing = 1,
/// The `OnceCell` is initialized.
Initialized = 2,
}
impl From<usize> for State {
fn from(val: usize) -> Self {
match val {
0 => State::Uninitialized,
1 => State::Initializing,
2 => State::Initialized,
_ => unreachable!("Invalid state"),
}
}
}
impl From<State> for usize {
fn from(val: State) -> Self {
val as usize
}
}
/// A memory location that can be written to at most once.
///
/// A `OnceCell` can be used to store a single value, and only once. However,
/// once the value is stored, it can be accessed directly through a reference
/// instead of needing an RAII guard like `Mutex` or `RwLock`.
///
/// # Examples
///
/// This structure is useful for a variety of patterns, most notably for one-time
/// initialization.
///
/// ```rust
/// use async_lock::OnceCell;
///
/// # struct Foobar;
///
/// async fn very_expensive_initialization() -> Foobar {
/// // Imagine this is very expensive to initialize,
/// // for instance, it requires a network request or
/// // a database call.
/// # Foobar
/// }
///
/// struct LazyFoobar {
/// inner: OnceCell<Foobar>,
/// }
///
/// impl LazyFoobar {
/// fn new() -> Self {
/// Self {
/// inner: OnceCell::new(),
/// }
/// }
///
/// async fn load(&self) -> &Foobar {
/// self.inner.get_or_init(|| async {
/// very_expensive_initialization().await
/// }).await
/// }
/// }
/// ```
pub struct OnceCell<T> {
/// Listeners waiting for a chance to initialize the cell.
///
/// These are the users of get_or_init() and similar functions.
active_initializers: Event,
/// Listeners waiting for the cell to be initialized.
///
/// These are the users of wait().
passive_waiters: Event,
/// State associated with the cell.
state: AtomicUsize,
/// The value of the cell.
value: UnsafeCell<MaybeUninit<T>>,
}
unsafe impl<T: Send> Send for OnceCell<T> {}
unsafe impl<T: Send + Sync> Sync for OnceCell<T> {}
impl<T> OnceCell<T> {
/// Create a new, uninitialized `OnceCell`.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
///
/// let cell = OnceCell::new();
/// # cell.set_blocking(1);
/// ```
pub const fn new() -> Self {
Self {
active_initializers: Event::new(),
passive_waiters: Event::new(),
state: AtomicUsize::new(State::Uninitialized as _),
value: UnsafeCell::new(MaybeUninit::uninit()),
}
}
/// Tell whether or not the cell is initialized.
///
/// This may not always be accurate. For instance, it is possible for
/// another thread to initialize the cell between the time when this
/// function is called and the time when the result is actually used.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
///
/// # futures_lite::future::block_on(async {
/// let cell = OnceCell::new();
/// assert!(!cell.is_initialized());
/// cell.set(1).await;
/// assert!(cell.is_initialized());
/// # });
/// ```
pub fn is_initialized(&self) -> bool {
State::from(self.state.load(Ordering::Acquire)) == State::Initialized
}
/// Get a reference to the inner value, or `None` if the value
/// is not yet initialized.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
///
/// # futures_lite::future::block_on(async {
/// let cell = OnceCell::new();
/// assert!(cell.get().is_none());
/// cell.set(1).await;
/// assert_eq!(cell.get(), Some(&1));
/// # });
/// ```
pub fn get(&self) -> Option<&T> {
if self.is_initialized() {
// SAFETY: We know that the value is initialized, so it is safe to
// read it.
Some(unsafe { self.get_unchecked() })
} else {
None
}
}
/// Get a mutable reference to the inner value, or `None` if the value
/// is not yet initialized.
///
/// This function is useful for initializing the value inside the cell
/// when we still have a mutable reference to the cell.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
///
/// # futures_lite::future::block_on(async {
/// let mut cell = OnceCell::new();
/// assert!(cell.get_mut().is_none());
/// cell.set(1).await;
/// assert_eq!(cell.get_mut(), Some(&mut 1));
/// *cell.get_mut().unwrap() = 2;
/// assert_eq!(cell.get(), Some(&2));
/// # });
/// ```
pub fn get_mut(&mut self) -> Option<&mut T> {
if State::from(*self.state.get_mut()) == State::Initialized {
// SAFETY: We know that the value is initialized, so it is safe to
// read it.
Some(unsafe { &mut *self.value.get().cast() })
} else {
None
}
}
/// Take the value out of this `OnceCell`, moving it back to the uninitialized
/// state.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
///
/// # futures_lite::future::block_on(async {
/// let mut cell = OnceCell::new();
/// cell.set(1).await;
/// assert_eq!(cell.take(), Some(1));
/// assert!(!cell.is_initialized());
/// # });
/// ```
pub fn take(&mut self) -> Option<T> {
if State::from(*self.state.get_mut()) == State::Initialized {
// SAFETY: We know that the value is initialized, so it is safe to
// read it.
let value = unsafe { ptr::read(self.value.get().cast()) };
*self.state.get_mut() = State::Uninitialized.into();
Some(value)
} else {
None
}
}
/// Convert this `OnceCell` into the inner value, if it is initialized.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
///
/// # futures_lite::future::block_on(async {
/// let cell = OnceCell::new();
/// cell.set(1).await;
/// assert_eq!(cell.into_inner(), Some(1));
/// # });
/// ```
pub fn into_inner(mut self) -> Option<T> {
self.take()
}
/// Wait for the cell to be initialized, and then return a reference to the
/// inner value.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
/// use std::sync::Arc;
/// use std::time::Duration;
/// use std::thread::{sleep, spawn};
///
/// let cell = Arc::new(OnceCell::new());
/// let cell2 = cell.clone();
///
/// spawn(move || {
/// sleep(Duration::from_millis(5));
/// cell2.set_blocking(1);
/// });
///
/// # futures_lite::future::block_on(async {
/// assert_eq!(cell.wait().await, &1);
/// # });
/// ```
pub async fn wait(&self) -> &T {
// Fast path: see if the value is already initialized.
if let Some(value) = self.get() {
return value;
}
// Slow path: wait for the value to be initialized.
let listener = EventListener::new();
pin!(listener);
listener.as_mut().listen(&self.passive_waiters);
// Try again.
if let Some(value) = self.get() {
return value;
}
listener.await;
debug_assert!(self.is_initialized());
// SAFETY: We know that the value is initialized, so it is safe to
// read it.
unsafe { self.get_unchecked() }
}
/// Wait for the cell to be initialized, and then return a reference to the
/// inner value.
///
/// # Blocking
///
/// In contrast to the `wait` method, this method blocks the current thread of
/// execution instead of awaiting.
///
/// This method should not be used in an asynchronous context. It is intended
/// to be used such that a `OnceCell` can be used in both asynchronous and synchronous contexts.
/// Calling this method in an asynchronous context may result in deadlocks.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
/// use std::sync::Arc;
/// use std::time::Duration;
/// use std::thread::{sleep, spawn};
///
/// let cell = Arc::new(OnceCell::new());
/// let cell2 = cell.clone();
///
/// spawn(move || {
/// sleep(Duration::from_millis(5));
/// cell2.set_blocking(1);
/// });
///
/// assert_eq!(cell.wait_blocking(), &1);
/// ```
#[cfg(all(feature = "std", not(target_family = "wasm")))]
pub fn wait_blocking(&self) -> &T {
// Fast path: see if the value is already initialized.
if let Some(value) = self.get() {
return value;
}
// Slow path: wait for the value to be initialized.
let listener = EventListener::new();
pin!(listener);
listener.as_mut().listen(&self.passive_waiters);
// Try again.
if let Some(value) = self.get() {
return value;
}
listener.wait();
debug_assert!(self.is_initialized());
// SAFETY: We know that the value is initialized, so it is safe to
// read it.
unsafe { self.get_unchecked() }
}
/// Either get the value or initialize it with the given closure.
///
/// The cell will not be initialized if the closure returns an error.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
/// #
/// # // Prevent explicit value errors.
/// # fn _explicit(_: &Result<&i32, ()>) {}
///
/// # futures_lite::future::block_on(async {
/// let cell = OnceCell::new();
///
/// let result = cell.get_or_try_init(|| async { Err(()) }).await;
/// assert!(result.is_err());
///
/// let result = cell.get_or_try_init(|| async { Ok(1) }).await;
/// # _explicit(&result);
/// assert_eq!(result.unwrap(), &1);
///
/// let result = cell.get_or_try_init(|| async { Err(()) }).await;
///
/// assert_eq!(result.unwrap(), &1);
/// # });
/// ```
pub async fn get_or_try_init<E, Fut: Future<Output = Result<T, E>>>(
&self,
closure: impl FnOnce() -> Fut,
) -> Result<&T, E> {
// Fast path: see if the value is already initialized.
if let Some(value) = self.get() {
return Ok(value);
}
// Slow path: initialize the value.
self.initialize_or_wait(closure, &mut NonBlocking::default())
.await?;
debug_assert!(self.is_initialized());
// SAFETY: We know that the value is initialized, so it is safe to
// read it.
Ok(unsafe { self.get_unchecked() })
}
/// Either get the value or initialize it with the given closure.
///
/// The cell will not be initialized if the closure returns an error.
///
/// # Blocking
///
/// In contrast to the `get_or_try_init` method, this method blocks the current thread of
/// execution instead of awaiting.
///
/// This method should not be used in an asynchronous context. It is intended
/// to be used such that a `OnceCell` can be used in both asynchronous and synchronous contexts.
/// Calling this method in an asynchronous context may result in deadlocks.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
/// #
/// # // Prevent explicit type errors.
/// # fn _explicit(_: &Result<&i32, ()>) {}
///
/// let cell = OnceCell::new();
///
/// let result = cell.get_or_try_init_blocking(|| Err(()));
/// assert!(result.is_err());
///
/// let result = cell.get_or_try_init_blocking(|| Ok(1));
/// # _explicit(&result);
/// assert_eq!(result.unwrap(), &1);
///
/// let result = cell.get_or_try_init_blocking(|| Err(()));
///
/// assert_eq!(result.unwrap(), &1);
/// ```
#[cfg(all(feature = "std", not(target_family = "wasm")))]
pub fn get_or_try_init_blocking<E>(
&self,
closure: impl FnOnce() -> Result<T, E>,
) -> Result<&T, E> {
// Fast path: see if the value is already initialized.
if let Some(value) = self.get() {
return Ok(value);
}
// Slow path: initialize the value.
// The futures provided should never block, so we can use `now_or_never`.
now_or_never(self.initialize_or_wait(
move || core::future::ready(closure()),
&mut event_listener_strategy::Blocking::default(),
))?;
debug_assert!(self.is_initialized());
// SAFETY: We know that the value is initialized, so it is safe to
// read it.
Ok(unsafe { self.get_unchecked() })
}
/// Either get the value or initialize it with the given closure.
///
/// Many tasks may call this function, but the value will only be set once
/// and only one closure will be invoked.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
///
/// # futures_lite::future::block_on(async {
/// let cell = OnceCell::new();
/// assert_eq!(cell.get_or_init(|| async { 1 }).await, &1);
/// assert_eq!(cell.get_or_init(|| async { 2 }).await, &1);
/// # });
/// ```
pub async fn get_or_init<Fut: Future<Output = T>>(&self, closure: impl FnOnce() -> Fut) -> &T {
match self
.get_or_try_init(move || async move {
let result: Result<T, Infallible> = Ok(closure().await);
result
})
.await
{
Ok(value) => value,
Err(infallible) => match infallible {},
}
}
/// Either get the value or initialize it with the given closure.
///
/// Many tasks may call this function, but the value will only be set once
/// and only one closure will be invoked.
///
/// # Blocking
///
/// In contrast to the `get_or_init` method, this method blocks the current thread of
/// execution instead of awaiting.
///
/// This method should not be used in an asynchronous context. It is intended
/// to be used such that a `OnceCell` can be used in both asynchronous and synchronous contexts.
/// Calling this method in an asynchronous context may result in deadlocks.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
///
/// let cell = OnceCell::new();
/// assert_eq!(cell.get_or_init_blocking(|| 1), &1);
/// assert_eq!(cell.get_or_init_blocking(|| 2), &1);
/// ```
#[cfg(all(feature = "std", not(target_family = "wasm")))]
pub fn get_or_init_blocking(&self, closure: impl FnOnce() -> T + Unpin) -> &T {
match self.get_or_try_init_blocking(move || {
let result: Result<T, Infallible> = Ok(closure());
result
}) {
Ok(value) => value,
Err(infallible) => match infallible {},
}
}
/// Try to set the value of the cell.
///
/// If the cell is already initialized, this method returns the original
/// value back.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
///
/// # futures_lite::future::block_on(async {
/// let cell = OnceCell::new();
///
/// assert_eq!(cell.set(1).await, Ok(&1));
/// assert_eq!(cell.get(), Some(&1));
/// assert_eq!(cell.set(2).await, Err(2));
/// # });
/// ```
pub async fn set(&self, value: T) -> Result<&T, T> {
let mut value = Some(value);
self.get_or_init(|| async { value.take().unwrap() }).await;
match value {
Some(value) => Err(value),
None => {
// SAFETY: value was taken, so we are initialized
Ok(unsafe { self.get_unchecked() })
}
}
}
/// Try to set the value of the cell.
///
/// If the cell is already initialized, this method returns the original
/// value back.
///
/// # Blocking
///
/// In contrast to the `set` method, this method blocks the current thread of
/// execution instead of awaiting.
///
/// This method should not be used in an asynchronous context. It is intended
/// to be used such that a `OnceCell` can be used in both asynchronous and synchronous contexts.
/// Calling this method in an asynchronous context may result in deadlocks.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
///
/// let cell = OnceCell::new();
///
/// assert_eq!(cell.set_blocking(1), Ok(&1));
/// assert_eq!(cell.get(), Some(&1));
/// assert_eq!(cell.set_blocking(2), Err(2));
/// ```
#[cfg(all(feature = "std", not(target_family = "wasm")))]
pub fn set_blocking(&self, value: T) -> Result<&T, T> {
let mut value = Some(value);
self.get_or_init_blocking(|| value.take().unwrap());
match value {
Some(value) => Err(value),
None => {
// SAFETY: value was taken, so we are initialized
Ok(unsafe { self.get_unchecked() })
}
}
}
/// Wait for the cell to be initialized, optionally using a closure
/// to initialize the cell if it is not initialized yet.
#[cold]
async fn initialize_or_wait<E, Fut: Future<Output = Result<T, E>>, F: FnOnce() -> Fut>(
&self,
closure: F,
strategy: &mut impl for<'a> Strategy<'a>,
) -> Result<(), E> {
// The event listener we're currently waiting on.
let event_listener = EventListener::new();
pin!(event_listener);
let mut closure = Some(closure);
loop {
// Check the current state of the cell.
let state = self.state.load(Ordering::Acquire);
// Determine what we should do based on our state.
match state.into() {
State::Initialized => {
// The cell is initialized now, so we can return.
return Ok(());
}
State::Initializing => {
// The cell is currently initializing, or the cell is uninitialized
// but we do not have the ability to initialize it.
//
// We need to wait the initialization to complete.
if event_listener.is_listening() {
strategy.wait(event_listener.as_mut()).await;
} else {
event_listener.as_mut().listen(&self.active_initializers);
}
}
State::Uninitialized => {
// Try to move the cell into the initializing state.
if self
.state
.compare_exchange(
State::Uninitialized.into(),
State::Initializing.into(),
Ordering::AcqRel,
Ordering::Acquire,
)
.is_err()
{
// The cell was initialized while we were trying to
// initialize it.
continue;
}
// Now that we have an exclusive lock on the cell's value,
// we can try to initialize it.
let _guard = Guard(self);
let initializer = closure.take().unwrap();
match (initializer)().await {
Ok(value) => {
// Write the value into the cell and update the state.
unsafe {
ptr::write(self.value.get().cast(), value);
}
forget(_guard);
self.state
.store(State::Initialized.into(), Ordering::Release);
// Notify the listeners that the value is initialized.
self.active_initializers.notify_additional(core::usize::MAX);
self.passive_waiters.notify_additional(core::usize::MAX);
return Ok(());
}
Err(err) => {
// Update the state to indicate that the value is
// uninitialized.
drop(_guard);
return Err(err);
}
}
}
}
}
/// Set the cell's state back to `UNINITIALIZED on drop.
///
/// If the closure panics, this ensures that the cell's state is set back to
/// `UNINITIALIZED` and that the next listener is notified.
struct Guard<'a, T>(&'a OnceCell<T>);
impl<'a, T> Drop for Guard<'a, T> {
fn drop(&mut self) {
self.0
.state
.store(State::Uninitialized.into(), Ordering::Release);
// Notify the next initializer that it's their turn.
self.0.active_initializers.notify(1);
}
}
}
/// Get a reference to the inner value.
///
/// # Safety
///
/// The caller must ensure that the cell is initialized.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
///
/// # futures_lite::future::block_on(async {
/// let cell = OnceCell::new();
/// cell.set(1).await;
///
/// // SAFETY: We know that the value is initialized, so it is safe to
/// // read it.
/// assert_eq!(unsafe { cell.get_unchecked() }, &1);
/// # });
/// ```
pub unsafe fn get_unchecked(&self) -> &T {
// SAFETY: The caller asserts that the value is initialized
&*self.value.get().cast()
}
}
impl<T> From<T> for OnceCell<T> {
/// Create a new, initialized `OnceCell` from an existing value.
///
/// # Example
///
/// ```rust
/// use async_lock::OnceCell;
///
/// let cell = OnceCell::from(42);
/// assert_eq!(cell.get(), Some(&42));
/// ```
fn from(value: T) -> Self {
Self {
active_initializers: Event::new(),
passive_waiters: Event::new(),
state: AtomicUsize::new(State::Initialized.into()),
value: UnsafeCell::new(MaybeUninit::new(value)),
}
}
}
impl<T: fmt::Debug> fmt::Debug for OnceCell<T> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
struct Inner<'a, T>(&'a OnceCell<T>);
impl<T: fmt::Debug> fmt::Debug for Inner<'_, T> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self.0.state.load(Ordering::Acquire).into() {
State::Uninitialized => f.write_str("<uninitialized>"),
State::Initializing => f.write_str("<initializing>"),
State::Initialized => {
// SAFETY: "value" is initialized.
let value = unsafe { self.0.get_unchecked() };
fmt::Debug::fmt(value, f)
}
}
}
}
f.debug_tuple("OnceCell").field(&Inner(self)).finish()
}
}
impl<T> Drop for OnceCell<T> {
fn drop(&mut self) {
if State::from(*self.state.get_mut()) == State::Initialized {
// SAFETY: We know that the value is initialized, so it is safe to
// drop it.
unsafe { self.value.get().cast::<T>().drop_in_place() }
}
}
}
impl<T> Default for OnceCell<T> {
// Calls `OnceCell::new`.
#[inline]
fn default() -> Self {
Self::new()
}
}
/// Either return the result of a future now, or panic.
#[cfg(all(feature = "std", not(target_family = "wasm")))]
fn now_or_never<T>(f: impl Future<Output = T>) -> T {
const NOOP_WAKER: RawWakerVTable = RawWakerVTable::new(clone, wake, wake_by_ref, drop);
unsafe fn wake(_: *const ()) {}
unsafe fn wake_by_ref(_: *const ()) {}
unsafe fn clone(_: *const ()) -> RawWaker {
RawWaker::new(ptr::null(), &NOOP_WAKER)
}
unsafe fn drop(_: *const ()) {}
pin!(f);
let waker = unsafe { Waker::from_raw(RawWaker::new(ptr::null(), &NOOP_WAKER)) };
// Poll the future exactly once.
let mut cx = Context::from_waker(&waker);
match f.poll(&mut cx) {
Poll::Ready(value) => value,
Poll::Pending => unreachable!("future not ready"),
}
}