Add Arc::new_cyclic

This commit is contained in:
DPC 2020-08-13 03:07:54 +02:00
parent 18f3be7704
commit 76b99d5f1d
3 changed files with 148 additions and 4 deletions

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@ -132,7 +132,7 @@
#![feature(alloc_layout_extra)]
#![feature(try_trait)]
#![feature(associated_type_bounds)]
#![feature(raw_ref_op)]
// Allow testing this library
#[cfg(test)]

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@ -328,6 +328,79 @@ impl<T> Arc<T> {
Self::from_inner(Box::leak(x).into())
}
/// Constructs a new `Arc<T>` using a weak reference to itself. Attempting
/// to upgrade the weak reference before this function returns will result
/// in a `None` value. However, the weak reference may be cloned freely and
/// stored for use at a later time.
///
/// # Examples
/// ```
/// #![feature(arc_new_cyclic)]
/// #![allow(dead_code)]
///
/// use std::sync::{Arc, Weak};
///
/// struct Foo {
/// me: Weak<Foo>,
/// }
///
/// let foo = Arc::new_cyclic(|me| Foo {
/// me: me.clone(),
/// });
/// ```
#[inline]
#[unstable(feature = "arc_new_cyclic", issue = "none")]
pub fn new_cyclic(data_fn: impl FnOnce(&Weak<T>) -> T) -> Arc<T> {
// Construct the inner in the "uninitialized" state with a single
// weak reference.
let uninit_ptr: NonNull<_> = Box::leak(box ArcInner {
strong: atomic::AtomicUsize::new(0),
weak: atomic::AtomicUsize::new(1),
data: mem::MaybeUninit::<T>::uninit(),
})
.into();
let init_ptr: NonNull<ArcInner<T>> = uninit_ptr.cast();
let weak = Weak { ptr: init_ptr };
// It's important we don't give up ownership of the weak pointer, or
// else the memory might be freed by the time `data_fn` returns. If
// we really wanted to pass ownership, we could create an additional
// weak pointer for ourselves, but this would result in additional
// updates to the weak reference count which might not be necessary
// otherwise.
let data = data_fn(&weak);
// Now we can properly initialize the inner value and turn our weak
// reference into a strong reference.
unsafe {
let inner = init_ptr.as_ptr();
ptr::write(&raw mut (*inner).data, data);
// The above write to the data field must be visible to any threads which
// observe a non-zero strong count. Therefore we need at least "Release" ordering
// in order to synchronize with the `compare_exchange_weak` in `Weak::upgrade`.
//
// "Acquire" ordering is not required. When considering the possible behaviours
// of `data_fn` we only need to look at what it could do with a reference to a
// non-upgradeable `Weak`:
// - It can *clone* the `Weak`, increasing the weak reference count.
// - It can drop those clones, decreasing the weak reference count (but never to zero).
//
// These side effects do not impact us in any way, and no other side effects are
// possible with safe code alone.
let prev_value = (*inner).strong.fetch_add(1, Release);
debug_assert_eq!(prev_value, 0, "No prior strong references should exist");
}
let strong = Arc::from_inner(init_ptr);
// Strong references should collectively own a shared weak reference,
// so don't run the destructor for our old weak reference.
mem::forget(weak);
strong
}
/// Constructs a new `Arc` with uninitialized contents.
///
/// # Examples
@ -1589,7 +1662,8 @@ impl<T: ?Sized> Weak<T> {
#[stable(feature = "arc_weak", since = "1.4.0")]
pub fn upgrade(&self) -> Option<Arc<T>> {
// We use a CAS loop to increment the strong count instead of a
// fetch_add because once the count hits 0 it must never be above 0.
// fetch_add as this function should never take the reference count
// from zero to one.
let inner = self.inner()?;
// Relaxed load because any write of 0 that we can observe
@ -1608,8 +1682,11 @@ impl<T: ?Sized> Weak<T> {
abort();
}
// Relaxed is valid for the same reason it is on Arc's Clone impl
match inner.strong.compare_exchange_weak(n, n + 1, Relaxed, Relaxed) {
// Relaxed is fine for the failure case because we don't have any expectations about the new state.
// Acquire is necessary for the success case to synchronise with `Arc::new_cyclic`, when the inner
// value can be initialized after `Weak` references have already been created. In that case, we
// expect to observe the fully initialized value.
match inner.strong.compare_exchange_weak(n, n + 1, Acquire, Relaxed) {
Ok(_) => return Some(Arc::from_inner(self.ptr)), // null checked above
Err(old) => n = old,
}

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@ -492,3 +492,70 @@ fn test_array_from_slice() {
let a: Result<Arc<[u32; 2]>, _> = r.clone().try_into();
assert!(a.is_err());
}
#[test]
fn test_arc_cyclic_with_zero_refs() {
struct ZeroRefs {
inner: Weak<ZeroRefs>,
}
let zero_refs = Arc::new_cyclic(|inner| {
assert_eq!(inner.strong_count(), 0);
assert!(inner.upgrade().is_none());
ZeroRefs { inner: Weak::new() }
});
assert_eq!(Arc::strong_count(&zero_refs), 1);
assert_eq!(Arc::weak_count(&zero_refs), 0);
assert_eq!(zero_refs.inner.strong_count(), 0);
assert_eq!(zero_refs.inner.weak_count(), 0);
}
#[test]
fn test_arc_new_cyclic_one_ref() {
struct OneRef {
inner: Weak<OneRef>,
}
let one_ref = Arc::new_cyclic(|inner| {
assert_eq!(inner.strong_count(), 0);
assert!(inner.upgrade().is_none());
OneRef { inner: inner.clone() }
});
assert_eq!(Arc::strong_count(&one_ref), 1);
assert_eq!(Arc::weak_count(&one_ref), 1);
let one_ref2 = Weak::upgrade(&one_ref.inner).unwrap();
assert!(Arc::ptr_eq(&one_ref, &one_ref2));
assert_eq!(Arc::strong_count(&one_ref), 2);
assert_eq!(Arc::weak_count(&one_ref), 1);
}
#[test]
fn test_arc_cyclic_two_refs() {
struct TwoRefs {
inner1: Weak<TwoRefs>,
inner2: Weak<TwoRefs>,
}
let two_refs = Arc::new_cyclic(|inner| {
assert_eq!(inner.strong_count(), 0);
assert!(inner.upgrade().is_none());
let inner1 = inner.clone();
let inner2 = inner1.clone();
TwoRefs { inner1, inner2 }
});
assert_eq!(Arc::strong_count(&two_refs), 1);
assert_eq!(Arc::weak_count(&two_refs), 2);
let two_refs1 = Weak::upgrade(&two_refs.inner1).unwrap();
assert!(Arc::ptr_eq(&two_refs, &two_refs1));
let two_refs2 = Weak::upgrade(&two_refs.inner2).unwrap();
assert!(Arc::ptr_eq(&two_refs, &two_refs2));
assert_eq!(Arc::strong_count(&two_refs), 3);
assert_eq!(Arc::weak_count(&two_refs), 2);
}