[−][src]Function crossbeam_epoch::unprotected
pub unsafe fn unprotected() -> &'static Guard
Returns a reference to a dummy guard that allows unprotected access to Atomic
s.
This guard should be used in special occasions only. Note that it doesn't actually keep any
thread pinned - it's just a fake guard that allows loading from Atomic
s unsafely.
Note that calling defer
with a dummy guard will not defer the function - it will just
execute the function immediately.
If necessary, it's possible to create more dummy guards by cloning: unprotected().clone()
.
Safety
Loading and dereferencing data from an Atomic
using this guard is safe only if the
Atomic
is not being concurrently modified by other threads.
Examples
use crossbeam_epoch::{self as epoch, Atomic}; use std::sync::atomic::Ordering::Relaxed; let a = Atomic::new(7); unsafe { // Load `a` without pinning the current thread. a.load(Relaxed, epoch::unprotected()); // It's possible to create more dummy guards by calling `clone()`. let dummy = &epoch::unprotected().clone(); dummy.defer(move || { println!("This gets executed immediately."); }); // Dropping `dummy` doesn't affect the current thread - it's just a noop. }
The most common use of this function is when constructing or destructing a data structure.
For example, we can use a dummy guard in the destructor of a Treiber stack because at that
point no other thread could concurrently modify the Atomic
s we are accessing.
If we were to actually pin the current thread during destruction, that would just unnecessarily
delay garbage collection and incur some performance cost, so in cases like these unprotected
is very helpful.
use crossbeam_epoch::{self as epoch, Atomic}; use std::mem::ManuallyDrop; use std::sync::atomic::Ordering::Relaxed; struct Stack<T> { head: Atomic<Node<T>>, } struct Node<T> { data: ManuallyDrop<T>, next: Atomic<Node<T>>, } impl<T> Drop for Stack<T> { fn drop(&mut self) { unsafe { // Unprotected load. let mut node = self.head.load(Relaxed, epoch::unprotected()); while let Some(n) = node.as_ref() { // Unprotected load. let next = n.next.load(Relaxed, epoch::unprotected()); // Take ownership of the node, then drop its data and deallocate it. let mut o = node.into_owned(); ManuallyDrop::drop(&mut o.data); drop(o); node = next; } } } }