blob: 614820f1fd215d11ba65d0edf5c68e1b213d7376 (
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use std::any::type_name;
use std::fmt::{self, Debug};
use parking_lot::Mutex;
thread_local! {
// safety: this is the only place where a ThreadLock is created
pub static KEY: Mutex<Option<ThreadKey>> = Mutex::new(Some(unsafe { ThreadKey::new() }));
}
/// The key for the current thread.
///
/// Only one of these exist per thread. To get the current thread's key, call
/// [`ThreadKey::lock`].
pub struct ThreadKey {
_priv: *const (), // this isn't Send or Sync
}
impl Debug for ThreadKey {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
type_name::<Self>().fmt(f)
}
}
impl ThreadKey {
/// Create a new `ThreadKey`.
///
/// # Safety
///
/// There should only be one `ThreadKey` per thread.
unsafe fn new() -> Self {
Self {
_priv: std::ptr::null(),
}
}
/// Get the current thread's `ThreadKey, if it's not already taken.
///
/// The first time this is called, it will successfully return a
/// `ThreadKey`. However, future calls to this function will return
/// [`None`], unless the key is unlocked first.
pub fn lock() -> Option<Self> {
KEY.with(|thread_lock| thread_lock.lock().take())
}
/// Unlocks the `ThreadKey`.
///
/// After this method is called, a call to [`ThreadKey::lock`] will return
/// this `ThreadKey`.
pub fn unlock(lock: ThreadKey) {
KEY.with(|thread_lock| {
let mut thread_lock = thread_lock.lock();
*thread_lock = Some(lock);
})
}
}
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