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lazy.rs
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lazy.rs
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use crate::cell::Cell;
use crate::ptr;
use crate::sync::Arc;
use crate::sys_common;
use crate::sys_common::mutex::Mutex;
pub struct Lazy<T> {
// We never call `lock.init()`, so it is UB to attempt to acquire this mutex reentrantly!
lock: Mutex,
ptr: Cell<*mut Arc<T>>,
}
#[inline]
const fn done<T>() -> *mut Arc<T> {
1_usize as *mut _
}
unsafe impl<T> Sync for Lazy<T> {}
impl<T> Lazy<T> {
pub const fn new() -> Lazy<T> {
Lazy { lock: Mutex::new(), ptr: Cell::new(ptr::null_mut()) }
}
}
impl<T: Send + Sync + 'static> Lazy<T> {
/// Safety: `init` must not call `get` on the variable that is being
/// initialized.
pub unsafe fn get(&'static self, init: fn() -> Arc<T>) -> Option<Arc<T>> {
let _guard = self.lock.lock();
let ptr = self.ptr.get();
if ptr.is_null() {
Some(self.init(init))
} else if ptr == done() {
None
} else {
Some((*ptr).clone())
}
}
// Must only be called with `lock` held
unsafe fn init(&'static self, init: fn() -> Arc<T>) -> Arc<T> {
// If we successfully register an at exit handler, then we cache the
// `Arc` allocation in our own internal box (it will get deallocated by
// the at exit handler). Otherwise we just return the freshly allocated
// `Arc`.
let registered = sys_common::at_exit(move || {
let ptr = {
let _guard = self.lock.lock();
self.ptr.replace(done())
};
drop(Box::from_raw(ptr))
});
// This could reentrantly call `init` again, which is a problem
// because our `lock` allows reentrancy!
// That's why `get` is unsafe and requires the caller to ensure no reentrancy happens.
let ret = init();
if registered.is_ok() {
self.ptr.set(Box::into_raw(Box::new(ret.clone())));
}
ret
}
}