Auto merge of #109483 - joboet:optimize_lazycell, r=Mark-Simulacrum

Optimize `LazyCell` size

`LazyCell` can only store either the initializing function or the data it produces, so it does not need to reserve the space for both. Similar to #107329, but uses an `enum` instead of a `union`.
This commit is contained in:
bors 2023-04-01 20:11:49 +00:00
commit 0599b6b931

View File

@ -1,6 +1,13 @@
use crate::cell::{Cell, OnceCell};
use crate::fmt;
use crate::ops::Deref;
use crate::{fmt, mem};
use super::UnsafeCell;
enum State<T, F> {
Uninit(F),
Init(T),
Poisoned,
}
/// A value which is initialized on the first access.
///
@ -31,8 +38,7 @@ use crate::ops::Deref;
/// ```
#[unstable(feature = "lazy_cell", issue = "109736")]
pub struct LazyCell<T, F = fn() -> T> {
cell: OnceCell<T>,
init: Cell<Option<F>>,
state: UnsafeCell<State<T, F>>,
}
impl<T, F: FnOnce() -> T> LazyCell<T, F> {
@ -53,8 +59,8 @@ impl<T, F: FnOnce() -> T> LazyCell<T, F> {
/// ```
#[inline]
#[unstable(feature = "lazy_cell", issue = "109736")]
pub const fn new(init: F) -> LazyCell<T, F> {
LazyCell { cell: OnceCell::new(), init: Cell::new(Some(init)) }
pub const fn new(f: F) -> LazyCell<T, F> {
LazyCell { state: UnsafeCell::new(State::Uninit(f)) }
}
/// Forces the evaluation of this lazy value and returns a reference to
@ -77,10 +83,65 @@ impl<T, F: FnOnce() -> T> LazyCell<T, F> {
#[inline]
#[unstable(feature = "lazy_cell", issue = "109736")]
pub fn force(this: &LazyCell<T, F>) -> &T {
this.cell.get_or_init(|| match this.init.take() {
Some(f) => f(),
None => panic!("`Lazy` instance has previously been poisoned"),
})
// SAFETY:
// This invalidates any mutable references to the data. The resulting
// reference lives either until the end of the borrow of `this` (in the
// initialized case) or is invalidated in `really_init` (in the
// uninitialized case; `really_init` will create and return a fresh reference).
let state = unsafe { &*this.state.get() };
match state {
State::Init(data) => data,
// SAFETY: The state is uninitialized.
State::Uninit(_) => unsafe { LazyCell::really_init(this) },
State::Poisoned => panic!("LazyCell has previously been poisoned"),
}
}
/// # Safety
/// May only be called when the state is `Uninit`.
#[cold]
unsafe fn really_init(this: &LazyCell<T, F>) -> &T {
// SAFETY:
// This function is only called when the state is uninitialized,
// so no references to `state` can exist except for the reference
// in `force`, which is invalidated here and not accessed again.
let state = unsafe { &mut *this.state.get() };
// Temporarily mark the state as poisoned. This prevents reentrant
// accesses and correctly poisons the cell if the closure panicked.
let State::Uninit(f) = mem::replace(state, State::Poisoned) else { unreachable!() };
let data = f();
// SAFETY:
// If the closure accessed the cell through something like a reentrant
// mutex, but caught the panic resulting from the state being poisoned,
// the mutable borrow for `state` will be invalidated, so we need to
// go through the `UnsafeCell` pointer here. The state can only be
// poisoned at this point, so using `write` to skip the destructor
// of `State` should help the optimizer.
unsafe { this.state.get().write(State::Init(data)) };
// SAFETY:
// The previous references were invalidated by the `write` call above,
// so do a new shared borrow of the state instead.
let state = unsafe { &*this.state.get() };
let State::Init(data) = state else { unreachable!() };
data
}
}
impl<T, F> LazyCell<T, F> {
#[inline]
fn get(&self) -> Option<&T> {
// SAFETY:
// This is sound for the same reason as in `force`: once the state is
// initialized, it will not be mutably accessed again, so this reference
// will stay valid for the duration of the borrow to `self`.
let state = unsafe { &*self.state.get() };
match state {
State::Init(data) => Some(data),
_ => None,
}
}
}
@ -105,6 +166,11 @@ impl<T: Default> Default for LazyCell<T> {
#[unstable(feature = "lazy_cell", issue = "109736")]
impl<T: fmt::Debug, F> fmt::Debug for LazyCell<T, F> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("Lazy").field("cell", &self.cell).field("init", &"..").finish()
let mut d = f.debug_tuple("LazyCell");
match self.get() {
Some(data) => d.field(data),
None => d.field(&format_args!("<uninit>")),
};
d.finish()
}
}