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Diffstat (limited to 'third_party/rust/once_cell')
26 files changed, 4539 insertions, 0 deletions
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\ No newline at end of file diff --git a/third_party/rust/once_cell/CHANGELOG.md b/third_party/rust/once_cell/CHANGELOG.md new file mode 100644 index 0000000000..66d27e610d --- /dev/null +++ b/third_party/rust/once_cell/CHANGELOG.md @@ -0,0 +1,229 @@ +# Changelog + +## Unreleased + +- + +## 1.19.0 + +- Use `portable-atomic` instead of `atomic-polyfill`, [#251](https://github.com/matklad/once_cell/pull/251). + +## 1.18.0 + +- `MSRV` is updated to 1.60.0 to take advantage of `dep:` syntax for cargo features, + removing "implementation details" from publicly visible surface. + +## 1.17.2 + +- Avoid unnecessary synchronization in `Lazy::{force,deref}_mut()`, [#231](https://github.com/matklad/once_cell/pull/231). + +## 1.17.1 + +- Make `OnceRef` implementation compliant with [strict provenance](https://github.com/rust-lang/rust/issues/95228). + +## 1.17.0 + +- Add `race::OnceRef` for storing a `&'a T`. + +## 1.16.0 + +- Add `no_std` implementation based on `critical-section`, + [#195](https://github.com/matklad/once_cell/pull/195). +- Deprecate `atomic-polyfill` feature (use the new `critical-section` instead) + +## 1.15.0 + +- Increase minimal supported Rust version to 1.56.0. +- Implement `UnwindSafe` even if the `std` feature is disabled. + +## 1.14.0 + +- Add extension to `unsync` and `sync` `Lazy` mut API: + - `force_mut` + - `get_mut` + + +## 1.13.1 + +- Make implementation compliant with [strict provenance](https://github.com/rust-lang/rust/issues/95228). +- Upgrade `atomic-polyfill` to `1.0` + +## 1.13.0 + +- Add `Lazy::get`, similar to `OnceCell::get`. + +## 1.12.1 + +- Remove incorrect `debug_assert`. + +## 1.12.0 + +- Add `OnceCell::wait`, a blocking variant of `get`. + +## 1.11.0 + +- Add `OnceCell::with_value` to create initialized `OnceCell` in `const` context. +- Improve `Clone` implementation for `OnceCell`. +- Rewrite `parking_lot` version on top of `parking_lot_core`, for even smaller cells! + +## 1.10.0 + +- upgrade `parking_lot` to `0.12.0` (note that this bumps MSRV with `parking_lot` feature enabled to `1.49.0`). + +## 1.9.0 + +- Added an `atomic-polyfill` optional dependency to compile `race` on platforms without atomics + +## 1.8.0 + +- Add `try_insert` API -- a version of `set` that returns a reference. + +## 1.7.2 + +- Improve code size when using parking_lot feature. + +## 1.7.1 + +- Fix `race::OnceBox<T>` to also impl `Default` even if `T` doesn't impl `Default`. + +## 1.7.0 + +- Hide the `race` module behind (default) `race` feature. + Turns out that adding `race` by default was a breaking change on some platforms without atomics. + In this release, we make the module opt-out. + Technically, this is a breaking change for those who use `race` with `no_default_features`. + Given that the `race` module itself only several days old, the breakage is deemed acceptable. + +## 1.6.0 + +- Add `Lazy::into_value` +- Stabilize `once_cell::race` module for "first one wins" no_std-compatible initialization flavor. +- Migrate from deprecated `compare_and_swap` to `compare_exchange`. + +## 1.5.2 + +- `OnceBox` API uses `Box<T>`. + This a breaking change to unstable API. + +## 1.5.1 + +- MSRV is increased to `1.36.0`. +- document `once_cell::race` module. +- introduce `alloc` feature for `OnceBox`. +- fix `OnceBox::set`. + +## 1.5.0 + +- add new `once_cell::race` module for "first one wins" no_std-compatible initialization flavor. + The API is provisional, subject to change and is gated by the `unstable` cargo feature. + +## 1.4.1 + +- upgrade `parking_lot` to `0.11.0` +- make `sync::OnceCell<T>` pass https://doc.rust-lang.org/nomicon/dropck.html#an-escape-hatch[dropck] with `parking_lot` feature enabled. + This fixes a (minor) semver-incompatible changed introduced in `1.4.0` + +## 1.4.0 + +- upgrade `parking_lot` to `0.10` (note that this bumps MSRV with `parking_lot` feature enabled to `1.36.0`). +- add `OnceCell::take`. +- upgrade crossbeam utils (private dependency) to `0.7`. + +## 1.3.1 + +- remove unnecessary `F: fmt::Debug` bound from `impl fmt::Debug for Lazy<T, F>`. + +## 1.3.0 + +- `Lazy<T>` now implements `DerefMut`. +- update implementation according to the latest changes in `std`. + +## 1.2.0 + +- add `sync::OnceCell::get_unchecked`. + +## 1.1.0 + +- implement `Default` for `Lazy`: it creates an empty `Lazy<T>` which is initialized with `T::default` on first access. +- add `OnceCell::get_mut`. + +## 1.0.2 + +- actually add `#![no_std]` attribute if std feature is not enabled. + +## 1.0.1 + +- fix unsoundness in `Lazy<T>` if the initializing function panics. Thanks [@xfix](https://github.com/xfix)! +- implement `RefUnwindSafe` for `Lazy`. +- share more code between `std` and `parking_lot` implementations. +- add F.A.Q section to the docs. + +## 1.0.0 + +- remove `parking_lot` from the list of default features. +- add `std` default feature. Without `std`, only `unsync` module is supported. +- implement `Eq` for `OnceCell`. +- fix wrong `Sync` bound on `sync::Lazy`. +- run the whole test suite with miri. + +## 0.2.7 + +- New implementation of `sync::OnceCell` if `parking_lot` feature is disabled. + It now employs a hand-rolled variant of `std::sync::Once`. +- `sync::OnceCell::get_or_try_init` works without `parking_lot` as well! +- document the effects of `parking_lot` feature: same performance but smaller types. + +## 0.2.6 + +- Updated `Lazy`'s `Deref` impl to requires only `FnOnce` instead of `Fn` + +## 0.2.5 + +- `Lazy` requires only `FnOnce` instead of `Fn` + +## 0.2.4 + +- nicer `fmt::Debug` implementation + +## 0.2.3 + +- update `parking_lot` to `0.9.0` +- fix stacked borrows violation in `unsync::OnceCell::get` +- implement `Clone` for `sync::OnceCell<T> where T: Clone` + +## 0.2.2 + +- add `OnceCell::into_inner` which consumes a cell and returns an option + +## 0.2.1 + +- implement `sync::OnceCell::get_or_try_init` if `parking_lot` feature is enabled +- switch internal `unsafe` implementation of `sync::OnceCell` from `Once` to `Mutex` +- `sync::OnceCell::get_or_init` is twice as fast if cell is already initialized +- implement `std::panic::RefUnwindSafe` and `std::panic::UnwindSafe` for `OnceCell` +- better document behavior around panics + +## 0.2.0 + +- MSRV is now 1.31.1 +- `Lazy::new` and `OnceCell::new` are now const-fns +- `unsync_lazy` and `sync_lazy` macros are removed + +## 0.1.8 + +- update crossbeam-utils to 0.6 +- enable bors-ng + +## 0.1.7 + +- cells implement `PartialEq` and `From` +- MSRV is down to 1.24.1 +- update `parking_lot` to `0.7.1` + +## 0.1.6 + +- `unsync::OnceCell<T>` is `Clone` if `T` is `Clone`. + +## 0.1.5 + +- No changelog until this point :( diff --git a/third_party/rust/once_cell/Cargo.lock b/third_party/rust/once_cell/Cargo.lock new file mode 100644 index 0000000000..69b025cc9b --- /dev/null +++ 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"*.png", + "*.svg", + "/Cargo.lock.msrv", + "rustfmt.toml", +] +description = "Single assignment cells and lazy values." +documentation = "https://docs.rs/once_cell" +readme = "README.md" +keywords = [ + "lazy", + "static", +] +categories = [ + "rust-patterns", + "memory-management", +] +license = "MIT OR Apache-2.0" +repository = "https://github.com/matklad/once_cell" + +[package.metadata.docs.rs] +all-features = true +rustdoc-args = ["--generate-link-to-definition"] + +[[example]] +name = "bench" +required-features = ["std"] + +[[example]] +name = "bench_acquire" +required-features = ["std"] + +[[example]] +name = "lazy_static" +required-features = ["std"] + +[[example]] +name = "reentrant_init_deadlocks" +required-features = ["std"] + +[[example]] +name = "regex" +required-features = ["std"] + +[[example]] +name = "test_synchronization" +required-features = ["std"] + +[dependencies.critical-section] +version = "1" +optional = true + +[dependencies.parking_lot_core] +version = 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IN NO EVENT +SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY +CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR +IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER +DEALINGS IN THE SOFTWARE. diff --git a/third_party/rust/once_cell/README.md b/third_party/rust/once_cell/README.md new file mode 100644 index 0000000000..2ac9b53a7d --- /dev/null +++ b/third_party/rust/once_cell/README.md @@ -0,0 +1,57 @@ +<p align="center"><img src="design/logo.png" alt="once_cell"></p> + + +[![Build Status](https://github.com/matklad/once_cell/actions/workflows/ci.yaml/badge.svg)](https://github.com/matklad/once_cell/actions) +[![Crates.io](https://img.shields.io/crates/v/once_cell.svg)](https://crates.io/crates/once_cell) +[![API reference](https://docs.rs/once_cell/badge.svg)](https://docs.rs/once_cell/) + +# Overview + +`once_cell` provides two new cell-like types, `unsync::OnceCell` and `sync::OnceCell`. `OnceCell` +might store arbitrary non-`Copy` types, can be assigned to at most once and provide direct access +to the stored contents. In a nutshell, API looks *roughly* like this: + +```rust +impl OnceCell<T> { + fn new() -> OnceCell<T> { ... } + fn set(&self, value: T) -> Result<(), T> { ... } + fn get(&self) -> Option<&T> { ... } +} +``` + +Note that, like with `RefCell` and `Mutex`, the `set` method requires only a shared reference. +Because of the single assignment restriction `get` can return an `&T` instead of `Ref<T>` +or `MutexGuard<T>`. + +`once_cell` also has a `Lazy<T>` type, build on top of `OnceCell` which provides the same API as +the `lazy_static!` macro, but without using any macros: + +```rust +use std::{sync::Mutex, collections::HashMap}; +use once_cell::sync::Lazy; + +static GLOBAL_DATA: Lazy<Mutex<HashMap<i32, String>>> = Lazy::new(|| { + let mut m = HashMap::new(); + m.insert(13, "Spica".to_string()); + m.insert(74, "Hoyten".to_string()); + Mutex::new(m) +}); + +fn main() { + println!("{:?}", GLOBAL_DATA.lock().unwrap()); +} +``` + +More patterns and use-cases are in the [docs](https://docs.rs/once_cell/)! + +# Related crates + +* [double-checked-cell](https://github.com/niklasf/double-checked-cell) +* [lazy-init](https://crates.io/crates/lazy-init) +* [lazycell](https://crates.io/crates/lazycell) +* [mitochondria](https://crates.io/crates/mitochondria) +* [lazy_static](https://crates.io/crates/lazy_static) +* [async_once_cell](https://crates.io/crates/async_once_cell) +* [generic_once_cell](https://crates.io/crates/generic_once_cell) (bring your own mutex) + +Parts of `once_cell` API are included into `std` [as of Rust 1.70.0](https://github.com/rust-lang/rust/pull/105587). diff --git a/third_party/rust/once_cell/bors.toml b/third_party/rust/once_cell/bors.toml new file mode 100644 index 0000000000..b92b99ac30 --- /dev/null +++ b/third_party/rust/once_cell/bors.toml @@ -0,0 +1,2 @@ +status = [ "Rust" ] +delete_merged_branches = true diff --git a/third_party/rust/once_cell/examples/bench.rs b/third_party/rust/once_cell/examples/bench.rs new file mode 100644 index 0000000000..e6801258a1 --- /dev/null +++ b/third_party/rust/once_cell/examples/bench.rs @@ -0,0 +1,28 @@ +use std::mem::size_of; + +use once_cell::sync::OnceCell; + +const N_THREADS: usize = 32; +const N_ROUNDS: usize = 100_000_000; + +static CELL: OnceCell<usize> = OnceCell::new(); + +fn main() { + let start = std::time::Instant::now(); + let threads = + (0..N_THREADS).map(|i| std::thread::spawn(move || thread_main(i))).collect::<Vec<_>>(); + for thread in threads { + thread.join().unwrap(); + } + println!("{:?}", start.elapsed()); + println!("size_of::<OnceCell<()>>() = {:?}", size_of::<OnceCell<()>>()); + println!("size_of::<OnceCell<bool>>() = {:?}", size_of::<OnceCell<bool>>()); + println!("size_of::<OnceCell<u32>>() = {:?}", size_of::<OnceCell<u32>>()); +} + +fn thread_main(i: usize) { + for _ in 0..N_ROUNDS { + let &value = CELL.get_or_init(|| i); + assert!(value < N_THREADS) + } +} diff --git a/third_party/rust/once_cell/examples/bench_acquire.rs b/third_party/rust/once_cell/examples/bench_acquire.rs new file mode 100644 index 0000000000..1518047460 --- /dev/null +++ b/third_party/rust/once_cell/examples/bench_acquire.rs @@ -0,0 +1,39 @@ +//! Benchmark the overhead that the synchronization of `OnceCell::get` causes. +//! We do some other operations that write to memory to get an imprecise but somewhat realistic +//! measurement. + +use once_cell::sync::OnceCell; +use std::sync::atomic::{AtomicUsize, Ordering}; + +const N_THREADS: usize = 16; +const N_ROUNDS: usize = 1_000_000; + +static CELL: OnceCell<usize> = OnceCell::new(); +static OTHER: AtomicUsize = AtomicUsize::new(0); + +fn main() { + let start = std::time::Instant::now(); + let threads = + (0..N_THREADS).map(|i| std::thread::spawn(move || thread_main(i))).collect::<Vec<_>>(); + for thread in threads { + thread.join().unwrap(); + } + println!("{:?}", start.elapsed()); + println!("{:?}", OTHER.load(Ordering::Relaxed)); +} + +#[inline(never)] +fn thread_main(i: usize) { + // The operations we do here don't really matter, as long as we do multiple writes, and + // everything is messy enough to prevent the compiler from optimizing the loop away. + let mut data = [i; 128]; + let mut accum = 0usize; + for _ in 0..N_ROUNDS { + let _value = CELL.get_or_init(|| i + 1); + let k = OTHER.fetch_add(data[accum & 0x7F] as usize, Ordering::Relaxed); + for j in data.iter_mut() { + *j = (*j).wrapping_add(accum); + accum = accum.wrapping_add(k); + } + } +} diff --git a/third_party/rust/once_cell/examples/lazy_static.rs b/third_party/rust/once_cell/examples/lazy_static.rs new file mode 100644 index 0000000000..3cdb19f2a5 --- /dev/null +++ b/third_party/rust/once_cell/examples/lazy_static.rs @@ -0,0 +1,36 @@ +extern crate once_cell; + +use once_cell::sync::{Lazy, OnceCell}; +use std::collections::HashMap; + +static HASHMAP: Lazy<HashMap<u32, &'static str>> = Lazy::new(|| { + let mut m = HashMap::new(); + m.insert(0, "foo"); + m.insert(1, "bar"); + m.insert(2, "baz"); + m +}); + +// Same, but completely without macros +fn hashmap() -> &'static HashMap<u32, &'static str> { + static INSTANCE: OnceCell<HashMap<u32, &'static str>> = OnceCell::new(); + INSTANCE.get_or_init(|| { + let mut m = HashMap::new(); + m.insert(0, "foo"); + m.insert(1, "bar"); + m.insert(2, "baz"); + m + }) +} + +fn main() { + // First access to `HASHMAP` initializes it + println!("The entry for `0` is \"{}\".", HASHMAP.get(&0).unwrap()); + + // Any further access to `HASHMAP` just returns the computed value + println!("The entry for `1` is \"{}\".", HASHMAP.get(&1).unwrap()); + + // The same works for function-style: + assert_eq!(hashmap().get(&0), Some(&"foo")); + assert_eq!(hashmap().get(&1), Some(&"bar")); +} diff --git a/third_party/rust/once_cell/examples/reentrant_init_deadlocks.rs b/third_party/rust/once_cell/examples/reentrant_init_deadlocks.rs new file mode 100644 index 0000000000..af4b5b7d0e --- /dev/null +++ b/third_party/rust/once_cell/examples/reentrant_init_deadlocks.rs @@ -0,0 +1,14 @@ +fn main() { + let cell = once_cell::sync::OnceCell::<u32>::new(); + cell.get_or_init(|| { + cell.get_or_init(|| 1); + 2 + }); +} + +/// Dummy test to make it seem hang when compiled as `--test` +/// See https://github.com/matklad/once_cell/issues/79 +#[test] +fn dummy_test() { + std::thread::sleep(std::time::Duration::from_secs(4)); +} diff --git a/third_party/rust/once_cell/examples/regex.rs b/third_party/rust/once_cell/examples/regex.rs new file mode 100644 index 0000000000..4c4c2ea6b8 --- /dev/null +++ b/third_party/rust/once_cell/examples/regex.rs @@ -0,0 +1,49 @@ +use std::{str::FromStr, time::Instant}; + +use regex::Regex; + +macro_rules! regex { + ($re:literal $(,)?) => {{ + static RE: once_cell::sync::OnceCell<regex::Regex> = once_cell::sync::OnceCell::new(); + RE.get_or_init(|| regex::Regex::new($re).unwrap()) + }}; +} + +fn slow() { + let s = r##"13.28.24.13 - - [10/Mar/2016:19:29:25 +0100] "GET /etc/lib/pChart2/examples/index.php?Action=View&Script=../../../../cnf/db.php HTTP/1.1" 404 151 "-" "HTTP_Request2/2.2.1 (http://pear.php.net/package/http_request2) PHP/5.3.16""##; + + let mut total = 0; + for _ in 0..1000 { + let re = Regex::new( + r##"^(\S+) (\S+) (\S+) \[([^]]+)\] "([^"]*)" (\d+) (\d+) "([^"]*)" "([^"]*)"$"##, + ) + .unwrap(); + let size = usize::from_str(re.captures(s).unwrap().get(7).unwrap().as_str()).unwrap(); + total += size; + } + println!("{}", total); +} + +fn fast() { + let s = r##"13.28.24.13 - - [10/Mar/2016:19:29:25 +0100] "GET /etc/lib/pChart2/examples/index.php?Action=View&Script=../../../../cnf/db.php HTTP/1.1" 404 151 "-" "HTTP_Request2/2.2.1 (http://pear.php.net/package/http_request2) PHP/5.3.16""##; + + let mut total = 0; + for _ in 0..1000 { + let re: &Regex = regex!( + r##"^(\S+) (\S+) (\S+) \[([^]]+)\] "([^"]*)" (\d+) (\d+) "([^"]*)" "([^"]*)"$"##, + ); + let size = usize::from_str(re.captures(s).unwrap().get(7).unwrap().as_str()).unwrap(); + total += size; + } + println!("{}", total); +} + +fn main() { + let t = Instant::now(); + slow(); + println!("slow: {:?}", t.elapsed()); + + let t = Instant::now(); + fast(); + println!("fast: {:?}", t.elapsed()); +} diff --git a/third_party/rust/once_cell/examples/test_synchronization.rs b/third_party/rust/once_cell/examples/test_synchronization.rs new file mode 100644 index 0000000000..0d54f9827e --- /dev/null +++ b/third_party/rust/once_cell/examples/test_synchronization.rs @@ -0,0 +1,38 @@ +//! Test if the OnceCell properly synchronizes. +//! Needs to be run in release mode. +//! +//! We create a `Vec` with `N_ROUNDS` of `OnceCell`s. All threads will walk the `Vec`, and race to +//! be the first one to initialize a cell. +//! Every thread adds the results of the cells it sees to an accumulator, which is compared at the +//! end. +//! All threads should end up with the same result. + +use once_cell::sync::OnceCell; + +const N_THREADS: usize = 32; +const N_ROUNDS: usize = 1_000_000; + +static CELLS: OnceCell<Vec<OnceCell<usize>>> = OnceCell::new(); +static RESULT: OnceCell<usize> = OnceCell::new(); + +fn main() { + let start = std::time::Instant::now(); + CELLS.get_or_init(|| vec![OnceCell::new(); N_ROUNDS]); + let threads = + (0..N_THREADS).map(|i| std::thread::spawn(move || thread_main(i))).collect::<Vec<_>>(); + for thread in threads { + thread.join().unwrap(); + } + println!("{:?}", start.elapsed()); + println!("No races detected"); +} + +fn thread_main(i: usize) { + let cells = CELLS.get().unwrap(); + let mut accum = 0; + for cell in cells.iter() { + let &value = cell.get_or_init(|| i); + accum += value; + } + assert_eq!(RESULT.get_or_init(|| accum), &accum); +} diff --git a/third_party/rust/once_cell/src/imp_cs.rs b/third_party/rust/once_cell/src/imp_cs.rs new file mode 100644 index 0000000000..7d05e50443 --- /dev/null +++ b/third_party/rust/once_cell/src/imp_cs.rs @@ -0,0 +1,78 @@ +use core::panic::{RefUnwindSafe, UnwindSafe}; + +use portable_atomic::{AtomicBool, Ordering}; +use critical_section::{CriticalSection, Mutex}; + +use crate::unsync; + +pub(crate) struct OnceCell<T> { + initialized: AtomicBool, + // Use `unsync::OnceCell` internally since `Mutex` does not provide + // interior mutability and to be able to re-use `get_or_try_init`. + value: Mutex<unsync::OnceCell<T>>, +} + +// Why do we need `T: Send`? +// Thread A creates a `OnceCell` and shares it with +// scoped thread B, which fills the cell, which is +// then destroyed by A. That is, destructor observes +// a sent value. +unsafe impl<T: Sync + Send> Sync for OnceCell<T> {} +unsafe impl<T: Send> Send for OnceCell<T> {} + +impl<T: RefUnwindSafe + UnwindSafe> RefUnwindSafe for OnceCell<T> {} +impl<T: UnwindSafe> UnwindSafe for OnceCell<T> {} + +impl<T> OnceCell<T> { + pub(crate) const fn new() -> OnceCell<T> { + OnceCell { initialized: AtomicBool::new(false), value: Mutex::new(unsync::OnceCell::new()) } + } + + pub(crate) const fn with_value(value: T) -> OnceCell<T> { + OnceCell { + initialized: AtomicBool::new(true), + value: Mutex::new(unsync::OnceCell::with_value(value)), + } + } + + #[inline] + pub(crate) fn is_initialized(&self) -> bool { + self.initialized.load(Ordering::Acquire) + } + + #[cold] + pub(crate) fn initialize<F, E>(&self, f: F) -> Result<(), E> + where + F: FnOnce() -> Result<T, E>, + { + critical_section::with(|cs| { + let cell = self.value.borrow(cs); + cell.get_or_try_init(f).map(|_| { + self.initialized.store(true, Ordering::Release); + }) + }) + } + + /// Get the reference to the underlying value, without checking if the cell + /// is initialized. + /// + /// # Safety + /// + /// Caller must ensure that the cell is in initialized state, and that + /// the contents are acquired by (synchronized to) this thread. + pub(crate) unsafe fn get_unchecked(&self) -> &T { + debug_assert!(self.is_initialized()); + // SAFETY: The caller ensures that the value is initialized and access synchronized. + self.value.borrow(CriticalSection::new()).get().unwrap_unchecked() + } + + #[inline] + pub(crate) fn get_mut(&mut self) -> Option<&mut T> { + self.value.get_mut().get_mut() + } + + #[inline] + pub(crate) fn into_inner(self) -> Option<T> { + self.value.into_inner().into_inner() + } +} diff --git a/third_party/rust/once_cell/src/imp_pl.rs b/third_party/rust/once_cell/src/imp_pl.rs new file mode 100644 index 0000000000..37a85547d9 --- /dev/null +++ b/third_party/rust/once_cell/src/imp_pl.rs @@ -0,0 +1,174 @@ +use std::{ + cell::UnsafeCell, + panic::{RefUnwindSafe, UnwindSafe}, + sync::atomic::{AtomicU8, Ordering}, +}; + +pub(crate) struct OnceCell<T> { + state: AtomicU8, + value: UnsafeCell<Option<T>>, +} + +const INCOMPLETE: u8 = 0x0; +const RUNNING: u8 = 0x1; +const COMPLETE: u8 = 0x2; + +// Why do we need `T: Send`? +// Thread A creates a `OnceCell` and shares it with +// scoped thread B, which fills the cell, which is +// then destroyed by A. That is, destructor observes +// a sent value. +unsafe impl<T: Sync + Send> Sync for OnceCell<T> {} +unsafe impl<T: Send> Send for OnceCell<T> {} + +impl<T: RefUnwindSafe + UnwindSafe> RefUnwindSafe for OnceCell<T> {} +impl<T: UnwindSafe> UnwindSafe for OnceCell<T> {} + +impl<T> OnceCell<T> { + pub(crate) const fn new() -> OnceCell<T> { + OnceCell { state: AtomicU8::new(INCOMPLETE), value: UnsafeCell::new(None) } + } + + pub(crate) const fn with_value(value: T) -> OnceCell<T> { + OnceCell { state: AtomicU8::new(COMPLETE), value: UnsafeCell::new(Some(value)) } + } + + /// Safety: synchronizes with store to value via Release/Acquire. + #[inline] + pub(crate) fn is_initialized(&self) -> bool { + self.state.load(Ordering::Acquire) == COMPLETE + } + + /// Safety: synchronizes with store to value via `is_initialized` or mutex + /// lock/unlock, writes value only once because of the mutex. + #[cold] + pub(crate) fn initialize<F, E>(&self, f: F) -> Result<(), E> + where + F: FnOnce() -> Result<T, E>, + { + let mut f = Some(f); + let mut res: Result<(), E> = Ok(()); + let slot: *mut Option<T> = self.value.get(); + initialize_inner(&self.state, &mut || { + // We are calling user-supplied function and need to be careful. + // - if it returns Err, we unlock mutex and return without touching anything + // - if it panics, we unlock mutex and propagate panic without touching anything + // - if it calls `set` or `get_or_try_init` re-entrantly, we get a deadlock on + // mutex, which is important for safety. We *could* detect this and panic, + // but that is more complicated + // - finally, if it returns Ok, we store the value and store the flag with + // `Release`, which synchronizes with `Acquire`s. + let f = unsafe { f.take().unwrap_unchecked() }; + match f() { + Ok(value) => unsafe { + // Safe b/c we have a unique access and no panic may happen + // until the cell is marked as initialized. + debug_assert!((*slot).is_none()); + *slot = Some(value); + true + }, + Err(err) => { + res = Err(err); + false + } + } + }); + res + } + + #[cold] + pub(crate) fn wait(&self) { + let key = &self.state as *const _ as usize; + unsafe { + parking_lot_core::park( + key, + || self.state.load(Ordering::Acquire) != COMPLETE, + || (), + |_, _| (), + parking_lot_core::DEFAULT_PARK_TOKEN, + None, + ); + } + } + + /// Get the reference to the underlying value, without checking if the cell + /// is initialized. + /// + /// # Safety + /// + /// Caller must ensure that the cell is in initialized state, and that + /// the contents are acquired by (synchronized to) this thread. + pub(crate) unsafe fn get_unchecked(&self) -> &T { + debug_assert!(self.is_initialized()); + let slot = &*self.value.get(); + slot.as_ref().unwrap_unchecked() + } + + /// Gets the mutable reference to the underlying value. + /// Returns `None` if the cell is empty. + pub(crate) fn get_mut(&mut self) -> Option<&mut T> { + // Safe b/c we have an exclusive access + let slot: &mut Option<T> = unsafe { &mut *self.value.get() }; + slot.as_mut() + } + + /// Consumes this `OnceCell`, returning the wrapped value. + /// Returns `None` if the cell was empty. + pub(crate) fn into_inner(self) -> Option<T> { + self.value.into_inner() + } +} + +struct Guard<'a> { + state: &'a AtomicU8, + new_state: u8, +} + +impl<'a> Drop for Guard<'a> { + fn drop(&mut self) { + self.state.store(self.new_state, Ordering::Release); + unsafe { + let key = self.state as *const AtomicU8 as usize; + parking_lot_core::unpark_all(key, parking_lot_core::DEFAULT_UNPARK_TOKEN); + } + } +} + +// Note: this is intentionally monomorphic +#[inline(never)] +fn initialize_inner(state: &AtomicU8, init: &mut dyn FnMut() -> bool) { + loop { + let exchange = + state.compare_exchange_weak(INCOMPLETE, RUNNING, Ordering::Acquire, Ordering::Acquire); + match exchange { + Ok(_) => { + let mut guard = Guard { state, new_state: INCOMPLETE }; + if init() { + guard.new_state = COMPLETE; + } + return; + } + Err(COMPLETE) => return, + Err(RUNNING) => unsafe { + let key = state as *const AtomicU8 as usize; + parking_lot_core::park( + key, + || state.load(Ordering::Relaxed) == RUNNING, + || (), + |_, _| (), + parking_lot_core::DEFAULT_PARK_TOKEN, + None, + ); + }, + Err(INCOMPLETE) => (), + Err(_) => debug_assert!(false), + } + } +} + +#[test] +fn test_size() { + use std::mem::size_of; + + assert_eq!(size_of::<OnceCell<bool>>(), 1 * size_of::<bool>() + size_of::<u8>()); +} diff --git a/third_party/rust/once_cell/src/imp_std.rs b/third_party/rust/once_cell/src/imp_std.rs new file mode 100644 index 0000000000..3b9e6d2051 --- /dev/null +++ b/third_party/rust/once_cell/src/imp_std.rs @@ -0,0 +1,415 @@ +// There's a lot of scary concurrent code in this module, but it is copied from +// `std::sync::Once` with two changes: +// * no poisoning +// * init function can fail + +use std::{ + cell::{Cell, UnsafeCell}, + panic::{RefUnwindSafe, UnwindSafe}, + sync::atomic::{AtomicBool, AtomicPtr, Ordering}, + thread::{self, Thread}, +}; + +#[derive(Debug)] +pub(crate) struct OnceCell<T> { + // This `queue` field is the core of the implementation. It encodes two + // pieces of information: + // + // * The current state of the cell (`INCOMPLETE`, `RUNNING`, `COMPLETE`) + // * Linked list of threads waiting for the current cell. + // + // State is encoded in two low bits. Only `INCOMPLETE` and `RUNNING` states + // allow waiters. + queue: AtomicPtr<Waiter>, + value: UnsafeCell<Option<T>>, +} + +// Why do we need `T: Send`? +// Thread A creates a `OnceCell` and shares it with +// scoped thread B, which fills the cell, which is +// then destroyed by A. That is, destructor observes +// a sent value. +unsafe impl<T: Sync + Send> Sync for OnceCell<T> {} +unsafe impl<T: Send> Send for OnceCell<T> {} + +impl<T: RefUnwindSafe + UnwindSafe> RefUnwindSafe for OnceCell<T> {} +impl<T: UnwindSafe> UnwindSafe for OnceCell<T> {} + +impl<T> OnceCell<T> { + pub(crate) const fn new() -> OnceCell<T> { + OnceCell { queue: AtomicPtr::new(INCOMPLETE_PTR), value: UnsafeCell::new(None) } + } + + pub(crate) const fn with_value(value: T) -> OnceCell<T> { + OnceCell { queue: AtomicPtr::new(COMPLETE_PTR), value: UnsafeCell::new(Some(value)) } + } + + /// Safety: synchronizes with store to value via Release/(Acquire|SeqCst). + #[inline] + pub(crate) fn is_initialized(&self) -> bool { + // An `Acquire` load is enough because that makes all the initialization + // operations visible to us, and, this being a fast path, weaker + // ordering helps with performance. This `Acquire` synchronizes with + // `SeqCst` operations on the slow path. + self.queue.load(Ordering::Acquire) == COMPLETE_PTR + } + + /// Safety: synchronizes with store to value via SeqCst read from state, + /// writes value only once because we never get to INCOMPLETE state after a + /// successful write. + #[cold] + pub(crate) fn initialize<F, E>(&self, f: F) -> Result<(), E> + where + F: FnOnce() -> Result<T, E>, + { + let mut f = Some(f); + let mut res: Result<(), E> = Ok(()); + let slot: *mut Option<T> = self.value.get(); + initialize_or_wait( + &self.queue, + Some(&mut || { + let f = unsafe { f.take().unwrap_unchecked() }; + match f() { + Ok(value) => { + unsafe { *slot = Some(value) }; + true + } + Err(err) => { + res = Err(err); + false + } + } + }), + ); + res + } + + #[cold] + pub(crate) fn wait(&self) { + initialize_or_wait(&self.queue, None); + } + + /// Get the reference to the underlying value, without checking if the cell + /// is initialized. + /// + /// # Safety + /// + /// Caller must ensure that the cell is in initialized state, and that + /// the contents are acquired by (synchronized to) this thread. + pub(crate) unsafe fn get_unchecked(&self) -> &T { + debug_assert!(self.is_initialized()); + let slot = &*self.value.get(); + slot.as_ref().unwrap_unchecked() + } + + /// Gets the mutable reference to the underlying value. + /// Returns `None` if the cell is empty. + pub(crate) fn get_mut(&mut self) -> Option<&mut T> { + // Safe b/c we have a unique access. + unsafe { &mut *self.value.get() }.as_mut() + } + + /// Consumes this `OnceCell`, returning the wrapped value. + /// Returns `None` if the cell was empty. + #[inline] + pub(crate) fn into_inner(self) -> Option<T> { + // Because `into_inner` takes `self` by value, the compiler statically + // verifies that it is not currently borrowed. + // So, it is safe to move out `Option<T>`. + self.value.into_inner() + } +} + +// Three states that a OnceCell can be in, encoded into the lower bits of `queue` in +// the OnceCell structure. +const INCOMPLETE: usize = 0x0; +const RUNNING: usize = 0x1; +const COMPLETE: usize = 0x2; +const INCOMPLETE_PTR: *mut Waiter = INCOMPLETE as *mut Waiter; +const COMPLETE_PTR: *mut Waiter = COMPLETE as *mut Waiter; + +// Mask to learn about the state. All other bits are the queue of waiters if +// this is in the RUNNING state. +const STATE_MASK: usize = 0x3; + +/// Representation of a node in the linked list of waiters in the RUNNING state. +/// A waiters is stored on the stack of the waiting threads. +#[repr(align(4))] // Ensure the two lower bits are free to use as state bits. +struct Waiter { + thread: Cell<Option<Thread>>, + signaled: AtomicBool, + next: *mut Waiter, +} + +/// Drains and notifies the queue of waiters on drop. +struct Guard<'a> { + queue: &'a AtomicPtr<Waiter>, + new_queue: *mut Waiter, +} + +impl Drop for Guard<'_> { + fn drop(&mut self) { + let queue = self.queue.swap(self.new_queue, Ordering::AcqRel); + + let state = strict::addr(queue) & STATE_MASK; + assert_eq!(state, RUNNING); + + unsafe { + let mut waiter = strict::map_addr(queue, |q| q & !STATE_MASK); + while !waiter.is_null() { + let next = (*waiter).next; + let thread = (*waiter).thread.take().unwrap(); + (*waiter).signaled.store(true, Ordering::Release); + waiter = next; + thread.unpark(); + } + } + } +} + +// Corresponds to `std::sync::Once::call_inner`. +// +// Originally copied from std, but since modified to remove poisoning and to +// support wait. +// +// Note: this is intentionally monomorphic +#[inline(never)] +fn initialize_or_wait(queue: &AtomicPtr<Waiter>, mut init: Option<&mut dyn FnMut() -> bool>) { + let mut curr_queue = queue.load(Ordering::Acquire); + + loop { + let curr_state = strict::addr(curr_queue) & STATE_MASK; + match (curr_state, &mut init) { + (COMPLETE, _) => return, + (INCOMPLETE, Some(init)) => { + let exchange = queue.compare_exchange( + curr_queue, + strict::map_addr(curr_queue, |q| (q & !STATE_MASK) | RUNNING), + Ordering::Acquire, + Ordering::Acquire, + ); + if let Err(new_queue) = exchange { + curr_queue = new_queue; + continue; + } + let mut guard = Guard { queue, new_queue: INCOMPLETE_PTR }; + if init() { + guard.new_queue = COMPLETE_PTR; + } + return; + } + (INCOMPLETE, None) | (RUNNING, _) => { + wait(queue, curr_queue); + curr_queue = queue.load(Ordering::Acquire); + } + _ => debug_assert!(false), + } + } +} + +fn wait(queue: &AtomicPtr<Waiter>, mut curr_queue: *mut Waiter) { + let curr_state = strict::addr(curr_queue) & STATE_MASK; + loop { + let node = Waiter { + thread: Cell::new(Some(thread::current())), + signaled: AtomicBool::new(false), + next: strict::map_addr(curr_queue, |q| q & !STATE_MASK), + }; + let me = &node as *const Waiter as *mut Waiter; + + let exchange = queue.compare_exchange( + curr_queue, + strict::map_addr(me, |q| q | curr_state), + Ordering::Release, + Ordering::Relaxed, + ); + if let Err(new_queue) = exchange { + if strict::addr(new_queue) & STATE_MASK != curr_state { + return; + } + curr_queue = new_queue; + continue; + } + + while !node.signaled.load(Ordering::Acquire) { + thread::park(); + } + break; + } +} + +// Polyfill of strict provenance from https://crates.io/crates/sptr. +// +// Use free-standing function rather than a trait to keep things simple and +// avoid any potential conflicts with future stabile std API. +mod strict { + #[must_use] + #[inline] + pub(crate) fn addr<T>(ptr: *mut T) -> usize + where + T: Sized, + { + // FIXME(strict_provenance_magic): I am magic and should be a compiler intrinsic. + // SAFETY: Pointer-to-integer transmutes are valid (if you are okay with losing the + // provenance). + unsafe { core::mem::transmute(ptr) } + } + + #[must_use] + #[inline] + pub(crate) fn with_addr<T>(ptr: *mut T, addr: usize) -> *mut T + where + T: Sized, + { + // FIXME(strict_provenance_magic): I am magic and should be a compiler intrinsic. + // + // In the mean-time, this operation is defined to be "as if" it was + // a wrapping_offset, so we can emulate it as such. This should properly + // restore pointer provenance even under today's compiler. + let self_addr = self::addr(ptr) as isize; + let dest_addr = addr as isize; + let offset = dest_addr.wrapping_sub(self_addr); + + // This is the canonical desugarring of this operation, + // but `pointer::cast` was only stabilized in 1.38. + // self.cast::<u8>().wrapping_offset(offset).cast::<T>() + (ptr as *mut u8).wrapping_offset(offset) as *mut T + } + + #[must_use] + #[inline] + pub(crate) fn map_addr<T>(ptr: *mut T, f: impl FnOnce(usize) -> usize) -> *mut T + where + T: Sized, + { + self::with_addr(ptr, f(addr(ptr))) + } +} + +// These test are snatched from std as well. +#[cfg(test)] +mod tests { + use std::panic; + use std::{sync::mpsc::channel, thread}; + + use super::OnceCell; + + impl<T> OnceCell<T> { + fn init(&self, f: impl FnOnce() -> T) { + enum Void {} + let _ = self.initialize(|| Ok::<T, Void>(f())); + } + } + + #[test] + fn smoke_once() { + static O: OnceCell<()> = OnceCell::new(); + let mut a = 0; + O.init(|| a += 1); + assert_eq!(a, 1); + O.init(|| a += 1); + assert_eq!(a, 1); + } + + #[test] + fn stampede_once() { + static O: OnceCell<()> = OnceCell::new(); + static mut RUN: bool = false; + + let (tx, rx) = channel(); + for _ in 0..10 { + let tx = tx.clone(); + thread::spawn(move || { + for _ in 0..4 { + thread::yield_now() + } + unsafe { + O.init(|| { + assert!(!RUN); + RUN = true; + }); + assert!(RUN); + } + tx.send(()).unwrap(); + }); + } + + unsafe { + O.init(|| { + assert!(!RUN); + RUN = true; + }); + assert!(RUN); + } + + for _ in 0..10 { + rx.recv().unwrap(); + } + } + + #[test] + fn poison_bad() { + static O: OnceCell<()> = OnceCell::new(); + + // poison the once + let t = panic::catch_unwind(|| { + O.init(|| panic!()); + }); + assert!(t.is_err()); + + // we can subvert poisoning, however + let mut called = false; + O.init(|| { + called = true; + }); + assert!(called); + + // once any success happens, we stop propagating the poison + O.init(|| {}); + } + + #[test] + fn wait_for_force_to_finish() { + static O: OnceCell<()> = OnceCell::new(); + + // poison the once + let t = panic::catch_unwind(|| { + O.init(|| panic!()); + }); + assert!(t.is_err()); + + // make sure someone's waiting inside the once via a force + let (tx1, rx1) = channel(); + let (tx2, rx2) = channel(); + let t1 = thread::spawn(move || { + O.init(|| { + tx1.send(()).unwrap(); + rx2.recv().unwrap(); + }); + }); + + rx1.recv().unwrap(); + + // put another waiter on the once + let t2 = thread::spawn(|| { + let mut called = false; + O.init(|| { + called = true; + }); + assert!(!called); + }); + + tx2.send(()).unwrap(); + + assert!(t1.join().is_ok()); + assert!(t2.join().is_ok()); + } + + #[test] + #[cfg(target_pointer_width = "64")] + fn test_size() { + use std::mem::size_of; + + assert_eq!(size_of::<OnceCell<u32>>(), 4 * size_of::<u32>()); + } +} diff --git a/third_party/rust/once_cell/src/lib.rs b/third_party/rust/once_cell/src/lib.rs new file mode 100644 index 0000000000..90d3657caa --- /dev/null +++ b/third_party/rust/once_cell/src/lib.rs @@ -0,0 +1,1412 @@ +//! # Overview +//! +//! `once_cell` provides two new cell-like types, [`unsync::OnceCell`] and +//! [`sync::OnceCell`]. A `OnceCell` might store arbitrary non-`Copy` types, can +//! be assigned to at most once and provides direct access to the stored +//! contents. The core API looks *roughly* like this (and there's much more +//! inside, read on!): +//! +//! ```rust,ignore +//! impl<T> OnceCell<T> { +//! const fn new() -> OnceCell<T> { ... } +//! fn set(&self, value: T) -> Result<(), T> { ... } +//! fn get(&self) -> Option<&T> { ... } +//! } +//! ``` +//! +//! Note that, like with [`RefCell`] and [`Mutex`], the `set` method requires +//! only a shared reference. Because of the single assignment restriction `get` +//! can return a `&T` instead of `Ref<T>` or `MutexGuard<T>`. +//! +//! The `sync` flavor is thread-safe (that is, implements the [`Sync`] trait), +//! while the `unsync` one is not. +//! +//! [`unsync::OnceCell`]: unsync/struct.OnceCell.html +//! [`sync::OnceCell`]: sync/struct.OnceCell.html +//! [`RefCell`]: https://doc.rust-lang.org/std/cell/struct.RefCell.html +//! [`Mutex`]: https://doc.rust-lang.org/std/sync/struct.Mutex.html +//! [`Sync`]: https://doc.rust-lang.org/std/marker/trait.Sync.html +//! +//! # Recipes +//! +//! `OnceCell` might be useful for a variety of patterns. +//! +//! ## Safe Initialization of Global Data +//! +//! ```rust +//! use std::{env, io}; +//! +//! use once_cell::sync::OnceCell; +//! +//! #[derive(Debug)] +//! pub struct Logger { +//! // ... +//! } +//! static INSTANCE: OnceCell<Logger> = OnceCell::new(); +//! +//! impl Logger { +//! pub fn global() -> &'static Logger { +//! INSTANCE.get().expect("logger is not initialized") +//! } +//! +//! fn from_cli(args: env::Args) -> Result<Logger, std::io::Error> { +//! // ... +//! # Ok(Logger {}) +//! } +//! } +//! +//! fn main() { +//! let logger = Logger::from_cli(env::args()).unwrap(); +//! INSTANCE.set(logger).unwrap(); +//! // use `Logger::global()` from now on +//! } +//! ``` +//! +//! ## Lazy Initialized Global Data +//! +//! This is essentially the `lazy_static!` macro, but without a macro. +//! +//! ```rust +//! use std::{sync::Mutex, collections::HashMap}; +//! +//! use once_cell::sync::OnceCell; +//! +//! fn global_data() -> &'static Mutex<HashMap<i32, String>> { +//! static INSTANCE: OnceCell<Mutex<HashMap<i32, String>>> = OnceCell::new(); +//! INSTANCE.get_or_init(|| { +//! let mut m = HashMap::new(); +//! m.insert(13, "Spica".to_string()); +//! m.insert(74, "Hoyten".to_string()); +//! Mutex::new(m) +//! }) +//! } +//! ``` +//! +//! There are also the [`sync::Lazy`] and [`unsync::Lazy`] convenience types to +//! streamline this pattern: +//! +//! ```rust +//! use std::{sync::Mutex, collections::HashMap}; +//! use once_cell::sync::Lazy; +//! +//! static GLOBAL_DATA: Lazy<Mutex<HashMap<i32, String>>> = Lazy::new(|| { +//! let mut m = HashMap::new(); +//! m.insert(13, "Spica".to_string()); +//! m.insert(74, "Hoyten".to_string()); +//! Mutex::new(m) +//! }); +//! +//! fn main() { +//! println!("{:?}", GLOBAL_DATA.lock().unwrap()); +//! } +//! ``` +//! +//! Note that the variable that holds `Lazy` is declared as `static`, *not* +//! `const`. This is important: using `const` instead compiles, but works wrong. +//! +//! [`sync::Lazy`]: sync/struct.Lazy.html +//! [`unsync::Lazy`]: unsync/struct.Lazy.html +//! +//! ## General purpose lazy evaluation +//! +//! Unlike `lazy_static!`, `Lazy` works with local variables. +//! +//! ```rust +//! use once_cell::unsync::Lazy; +//! +//! fn main() { +//! let ctx = vec![1, 2, 3]; +//! let thunk = Lazy::new(|| { +//! ctx.iter().sum::<i32>() +//! }); +//! assert_eq!(*thunk, 6); +//! } +//! ``` +//! +//! If you need a lazy field in a struct, you probably should use `OnceCell` +//! directly, because that will allow you to access `self` during +//! initialization. +//! +//! ```rust +//! use std::{fs, path::PathBuf}; +//! +//! use once_cell::unsync::OnceCell; +//! +//! struct Ctx { +//! config_path: PathBuf, +//! config: OnceCell<String>, +//! } +//! +//! impl Ctx { +//! pub fn get_config(&self) -> Result<&str, std::io::Error> { +//! let cfg = self.config.get_or_try_init(|| { +//! fs::read_to_string(&self.config_path) +//! })?; +//! Ok(cfg.as_str()) +//! } +//! } +//! ``` +//! +//! ## Lazily Compiled Regex +//! +//! This is a `regex!` macro which takes a string literal and returns an +//! *expression* that evaluates to a `&'static Regex`: +//! +//! ``` +//! macro_rules! regex { +//! ($re:literal $(,)?) => {{ +//! static RE: once_cell::sync::OnceCell<regex::Regex> = once_cell::sync::OnceCell::new(); +//! RE.get_or_init(|| regex::Regex::new($re).unwrap()) +//! }}; +//! } +//! ``` +//! +//! This macro can be useful to avoid the "compile regex on every loop +//! iteration" problem. +//! +//! ## Runtime `include_bytes!` +//! +//! The `include_bytes` macro is useful to include test resources, but it slows +//! down test compilation a lot. An alternative is to load the resources at +//! runtime: +//! +//! ``` +//! use std::path::Path; +//! +//! use once_cell::sync::OnceCell; +//! +//! pub struct TestResource { +//! path: &'static str, +//! cell: OnceCell<Vec<u8>>, +//! } +//! +//! impl TestResource { +//! pub const fn new(path: &'static str) -> TestResource { +//! TestResource { path, cell: OnceCell::new() } +//! } +//! pub fn bytes(&self) -> &[u8] { +//! self.cell.get_or_init(|| { +//! let dir = std::env::var("CARGO_MANIFEST_DIR").unwrap(); +//! let path = Path::new(dir.as_str()).join(self.path); +//! std::fs::read(&path).unwrap_or_else(|_err| { +//! panic!("failed to load test resource: {}", path.display()) +//! }) +//! }).as_slice() +//! } +//! } +//! +//! static TEST_IMAGE: TestResource = TestResource::new("test_data/lena.png"); +//! +//! #[test] +//! fn test_sobel_filter() { +//! let rgb: &[u8] = TEST_IMAGE.bytes(); +//! // ... +//! # drop(rgb); +//! } +//! ``` +//! +//! ## `lateinit` +//! +//! `LateInit` type for delayed initialization. It is reminiscent of Kotlin's +//! `lateinit` keyword and allows construction of cyclic data structures: +//! +//! +//! ``` +//! use once_cell::sync::OnceCell; +//! +//! pub struct LateInit<T> { cell: OnceCell<T> } +//! +//! impl<T> LateInit<T> { +//! pub fn init(&self, value: T) { +//! assert!(self.cell.set(value).is_ok()) +//! } +//! } +//! +//! impl<T> Default for LateInit<T> { +//! fn default() -> Self { LateInit { cell: OnceCell::default() } } +//! } +//! +//! impl<T> std::ops::Deref for LateInit<T> { +//! type Target = T; +//! fn deref(&self) -> &T { +//! self.cell.get().unwrap() +//! } +//! } +//! +//! #[derive(Default)] +//! struct A<'a> { +//! b: LateInit<&'a B<'a>>, +//! } +//! +//! #[derive(Default)] +//! struct B<'a> { +//! a: LateInit<&'a A<'a>> +//! } +//! +//! +//! fn build_cycle() { +//! let a = A::default(); +//! let b = B::default(); +//! a.b.init(&b); +//! b.a.init(&a); +//! +//! let _a = &a.b.a.b.a; +//! } +//! ``` +//! +//! # Comparison with std +//! +//! |`!Sync` types | Access Mode | Drawbacks | +//! |----------------------|------------------------|-----------------------------------------------| +//! |`Cell<T>` | `T` | requires `T: Copy` for `get` | +//! |`RefCell<T>` | `RefMut<T>` / `Ref<T>` | may panic at runtime | +//! |`unsync::OnceCell<T>` | `&T` | assignable only once | +//! +//! |`Sync` types | Access Mode | Drawbacks | +//! |----------------------|------------------------|-----------------------------------------------| +//! |`AtomicT` | `T` | works only with certain `Copy` types | +//! |`Mutex<T>` | `MutexGuard<T>` | may deadlock at runtime, may block the thread | +//! |`sync::OnceCell<T>` | `&T` | assignable only once, may block the thread | +//! +//! Technically, calling `get_or_init` will also cause a panic or a deadlock if +//! it recursively calls itself. However, because the assignment can happen only +//! once, such cases should be more rare than equivalents with `RefCell` and +//! `Mutex`. +//! +//! # Minimum Supported `rustc` Version +//! +//! If only the `std`, `alloc`, or `race` features are enabled, MSRV will be +//! updated conservatively, supporting at least latest 8 versions of the compiler. +//! When using other features, like `parking_lot`, MSRV might be updated more +//! frequently, up to the latest stable. In both cases, increasing MSRV is *not* +//! considered a semver-breaking change and requires only a minor version bump. +//! +//! # Implementation details +//! +//! The implementation is based on the +//! [`lazy_static`](https://github.com/rust-lang-nursery/lazy-static.rs/) and +//! [`lazy_cell`](https://github.com/indiv0/lazycell/) crates and +//! [`std::sync::Once`]. In some sense, `once_cell` just streamlines and unifies +//! those APIs. +//! +//! To implement a sync flavor of `OnceCell`, this crates uses either a custom +//! re-implementation of `std::sync::Once` or `parking_lot::Mutex`. This is +//! controlled by the `parking_lot` feature (disabled by default). Performance +//! is the same for both cases, but the `parking_lot` based `OnceCell<T>` is +//! smaller by up to 16 bytes. +//! +//! This crate uses `unsafe`. +//! +//! [`std::sync::Once`]: https://doc.rust-lang.org/std/sync/struct.Once.html +//! +//! # F.A.Q. +//! +//! **Should I use the sync or unsync flavor?** +//! +//! Because Rust compiler checks thread safety for you, it's impossible to +//! accidentally use `unsync` where `sync` is required. So, use `unsync` in +//! single-threaded code and `sync` in multi-threaded. It's easy to switch +//! between the two if code becomes multi-threaded later. +//! +//! At the moment, `unsync` has an additional benefit that reentrant +//! initialization causes a panic, which might be easier to debug than a +//! deadlock. +//! +//! **Does this crate support async?** +//! +//! No, but you can use +//! [`async_once_cell`](https://crates.io/crates/async_once_cell) instead. +//! +//! **Does this crate support `no_std`?** +//! +//! Yes, but with caveats. `OnceCell` is a synchronization primitive which +//! _semantically_ relies on blocking. `OnceCell` guarantees that at most one +//! `f` will be called to compute the value. If two threads of execution call +//! `get_or_init` concurrently, one of them has to wait. +//! +//! Waiting fundamentally requires OS support. Execution environment needs to +//! understand who waits on whom to prevent deadlocks due to priority inversion. +//! You _could_ make code to compile by blindly using pure spinlocks, but the +//! runtime behavior would be subtly wrong. +//! +//! Given these constraints, `once_cell` provides the following options: +//! +//! - The `race` module provides similar, but distinct synchronization primitive +//! which is compatible with `no_std`. With `race`, the `f` function can be +//! called multiple times by different threads, but only one thread will win +//! to install the value. +//! - `critical-section` feature (with a `-`, not `_`) uses `critical_section` +//! to implement blocking. +//! +//! **Can I bring my own mutex?** +//! +//! There is [generic_once_cell](https://crates.io/crates/generic_once_cell) to +//! allow just that. +//! +//! **Should I use `std::cell::OnceCell`, `once_cell`, or `lazy_static`?** +//! +//! If you can use `std` version (your MSRV is at least 1.70, and you don't need +//! extra features `once_cell` provides), use `std`. Otherwise, use `once_cell`. +//! Don't use `lazy_static`. +//! +//! # Related crates +//! +//! * Most of this crate's functionality is available in `std` starting with +//! Rust 1.70. See `std::cell::OnceCell` and `std::sync::OnceLock`. +//! * [double-checked-cell](https://github.com/niklasf/double-checked-cell) +//! * [lazy-init](https://crates.io/crates/lazy-init) +//! * [lazycell](https://crates.io/crates/lazycell) +//! * [mitochondria](https://crates.io/crates/mitochondria) +//! * [lazy_static](https://crates.io/crates/lazy_static) +//! * [async_once_cell](https://crates.io/crates/async_once_cell) +//! * [generic_once_cell](https://crates.io/crates/generic_once_cell) (bring +//! your own mutex) + +#![cfg_attr(not(feature = "std"), no_std)] + +#[cfg(feature = "alloc")] +extern crate alloc; + +#[cfg(all(feature = "critical-section", not(feature = "std")))] +#[path = "imp_cs.rs"] +mod imp; + +#[cfg(all(feature = "std", feature = "parking_lot"))] +#[path = "imp_pl.rs"] +mod imp; + +#[cfg(all(feature = "std", not(feature = "parking_lot")))] +#[path = "imp_std.rs"] +mod imp; + +/// Single-threaded version of `OnceCell`. +pub mod unsync { + use core::{ + cell::{Cell, UnsafeCell}, + fmt, mem, + ops::{Deref, DerefMut}, + panic::{RefUnwindSafe, UnwindSafe}, + }; + + /// A cell which can be written to only once. It is not thread safe. + /// + /// Unlike [`std::cell::RefCell`], a `OnceCell` provides simple `&` + /// references to the contents. + /// + /// [`std::cell::RefCell`]: https://doc.rust-lang.org/std/cell/struct.RefCell.html + /// + /// # Example + /// ``` + /// use once_cell::unsync::OnceCell; + /// + /// let cell = OnceCell::new(); + /// assert!(cell.get().is_none()); + /// + /// let value: &String = cell.get_or_init(|| { + /// "Hello, World!".to_string() + /// }); + /// assert_eq!(value, "Hello, World!"); + /// assert!(cell.get().is_some()); + /// ``` + pub struct OnceCell<T> { + // Invariant: written to at most once. + inner: UnsafeCell<Option<T>>, + } + + // Similarly to a `Sync` bound on `sync::OnceCell`, we can use + // `&unsync::OnceCell` to sneak a `T` through `catch_unwind`, + // by initializing the cell in closure and extracting the value in the + // `Drop`. + impl<T: RefUnwindSafe + UnwindSafe> RefUnwindSafe for OnceCell<T> {} + impl<T: UnwindSafe> UnwindSafe for OnceCell<T> {} + + impl<T> Default for OnceCell<T> { + fn default() -> Self { + Self::new() + } + } + + impl<T: fmt::Debug> fmt::Debug for OnceCell<T> { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + match self.get() { + Some(v) => f.debug_tuple("OnceCell").field(v).finish(), + None => f.write_str("OnceCell(Uninit)"), + } + } + } + + impl<T: Clone> Clone for OnceCell<T> { + fn clone(&self) -> OnceCell<T> { + match self.get() { + Some(value) => OnceCell::with_value(value.clone()), + None => OnceCell::new(), + } + } + + fn clone_from(&mut self, source: &Self) { + match (self.get_mut(), source.get()) { + (Some(this), Some(source)) => this.clone_from(source), + _ => *self = source.clone(), + } + } + } + + impl<T: PartialEq> PartialEq for OnceCell<T> { + fn eq(&self, other: &Self) -> bool { + self.get() == other.get() + } + } + + impl<T: Eq> Eq for OnceCell<T> {} + + impl<T> From<T> for OnceCell<T> { + fn from(value: T) -> Self { + OnceCell::with_value(value) + } + } + + impl<T> OnceCell<T> { + /// Creates a new empty cell. + pub const fn new() -> OnceCell<T> { + OnceCell { inner: UnsafeCell::new(None) } + } + + /// Creates a new initialized cell. + pub const fn with_value(value: T) -> OnceCell<T> { + OnceCell { inner: UnsafeCell::new(Some(value)) } + } + + /// Gets a reference to the underlying value. + /// + /// Returns `None` if the cell is empty. + #[inline] + pub fn get(&self) -> Option<&T> { + // Safe due to `inner`'s invariant of being written to at most once. + // Had multiple writes to `inner` been allowed, a reference to the + // value we return now would become dangling by a write of a + // different value later. + unsafe { &*self.inner.get() }.as_ref() + } + + /// Gets a mutable reference to the underlying value. + /// + /// Returns `None` if the cell is empty. + /// + /// This method is allowed to violate the invariant of writing to a `OnceCell` + /// at most once because it requires `&mut` access to `self`. As with all + /// interior mutability, `&mut` access permits arbitrary modification: + /// + /// ``` + /// use once_cell::unsync::OnceCell; + /// + /// let mut cell: OnceCell<u32> = OnceCell::new(); + /// cell.set(92).unwrap(); + /// *cell.get_mut().unwrap() = 93; + /// assert_eq!(cell.get(), Some(&93)); + /// ``` + #[inline] + pub fn get_mut(&mut self) -> Option<&mut T> { + // Safe because we have unique access + unsafe { &mut *self.inner.get() }.as_mut() + } + + /// Sets the contents of this cell to `value`. + /// + /// Returns `Ok(())` if the cell was empty and `Err(value)` if it was + /// full. + /// + /// # Example + /// ``` + /// use once_cell::unsync::OnceCell; + /// + /// let cell = OnceCell::new(); + /// assert!(cell.get().is_none()); + /// + /// assert_eq!(cell.set(92), Ok(())); + /// assert_eq!(cell.set(62), Err(62)); + /// + /// assert!(cell.get().is_some()); + /// ``` + pub fn set(&self, value: T) -> Result<(), T> { + match self.try_insert(value) { + Ok(_) => Ok(()), + Err((_, value)) => Err(value), + } + } + + /// Like [`set`](Self::set), but also returns a reference to the final cell value. + /// + /// # Example + /// ``` + /// use once_cell::unsync::OnceCell; + /// + /// let cell = OnceCell::new(); + /// assert!(cell.get().is_none()); + /// + /// assert_eq!(cell.try_insert(92), Ok(&92)); + /// assert_eq!(cell.try_insert(62), Err((&92, 62))); + /// + /// assert!(cell.get().is_some()); + /// ``` + pub fn try_insert(&self, value: T) -> Result<&T, (&T, T)> { + if let Some(old) = self.get() { + return Err((old, value)); + } + + let slot = unsafe { &mut *self.inner.get() }; + // This is the only place where we set the slot, no races + // due to reentrancy/concurrency are possible, and we've + // checked that slot is currently `None`, so this write + // maintains the `inner`'s invariant. + *slot = Some(value); + Ok(unsafe { slot.as_ref().unwrap_unchecked() }) + } + + /// Gets the contents of the cell, initializing it with `f` + /// if the cell was empty. + /// + /// # Panics + /// + /// If `f` panics, the panic is propagated to the caller, and the cell + /// remains uninitialized. + /// + /// It is an error to reentrantly initialize the cell from `f`. Doing + /// so results in a panic. + /// + /// # Example + /// ``` + /// use once_cell::unsync::OnceCell; + /// + /// let cell = OnceCell::new(); + /// let value = cell.get_or_init(|| 92); + /// assert_eq!(value, &92); + /// let value = cell.get_or_init(|| unreachable!()); + /// assert_eq!(value, &92); + /// ``` + pub fn get_or_init<F>(&self, f: F) -> &T + where + F: FnOnce() -> T, + { + enum Void {} + match self.get_or_try_init(|| Ok::<T, Void>(f())) { + Ok(val) => val, + Err(void) => match void {}, + } + } + + /// Gets the contents of the cell, initializing it with `f` if + /// the cell was empty. If the cell was empty and `f` failed, an + /// error is returned. + /// + /// # Panics + /// + /// If `f` panics, the panic is propagated to the caller, and the cell + /// remains uninitialized. + /// + /// It is an error to reentrantly initialize the cell from `f`. Doing + /// so results in a panic. + /// + /// # Example + /// ``` + /// use once_cell::unsync::OnceCell; + /// + /// let cell = OnceCell::new(); + /// assert_eq!(cell.get_or_try_init(|| Err(())), Err(())); + /// assert!(cell.get().is_none()); + /// let value = cell.get_or_try_init(|| -> Result<i32, ()> { + /// Ok(92) + /// }); + /// assert_eq!(value, Ok(&92)); + /// assert_eq!(cell.get(), Some(&92)) + /// ``` + pub fn get_or_try_init<F, E>(&self, f: F) -> Result<&T, E> + where + F: FnOnce() -> Result<T, E>, + { + if let Some(val) = self.get() { + return Ok(val); + } + let val = f()?; + // Note that *some* forms of reentrant initialization might lead to + // UB (see `reentrant_init` test). I believe that just removing this + // `assert`, while keeping `set/get` would be sound, but it seems + // better to panic, rather than to silently use an old value. + assert!(self.set(val).is_ok(), "reentrant init"); + Ok(unsafe { self.get().unwrap_unchecked() }) + } + + /// Takes the value out of this `OnceCell`, moving it back to an uninitialized state. + /// + /// Has no effect and returns `None` if the `OnceCell` hasn't been initialized. + /// + /// # Examples + /// + /// ``` + /// use once_cell::unsync::OnceCell; + /// + /// let mut cell: OnceCell<String> = OnceCell::new(); + /// assert_eq!(cell.take(), None); + /// + /// let mut cell = OnceCell::new(); + /// cell.set("hello".to_string()).unwrap(); + /// assert_eq!(cell.take(), Some("hello".to_string())); + /// assert_eq!(cell.get(), None); + /// ``` + /// + /// This method is allowed to violate the invariant of writing to a `OnceCell` + /// at most once because it requires `&mut` access to `self`. As with all + /// interior mutability, `&mut` access permits arbitrary modification: + /// + /// ``` + /// use once_cell::unsync::OnceCell; + /// + /// let mut cell: OnceCell<u32> = OnceCell::new(); + /// cell.set(92).unwrap(); + /// cell = OnceCell::new(); + /// ``` + pub fn take(&mut self) -> Option<T> { + mem::take(self).into_inner() + } + + /// Consumes the `OnceCell`, returning the wrapped value. + /// + /// Returns `None` if the cell was empty. + /// + /// # Examples + /// + /// ``` + /// use once_cell::unsync::OnceCell; + /// + /// let cell: OnceCell<String> = OnceCell::new(); + /// assert_eq!(cell.into_inner(), None); + /// + /// let cell = OnceCell::new(); + /// cell.set("hello".to_string()).unwrap(); + /// assert_eq!(cell.into_inner(), Some("hello".to_string())); + /// ``` + pub fn into_inner(self) -> Option<T> { + // Because `into_inner` takes `self` by value, the compiler statically verifies + // that it is not currently borrowed. So it is safe to move out `Option<T>`. + self.inner.into_inner() + } + } + + /// A value which is initialized on the first access. + /// + /// # Example + /// ``` + /// use once_cell::unsync::Lazy; + /// + /// let lazy: Lazy<i32> = Lazy::new(|| { + /// println!("initializing"); + /// 92 + /// }); + /// println!("ready"); + /// println!("{}", *lazy); + /// println!("{}", *lazy); + /// + /// // Prints: + /// // ready + /// // initializing + /// // 92 + /// // 92 + /// ``` + pub struct Lazy<T, F = fn() -> T> { + cell: OnceCell<T>, + init: Cell<Option<F>>, + } + + impl<T, F: RefUnwindSafe> RefUnwindSafe for Lazy<T, F> where OnceCell<T>: RefUnwindSafe {} + + impl<T: fmt::Debug, F> fmt::Debug for Lazy<T, F> { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + f.debug_struct("Lazy").field("cell", &self.cell).field("init", &"..").finish() + } + } + + impl<T, F> Lazy<T, F> { + /// Creates a new lazy value with the given initializing function. + /// + /// # Example + /// ``` + /// # fn main() { + /// use once_cell::unsync::Lazy; + /// + /// let hello = "Hello, World!".to_string(); + /// + /// let lazy = Lazy::new(|| hello.to_uppercase()); + /// + /// assert_eq!(&*lazy, "HELLO, WORLD!"); + /// # } + /// ``` + pub const fn new(init: F) -> Lazy<T, F> { + Lazy { cell: OnceCell::new(), init: Cell::new(Some(init)) } + } + + /// Consumes this `Lazy` returning the stored value. + /// + /// Returns `Ok(value)` if `Lazy` is initialized and `Err(f)` otherwise. + pub fn into_value(this: Lazy<T, F>) -> Result<T, F> { + let cell = this.cell; + let init = this.init; + cell.into_inner().ok_or_else(|| { + init.take().unwrap_or_else(|| panic!("Lazy instance has previously been poisoned")) + }) + } + } + + impl<T, F: FnOnce() -> T> Lazy<T, F> { + /// Forces the evaluation of this lazy value and returns a reference to + /// the result. + /// + /// This is equivalent to the `Deref` impl, but is explicit. + /// + /// # Example + /// ``` + /// use once_cell::unsync::Lazy; + /// + /// let lazy = Lazy::new(|| 92); + /// + /// assert_eq!(Lazy::force(&lazy), &92); + /// assert_eq!(&*lazy, &92); + /// ``` + pub fn force(this: &Lazy<T, F>) -> &T { + this.cell.get_or_init(|| match this.init.take() { + Some(f) => f(), + None => panic!("Lazy instance has previously been poisoned"), + }) + } + + /// Forces the evaluation of this lazy value and returns a mutable reference to + /// the result. + /// + /// This is equivalent to the `DerefMut` impl, but is explicit. + /// + /// # Example + /// ``` + /// use once_cell::unsync::Lazy; + /// + /// let mut lazy = Lazy::new(|| 92); + /// + /// assert_eq!(Lazy::force_mut(&mut lazy), &92); + /// assert_eq!(*lazy, 92); + /// ``` + pub fn force_mut(this: &mut Lazy<T, F>) -> &mut T { + if this.cell.get_mut().is_none() { + let value = match this.init.get_mut().take() { + Some(f) => f(), + None => panic!("Lazy instance has previously been poisoned"), + }; + this.cell = OnceCell::with_value(value); + } + this.cell.get_mut().unwrap_or_else(|| unreachable!()) + } + + /// Gets the reference to the result of this lazy value if + /// it was initialized, otherwise returns `None`. + /// + /// # Example + /// ``` + /// use once_cell::unsync::Lazy; + /// + /// let lazy = Lazy::new(|| 92); + /// + /// assert_eq!(Lazy::get(&lazy), None); + /// assert_eq!(&*lazy, &92); + /// assert_eq!(Lazy::get(&lazy), Some(&92)); + /// ``` + pub fn get(this: &Lazy<T, F>) -> Option<&T> { + this.cell.get() + } + + /// Gets the mutable reference to the result of this lazy value if + /// it was initialized, otherwise returns `None`. + /// + /// # Example + /// ``` + /// use once_cell::unsync::Lazy; + /// + /// let mut lazy = Lazy::new(|| 92); + /// + /// assert_eq!(Lazy::get_mut(&mut lazy), None); + /// assert_eq!(*lazy, 92); + /// assert_eq!(Lazy::get_mut(&mut lazy), Some(&mut 92)); + /// ``` + pub fn get_mut(this: &mut Lazy<T, F>) -> Option<&mut T> { + this.cell.get_mut() + } + } + + impl<T, F: FnOnce() -> T> Deref for Lazy<T, F> { + type Target = T; + fn deref(&self) -> &T { + Lazy::force(self) + } + } + + impl<T, F: FnOnce() -> T> DerefMut for Lazy<T, F> { + fn deref_mut(&mut self) -> &mut T { + Lazy::force_mut(self) + } + } + + impl<T: Default> Default for Lazy<T> { + /// Creates a new lazy value using `Default` as the initializing function. + fn default() -> Lazy<T> { + Lazy::new(T::default) + } + } +} + +/// Thread-safe, blocking version of `OnceCell`. +#[cfg(any(feature = "std", feature = "critical-section"))] +pub mod sync { + use core::{ + cell::Cell, + fmt, mem, + ops::{Deref, DerefMut}, + panic::RefUnwindSafe, + }; + + use super::imp::OnceCell as Imp; + + /// A thread-safe cell which can be written to only once. + /// + /// `OnceCell` provides `&` references to the contents without RAII guards. + /// + /// Reading a non-`None` value out of `OnceCell` establishes a + /// happens-before relationship with a corresponding write. For example, if + /// thread A initializes the cell with `get_or_init(f)`, and thread B + /// subsequently reads the result of this call, B also observes all the side + /// effects of `f`. + /// + /// # Example + /// ``` + /// use once_cell::sync::OnceCell; + /// + /// static CELL: OnceCell<String> = OnceCell::new(); + /// assert!(CELL.get().is_none()); + /// + /// std::thread::spawn(|| { + /// let value: &String = CELL.get_or_init(|| { + /// "Hello, World!".to_string() + /// }); + /// assert_eq!(value, "Hello, World!"); + /// }).join().unwrap(); + /// + /// let value: Option<&String> = CELL.get(); + /// assert!(value.is_some()); + /// assert_eq!(value.unwrap().as_str(), "Hello, World!"); + /// ``` + pub struct OnceCell<T>(Imp<T>); + + impl<T> Default for OnceCell<T> { + fn default() -> OnceCell<T> { + OnceCell::new() + } + } + + impl<T: fmt::Debug> fmt::Debug for OnceCell<T> { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + match self.get() { + Some(v) => f.debug_tuple("OnceCell").field(v).finish(), + None => f.write_str("OnceCell(Uninit)"), + } + } + } + + impl<T: Clone> Clone for OnceCell<T> { + fn clone(&self) -> OnceCell<T> { + match self.get() { + Some(value) => Self::with_value(value.clone()), + None => Self::new(), + } + } + + fn clone_from(&mut self, source: &Self) { + match (self.get_mut(), source.get()) { + (Some(this), Some(source)) => this.clone_from(source), + _ => *self = source.clone(), + } + } + } + + impl<T> From<T> for OnceCell<T> { + fn from(value: T) -> Self { + Self::with_value(value) + } + } + + impl<T: PartialEq> PartialEq for OnceCell<T> { + fn eq(&self, other: &OnceCell<T>) -> bool { + self.get() == other.get() + } + } + + impl<T: Eq> Eq for OnceCell<T> {} + + impl<T> OnceCell<T> { + /// Creates a new empty cell. + pub const fn new() -> OnceCell<T> { + OnceCell(Imp::new()) + } + + /// Creates a new initialized cell. + pub const fn with_value(value: T) -> OnceCell<T> { + OnceCell(Imp::with_value(value)) + } + + /// Gets the reference to the underlying value. + /// + /// Returns `None` if the cell is empty, or being initialized. This + /// method never blocks. + pub fn get(&self) -> Option<&T> { + if self.0.is_initialized() { + // Safe b/c value is initialized. + Some(unsafe { self.get_unchecked() }) + } else { + None + } + } + + /// Gets the reference to the underlying value, blocking the current + /// thread until it is set. + /// + /// ``` + /// use once_cell::sync::OnceCell; + /// + /// let mut cell = std::sync::Arc::new(OnceCell::new()); + /// let t = std::thread::spawn({ + /// let cell = std::sync::Arc::clone(&cell); + /// move || cell.set(92).unwrap() + /// }); + /// + /// // Returns immediately, but might return None. + /// let _value_or_none = cell.get(); + /// + /// // Will return 92, but might block until the other thread does `.set`. + /// let value: &u32 = cell.wait(); + /// assert_eq!(*value, 92); + /// t.join().unwrap(); + /// ``` + #[cfg(feature = "std")] + pub fn wait(&self) -> &T { + if !self.0.is_initialized() { + self.0.wait() + } + debug_assert!(self.0.is_initialized()); + // Safe b/c of the wait call above and the fact that we didn't + // relinquish our borrow. + unsafe { self.get_unchecked() } + } + + /// Gets the mutable reference to the underlying value. + /// + /// Returns `None` if the cell is empty. + /// + /// This method is allowed to violate the invariant of writing to a `OnceCell` + /// at most once because it requires `&mut` access to `self`. As with all + /// interior mutability, `&mut` access permits arbitrary modification: + /// + /// ``` + /// use once_cell::sync::OnceCell; + /// + /// let mut cell: OnceCell<u32> = OnceCell::new(); + /// cell.set(92).unwrap(); + /// cell = OnceCell::new(); + /// ``` + #[inline] + pub fn get_mut(&mut self) -> Option<&mut T> { + self.0.get_mut() + } + + /// Get the reference to the underlying value, without checking if the + /// cell is initialized. + /// + /// # Safety + /// + /// Caller must ensure that the cell is in initialized state, and that + /// the contents are acquired by (synchronized to) this thread. + #[inline] + pub unsafe fn get_unchecked(&self) -> &T { + self.0.get_unchecked() + } + + /// Sets the contents of this cell to `value`. + /// + /// Returns `Ok(())` if the cell was empty and `Err(value)` if it was + /// full. + /// + /// # Example + /// + /// ``` + /// use once_cell::sync::OnceCell; + /// + /// static CELL: OnceCell<i32> = OnceCell::new(); + /// + /// fn main() { + /// assert!(CELL.get().is_none()); + /// + /// std::thread::spawn(|| { + /// assert_eq!(CELL.set(92), Ok(())); + /// }).join().unwrap(); + /// + /// assert_eq!(CELL.set(62), Err(62)); + /// assert_eq!(CELL.get(), Some(&92)); + /// } + /// ``` + pub fn set(&self, value: T) -> Result<(), T> { + match self.try_insert(value) { + Ok(_) => Ok(()), + Err((_, value)) => Err(value), + } + } + + /// Like [`set`](Self::set), but also returns a reference to the final cell value. + /// + /// # Example + /// + /// ``` + /// use once_cell::unsync::OnceCell; + /// + /// let cell = OnceCell::new(); + /// assert!(cell.get().is_none()); + /// + /// assert_eq!(cell.try_insert(92), Ok(&92)); + /// assert_eq!(cell.try_insert(62), Err((&92, 62))); + /// + /// assert!(cell.get().is_some()); + /// ``` + pub fn try_insert(&self, value: T) -> Result<&T, (&T, T)> { + let mut value = Some(value); + let res = self.get_or_init(|| unsafe { value.take().unwrap_unchecked() }); + match value { + None => Ok(res), + Some(value) => Err((res, value)), + } + } + + /// Gets the contents of the cell, initializing it with `f` if the cell + /// was empty. + /// + /// Many threads may call `get_or_init` concurrently with different + /// initializing functions, but it is guaranteed that only one function + /// will be executed. + /// + /// # Panics + /// + /// If `f` panics, the panic is propagated to the caller, and the cell + /// remains uninitialized. + /// + /// It is an error to reentrantly initialize the cell from `f`. The + /// exact outcome is unspecified. Current implementation deadlocks, but + /// this may be changed to a panic in the future. + /// + /// # Example + /// ``` + /// use once_cell::sync::OnceCell; + /// + /// let cell = OnceCell::new(); + /// let value = cell.get_or_init(|| 92); + /// assert_eq!(value, &92); + /// let value = cell.get_or_init(|| unreachable!()); + /// assert_eq!(value, &92); + /// ``` + pub fn get_or_init<F>(&self, f: F) -> &T + where + F: FnOnce() -> T, + { + enum Void {} + match self.get_or_try_init(|| Ok::<T, Void>(f())) { + Ok(val) => val, + Err(void) => match void {}, + } + } + + /// Gets the contents of the cell, initializing it with `f` if + /// the cell was empty. If the cell was empty and `f` failed, an + /// error is returned. + /// + /// # Panics + /// + /// If `f` panics, the panic is propagated to the caller, and + /// the cell remains uninitialized. + /// + /// It is an error to reentrantly initialize the cell from `f`. + /// The exact outcome is unspecified. Current implementation + /// deadlocks, but this may be changed to a panic in the future. + /// + /// # Example + /// ``` + /// use once_cell::sync::OnceCell; + /// + /// let cell = OnceCell::new(); + /// assert_eq!(cell.get_or_try_init(|| Err(())), Err(())); + /// assert!(cell.get().is_none()); + /// let value = cell.get_or_try_init(|| -> Result<i32, ()> { + /// Ok(92) + /// }); + /// assert_eq!(value, Ok(&92)); + /// assert_eq!(cell.get(), Some(&92)) + /// ``` + pub fn get_or_try_init<F, E>(&self, f: F) -> Result<&T, E> + where + F: FnOnce() -> Result<T, E>, + { + // Fast path check + if let Some(value) = self.get() { + return Ok(value); + } + + self.0.initialize(f)?; + + // Safe b/c value is initialized. + debug_assert!(self.0.is_initialized()); + Ok(unsafe { self.get_unchecked() }) + } + + /// Takes the value out of this `OnceCell`, moving it back to an uninitialized state. + /// + /// Has no effect and returns `None` if the `OnceCell` hasn't been initialized. + /// + /// # Examples + /// + /// ``` + /// use once_cell::sync::OnceCell; + /// + /// let mut cell: OnceCell<String> = OnceCell::new(); + /// assert_eq!(cell.take(), None); + /// + /// let mut cell = OnceCell::new(); + /// cell.set("hello".to_string()).unwrap(); + /// assert_eq!(cell.take(), Some("hello".to_string())); + /// assert_eq!(cell.get(), None); + /// ``` + /// + /// This method is allowed to violate the invariant of writing to a `OnceCell` + /// at most once because it requires `&mut` access to `self`. As with all + /// interior mutability, `&mut` access permits arbitrary modification: + /// + /// ``` + /// use once_cell::sync::OnceCell; + /// + /// let mut cell: OnceCell<u32> = OnceCell::new(); + /// cell.set(92).unwrap(); + /// cell = OnceCell::new(); + /// ``` + pub fn take(&mut self) -> Option<T> { + mem::take(self).into_inner() + } + + /// Consumes the `OnceCell`, returning the wrapped value. Returns + /// `None` if the cell was empty. + /// + /// # Examples + /// + /// ``` + /// use once_cell::sync::OnceCell; + /// + /// let cell: OnceCell<String> = OnceCell::new(); + /// assert_eq!(cell.into_inner(), None); + /// + /// let cell = OnceCell::new(); + /// cell.set("hello".to_string()).unwrap(); + /// assert_eq!(cell.into_inner(), Some("hello".to_string())); + /// ``` + #[inline] + pub fn into_inner(self) -> Option<T> { + self.0.into_inner() + } + } + + /// A value which is initialized on the first access. + /// + /// This type is thread-safe and can be used in statics. + /// + /// # Example + /// + /// ``` + /// use std::collections::HashMap; + /// + /// use once_cell::sync::Lazy; + /// + /// static HASHMAP: Lazy<HashMap<i32, String>> = Lazy::new(|| { + /// println!("initializing"); + /// let mut m = HashMap::new(); + /// m.insert(13, "Spica".to_string()); + /// m.insert(74, "Hoyten".to_string()); + /// m + /// }); + /// + /// fn main() { + /// println!("ready"); + /// std::thread::spawn(|| { + /// println!("{:?}", HASHMAP.get(&13)); + /// }).join().unwrap(); + /// println!("{:?}", HASHMAP.get(&74)); + /// + /// // Prints: + /// // ready + /// // initializing + /// // Some("Spica") + /// // Some("Hoyten") + /// } + /// ``` + pub struct Lazy<T, F = fn() -> T> { + cell: OnceCell<T>, + init: Cell<Option<F>>, + } + + impl<T: fmt::Debug, F> fmt::Debug for Lazy<T, F> { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + f.debug_struct("Lazy").field("cell", &self.cell).field("init", &"..").finish() + } + } + + // We never create a `&F` from a `&Lazy<T, F>` so it is fine to not impl + // `Sync` for `F`. We do create a `&mut Option<F>` in `force`, but this is + // properly synchronized, so it only happens once so it also does not + // contribute to this impl. + unsafe impl<T, F: Send> Sync for Lazy<T, F> where OnceCell<T>: Sync {} + // auto-derived `Send` impl is OK. + + impl<T, F: RefUnwindSafe> RefUnwindSafe for Lazy<T, F> where OnceCell<T>: RefUnwindSafe {} + + impl<T, F> Lazy<T, F> { + /// Creates a new lazy value with the given initializing + /// function. + pub const fn new(f: F) -> Lazy<T, F> { + Lazy { cell: OnceCell::new(), init: Cell::new(Some(f)) } + } + + /// Consumes this `Lazy` returning the stored value. + /// + /// Returns `Ok(value)` if `Lazy` is initialized and `Err(f)` otherwise. + pub fn into_value(this: Lazy<T, F>) -> Result<T, F> { + let cell = this.cell; + let init = this.init; + cell.into_inner().ok_or_else(|| { + init.take().unwrap_or_else(|| panic!("Lazy instance has previously been poisoned")) + }) + } + } + + impl<T, F: FnOnce() -> T> Lazy<T, F> { + /// Forces the evaluation of this lazy value and + /// returns a reference to the result. This is equivalent + /// to the `Deref` impl, but is explicit. + /// + /// # Example + /// ``` + /// use once_cell::sync::Lazy; + /// + /// let lazy = Lazy::new(|| 92); + /// + /// assert_eq!(Lazy::force(&lazy), &92); + /// assert_eq!(&*lazy, &92); + /// ``` + pub fn force(this: &Lazy<T, F>) -> &T { + this.cell.get_or_init(|| match this.init.take() { + Some(f) => f(), + None => panic!("Lazy instance has previously been poisoned"), + }) + } + + /// Forces the evaluation of this lazy value and + /// returns a mutable reference to the result. This is equivalent + /// to the `Deref` impl, but is explicit. + /// + /// # Example + /// ``` + /// use once_cell::sync::Lazy; + /// + /// let mut lazy = Lazy::new(|| 92); + /// + /// assert_eq!(Lazy::force_mut(&mut lazy), &mut 92); + /// ``` + pub fn force_mut(this: &mut Lazy<T, F>) -> &mut T { + if this.cell.get_mut().is_none() { + let value = match this.init.get_mut().take() { + Some(f) => f(), + None => panic!("Lazy instance has previously been poisoned"), + }; + this.cell = OnceCell::with_value(value); + } + this.cell.get_mut().unwrap_or_else(|| unreachable!()) + } + + /// Gets the reference to the result of this lazy value if + /// it was initialized, otherwise returns `None`. + /// + /// # Example + /// ``` + /// use once_cell::sync::Lazy; + /// + /// let lazy = Lazy::new(|| 92); + /// + /// assert_eq!(Lazy::get(&lazy), None); + /// assert_eq!(&*lazy, &92); + /// assert_eq!(Lazy::get(&lazy), Some(&92)); + /// ``` + pub fn get(this: &Lazy<T, F>) -> Option<&T> { + this.cell.get() + } + + /// Gets the reference to the result of this lazy value if + /// it was initialized, otherwise returns `None`. + /// + /// # Example + /// ``` + /// use once_cell::sync::Lazy; + /// + /// let mut lazy = Lazy::new(|| 92); + /// + /// assert_eq!(Lazy::get_mut(&mut lazy), None); + /// assert_eq!(&*lazy, &92); + /// assert_eq!(Lazy::get_mut(&mut lazy), Some(&mut 92)); + /// ``` + pub fn get_mut(this: &mut Lazy<T, F>) -> Option<&mut T> { + this.cell.get_mut() + } + } + + impl<T, F: FnOnce() -> T> Deref for Lazy<T, F> { + type Target = T; + fn deref(&self) -> &T { + Lazy::force(self) + } + } + + impl<T, F: FnOnce() -> T> DerefMut for Lazy<T, F> { + fn deref_mut(&mut self) -> &mut T { + Lazy::force_mut(self) + } + } + + impl<T: Default> Default for Lazy<T> { + /// Creates a new lazy value using `Default` as the initializing function. + fn default() -> Lazy<T> { + Lazy::new(T::default) + } + } + + /// ```compile_fail + /// struct S(*mut ()); + /// unsafe impl Sync for S {} + /// + /// fn share<T: Sync>(_: &T) {} + /// share(&once_cell::sync::OnceCell::<S>::new()); + /// ``` + /// + /// ```compile_fail + /// struct S(*mut ()); + /// unsafe impl Sync for S {} + /// + /// fn share<T: Sync>(_: &T) {} + /// share(&once_cell::sync::Lazy::<S>::new(|| unimplemented!())); + /// ``` + fn _dummy() {} +} + +#[cfg(feature = "race")] +pub mod race; diff --git a/third_party/rust/once_cell/src/race.rs b/third_party/rust/once_cell/src/race.rs new file mode 100644 index 0000000000..da8a2fc51f --- /dev/null +++ b/third_party/rust/once_cell/src/race.rs @@ -0,0 +1,419 @@ +//! Thread-safe, non-blocking, "first one wins" flavor of `OnceCell`. +//! +//! If two threads race to initialize a type from the `race` module, they +//! don't block, execute initialization function together, but only one of +//! them stores the result. +//! +//! This module does not require `std` feature. +//! +//! # Atomic orderings +//! +//! All types in this module use `Acquire` and `Release` +//! [atomic orderings](Ordering) for all their operations. While this is not +//! strictly necessary for types other than `OnceBox`, it is useful for users as +//! it allows them to be certain that after `get` or `get_or_init` returns on +//! one thread, any side-effects caused by the setter thread prior to them +//! calling `set` or `get_or_init` will be made visible to that thread; without +//! it, it's possible for it to appear as if they haven't happened yet from the +//! getter thread's perspective. This is an acceptable tradeoff to make since +//! `Acquire` and `Release` have very little performance overhead on most +//! architectures versus `Relaxed`. + +#[cfg(feature = "critical-section")] +use portable_atomic as atomic; +#[cfg(not(feature = "critical-section"))] +use core::sync::atomic; + +use atomic::{AtomicPtr, AtomicUsize, Ordering}; +use core::cell::UnsafeCell; +use core::marker::PhantomData; +use core::num::NonZeroUsize; +use core::ptr; + +/// A thread-safe cell which can be written to only once. +#[derive(Default, Debug)] +pub struct OnceNonZeroUsize { + inner: AtomicUsize, +} + +impl OnceNonZeroUsize { + /// Creates a new empty cell. + #[inline] + pub const fn new() -> OnceNonZeroUsize { + OnceNonZeroUsize { inner: AtomicUsize::new(0) } + } + + /// Gets the underlying value. + #[inline] + pub fn get(&self) -> Option<NonZeroUsize> { + let val = self.inner.load(Ordering::Acquire); + NonZeroUsize::new(val) + } + + /// Sets the contents of this cell to `value`. + /// + /// Returns `Ok(())` if the cell was empty and `Err(())` if it was + /// full. + #[inline] + pub fn set(&self, value: NonZeroUsize) -> Result<(), ()> { + let exchange = + self.inner.compare_exchange(0, value.get(), Ordering::AcqRel, Ordering::Acquire); + match exchange { + Ok(_) => Ok(()), + Err(_) => Err(()), + } + } + + /// Gets the contents of the cell, initializing it with `f` if the cell was + /// empty. + /// + /// If several threads concurrently run `get_or_init`, more than one `f` can + /// be called. However, all threads will return the same value, produced by + /// some `f`. + pub fn get_or_init<F>(&self, f: F) -> NonZeroUsize + where + F: FnOnce() -> NonZeroUsize, + { + enum Void {} + match self.get_or_try_init(|| Ok::<NonZeroUsize, Void>(f())) { + Ok(val) => val, + Err(void) => match void {}, + } + } + + /// Gets the contents of the cell, initializing it with `f` if + /// the cell was empty. If the cell was empty and `f` failed, an + /// error is returned. + /// + /// If several threads concurrently run `get_or_init`, more than one `f` can + /// be called. However, all threads will return the same value, produced by + /// some `f`. + pub fn get_or_try_init<F, E>(&self, f: F) -> Result<NonZeroUsize, E> + where + F: FnOnce() -> Result<NonZeroUsize, E>, + { + let val = self.inner.load(Ordering::Acquire); + let res = match NonZeroUsize::new(val) { + Some(it) => it, + None => { + let mut val = f()?.get(); + let exchange = + self.inner.compare_exchange(0, val, Ordering::AcqRel, Ordering::Acquire); + if let Err(old) = exchange { + val = old; + } + unsafe { NonZeroUsize::new_unchecked(val) } + } + }; + Ok(res) + } +} + +/// A thread-safe cell which can be written to only once. +#[derive(Default, Debug)] +pub struct OnceBool { + inner: OnceNonZeroUsize, +} + +impl OnceBool { + /// Creates a new empty cell. + #[inline] + pub const fn new() -> OnceBool { + OnceBool { inner: OnceNonZeroUsize::new() } + } + + /// Gets the underlying value. + #[inline] + pub fn get(&self) -> Option<bool> { + self.inner.get().map(OnceBool::from_usize) + } + + /// Sets the contents of this cell to `value`. + /// + /// Returns `Ok(())` if the cell was empty and `Err(())` if it was + /// full. + #[inline] + pub fn set(&self, value: bool) -> Result<(), ()> { + self.inner.set(OnceBool::to_usize(value)) + } + + /// Gets the contents of the cell, initializing it with `f` if the cell was + /// empty. + /// + /// If several threads concurrently run `get_or_init`, more than one `f` can + /// be called. However, all threads will return the same value, produced by + /// some `f`. + pub fn get_or_init<F>(&self, f: F) -> bool + where + F: FnOnce() -> bool, + { + OnceBool::from_usize(self.inner.get_or_init(|| OnceBool::to_usize(f()))) + } + + /// Gets the contents of the cell, initializing it with `f` if + /// the cell was empty. If the cell was empty and `f` failed, an + /// error is returned. + /// + /// If several threads concurrently run `get_or_init`, more than one `f` can + /// be called. However, all threads will return the same value, produced by + /// some `f`. + pub fn get_or_try_init<F, E>(&self, f: F) -> Result<bool, E> + where + F: FnOnce() -> Result<bool, E>, + { + self.inner.get_or_try_init(|| f().map(OnceBool::to_usize)).map(OnceBool::from_usize) + } + + #[inline] + fn from_usize(value: NonZeroUsize) -> bool { + value.get() == 1 + } + + #[inline] + fn to_usize(value: bool) -> NonZeroUsize { + unsafe { NonZeroUsize::new_unchecked(if value { 1 } else { 2 }) } + } +} + +/// A thread-safe cell which can be written to only once. +pub struct OnceRef<'a, T> { + inner: AtomicPtr<T>, + ghost: PhantomData<UnsafeCell<&'a T>>, +} + +// TODO: Replace UnsafeCell with SyncUnsafeCell once stabilized +unsafe impl<'a, T: Sync> Sync for OnceRef<'a, T> {} + +impl<'a, T> core::fmt::Debug for OnceRef<'a, T> { + fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { + write!(f, "OnceRef({:?})", self.inner) + } +} + +impl<'a, T> Default for OnceRef<'a, T> { + fn default() -> Self { + Self::new() + } +} + +impl<'a, T> OnceRef<'a, T> { + /// Creates a new empty cell. + pub const fn new() -> OnceRef<'a, T> { + OnceRef { inner: AtomicPtr::new(ptr::null_mut()), ghost: PhantomData } + } + + /// Gets a reference to the underlying value. + pub fn get(&self) -> Option<&'a T> { + let ptr = self.inner.load(Ordering::Acquire); + unsafe { ptr.as_ref() } + } + + /// Sets the contents of this cell to `value`. + /// + /// Returns `Ok(())` if the cell was empty and `Err(value)` if it was + /// full. + pub fn set(&self, value: &'a T) -> Result<(), ()> { + let ptr = value as *const T as *mut T; + let exchange = + self.inner.compare_exchange(ptr::null_mut(), ptr, Ordering::AcqRel, Ordering::Acquire); + match exchange { + Ok(_) => Ok(()), + Err(_) => Err(()), + } + } + + /// Gets the contents of the cell, initializing it with `f` if the cell was + /// empty. + /// + /// If several threads concurrently run `get_or_init`, more than one `f` can + /// be called. However, all threads will return the same value, produced by + /// some `f`. + pub fn get_or_init<F>(&self, f: F) -> &'a T + where + F: FnOnce() -> &'a T, + { + enum Void {} + match self.get_or_try_init(|| Ok::<&'a T, Void>(f())) { + Ok(val) => val, + Err(void) => match void {}, + } + } + + /// Gets the contents of the cell, initializing it with `f` if + /// the cell was empty. If the cell was empty and `f` failed, an + /// error is returned. + /// + /// If several threads concurrently run `get_or_init`, more than one `f` can + /// be called. However, all threads will return the same value, produced by + /// some `f`. + pub fn get_or_try_init<F, E>(&self, f: F) -> Result<&'a T, E> + where + F: FnOnce() -> Result<&'a T, E>, + { + let mut ptr = self.inner.load(Ordering::Acquire); + + if ptr.is_null() { + // TODO replace with `cast_mut` when MSRV reaches 1.65.0 (also in `set`) + ptr = f()? as *const T as *mut T; + let exchange = self.inner.compare_exchange( + ptr::null_mut(), + ptr, + Ordering::AcqRel, + Ordering::Acquire, + ); + if let Err(old) = exchange { + ptr = old; + } + } + + Ok(unsafe { &*ptr }) + } + + /// ```compile_fail + /// use once_cell::race::OnceRef; + /// + /// let mut l = OnceRef::new(); + /// + /// { + /// let y = 2; + /// let mut r = OnceRef::new(); + /// r.set(&y).unwrap(); + /// core::mem::swap(&mut l, &mut r); + /// } + /// + /// // l now contains a dangling reference to y + /// eprintln!("uaf: {}", l.get().unwrap()); + /// ``` + fn _dummy() {} +} + +#[cfg(feature = "alloc")] +pub use self::once_box::OnceBox; + +#[cfg(feature = "alloc")] +mod once_box { + use super::atomic::{AtomicPtr, Ordering}; + use core::{marker::PhantomData, ptr}; + + use alloc::boxed::Box; + + /// A thread-safe cell which can be written to only once. + pub struct OnceBox<T> { + inner: AtomicPtr<T>, + ghost: PhantomData<Option<Box<T>>>, + } + + impl<T> core::fmt::Debug for OnceBox<T> { + fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { + write!(f, "OnceBox({:?})", self.inner.load(Ordering::Relaxed)) + } + } + + impl<T> Default for OnceBox<T> { + fn default() -> Self { + Self::new() + } + } + + impl<T> Drop for OnceBox<T> { + fn drop(&mut self) { + let ptr = *self.inner.get_mut(); + if !ptr.is_null() { + drop(unsafe { Box::from_raw(ptr) }) + } + } + } + + impl<T> OnceBox<T> { + /// Creates a new empty cell. + pub const fn new() -> OnceBox<T> { + OnceBox { inner: AtomicPtr::new(ptr::null_mut()), ghost: PhantomData } + } + + /// Gets a reference to the underlying value. + pub fn get(&self) -> Option<&T> { + let ptr = self.inner.load(Ordering::Acquire); + if ptr.is_null() { + return None; + } + Some(unsafe { &*ptr }) + } + + /// Sets the contents of this cell to `value`. + /// + /// Returns `Ok(())` if the cell was empty and `Err(value)` if it was + /// full. + pub fn set(&self, value: Box<T>) -> Result<(), Box<T>> { + let ptr = Box::into_raw(value); + let exchange = self.inner.compare_exchange( + ptr::null_mut(), + ptr, + Ordering::AcqRel, + Ordering::Acquire, + ); + if exchange.is_err() { + let value = unsafe { Box::from_raw(ptr) }; + return Err(value); + } + Ok(()) + } + + /// Gets the contents of the cell, initializing it with `f` if the cell was + /// empty. + /// + /// If several threads concurrently run `get_or_init`, more than one `f` can + /// be called. However, all threads will return the same value, produced by + /// some `f`. + pub fn get_or_init<F>(&self, f: F) -> &T + where + F: FnOnce() -> Box<T>, + { + enum Void {} + match self.get_or_try_init(|| Ok::<Box<T>, Void>(f())) { + Ok(val) => val, + Err(void) => match void {}, + } + } + + /// Gets the contents of the cell, initializing it with `f` if + /// the cell was empty. If the cell was empty and `f` failed, an + /// error is returned. + /// + /// If several threads concurrently run `get_or_init`, more than one `f` can + /// be called. However, all threads will return the same value, produced by + /// some `f`. + pub fn get_or_try_init<F, E>(&self, f: F) -> Result<&T, E> + where + F: FnOnce() -> Result<Box<T>, E>, + { + let mut ptr = self.inner.load(Ordering::Acquire); + + if ptr.is_null() { + let val = f()?; + ptr = Box::into_raw(val); + let exchange = self.inner.compare_exchange( + ptr::null_mut(), + ptr, + Ordering::AcqRel, + Ordering::Acquire, + ); + if let Err(old) = exchange { + drop(unsafe { Box::from_raw(ptr) }); + ptr = old; + } + }; + Ok(unsafe { &*ptr }) + } + } + + unsafe impl<T: Sync + Send> Sync for OnceBox<T> {} + + /// ```compile_fail + /// struct S(*mut ()); + /// unsafe impl Sync for S {} + /// + /// fn share<T: Sync>(_: &T) {} + /// share(&once_cell::race::OnceBox::<S>::new()); + /// ``` + fn _dummy() {} +} diff --git a/third_party/rust/once_cell/tests/it/main.rs b/third_party/rust/once_cell/tests/it/main.rs new file mode 100644 index 0000000000..b8e56ccc6f --- /dev/null +++ b/third_party/rust/once_cell/tests/it/main.rs @@ -0,0 +1,12 @@ +mod unsync_once_cell; +#[cfg(any(feature = "std", feature = "critical-section"))] +mod sync_once_cell; + +mod unsync_lazy; +#[cfg(any(feature = "std", feature = "critical-section"))] +mod sync_lazy; + +#[cfg(feature = "race")] +mod race; +#[cfg(all(feature = "race", feature = "alloc"))] +mod race_once_box; diff --git a/third_party/rust/once_cell/tests/it/race.rs b/third_party/rust/once_cell/tests/it/race.rs new file mode 100644 index 0000000000..24884dd827 --- /dev/null +++ b/third_party/rust/once_cell/tests/it/race.rs @@ -0,0 +1,128 @@ +#[cfg(feature = "std")] +use std::sync::Barrier; +use std::{ + num::NonZeroUsize, + sync::atomic::{AtomicUsize, Ordering::SeqCst}, + thread::scope, +}; + +use once_cell::race::{OnceBool, OnceNonZeroUsize}; + +#[test] +fn once_non_zero_usize_smoke_test() { + let cnt = AtomicUsize::new(0); + let cell = OnceNonZeroUsize::new(); + let val = NonZeroUsize::new(92).unwrap(); + scope(|s| { + s.spawn(|| { + assert_eq!( + cell.get_or_init(|| { + cnt.fetch_add(1, SeqCst); + val + }), + val + ); + assert_eq!(cnt.load(SeqCst), 1); + + assert_eq!( + cell.get_or_init(|| { + cnt.fetch_add(1, SeqCst); + val + }), + val + ); + assert_eq!(cnt.load(SeqCst), 1); + }); + }); + assert_eq!(cell.get(), Some(val)); + assert_eq!(cnt.load(SeqCst), 1); +} + +#[test] +fn once_non_zero_usize_set() { + let val1 = NonZeroUsize::new(92).unwrap(); + let val2 = NonZeroUsize::new(62).unwrap(); + + let cell = OnceNonZeroUsize::new(); + + assert!(cell.set(val1).is_ok()); + assert_eq!(cell.get(), Some(val1)); + + assert!(cell.set(val2).is_err()); + assert_eq!(cell.get(), Some(val1)); +} + +#[cfg(feature = "std")] +#[test] +fn once_non_zero_usize_first_wins() { + let val1 = NonZeroUsize::new(92).unwrap(); + let val2 = NonZeroUsize::new(62).unwrap(); + + let cell = OnceNonZeroUsize::new(); + + let b1 = Barrier::new(2); + let b2 = Barrier::new(2); + let b3 = Barrier::new(2); + scope(|s| { + s.spawn(|| { + let r1 = cell.get_or_init(|| { + b1.wait(); + b2.wait(); + val1 + }); + assert_eq!(r1, val1); + b3.wait(); + }); + b1.wait(); + s.spawn(|| { + let r2 = cell.get_or_init(|| { + b2.wait(); + b3.wait(); + val2 + }); + assert_eq!(r2, val1); + }); + }); + + assert_eq!(cell.get(), Some(val1)); +} + +#[test] +fn once_bool_smoke_test() { + let cnt = AtomicUsize::new(0); + let cell = OnceBool::new(); + scope(|s| { + s.spawn(|| { + assert_eq!( + cell.get_or_init(|| { + cnt.fetch_add(1, SeqCst); + false + }), + false + ); + assert_eq!(cnt.load(SeqCst), 1); + + assert_eq!( + cell.get_or_init(|| { + cnt.fetch_add(1, SeqCst); + false + }), + false + ); + assert_eq!(cnt.load(SeqCst), 1); + }); + }); + assert_eq!(cell.get(), Some(false)); + assert_eq!(cnt.load(SeqCst), 1); +} + +#[test] +fn once_bool_set() { + let cell = OnceBool::new(); + + assert!(cell.set(false).is_ok()); + assert_eq!(cell.get(), Some(false)); + + assert!(cell.set(true).is_err()); + assert_eq!(cell.get(), Some(false)); +} diff --git a/third_party/rust/once_cell/tests/it/race_once_box.rs b/third_party/rust/once_cell/tests/it/race_once_box.rs new file mode 100644 index 0000000000..0bf3852d7a --- /dev/null +++ b/third_party/rust/once_cell/tests/it/race_once_box.rs @@ -0,0 +1,145 @@ +#[cfg(feature = "std")] +use std::sync::Barrier; +use std::sync::{ + atomic::{AtomicUsize, Ordering::SeqCst}, + Arc, +}; + +use once_cell::race::OnceBox; + +#[derive(Default)] +struct Heap { + total: Arc<AtomicUsize>, +} + +#[derive(Debug)] +struct Pebble<T> { + val: T, + total: Arc<AtomicUsize>, +} + +impl<T> Drop for Pebble<T> { + fn drop(&mut self) { + self.total.fetch_sub(1, SeqCst); + } +} + +impl Heap { + fn total(&self) -> usize { + self.total.load(SeqCst) + } + fn new_pebble<T>(&self, val: T) -> Pebble<T> { + self.total.fetch_add(1, SeqCst); + Pebble { val, total: Arc::clone(&self.total) } + } +} + +#[cfg(feature = "std")] +#[test] +fn once_box_smoke_test() { + use std::thread::scope; + + let heap = Heap::default(); + let global_cnt = AtomicUsize::new(0); + let cell = OnceBox::new(); + let b = Barrier::new(128); + scope(|s| { + for _ in 0..128 { + s.spawn(|| { + let local_cnt = AtomicUsize::new(0); + cell.get_or_init(|| { + global_cnt.fetch_add(1, SeqCst); + local_cnt.fetch_add(1, SeqCst); + b.wait(); + Box::new(heap.new_pebble(())) + }); + assert_eq!(local_cnt.load(SeqCst), 1); + + cell.get_or_init(|| { + global_cnt.fetch_add(1, SeqCst); + local_cnt.fetch_add(1, SeqCst); + Box::new(heap.new_pebble(())) + }); + assert_eq!(local_cnt.load(SeqCst), 1); + }); + } + }); + assert!(cell.get().is_some()); + assert!(global_cnt.load(SeqCst) > 10); + + assert_eq!(heap.total(), 1); + drop(cell); + assert_eq!(heap.total(), 0); +} + +#[test] +fn once_box_set() { + let heap = Heap::default(); + let cell = OnceBox::new(); + assert!(cell.get().is_none()); + + assert!(cell.set(Box::new(heap.new_pebble("hello"))).is_ok()); + assert_eq!(cell.get().unwrap().val, "hello"); + assert_eq!(heap.total(), 1); + + assert!(cell.set(Box::new(heap.new_pebble("world"))).is_err()); + assert_eq!(cell.get().unwrap().val, "hello"); + assert_eq!(heap.total(), 1); + + drop(cell); + assert_eq!(heap.total(), 0); +} + +#[cfg(feature = "std")] +#[test] +fn once_box_first_wins() { + use std::thread::scope; + + let cell = OnceBox::new(); + let val1 = 92; + let val2 = 62; + + let b1 = Barrier::new(2); + let b2 = Barrier::new(2); + let b3 = Barrier::new(2); + scope(|s| { + s.spawn(|| { + let r1 = cell.get_or_init(|| { + b1.wait(); + b2.wait(); + Box::new(val1) + }); + assert_eq!(*r1, val1); + b3.wait(); + }); + b1.wait(); + s.spawn(|| { + let r2 = cell.get_or_init(|| { + b2.wait(); + b3.wait(); + Box::new(val2) + }); + assert_eq!(*r2, val1); + }); + }); + + assert_eq!(cell.get(), Some(&val1)); +} + +#[test] +fn once_box_reentrant() { + let cell = OnceBox::new(); + let res = cell.get_or_init(|| { + cell.get_or_init(|| Box::new("hello".to_string())); + Box::new("world".to_string()) + }); + assert_eq!(res, "hello"); +} + +#[test] +fn once_box_default() { + struct Foo; + + let cell: OnceBox<Foo> = Default::default(); + assert!(cell.get().is_none()); +} diff --git a/third_party/rust/once_cell/tests/it/sync_lazy.rs b/third_party/rust/once_cell/tests/it/sync_lazy.rs new file mode 100644 index 0000000000..44d70fa0ce --- /dev/null +++ b/third_party/rust/once_cell/tests/it/sync_lazy.rs @@ -0,0 +1,176 @@ +use std::{ + cell::Cell, + sync::atomic::{AtomicUsize, Ordering::SeqCst}, + thread::scope, +}; + +use once_cell::sync::{Lazy, OnceCell}; + +#[test] +fn lazy_new() { + let called = AtomicUsize::new(0); + let x = Lazy::new(|| { + called.fetch_add(1, SeqCst); + 92 + }); + + assert_eq!(called.load(SeqCst), 0); + + scope(|s| { + s.spawn(|| { + let y = *x - 30; + assert_eq!(y, 62); + assert_eq!(called.load(SeqCst), 1); + }); + }); + + let y = *x - 30; + assert_eq!(y, 62); + assert_eq!(called.load(SeqCst), 1); +} + +#[test] +fn lazy_deref_mut() { + let called = AtomicUsize::new(0); + let mut x = Lazy::new(|| { + called.fetch_add(1, SeqCst); + 92 + }); + + assert_eq!(called.load(SeqCst), 0); + + let y = *x - 30; + assert_eq!(y, 62); + assert_eq!(called.load(SeqCst), 1); + + *x /= 2; + assert_eq!(*x, 46); + assert_eq!(called.load(SeqCst), 1); +} + +#[test] +fn lazy_force_mut() { + let called = Cell::new(0); + let mut x = Lazy::new(|| { + called.set(called.get() + 1); + 92 + }); + assert_eq!(called.get(), 0); + let v = Lazy::force_mut(&mut x); + assert_eq!(called.get(), 1); + + *v /= 2; + assert_eq!(*x, 46); + assert_eq!(called.get(), 1); +} + +#[test] +fn lazy_get_mut() { + let called = Cell::new(0); + let mut x: Lazy<u32, _> = Lazy::new(|| { + called.set(called.get() + 1); + 92 + }); + + assert_eq!(called.get(), 0); + assert_eq!(*x, 92); + + let mut_ref: &mut u32 = Lazy::get_mut(&mut x).unwrap(); + assert_eq!(called.get(), 1); + + *mut_ref /= 2; + assert_eq!(*x, 46); + assert_eq!(called.get(), 1); +} + +#[test] +fn lazy_default() { + static CALLED: AtomicUsize = AtomicUsize::new(0); + + struct Foo(u8); + impl Default for Foo { + fn default() -> Self { + CALLED.fetch_add(1, SeqCst); + Foo(42) + } + } + + let lazy: Lazy<std::sync::Mutex<Foo>> = <_>::default(); + + assert_eq!(CALLED.load(SeqCst), 0); + + assert_eq!(lazy.lock().unwrap().0, 42); + assert_eq!(CALLED.load(SeqCst), 1); + + lazy.lock().unwrap().0 = 21; + + assert_eq!(lazy.lock().unwrap().0, 21); + assert_eq!(CALLED.load(SeqCst), 1); +} + +#[test] +fn static_lazy() { + static XS: Lazy<Vec<i32>> = Lazy::new(|| { + let mut xs = Vec::new(); + xs.push(1); + xs.push(2); + xs.push(3); + xs + }); + scope(|s| { + s.spawn(|| { + assert_eq!(&*XS, &vec![1, 2, 3]); + }); + }); + assert_eq!(&*XS, &vec![1, 2, 3]); +} + +#[test] +fn static_lazy_via_fn() { + fn xs() -> &'static Vec<i32> { + static XS: OnceCell<Vec<i32>> = OnceCell::new(); + XS.get_or_init(|| { + let mut xs = Vec::new(); + xs.push(1); + xs.push(2); + xs.push(3); + xs + }) + } + assert_eq!(xs(), &vec![1, 2, 3]); +} + +#[test] +fn lazy_into_value() { + let l: Lazy<i32, _> = Lazy::new(|| panic!()); + assert!(matches!(Lazy::into_value(l), Err(_))); + let l = Lazy::new(|| -> i32 { 92 }); + Lazy::force(&l); + assert!(matches!(Lazy::into_value(l), Ok(92))); +} + +#[test] +fn lazy_poisoning() { + let x: Lazy<String> = Lazy::new(|| panic!("kaboom")); + for _ in 0..2 { + let res = std::panic::catch_unwind(|| x.len()); + assert!(res.is_err()); + } +} + +#[test] +// https://github.com/rust-lang/rust/issues/34761#issuecomment-256320669 +fn arrrrrrrrrrrrrrrrrrrrrr() { + let lazy: Lazy<&String, _>; + { + let s = String::new(); + lazy = Lazy::new(|| &s); + _ = *lazy; + } +} + +#[test] +fn lazy_is_sync_send() { + fn assert_traits<T: Send + Sync>() {} + assert_traits::<Lazy<String>>(); +} diff --git a/third_party/rust/once_cell/tests/it/sync_once_cell.rs b/third_party/rust/once_cell/tests/it/sync_once_cell.rs new file mode 100644 index 0000000000..252adeacfc --- /dev/null +++ b/third_party/rust/once_cell/tests/it/sync_once_cell.rs @@ -0,0 +1,309 @@ +use std::{ + sync::atomic::{AtomicUsize, Ordering::SeqCst}, + thread::scope, +}; + +#[cfg(feature = "std")] +use std::sync::Barrier; + +#[cfg(not(feature = "std"))] +use core::cell::Cell; + +use once_cell::sync::{Lazy, OnceCell}; + +#[test] +fn once_cell() { + let c = OnceCell::new(); + assert!(c.get().is_none()); + scope(|s| { + s.spawn(|| { + c.get_or_init(|| 92); + assert_eq!(c.get(), Some(&92)); + }); + }); + c.get_or_init(|| panic!("Kabom!")); + assert_eq!(c.get(), Some(&92)); +} + +#[test] +fn once_cell_with_value() { + static CELL: OnceCell<i32> = OnceCell::with_value(12); + assert_eq!(CELL.get(), Some(&12)); +} + +#[test] +fn once_cell_get_mut() { + let mut c = OnceCell::new(); + assert!(c.get_mut().is_none()); + c.set(90).unwrap(); + *c.get_mut().unwrap() += 2; + assert_eq!(c.get_mut(), Some(&mut 92)); +} + +#[test] +fn once_cell_get_unchecked() { + let c = OnceCell::new(); + c.set(92).unwrap(); + unsafe { + assert_eq!(c.get_unchecked(), &92); + } +} + +#[test] +fn once_cell_drop() { + static DROP_CNT: AtomicUsize = AtomicUsize::new(0); + struct Dropper; + impl Drop for Dropper { + fn drop(&mut self) { + DROP_CNT.fetch_add(1, SeqCst); + } + } + + let x = OnceCell::new(); + scope(|s| { + s.spawn(|| { + x.get_or_init(|| Dropper); + assert_eq!(DROP_CNT.load(SeqCst), 0); + drop(x); + }); + }); + assert_eq!(DROP_CNT.load(SeqCst), 1); +} + +#[test] +fn once_cell_drop_empty() { + let x = OnceCell::<String>::new(); + drop(x); +} + +#[test] +fn clone() { + let s = OnceCell::new(); + let c = s.clone(); + assert!(c.get().is_none()); + + s.set("hello".to_string()).unwrap(); + let c = s.clone(); + assert_eq!(c.get().map(String::as_str), Some("hello")); +} + +#[test] +fn get_or_try_init() { + let cell: OnceCell<String> = OnceCell::new(); + assert!(cell.get().is_none()); + + let res = std::panic::catch_unwind(|| cell.get_or_try_init(|| -> Result<_, ()> { panic!() })); + assert!(res.is_err()); + assert!(cell.get().is_none()); + + assert_eq!(cell.get_or_try_init(|| Err(())), Err(())); + + assert_eq!(cell.get_or_try_init(|| Ok::<_, ()>("hello".to_string())), Ok(&"hello".to_string())); + assert_eq!(cell.get(), Some(&"hello".to_string())); +} + +#[cfg(feature = "std")] +#[test] +fn wait() { + let cell: OnceCell<String> = OnceCell::new(); + scope(|s| { + s.spawn(|| cell.set("hello".to_string())); + let greeting = cell.wait(); + assert_eq!(greeting, "hello") + }); +} + +#[cfg(feature = "std")] +#[test] +fn get_or_init_stress() { + let n_threads = if cfg!(miri) { 30 } else { 1_000 }; + let n_cells = if cfg!(miri) { 30 } else { 1_000 }; + let cells: Vec<_> = std::iter::repeat_with(|| (Barrier::new(n_threads), OnceCell::new())) + .take(n_cells) + .collect(); + scope(|s| { + for t in 0..n_threads { + let cells = &cells; + s.spawn(move || { + for (i, (b, s)) in cells.iter().enumerate() { + b.wait(); + let j = if t % 2 == 0 { s.wait() } else { s.get_or_init(|| i) }; + assert_eq!(*j, i); + } + }); + } + }); +} + +#[test] +fn from_impl() { + assert_eq!(OnceCell::from("value").get(), Some(&"value")); + assert_ne!(OnceCell::from("foo").get(), Some(&"bar")); +} + +#[test] +fn partialeq_impl() { + assert!(OnceCell::from("value") == OnceCell::from("value")); + assert!(OnceCell::from("foo") != OnceCell::from("bar")); + + assert!(OnceCell::<String>::new() == OnceCell::new()); + assert!(OnceCell::<String>::new() != OnceCell::from("value".to_owned())); +} + +#[test] +fn into_inner() { + let cell: OnceCell<String> = OnceCell::new(); + assert_eq!(cell.into_inner(), None); + let cell = OnceCell::new(); + cell.set("hello".to_string()).unwrap(); + assert_eq!(cell.into_inner(), Some("hello".to_string())); +} + +#[test] +fn debug_impl() { + let cell = OnceCell::new(); + assert_eq!(format!("{:#?}", cell), "OnceCell(Uninit)"); + cell.set(vec!["hello", "world"]).unwrap(); + assert_eq!( + format!("{:#?}", cell), + r#"OnceCell( + [ + "hello", + "world", + ], +)"# + ); +} + +#[test] +#[cfg_attr(miri, ignore)] // miri doesn't support processes +#[cfg(feature = "std")] +fn reentrant_init() { + let examples_dir = { + let mut exe = std::env::current_exe().unwrap(); + exe.pop(); + exe.pop(); + exe.push("examples"); + exe + }; + let bin = examples_dir + .join("reentrant_init_deadlocks") + .with_extension(std::env::consts::EXE_EXTENSION); + let mut guard = Guard { child: std::process::Command::new(bin).spawn().unwrap() }; + std::thread::sleep(std::time::Duration::from_secs(2)); + let status = guard.child.try_wait().unwrap(); + assert!(status.is_none()); + + struct Guard { + child: std::process::Child, + } + + impl Drop for Guard { + fn drop(&mut self) { + let _ = self.child.kill(); + } + } +} + +#[cfg(not(feature = "std"))] +#[test] +#[should_panic(expected = "reentrant init")] +fn reentrant_init() { + let x: OnceCell<Box<i32>> = OnceCell::new(); + let dangling_ref: Cell<Option<&i32>> = Cell::new(None); + x.get_or_init(|| { + let r = x.get_or_init(|| Box::new(92)); + dangling_ref.set(Some(r)); + Box::new(62) + }); + eprintln!("use after free: {:?}", dangling_ref.get().unwrap()); +} + +#[test] +fn eval_once_macro() { + macro_rules! eval_once { + (|| -> $ty:ty { + $($body:tt)* + }) => {{ + static ONCE_CELL: OnceCell<$ty> = OnceCell::new(); + fn init() -> $ty { + $($body)* + } + ONCE_CELL.get_or_init(init) + }}; + } + + let fib: &'static Vec<i32> = eval_once! { + || -> Vec<i32> { + let mut res = vec![1, 1]; + for i in 0..10 { + let next = res[i] + res[i + 1]; + res.push(next); + } + res + } + }; + assert_eq!(fib[5], 8) +} + +#[test] +fn once_cell_does_not_leak_partially_constructed_boxes() { + let n_tries = if cfg!(miri) { 10 } else { 100 }; + let n_readers = 10; + let n_writers = 3; + const MSG: &str = "Hello, World"; + + for _ in 0..n_tries { + let cell: OnceCell<String> = OnceCell::new(); + scope(|scope| { + for _ in 0..n_readers { + scope.spawn(|| loop { + if let Some(msg) = cell.get() { + assert_eq!(msg, MSG); + break; + } + }); + } + for _ in 0..n_writers { + let _ = scope.spawn(|| cell.set(MSG.to_owned())); + } + }); + } +} + +#[cfg(feature = "std")] +#[test] +fn get_does_not_block() { + let cell = OnceCell::new(); + let barrier = Barrier::new(2); + scope(|scope| { + scope.spawn(|| { + cell.get_or_init(|| { + barrier.wait(); + barrier.wait(); + "hello".to_string() + }); + }); + barrier.wait(); + assert_eq!(cell.get(), None); + barrier.wait(); + }); + assert_eq!(cell.get(), Some(&"hello".to_string())); +} + +#[test] +// https://github.com/rust-lang/rust/issues/34761#issuecomment-256320669 +fn arrrrrrrrrrrrrrrrrrrrrr() { + let cell = OnceCell::new(); + { + let s = String::new(); + cell.set(&s).unwrap(); + } +} + +#[test] +fn once_cell_is_sync_send() { + fn assert_traits<T: Send + Sync>() {} + assert_traits::<OnceCell<String>>(); + assert_traits::<Lazy<String>>(); +} diff --git a/third_party/rust/once_cell/tests/it/unsync_lazy.rs b/third_party/rust/once_cell/tests/it/unsync_lazy.rs new file mode 100644 index 0000000000..0c308cab09 --- /dev/null +++ b/third_party/rust/once_cell/tests/it/unsync_lazy.rs @@ -0,0 +1,134 @@ +use core::{ + cell::Cell, + sync::atomic::{AtomicUsize, Ordering::SeqCst}, +}; + +use once_cell::unsync::Lazy; + +#[test] +fn lazy_new() { + let called = Cell::new(0); + let x = Lazy::new(|| { + called.set(called.get() + 1); + 92 + }); + + assert_eq!(called.get(), 0); + + let y = *x - 30; + assert_eq!(y, 62); + assert_eq!(called.get(), 1); + + let y = *x - 30; + assert_eq!(y, 62); + assert_eq!(called.get(), 1); +} + +#[test] +fn lazy_deref_mut() { + let called = Cell::new(0); + let mut x = Lazy::new(|| { + called.set(called.get() + 1); + 92 + }); + + assert_eq!(called.get(), 0); + + let y = *x - 30; + assert_eq!(y, 62); + assert_eq!(called.get(), 1); + + *x /= 2; + assert_eq!(*x, 46); + assert_eq!(called.get(), 1); +} + +#[test] +fn lazy_force_mut() { + let called = Cell::new(0); + let mut x = Lazy::new(|| { + called.set(called.get() + 1); + 92 + }); + assert_eq!(called.get(), 0); + let v = Lazy::force_mut(&mut x); + assert_eq!(called.get(), 1); + + *v /= 2; + assert_eq!(*x, 46); + assert_eq!(called.get(), 1); +} + +#[test] +fn lazy_get_mut() { + let called = Cell::new(0); + let mut x: Lazy<u32, _> = Lazy::new(|| { + called.set(called.get() + 1); + 92 + }); + + assert_eq!(called.get(), 0); + assert_eq!(*x, 92); + + let mut_ref: &mut u32 = Lazy::get_mut(&mut x).unwrap(); + assert_eq!(called.get(), 1); + + *mut_ref /= 2; + assert_eq!(*x, 46); + assert_eq!(called.get(), 1); +} + +#[test] +fn lazy_default() { + static CALLED: AtomicUsize = AtomicUsize::new(0); + + struct Foo(u8); + impl Default for Foo { + fn default() -> Self { + CALLED.fetch_add(1, SeqCst); + Foo(42) + } + } + + let lazy: Lazy<std::sync::Mutex<Foo>> = <_>::default(); + + assert_eq!(CALLED.load(SeqCst), 0); + + assert_eq!(lazy.lock().unwrap().0, 42); + assert_eq!(CALLED.load(SeqCst), 1); + + lazy.lock().unwrap().0 = 21; + + assert_eq!(lazy.lock().unwrap().0, 21); + assert_eq!(CALLED.load(SeqCst), 1); +} + +#[test] +fn lazy_into_value() { + let l: Lazy<i32, _> = Lazy::new(|| panic!()); + assert!(matches!(Lazy::into_value(l), Err(_))); + let l = Lazy::new(|| -> i32 { 92 }); + Lazy::force(&l); + assert!(matches!(Lazy::into_value(l), Ok(92))); +} + +#[test] +#[cfg(feature = "std")] +fn lazy_poisoning() { + let x: Lazy<String> = Lazy::new(|| panic!("kaboom")); + for _ in 0..2 { + let res = std::panic::catch_unwind(|| x.len()); + assert!(res.is_err()); + } +} + +#[test] +// https://github.com/rust-lang/rust/issues/34761#issuecomment-256320669 +fn arrrrrrrrrrrrrrrrrrrrrr() { + let lazy: Lazy<&String, _>; + { + let s = String::new(); + lazy = Lazy::new(|| &s); + _ = *lazy; + } +} diff --git a/third_party/rust/once_cell/tests/it/unsync_once_cell.rs b/third_party/rust/once_cell/tests/it/unsync_once_cell.rs new file mode 100644 index 0000000000..124cc3e6d0 --- /dev/null +++ b/third_party/rust/once_cell/tests/it/unsync_once_cell.rs @@ -0,0 +1,154 @@ +use core::{ + cell::Cell, + sync::atomic::{AtomicUsize, Ordering::SeqCst}, +}; + +use once_cell::unsync::OnceCell; + +#[test] +fn once_cell() { + let c = OnceCell::new(); + assert!(c.get().is_none()); + c.get_or_init(|| 92); + assert_eq!(c.get(), Some(&92)); + + c.get_or_init(|| panic!("Kabom!")); + assert_eq!(c.get(), Some(&92)); +} + +#[test] +fn once_cell_with_value() { + const CELL: OnceCell<i32> = OnceCell::with_value(12); + let cell = CELL; + assert_eq!(cell.get(), Some(&12)); +} + +#[test] +fn once_cell_get_mut() { + let mut c = OnceCell::new(); + assert!(c.get_mut().is_none()); + c.set(90).unwrap(); + *c.get_mut().unwrap() += 2; + assert_eq!(c.get_mut(), Some(&mut 92)); +} + +#[test] +fn once_cell_drop() { + static DROP_CNT: AtomicUsize = AtomicUsize::new(0); + struct Dropper; + impl Drop for Dropper { + fn drop(&mut self) { + DROP_CNT.fetch_add(1, SeqCst); + } + } + + let x = OnceCell::new(); + x.get_or_init(|| Dropper); + assert_eq!(DROP_CNT.load(SeqCst), 0); + drop(x); + assert_eq!(DROP_CNT.load(SeqCst), 1); +} + +#[test] +fn once_cell_drop_empty() { + let x = OnceCell::<String>::new(); + drop(x); +} + +#[test] +fn clone() { + let s = OnceCell::new(); + let c = s.clone(); + assert!(c.get().is_none()); + + s.set("hello".to_string()).unwrap(); + let c = s.clone(); + assert_eq!(c.get().map(String::as_str), Some("hello")); +} + +#[test] +fn get_or_try_init() { + let cell: OnceCell<String> = OnceCell::new(); + assert!(cell.get().is_none()); + + let res = std::panic::catch_unwind(|| cell.get_or_try_init(|| -> Result<_, ()> { panic!() })); + assert!(res.is_err()); + assert!(cell.get().is_none()); + + assert_eq!(cell.get_or_try_init(|| Err(())), Err(())); + + assert_eq!(cell.get_or_try_init(|| Ok::<_, ()>("hello".to_string())), Ok(&"hello".to_string())); + assert_eq!(cell.get(), Some(&"hello".to_string())); +} + +#[test] +fn from_impl() { + assert_eq!(OnceCell::from("value").get(), Some(&"value")); + assert_ne!(OnceCell::from("foo").get(), Some(&"bar")); +} + +#[test] +fn partialeq_impl() { + assert!(OnceCell::from("value") == OnceCell::from("value")); + assert!(OnceCell::from("foo") != OnceCell::from("bar")); + + assert!(OnceCell::<String>::new() == OnceCell::new()); + assert!(OnceCell::<String>::new() != OnceCell::from("value".to_owned())); +} + +#[test] +fn into_inner() { + let cell: OnceCell<String> = OnceCell::new(); + assert_eq!(cell.into_inner(), None); + let cell = OnceCell::new(); + cell.set("hello".to_string()).unwrap(); + assert_eq!(cell.into_inner(), Some("hello".to_string())); +} + +#[test] +fn debug_impl() { + let cell = OnceCell::new(); + assert_eq!(format!("{:#?}", cell), "OnceCell(Uninit)"); + cell.set(vec!["hello", "world"]).unwrap(); + assert_eq!( + format!("{:#?}", cell), + r#"OnceCell( + [ + "hello", + "world", + ], +)"# + ); +} + +#[test] +#[should_panic(expected = "reentrant init")] +fn reentrant_init() { + let x: OnceCell<Box<i32>> = OnceCell::new(); + let dangling_ref: Cell<Option<&i32>> = Cell::new(None); + x.get_or_init(|| { + let r = x.get_or_init(|| Box::new(92)); + dangling_ref.set(Some(r)); + Box::new(62) + }); + eprintln!("use after free: {:?}", dangling_ref.get().unwrap()); +} + +#[test] +fn aliasing_in_get() { + let x = OnceCell::new(); + x.set(42).unwrap(); + let at_x = x.get().unwrap(); // --- (shared) borrow of inner `Option<T>` --+ + let _ = x.set(27); // <-- temporary (unique) borrow of inner `Option<T>` | + println!("{}", at_x); // <------- up until here ---------------------------+ +} + +#[test] +// https://github.com/rust-lang/rust/issues/34761#issuecomment-256320669 +fn arrrrrrrrrrrrrrrrrrrrrr() { + let cell = OnceCell::new(); + { + let s = String::new(); + cell.set(&s).unwrap(); + } +} |