From a990de90fe41456a23e58bd087d2f107d321f3a1 Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Fri, 19 Jul 2024 16:37:58 +0400 Subject: Deleted vendor folder --- vendor/spin/src/mutex.rs | 340 ----------------------------------------------- 1 file changed, 340 deletions(-) delete mode 100644 vendor/spin/src/mutex.rs (limited to 'vendor/spin/src/mutex.rs') diff --git a/vendor/spin/src/mutex.rs b/vendor/spin/src/mutex.rs deleted file mode 100644 index e333d8a..0000000 --- a/vendor/spin/src/mutex.rs +++ /dev/null @@ -1,340 +0,0 @@ -//! Locks that have the same behaviour as a mutex. -//! -//! The [`Mutex`] in the root of the crate, can be configured using the `ticket_mutex` feature. -//! If it's enabled, [`TicketMutex`] and [`TicketMutexGuard`] will be re-exported as [`Mutex`] -//! and [`MutexGuard`], otherwise the [`SpinMutex`] and guard will be re-exported. -//! -//! `ticket_mutex` is disabled by default. -//! -//! [`Mutex`]: ../struct.Mutex.html -//! [`MutexGuard`]: ../struct.MutexGuard.html -//! [`TicketMutex`]: ./struct.TicketMutex.html -//! [`TicketMutexGuard`]: ./struct.TicketMutexGuard.html -//! [`SpinMutex`]: ./struct.SpinMutex.html -//! [`SpinMutexGuard`]: ./struct.SpinMutexGuard.html - -#[cfg(feature = "spin_mutex")] -#[cfg_attr(docsrs, doc(cfg(feature = "spin_mutex")))] -pub mod spin; -#[cfg(feature = "spin_mutex")] -#[cfg_attr(docsrs, doc(cfg(feature = "spin_mutex")))] -pub use self::spin::{SpinMutex, SpinMutexGuard}; - -#[cfg(feature = "ticket_mutex")] -#[cfg_attr(docsrs, doc(cfg(feature = "ticket_mutex")))] -pub mod ticket; -#[cfg(feature = "ticket_mutex")] -#[cfg_attr(docsrs, doc(cfg(feature = "ticket_mutex")))] -pub use self::ticket::{TicketMutex, TicketMutexGuard}; - -#[cfg(feature = "fair_mutex")] -#[cfg_attr(docsrs, doc(cfg(feature = "fair_mutex")))] -pub mod fair; -#[cfg(feature = "fair_mutex")] -#[cfg_attr(docsrs, doc(cfg(feature = "fair_mutex")))] -pub use self::fair::{FairMutex, FairMutexGuard, Starvation}; - -use crate::{RelaxStrategy, Spin}; -use core::{ - fmt, - ops::{Deref, DerefMut}, -}; - -#[cfg(all(not(feature = "spin_mutex"), not(feature = "use_ticket_mutex")))] -compile_error!("The `mutex` feature flag was used (perhaps through another feature?) without either `spin_mutex` or `use_ticket_mutex`. One of these is required."); - -#[cfg(all(not(feature = "use_ticket_mutex"), feature = "spin_mutex"))] -type InnerMutex = self::spin::SpinMutex; -#[cfg(all(not(feature = "use_ticket_mutex"), feature = "spin_mutex"))] -type InnerMutexGuard<'a, T> = self::spin::SpinMutexGuard<'a, T>; - -#[cfg(feature = "use_ticket_mutex")] -type InnerMutex = self::ticket::TicketMutex; -#[cfg(feature = "use_ticket_mutex")] -type InnerMutexGuard<'a, T> = self::ticket::TicketMutexGuard<'a, T>; - -/// A spin-based lock providing mutually exclusive access to data. -/// -/// The implementation uses either a ticket mutex or a regular spin mutex depending on whether the `spin_mutex` or -/// `ticket_mutex` feature flag is enabled. -/// -/// # Example -/// -/// ``` -/// use spin; -/// -/// let lock = spin::Mutex::new(0); -/// -/// // Modify the data -/// *lock.lock() = 2; -/// -/// // Read the data -/// let answer = *lock.lock(); -/// assert_eq!(answer, 2); -/// ``` -/// -/// # Thread safety example -/// -/// ``` -/// use spin; -/// use std::sync::{Arc, Barrier}; -/// -/// let thread_count = 1000; -/// let spin_mutex = Arc::new(spin::Mutex::new(0)); -/// -/// // We use a barrier to ensure the readout happens after all writing -/// let barrier = Arc::new(Barrier::new(thread_count + 1)); -/// -/// # let mut ts = Vec::new(); -/// for _ in (0..thread_count) { -/// let my_barrier = barrier.clone(); -/// let my_lock = spin_mutex.clone(); -/// # let t = -/// std::thread::spawn(move || { -/// let mut guard = my_lock.lock(); -/// *guard += 1; -/// -/// // Release the lock to prevent a deadlock -/// drop(guard); -/// my_barrier.wait(); -/// }); -/// # ts.push(t); -/// } -/// -/// barrier.wait(); -/// -/// let answer = { *spin_mutex.lock() }; -/// assert_eq!(answer, thread_count); -/// -/// # for t in ts { -/// # t.join().unwrap(); -/// # } -/// ``` -pub struct Mutex { - inner: InnerMutex, -} - -unsafe impl Sync for Mutex {} -unsafe impl Send for Mutex {} - -/// A generic guard that will protect some data access and -/// uses either a ticket lock or a normal spin mutex. -/// -/// For more info see [`TicketMutexGuard`] or [`SpinMutexGuard`]. -/// -/// [`TicketMutexGuard`]: ./struct.TicketMutexGuard.html -/// [`SpinMutexGuard`]: ./struct.SpinMutexGuard.html -pub struct MutexGuard<'a, T: 'a + ?Sized> { - inner: InnerMutexGuard<'a, T>, -} - -impl Mutex { - /// Creates a new [`Mutex`] wrapping the supplied data. - /// - /// # Example - /// - /// ``` - /// use spin::Mutex; - /// - /// static MUTEX: Mutex<()> = Mutex::new(()); - /// - /// fn demo() { - /// let lock = MUTEX.lock(); - /// // do something with lock - /// drop(lock); - /// } - /// ``` - #[inline(always)] - pub const fn new(value: T) -> Self { - Self { - inner: InnerMutex::new(value), - } - } - - /// Consumes this [`Mutex`] and unwraps the underlying data. - /// - /// # Example - /// - /// ``` - /// let lock = spin::Mutex::new(42); - /// assert_eq!(42, lock.into_inner()); - /// ``` - #[inline(always)] - pub fn into_inner(self) -> T { - self.inner.into_inner() - } -} - -impl Mutex { - /// Locks the [`Mutex`] and returns a guard that permits access to the inner data. - /// - /// The returned value may be dereferenced for data access - /// and the lock will be dropped when the guard falls out of scope. - /// - /// ``` - /// let lock = spin::Mutex::new(0); - /// { - /// let mut data = lock.lock(); - /// // The lock is now locked and the data can be accessed - /// *data += 1; - /// // The lock is implicitly dropped at the end of the scope - /// } - /// ``` - #[inline(always)] - pub fn lock(&self) -> MutexGuard { - MutexGuard { - inner: self.inner.lock(), - } - } -} - -impl Mutex { - /// Returns `true` if the lock is currently held. - /// - /// # Safety - /// - /// This function provides no synchronization guarantees and so its result should be considered 'out of date' - /// the instant it is called. Do not use it for synchronization purposes. However, it may be useful as a heuristic. - #[inline(always)] - pub fn is_locked(&self) -> bool { - self.inner.is_locked() - } - - /// Force unlock this [`Mutex`]. - /// - /// # Safety - /// - /// This is *extremely* unsafe if the lock is not held by the current - /// thread. However, this can be useful in some instances for exposing the - /// lock to FFI that doesn't know how to deal with RAII. - #[inline(always)] - pub unsafe fn force_unlock(&self) { - self.inner.force_unlock() - } - - /// Try to lock this [`Mutex`], returning a lock guard if successful. - /// - /// # Example - /// - /// ``` - /// let lock = spin::Mutex::new(42); - /// - /// let maybe_guard = lock.try_lock(); - /// assert!(maybe_guard.is_some()); - /// - /// // `maybe_guard` is still held, so the second call fails - /// let maybe_guard2 = lock.try_lock(); - /// assert!(maybe_guard2.is_none()); - /// ``` - #[inline(always)] - pub fn try_lock(&self) -> Option> { - self.inner - .try_lock() - .map(|guard| MutexGuard { inner: guard }) - } - - /// Returns a mutable reference to the underlying data. - /// - /// Since this call borrows the [`Mutex`] mutably, and a mutable reference is guaranteed to be exclusive in Rust, - /// no actual locking needs to take place -- the mutable borrow statically guarantees no locks exist. As such, - /// this is a 'zero-cost' operation. - /// - /// # Example - /// - /// ``` - /// let mut lock = spin::Mutex::new(0); - /// *lock.get_mut() = 10; - /// assert_eq!(*lock.lock(), 10); - /// ``` - #[inline(always)] - pub fn get_mut(&mut self) -> &mut T { - self.inner.get_mut() - } -} - -impl fmt::Debug for Mutex { - fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { - fmt::Debug::fmt(&self.inner, f) - } -} - -impl Default for Mutex { - fn default() -> Self { - Self::new(Default::default()) - } -} - -impl From for Mutex { - fn from(data: T) -> Self { - Self::new(data) - } -} - -impl<'a, T: ?Sized> MutexGuard<'a, T> { - /// Leak the lock guard, yielding a mutable reference to the underlying data. - /// - /// Note that this function will permanently lock the original [`Mutex`]. - /// - /// ``` - /// let mylock = spin::Mutex::new(0); - /// - /// let data: &mut i32 = spin::MutexGuard::leak(mylock.lock()); - /// - /// *data = 1; - /// assert_eq!(*data, 1); - /// ``` - #[inline(always)] - pub fn leak(this: Self) -> &'a mut T { - InnerMutexGuard::leak(this.inner) - } -} - -impl<'a, T: ?Sized + fmt::Debug> fmt::Debug for MutexGuard<'a, T> { - fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { - fmt::Debug::fmt(&**self, f) - } -} - -impl<'a, T: ?Sized + fmt::Display> fmt::Display for MutexGuard<'a, T> { - fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { - fmt::Display::fmt(&**self, f) - } -} - -impl<'a, T: ?Sized> Deref for MutexGuard<'a, T> { - type Target = T; - fn deref(&self) -> &T { - &*self.inner - } -} - -impl<'a, T: ?Sized> DerefMut for MutexGuard<'a, T> { - fn deref_mut(&mut self) -> &mut T { - &mut *self.inner - } -} - -#[cfg(feature = "lock_api")] -unsafe impl lock_api_crate::RawMutex for Mutex<(), R> { - type GuardMarker = lock_api_crate::GuardSend; - - const INIT: Self = Self::new(()); - - fn lock(&self) { - // Prevent guard destructor running - core::mem::forget(Self::lock(self)); - } - - fn try_lock(&self) -> bool { - // Prevent guard destructor running - Self::try_lock(self).map(core::mem::forget).is_some() - } - - unsafe fn unlock(&self) { - self.force_unlock(); - } - - fn is_locked(&self) -> bool { - self.inner.is_locked() - } -} -- cgit v1.2.3