pub struct ReentrantMutex<R, G, T: ?Sized> { /* private fields */ }
atomic_usize
only.Expand description
A mutex which can be recursively locked by a single thread.
This type is identical to Mutex
except for the following points:
- Locking multiple times from the same thread will work correctly instead of deadlocking.
ReentrantMutexGuard
does not give mutable references to the locked data. Use aRefCell
if you need this.
See Mutex
for more details about the underlying mutex
primitive.
Implementations§
Source§impl<R: RawMutex, G: GetThreadId, T> ReentrantMutex<R, G, T>
impl<R: RawMutex, G: GetThreadId, T> ReentrantMutex<R, G, T>
Sourcepub const fn new(val: T) -> ReentrantMutex<R, G, T>
Available on has_const_fn_trait_bound
only.
pub const fn new(val: T) -> ReentrantMutex<R, G, T>
has_const_fn_trait_bound
only.Creates a new reentrant mutex in an unlocked state ready for use.
Sourcepub fn into_inner(self) -> T
pub fn into_inner(self) -> T
Consumes this mutex, returning the underlying data.
Source§impl<R, G, T> ReentrantMutex<R, G, T>
impl<R, G, T> ReentrantMutex<R, G, T>
Sourcepub const fn from_raw(
raw_mutex: R,
get_thread_id: G,
val: T,
) -> ReentrantMutex<R, G, T>
pub const fn from_raw( raw_mutex: R, get_thread_id: G, val: T, ) -> ReentrantMutex<R, G, T>
Creates a new reentrant mutex based on a pre-existing raw mutex and a helper to get the thread ID.
Sourcepub const fn const_new(
raw_mutex: R,
get_thread_id: G,
val: T,
) -> ReentrantMutex<R, G, T>
pub const fn const_new( raw_mutex: R, get_thread_id: G, val: T, ) -> ReentrantMutex<R, G, T>
Creates a new reentrant mutex based on a pre-existing raw mutex and a helper to get the thread ID.
This allows creating a reentrant mutex in a constant context on stable Rust.
This method is a legacy alias for from_raw
.
Source§impl<R: RawMutex, G: GetThreadId, T: ?Sized> ReentrantMutex<R, G, T>
impl<R: RawMutex, G: GetThreadId, T: ?Sized> ReentrantMutex<R, G, T>
Sourcepub unsafe fn make_guard_unchecked(&self) -> ReentrantMutexGuard<'_, R, G, T>
pub unsafe fn make_guard_unchecked(&self) -> ReentrantMutexGuard<'_, R, G, T>
Creates a new ReentrantMutexGuard
without checking if the lock is held.
§Safety
This method must only be called if the thread logically holds the lock.
Calling this function when a guard has already been produced is undefined behaviour unless
the guard was forgotten with mem::forget
.
Sourcepub fn lock(&self) -> ReentrantMutexGuard<'_, R, G, T>
pub fn lock(&self) -> ReentrantMutexGuard<'_, R, G, T>
Acquires a reentrant mutex, blocking the current thread until it is able to do so.
If the mutex is held by another thread then this function will block the local thread until it is available to acquire the mutex. If the mutex is already held by the current thread then this function will increment the lock reference count and return immediately. Upon returning, the thread is the only thread with the mutex held. An RAII guard is returned to allow scoped unlock of the lock. When the guard goes out of scope, the mutex will be unlocked.
Sourcepub fn try_lock(&self) -> Option<ReentrantMutexGuard<'_, R, G, T>>
pub fn try_lock(&self) -> Option<ReentrantMutexGuard<'_, R, G, T>>
Attempts to acquire this lock.
If the lock could not be acquired at this time, then None
is returned.
Otherwise, an RAII guard is returned. The lock will be unlocked when the
guard is dropped.
This function does not block.
Sourcepub fn get_mut(&mut self) -> &mut T
pub fn get_mut(&mut self) -> &mut T
Returns a mutable reference to the underlying data.
Since this call borrows the ReentrantMutex
mutably, no actual locking needs to
take place—the mutable borrow statically guarantees no locks exist.
Sourcepub fn is_owned_by_current_thread(&self) -> bool
pub fn is_owned_by_current_thread(&self) -> bool
Checks whether the mutex is currently held by the current thread.
Sourcepub unsafe fn force_unlock(&self)
pub unsafe fn force_unlock(&self)
Forcibly unlocks the mutex.
This is useful when combined with mem::forget
to hold a lock without
the need to maintain a ReentrantMutexGuard
object alive, for example when
dealing with FFI.
§Safety
This method must only be called if the current thread logically owns a
ReentrantMutexGuard
but that guard has be discarded using mem::forget
.
Behavior is undefined if a mutex is unlocked when not locked.
Sourcepub unsafe fn raw(&self) -> &R
pub unsafe fn raw(&self) -> &R
Returns the underlying raw mutex object.
Note that you will most likely need to import the RawMutex
trait from
lock_api
to be able to call functions on the raw mutex.
§Safety
This method is unsafe because it allows unlocking a mutex while
still holding a reference to a ReentrantMutexGuard
.
Sourcepub fn data_ptr(&self) -> *mut T
pub fn data_ptr(&self) -> *mut T
Returns a raw pointer to the underlying data.
This is useful when combined with mem::forget
to hold a lock without
the need to maintain a ReentrantMutexGuard
object alive, for example
when dealing with FFI.
§Safety
You must ensure that there are no data races when dereferencing the
returned pointer, for example if the current thread logically owns a
ReentrantMutexGuard
but that guard has been discarded using
mem::forget
.
Source§impl<R: RawMutexFair, G: GetThreadId, T: ?Sized> ReentrantMutex<R, G, T>
impl<R: RawMutexFair, G: GetThreadId, T: ?Sized> ReentrantMutex<R, G, T>
Sourcepub unsafe fn force_unlock_fair(&self)
pub unsafe fn force_unlock_fair(&self)
Forcibly unlocks the mutex using a fair unlock protocol.
This is useful when combined with mem::forget
to hold a lock without
the need to maintain a ReentrantMutexGuard
object alive, for example when
dealing with FFI.
§Safety
This method must only be called if the current thread logically owns a
ReentrantMutexGuard
but that guard has be discarded using mem::forget
.
Behavior is undefined if a mutex is unlocked when not locked.
Source§impl<R: RawMutexTimed, G: GetThreadId, T: ?Sized> ReentrantMutex<R, G, T>
impl<R: RawMutexTimed, G: GetThreadId, T: ?Sized> ReentrantMutex<R, G, T>
Sourcepub fn try_lock_for(
&self,
timeout: R::Duration,
) -> Option<ReentrantMutexGuard<'_, R, G, T>>
pub fn try_lock_for( &self, timeout: R::Duration, ) -> Option<ReentrantMutexGuard<'_, R, G, T>>
Attempts to acquire this lock until a timeout is reached.
If the lock could not be acquired before the timeout expired, then
None
is returned. Otherwise, an RAII guard is returned. The lock will
be unlocked when the guard is dropped.
Sourcepub fn try_lock_until(
&self,
timeout: R::Instant,
) -> Option<ReentrantMutexGuard<'_, R, G, T>>
pub fn try_lock_until( &self, timeout: R::Instant, ) -> Option<ReentrantMutexGuard<'_, R, G, T>>
Attempts to acquire this lock until a timeout is reached.
If the lock could not be acquired before the timeout expired, then
None
is returned. Otherwise, an RAII guard is returned. The lock will
be unlocked when the guard is dropped.
Trait Implementations§
Source§impl<R: RawMutex, G: GetThreadId, T: ?Sized + Debug> Debug for ReentrantMutex<R, G, T>
impl<R: RawMutex, G: GetThreadId, T: ?Sized + Debug> Debug for ReentrantMutex<R, G, T>
Source§impl<R: RawMutex, G: GetThreadId, T: ?Sized + Default> Default for ReentrantMutex<R, G, T>
impl<R: RawMutex, G: GetThreadId, T: ?Sized + Default> Default for ReentrantMutex<R, G, T>
Source§fn default() -> ReentrantMutex<R, G, T>
fn default() -> ReentrantMutex<R, G, T>
Source§impl<R: RawMutex, G: GetThreadId, T> From<T> for ReentrantMutex<R, G, T>
impl<R: RawMutex, G: GetThreadId, T> From<T> for ReentrantMutex<R, G, T>
Source§fn from(t: T) -> ReentrantMutex<R, G, T>
fn from(t: T) -> ReentrantMutex<R, G, T>
impl<R: RawMutex + Send, G: GetThreadId + Send, T: ?Sized + Send> Send for ReentrantMutex<R, G, T>
impl<R: RawMutex + Sync, G: GetThreadId + Sync, T: ?Sized + Send> Sync for ReentrantMutex<R, G, T>
Auto Trait Implementations§
impl<R, G, T> !Freeze for ReentrantMutex<R, G, T>
impl<R, G, T> !RefUnwindSafe for ReentrantMutex<R, G, T>
impl<R, G, T> Unpin for ReentrantMutex<R, G, T>
impl<R, G, T> UnwindSafe for ReentrantMutex<R, G, T>
Blanket Implementations§
Source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
Source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
Layout§
Note: Unable to compute type layout, possibly due to this type having generic parameters. Layout can only be computed for concrete, fully-instantiated types.