Add missing urls and examples for Condvar docs
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@ -18,12 +18,57 @@ use time::Duration;
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/// A type indicating whether a timed wait on a condition variable returned
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/// due to a time out or not.
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///
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/// It is returned by the [`wait_timeout`] method.
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///
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/// [`wait_timeout`]: struct.Condvar.html#method.wait_timeout
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#[derive(Debug, PartialEq, Eq, Copy, Clone)]
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#[stable(feature = "wait_timeout", since = "1.5.0")]
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pub struct WaitTimeoutResult(bool);
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impl WaitTimeoutResult {
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/// Returns whether the wait was known to have timed out.
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///
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/// # Examples
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///
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/// This example spawns a thread which will update the boolean value and
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/// then wait 100 milliseconds before notifying the condvar.
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///
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/// The main thread will wait with a timeout on the condvar and then leave
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/// once the boolean has been updated and notified.
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///
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/// ```
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/// use std::sync::{Arc, Mutex, Condvar};
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/// use std::thread;
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/// use std::time::Duration;
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///
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/// let pair = Arc::new((Mutex::new(false), Condvar::new()));
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/// let pair2 = pair.clone();
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///
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/// thread::spawn(move|| {
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/// let &(ref lock, ref cvar) = &*pair2;
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/// let mut started = lock.lock().unwrap();
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/// // We update the boolean value.
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/// *started = true;
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/// // Let's wait 20 milliseconds before notifying the condvar.
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/// thread::sleep(Duration::from_millis(20));
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/// cvar.notify_one();
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/// });
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///
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/// // Wait for the thread to start up.
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/// let &(ref lock, ref cvar) = &*pair;
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/// let mut started = lock.lock().unwrap();
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/// loop {
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/// // Let's put a timeout on the condvar's wait.
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/// let result = cvar.wait_timeout(started, Duration::from_millis(10)).unwrap();
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/// // 10 milliseconds have passed, or maybe the value changed!
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/// started = result.0;
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/// if *started == true {
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/// // We received the notification and the value has been updated, we can leave.
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/// break
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/// }
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/// }
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/// ```
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#[stable(feature = "wait_timeout", since = "1.5.0")]
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pub fn timed_out(&self) -> bool {
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self.0
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@ -55,15 +100,16 @@ impl WaitTimeoutResult {
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/// let pair = Arc::new((Mutex::new(false), Condvar::new()));
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/// let pair2 = pair.clone();
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///
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/// // Inside of our lock, spawn a new thread, and then wait for it to start
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/// // Inside of our lock, spawn a new thread, and then wait for it to start.
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/// thread::spawn(move|| {
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/// let &(ref lock, ref cvar) = &*pair2;
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/// let mut started = lock.lock().unwrap();
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/// *started = true;
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/// // We notify the condvar that the value has changed.
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/// cvar.notify_one();
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/// });
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///
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/// // wait for the thread to start up
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/// // Wait for the thread to start up.
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/// let &(ref lock, ref cvar) = &*pair;
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/// let mut started = lock.lock().unwrap();
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/// while !*started {
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@ -79,6 +125,14 @@ pub struct Condvar {
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impl Condvar {
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/// Creates a new condition variable which is ready to be waited on and
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/// notified.
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///
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/// # Examples
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///
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/// ```
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/// use std::sync::Condvar;
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///
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/// let condvar = Condvar::new();
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/// ```
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#[stable(feature = "rust1", since = "1.0.0")]
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pub fn new() -> Condvar {
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let mut c = Condvar {
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@ -95,10 +149,10 @@ impl Condvar {
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/// notification.
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///
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/// This function will atomically unlock the mutex specified (represented by
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/// `mutex_guard`) and block the current thread. This means that any calls
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/// to `notify_*()` which happen logically after the mutex is unlocked are
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/// candidates to wake this thread up. When this function call returns, the
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/// lock specified will have been re-acquired.
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/// `guard`) and block the current thread. This means that any calls
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/// to [`notify_one()`] or [`notify_all()`] which happen logically after the
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/// mutex is unlocked are candidates to wake this thread up. When this
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/// function call returns, the lock specified will have been re-acquired.
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///
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/// Note that this function is susceptible to spurious wakeups. Condition
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/// variables normally have a boolean predicate associated with them, and
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@ -109,14 +163,46 @@ impl Condvar {
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///
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/// This function will return an error if the mutex being waited on is
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/// poisoned when this thread re-acquires the lock. For more information,
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/// see information about poisoning on the Mutex type.
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/// see information about [poisoning] on the [`Mutex`] type.
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///
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/// # Panics
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///
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/// This function will `panic!()` if it is used with more than one mutex
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/// This function will [`panic!()`] if it is used with more than one mutex
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/// over time. Each condition variable is dynamically bound to exactly one
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/// mutex to ensure defined behavior across platforms. If this functionality
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/// is not desired, then unsafe primitives in `sys` are provided.
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///
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/// [`notify_one()`]: #method.notify_one
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/// [`notify_all()`]: #method.notify_all
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/// [poisoning]: ../sync/struct.Mutex.html#poisoning
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/// [`Mutex`]: ../sync/struct.Mutex.html
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/// [`panic!()`]: ../../std/macro.panic.html
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///
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/// # Examples
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///
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/// ```
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/// use std::sync::{Arc, Mutex, Condvar};
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/// use std::thread;
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///
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/// let pair = Arc::new((Mutex::new(false), Condvar::new()));
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/// let pair2 = pair.clone();
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///
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/// thread::spawn(move|| {
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/// let &(ref lock, ref cvar) = &*pair2;
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/// let mut started = lock.lock().unwrap();
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/// *started = true;
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/// // We notify the condvar that the value has changed.
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/// cvar.notify_one();
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/// });
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///
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/// // Wait for the thread to start up.
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/// let &(ref lock, ref cvar) = &*pair;
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/// let mut started = lock.lock().unwrap();
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/// // As long as the value inside the `Mutex` is false, we wait.
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/// while !*started {
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/// started = cvar.wait(started).unwrap();
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/// }
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/// ```
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#[stable(feature = "rust1", since = "1.0.0")]
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pub fn wait<'a, T>(&self, guard: MutexGuard<'a, T>)
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-> LockResult<MutexGuard<'a, T>> {
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@ -136,7 +222,7 @@ impl Condvar {
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/// Waits on this condition variable for a notification, timing out after a
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/// specified duration.
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///
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/// The semantics of this function are equivalent to `wait()`
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/// The semantics of this function are equivalent to [`wait`]
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/// except that the thread will be blocked for roughly no longer
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/// than `ms` milliseconds. This method should not be used for
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/// precise timing due to anomalies such as preemption or platform
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@ -150,8 +236,42 @@ impl Condvar {
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/// The returned boolean is `false` only if the timeout is known
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/// to have elapsed.
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///
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/// Like `wait`, the lock specified will be re-acquired when this function
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/// Like [`wait`], the lock specified will be re-acquired when this function
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/// returns, regardless of whether the timeout elapsed or not.
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///
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/// [`wait`]: #method.wait
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///
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/// # Examples
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///
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/// ```
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/// use std::sync::{Arc, Mutex, Condvar};
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/// use std::thread;
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///
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/// let pair = Arc::new((Mutex::new(false), Condvar::new()));
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/// let pair2 = pair.clone();
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///
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/// thread::spawn(move|| {
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/// let &(ref lock, ref cvar) = &*pair2;
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/// let mut started = lock.lock().unwrap();
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/// *started = true;
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/// // We notify the condvar that the value has changed.
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/// cvar.notify_one();
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/// });
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///
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/// // Wait for the thread to start up.
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/// let &(ref lock, ref cvar) = &*pair;
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/// let mut started = lock.lock().unwrap();
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/// // As long as the value inside the `Mutex` is false, we wait.
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/// loop {
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/// let result = cvar.wait_timeout_ms(started, 10).unwrap();
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/// // 10 milliseconds have passed, or maybe the value changed!
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/// started = result.0;
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/// if *started == true {
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/// // We received the notification and the value has been updated, we can leave.
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/// break
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/// }
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/// }
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/// ```
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#[stable(feature = "rust1", since = "1.0.0")]
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#[rustc_deprecated(since = "1.6.0", reason = "replaced by `std::sync::Condvar::wait_timeout`")]
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pub fn wait_timeout_ms<'a, T>(&self, guard: MutexGuard<'a, T>, ms: u32)
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@ -165,7 +285,7 @@ impl Condvar {
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/// Waits on this condition variable for a notification, timing out after a
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/// specified duration.
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///
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/// The semantics of this function are equivalent to `wait()` except that
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/// The semantics of this function are equivalent to [`wait`] except that
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/// the thread will be blocked for roughly no longer than `dur`. This
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/// method should not be used for precise timing due to anomalies such as
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/// preemption or platform differences that may not cause the maximum
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@ -175,11 +295,47 @@ impl Condvar {
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/// measured with a monotonic clock, and not affected by the changes made to
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/// the system time.
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///
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/// The returned `WaitTimeoutResult` value indicates if the timeout is
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/// The returned [`WaitTimeoutResult`] value indicates if the timeout is
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/// known to have elapsed.
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///
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/// Like `wait`, the lock specified will be re-acquired when this function
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/// Like [`wait`], the lock specified will be re-acquired when this function
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/// returns, regardless of whether the timeout elapsed or not.
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///
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/// [`wait`]: #method.wait
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/// [`WaitTimeoutResult`]: struct.WaitTimeoutResult.html
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///
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/// # Examples
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///
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/// ```
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/// use std::sync::{Arc, Mutex, Condvar};
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/// use std::thread;
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/// use std::time::Duration;
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///
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/// let pair = Arc::new((Mutex::new(false), Condvar::new()));
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/// let pair2 = pair.clone();
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///
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/// thread::spawn(move|| {
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/// let &(ref lock, ref cvar) = &*pair2;
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/// let mut started = lock.lock().unwrap();
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/// *started = true;
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/// // We notify the condvar that the value has changed.
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/// cvar.notify_one();
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/// });
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///
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/// // wait for the thread to start up
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/// let &(ref lock, ref cvar) = &*pair;
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/// let mut started = lock.lock().unwrap();
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/// // as long as the value inside the `Mutex` is false, we wait
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/// loop {
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/// let result = cvar.wait_timeout(started, Duration::from_millis(10)).unwrap();
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/// // 10 milliseconds have passed, or maybe the value changed!
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/// started = result.0;
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/// if *started == true {
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/// // We received the notification and the value has been updated, we can leave.
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/// break
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/// }
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/// }
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/// ```
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#[stable(feature = "wait_timeout", since = "1.5.0")]
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pub fn wait_timeout<'a, T>(&self, guard: MutexGuard<'a, T>,
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dur: Duration)
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@ -200,10 +356,40 @@ impl Condvar {
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/// Wakes up one blocked thread on this condvar.
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///
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/// If there is a blocked thread on this condition variable, then it will
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/// be woken up from its call to `wait` or `wait_timeout`. Calls to
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/// be woken up from its call to [`wait`] or [`wait_timeout`]. Calls to
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/// `notify_one` are not buffered in any way.
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///
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/// To wake up all threads, see `notify_all()`.
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/// To wake up all threads, see [`notify_all()`].
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///
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/// [`wait`]: #method.wait
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/// [`wait_timeout`]: #method.wait_timeout
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/// [`notify_all()`]: #method.notify_all
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///
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/// # Examples
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///
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/// ```
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/// use std::sync::{Arc, Mutex, Condvar};
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/// use std::thread;
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///
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/// let pair = Arc::new((Mutex::new(false), Condvar::new()));
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/// let pair2 = pair.clone();
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///
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/// thread::spawn(move|| {
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/// let &(ref lock, ref cvar) = &*pair2;
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/// let mut started = lock.lock().unwrap();
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/// *started = true;
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/// // We notify the condvar that the value has changed.
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/// cvar.notify_one();
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/// });
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///
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/// // Wait for the thread to start up.
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/// let &(ref lock, ref cvar) = &*pair;
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/// let mut started = lock.lock().unwrap();
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/// // As long as the value inside the `Mutex` is false, we wait.
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/// while !*started {
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/// started = cvar.wait(started).unwrap();
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/// }
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/// ```
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#[stable(feature = "rust1", since = "1.0.0")]
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pub fn notify_one(&self) {
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unsafe { self.inner.notify_one() }
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@ -215,7 +401,35 @@ impl Condvar {
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/// variable are awoken. Calls to `notify_all()` are not buffered in any
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/// way.
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///
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/// To wake up only one thread, see `notify_one()`.
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/// To wake up only one thread, see [`notify_one()`].
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///
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/// [`notify_one()`]: #method.notify_one
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///
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/// # Examples
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///
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/// ```
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/// use std::sync::{Arc, Mutex, Condvar};
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/// use std::thread;
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///
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/// let pair = Arc::new((Mutex::new(false), Condvar::new()));
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/// let pair2 = pair.clone();
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///
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/// thread::spawn(move|| {
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/// let &(ref lock, ref cvar) = &*pair2;
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/// let mut started = lock.lock().unwrap();
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/// *started = true;
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/// // We notify the condvar that the value has changed.
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/// cvar.notify_all();
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/// });
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///
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/// // Wait for the thread to start up.
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/// let &(ref lock, ref cvar) = &*pair;
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/// let mut started = lock.lock().unwrap();
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/// // As long as the value inside the `Mutex` is false, we wait.
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/// while !*started {
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/// started = cvar.wait(started).unwrap();
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/// }
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/// ```
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#[stable(feature = "rust1", since = "1.0.0")]
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pub fn notify_all(&self) {
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unsafe { self.inner.notify_all() }
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