Struct libpulse_binding::mainloop::threaded::Mainloop

pub struct Mainloop {
    pub _inner: Rc<MainloopInner<MainloopInternal>>,
}

This acts as a safe interface to the internal PA Mainloop.

The mainloop object pointers are further enclosed here in a ref counted wrapper, allowing this outer wrapper to have clean methods for creating event objects, which can cleanly pass a copy of the inner ref counted mainloop object to them. Giving this to events serves two purposes, firstly because they need the API pointer, secondly, it ensures that event objects do not outlive the mainloop object.

Fields

_inner: Rc<MainloopInner<MainloopInternal>>

The ref-counted inner data

Methods

impl Mainloop

pub fn new() -> Option<Self>

Allocate a new threaded main loop object.

You have to call start before the event loop thread starts running.

pub fn start(&mut self) -> Result<(), PAErr>

Start the event loop thread.

pub fn stop(&mut self)

Terminate the event loop thread cleanly. Make sure to unlock the mainloop object before calling this function.

pub fn lock(&mut self)

Lock the event loop object, effectively blocking the event loop thread from processing events. You can use this to enforce exclusive access to all objects attached to the event loop. This lock is recursive. This function may not be called inside the event loop thread. Events that are dispatched from the event loop thread are executed with this lock held.

pub fn unlock(&mut self)

Unlock the event loop object, inverse of lock.

pub fn wait(&mut self)

Wait for an event to be signalled by the event loop thread. You can use this to pass data from the event loop thread to the main thread in a synchronized fashion. This function may not be called inside the event loop thread. Prior to this call the event loop object needs to be locked using lock. While waiting the lock will be released. Immediately before returning it will be acquired again. This function may spuriously wake up even without signal being called. You need to make sure to handle that!

pub fn signal(&mut self, wait_for_accept: bool)

Signal all threads waiting for a signalling event in wait. If wait_for_accept is non-zero, do not return before the signal was accepted by an accept call. While waiting for that condition the event loop object is unlocked.

pub fn accept(&mut self)

Accept a signal from the event thread issued with signal.

This call should only be used in conjunction with signal with wait_for_accept as true.

pub fn get_retval(&self) -> Retval

Return the return value as specified with the main loop’s quit routine (used internally by threaded mainloop).

pub fn get_api<'a>(&self) -> &'a MainloopApi

Return the main loop abstraction layer vtable for this main loop.

There is no need to free this object as it is owned by the loop and is destroyed when the loop is freed.

Talking to PA directly with C requires fetching this pointer explicitly via this function. This is actually unnecessary through this binding. The pointer is retrieved automatically upon Mainloop creation, stored internally, and automatically obtained from it by functions that need it.

pub fn in_thread(&self) -> bool

Returns true when called from within the event loop thread.

pub fn set_name(&mut self, name: &str)

Sets the name of the thread.

Trait Implementations

impl Mainloop for Mainloop

type MI = MainloopInner<MainloopInternal>

fn inner(&self) -> Rc<MainloopInner<MainloopInternal>>

fn new_io_event(
    &mut self,
    fd: i32,
    events: IoEventFlagSet,
    callback: Box<dyn FnMut(IoEventRef<Self::MI>, i32, IoEventFlagSet) + 'static>
) -> Option<IoEvent<Self::MI>>

Create a new IO event

fn new_timer_event(
    &mut self,
    tv: &UnixTs,
    callback: Box<dyn FnMut(TimeEventRef<Self::MI>) + 'static>
) -> Option<TimeEvent<Self::MI>>

Create a new timer event

fn new_timer_event_rt(
    &mut self,
    t: MonotonicTs,
    callback: Box<dyn FnMut(TimeEventRef<Self::MI>) + 'static>
) -> Option<TimeEvent<Self::MI>>

Create a new monotonic-based timer event

fn new_deferred_event(
    &mut self,
    callback: Box<dyn FnMut(DeferEventRef<Self::MI>) + 'static>
) -> Option<DeferEvent<Self::MI>>

Create a new deferred event

fn once_event(&mut self, callback: Box<dyn FnMut() + 'static>)

Run the specified callback once from the main loop using an anonymous defer event. If the mainloop runs in a different thread, you need to follow the mainloop implementation’s rules regarding how to safely create defer events. In particular, if you’re using ::mainloop::threaded, you must lock the mainloop before calling this function.

fn quit(&mut self, retval: Retval)

Call quit

impl MainloopSignals for Mainloop

fn init_signals(&mut self) -> Result<(), PAErr>

Initialize the UNIX signal subsystem and bind it to the specified main loop

fn signals_done(&self)

Cleanup the signal subsystem