For the latest stable version, please use Emilua API 0.10!

condition_variable

local condition_variable = require('condition_variable')

local function queue_consumer()
    scope(function()
        scope_cleanup_push(function() queue_mtx:unlock() end)
        queue_mtx:lock()
        while #queue == 0 do
            queue_cond:wait(queue_mtx)
        end
        for _, e in ipairs(queue) do
            consume_item(e)
        end
        queue = {}
    end)
end

A condition variable.

Functions

new() → condition_variable

Constructor.

wait(self, m: mutex)

Read pthread_cond_wait()

wait() is an interruption point. Prior to the delivery of the interruption request, the underlying mutex is re-acquired under the hood.

notify_all(self)

Read pthread_cond_broadcast().

notify_one(self)

Read pthread_cond_signal().

Notifying without a lock

If the condition variable, the notifier fiber and the waiting fiber all run in the same thread (and cooperative multitasking is used instead preemptive multitasking), then there is enough level of determinism to lift one restriction that exists in traditional condition variables.

Even if the shared variable is atomic, it must be modified under the mutex in order to correctly publish the modification to the waiting thread.

The reason why this restriction on the notifier fiber/thread exists is to avoid a race. Consider the following waiter fiber and the notifier fiber:

local function consumer()
    scope(function()
        scope_cleanup_push(function() m:unlock() end)
        m:lock()
        while not ready do
            c:wait(m)
        end

        -- ...
    end)
end

local function producer()
    ready = true
    c:notify_one()
end

Pay attention to the points when the waiter fiber checks if the event has been signalled by testing ready and the instant it blocks on c.wait(). If the notifier fiber mutates the shared variable and calls c.notify_one() between these two points, then the signalization is lost. c.notify_one() would be called by the time there would be no fiber blocked on c.wait(). That’s why the notifier fiber need to mutate the shared variable through a mutex.

In Emilua, this restriction doesn’t apply (as long as there are no suspension points between the time the waiting fiber tests the condition and calls c.wait()) and the notifier fiber can mutate the shared variable without holding a lock on the mutex. In this case, the condition variable essentially becomes a non-suspending way (post semantics) to unpark a parked fiber (yes, I’ve exploited this property in the past to avoid a few round-trips).