Provided by: libcoro-perl_6.570-3build3_amd64 
NAME
Coro::AnyEvent - integrate threads into AnyEvent
SYNOPSIS
use Coro;
use AnyEvent;
# using both Coro and AnyEvent will automatically load Coro::AnyEvent
# or load it manually for its utility functions:
use Coro::AnyEvent;
Coro::AnyEvent::sleep 5; # block current thread for 5s
Coro::AnyEvent::poll; # poll for new events once
Coro::AnyEvent::idle; # block until process no longer busy
Coro::AnyEvent::idle_upto 5; # same, but only up to 5 seconds
Coro::AnyEvent::readable $fh, 60
or die "fh didn't become readable within 60 seconds\n";
DESCRIPTION
When one naively starts to use threads in Perl, one will quickly run into the problem that threads which
block on a syscall (sleeping, reading from a socket etc.) will block all threads.
If one then uses an event loop, the problem is that the event loop has no knowledge of threads and will
not run them before it polls for new events, again blocking the whole process.
This module integrates threads into any event loop supported by AnyEvent, combining event-based
programming with coroutine-based programming in a natural way.
As of Coro 5.21 and newer, this module gets loaded automatically when AnyEvent initialises itself and
Coro is used in the same process, thus there is no need to load it manually if you just want your threads
to coexist with AnyEvent.
If you want to use any functions from this module, you of course still need to "use Coro::AnyEvent", just
as with other perl modules.
Also, this module autodetects the event loop used (by relying on AnyEvent) and will either automatically
defer to the high-performance Coro::EV or Coro::Event modules, or will use a generic integration method
that should work with any event loop supported by AnyEvent.
USAGE
RUN AN EVENT LOOP - OR NOT?
For performance reasons, it is recommended that the main program or something else run the event loop of
the event model you use, i.e.
use Gtk2; # <- the event model
use AnyEvent;
use Coro:
# initialise stuff
async { ... };
# now run mainloop of Gtk2
main Gtk2;
You can move the event loop into a thread as well, although this tends to get confusing:
use Gtk2;
use AnyEvent;
use Coro:
async { main Gtk2 };
# do other things...
while () {
use Coro::AnyEvent;
Coro::AnyEvent::sleep 1;
print "ping...\n";
}
You can also do nothing, in which case Coro::AnyEvent will invoke the event loop as needed, which is less
efficient, but sometimes very convenient.
What you MUST NOT EVER DO is to block inside an event loop callback. The reason is that most event loops
are not reentrant and this can cause a deadlock at best and corrupt memory at worst.
Coro will try to catch you when you block in the event loop ("FATAL: $Coro::IDLE blocked itself"), but
this is just best effort and only works when you do not run your own event loop.
To avoid this problem, start a new thread (e.g. with "Coro::async_pool") or use "Coro::unblock_sub" to
run blocking tasks.
INVERSION OF CONTROL
If you need to wait for a single event, the rouse functions will come in handy (see the Coro manpage for
details):
# wait for single SIGINT
{
my $int_w = AnyEvent->signal (signal => "INT", cb => Coro::rouse_cb);
Coro::rouse_wait;
}
EVENT MODULES OTHER THAN ANYEVENT
Keep in mind that, as shipped, Coro and Coro::AnyEvent only work with AnyEvent, and only when AnyEvent is
actually used (i.e. initialised), so this will not work:
# does not work: EV without AnyEvent is not recognised
use EV;
use Coro;
EV::loop;
And neither does this, unless you actually use AnyEvent for something:
# does not work: AnyEvent must be initialised (e.g. by creating watchers)
use EV;
use AnyEvent;
use Coro;
EV::loop;
This does work, however, because you create a watcher (condvars work, too), thus forcing AnyEvent to
initialise itself:
# does work: AnyEvent is actually used
use EV;
use AnyEvent;
use Coro;
my $timer = AE::timer 1, 1, sub { };
EV::loop;
And if you want to use AnyEvent just to bridge between Coro and your event model of choice, you can
simply force it to initialise itself, like this:
# does work: AnyEvent is initialised manually
use POE;
use AnyEvent;
use Coro;
AnyEvent::detect; # force AnyEvent to integrate Coro into POE
POE::Kernel->run;
FUNCTIONS
Coro::AnyEvent also offers a few functions that might be useful.
Coro::AnyEvent::poll
This call will block the current thread until the event loop has polled for potential new events and
instructs the event loop to poll for new events once, without blocking.
Note that this call will not actually execute the poll, nor will it wait until there are some events,
just block until the event loop has polled for new events, so other threads will have a chance to
run.
This is useful when you have a thread that does some computations, but you still want to poll for new
events from time to time. Simply call "poll" from time to time:
my $long_calc = async {
for (1..10000) {
Coro::AnyEvent::poll;
# do some stuff, make sure it takes at least 0.001s or so
}
}
Although you should also consider "idle" or "idle_upto" in such cases.
Coro::AnyEvent::sleep $seconds
This blocks the current thread for at least the given number of seconds.
Coro::AnyEvent::idle
This call is similar to "poll" in that it will also poll for events. Unlike "poll", it will only
resume the thread once there are no events to handle anymore, i.e. when the process is otherwise
idle.
This is good for background threads that shouldn't use CPU time when foreground jobs are ready to
run.
Coro::AnyEvent::idle_upto $seconds
Like "idle", but with a maximum waiting time.
If your process is busy handling events, calling "idle" can mean that your thread will never be
resumed. To avoid this, you can use "idle_upto" and specify a timeout, after which your thread will
be resumed even if the process is completely busy.
Coro::AnyEvent::readable $fh_or_fileno[, $timeout]
Coro::AnyEvent::writable $fh_or_fileno[, $timeout]
Blocks the current thread until the given file handle (or file descriptor) becomes readable (or
writable), or the given timeout has elapsed, whichever happens first. No timeout counts as infinite
timeout.
Returns true when the file handle became ready, false when a timeout occurred.
Note that these functions are quite inefficient as compared to using a single watcher (they recreate
watchers on every invocation) or compared to using Coro::Handle.
Note also that they only work for sources that have reasonable non-blocking behaviour (e.g. not
files).
Example: wait until STDIN becomes readable, then quit the program.
use Coro::AnyEvent;
print "press enter to quit...\n";
Coro::AnyEvent::readable *STDIN;
exit 0;
IMPLEMENTATION DETAILS
Unfortunately, few event loops (basically only EV and Event) support the kind of integration required for
smooth operations well, and consequently, AnyEvent cannot completely offer the functionality required by
this module, so we need to improvise.
Here is what this module does when it has to work with other event loops:
• run ready threads before blocking the process
Each time a thread is put into the ready queue (and there are no other threads in the ready queue), a
timer with an "after" value of 0 is registered with AnyEvent.
This creates something similar to an idle watcher, i.e. a watcher that keeps the event loop from
blocking but still polls for new events. (Unfortunately, some badly designed event loops (e.g.
Event::Lib) don't support a timeout of 0 and will always block for a bit).
The callback for that timer will "cede" to other threads of the same or higher priority for as long
as such threads exists. This has the effect of running all threads that have work to do until all
threads block to wait for external events.
If no threads of equal or higher priority are ready, it will cede to any thread, but only once. This
has the effect of running lower-priority threads as well, but it will not keep higher priority
threads from receiving new events.
The priority used is simply the priority of the thread that runs the event loop, usually the main
program, which usually has a priority of 0. Note that Coro::AnyEvent does not run an event loop for
you, so unless the main program runs one, there will simply be no event loop to "cede" to (event
handling will still work, somewhat inefficiently, but any thread will have a higher priority than
event handling in that case).
• provide a suitable idle callback.
In addition to hooking into "ready", this module will also provide a $Coro::idle handler that runs
the event loop. It is best not to take advantage of this too often, as this is rather inefficient,
but it should work perfectly fine.
• provide overrides for AnyEvent's condvars
This module installs overrides for AnyEvent's condvars. That is, when the module is loaded it will
provide its own condition variables. This makes them coroutine-safe, i.e. you can safely block on
them from within a coroutine.
• lead to data corruption or worse
As "unblock_sub" cannot be used by this module (as it is the module that implements it, basically),
you must not call into the event loop recursively from any coroutine. This is not usually a difficult
restriction to live with, just use condvars, "unblock_sub" or other means of inter-coroutine-
communications.
If you use a module that supports AnyEvent (or uses the same event loop as AnyEvent, making it
implicitly compatible), and it offers callbacks of any kind, then you must not block in them, either
(or use e.g. "unblock_sub"), see the description of "unblock_sub" in the Coro module.
This also means that you should load the module as early as possible, as only condvars created after
this module has been loaded will work correctly.
SEE ALSO
AnyEvent, to see which event loops are supported, Coro::EV and Coro::Event for more efficient and more
correct solutions (they will be used automatically if applicable).
AUTHOR/SUPPORT/CONTACT
Marc A. Lehmann <schmorp@schmorp.de>
http://software.schmorp.de/pkg/Coro.html