Documentation

ExtLibevLoop
in package
implements LoopInterface

FinalYes

[Deprecated] An `ext-libev` based event loop.

This uses an unofficial libev extension, that provides an interface to libev library. libev itself supports a number of system-specific backends (epoll, kqueue).

This loop does only work with PHP 5. An update for PHP 7 is unlikely to happen any time soon.

Tags
see
https://github.com/m4rw3r/php-libev
see
https://gist.github.com/1688204

Table of Contents

Interfaces

LoopInterface

Properties

$futureTickQueue  : mixed
$loop  : mixed
$readEvents  : mixed
$running  : mixed
$signalEvents  : mixed
$signals  : mixed
$timerEvents  : mixed
$writeEvents  : mixed

Methods

__construct()  : mixed
addPeriodicTimer()  : TimerInterface
Enqueue a callback to be invoked repeatedly after the given interval.
addReadStream()  : mixed
[Advanced] Register a listener to be notified when a stream is ready to read.
addSignal()  : void
Register a listener to be notified when a signal has been caught by this process.
addTimer()  : TimerInterface
Enqueue a callback to be invoked once after the given interval.
addWriteStream()  : mixed
[Advanced] Register a listener to be notified when a stream is ready to write.
cancelTimer()  : void
Cancel a pending timer.
futureTick()  : void
Schedule a callback to be invoked on a future tick of the event loop.
removeReadStream()  : mixed
Remove the read event listener for the given stream.
removeSignal()  : void
Removes a previously added signal listener.
removeWriteStream()  : mixed
Remove the write event listener for the given stream.
run()  : void
Run the event loop until there are no more tasks to perform.
stop()  : void
Instruct a running event loop to stop.

Properties

Methods

addPeriodicTimer()

Enqueue a callback to be invoked repeatedly after the given interval.

public addPeriodicTimer(mixed $interval, mixed $callback) : TimerInterface

The second parameter MUST be a timer callback function that accepts the timer instance as its only parameter. If you don't use the timer instance inside your timer callback function you MAY use a function which has no parameters at all.

The timer callback function MUST NOT throw an Exception. The return value of the timer callback function will be ignored and has no effect, so for performance reasons you're recommended to not return any excessive data structures.

This method returns a timer instance. The same timer instance will also be passed into the timer callback function as described above. Unlike addTimer(), this method will ensure the callback will be invoked infinitely after the given interval or until you invoke cancelTimer.

$timer = $loop->addPeriodicTimer(0.1, function () {
    echo 'tick!' . PHP_EOL;
});

$loop->addTimer(1.0, function () use ($loop, $timer) {
    $loop->cancelTimer($timer);
    echo 'Done' . PHP_EOL;
});

See also example #2.

If you want to limit the number of executions, you can bind arbitrary data to a callback closure like this:

function hello($name, LoopInterface $loop)
{
    $n = 3;
    $loop->addPeriodicTimer(1.0, function ($timer) use ($name, $loop, &$n) {
        if ($n > 0) {
            --$n;
            echo "hello $name\n";
        } else {
            $loop->cancelTimer($timer);
        }
    });
}

hello('Tester', $loop);

This interface does not enforce any particular timer resolution, so special care may have to be taken if you rely on very high precision with millisecond accuracy or below. Event loop implementations SHOULD work on a best effort basis and SHOULD provide at least millisecond accuracy unless otherwise noted. Many existing event loop implementations are known to provide microsecond accuracy, but it's generally not recommended to rely on this high precision.

Similarly, the execution order of timers scheduled to execute at the same time (within its possible accuracy) is not guaranteed.

This interface suggests that event loop implementations SHOULD use a monotonic time source if available. Given that a monotonic time source is only available as of PHP 7.3 by default, event loop implementations MAY fall back to using wall-clock time. While this does not affect many common use cases, this is an important distinction for programs that rely on a high time precision or on systems that are subject to discontinuous time adjustments (time jumps). This means that if you schedule a timer to trigger in 30s and then adjust your system time forward by 20s, the timer SHOULD still trigger in 30s. See also event loop implementations for more details.

Additionally, periodic timers may be subject to timer drift due to re-scheduling after each invocation. As such, it's generally not recommended to rely on this for high precision intervals with millisecond accuracy or below.

Parameters
$interval : mixed

The number of seconds to wait before execution.

$callback : mixed

The callback to invoke.

Return values
TimerInterface

addReadStream()

[Advanced] Register a listener to be notified when a stream is ready to read.

public addReadStream(mixed $stream, mixed $listener) : mixed

Note that this low-level API is considered advanced usage. Most use cases should probably use the higher-level readable Stream API instead.

The first parameter MUST be a valid stream resource that supports checking whether it is ready to read by this loop implementation. A single stream resource MUST NOT be added more than once. Instead, either call removeReadStream() first or react to this event with a single listener and then dispatch from this listener. This method MAY throw an Exception if the given resource type is not supported by this loop implementation.

The second parameter MUST be a listener callback function that accepts the stream resource as its only parameter. If you don't use the stream resource inside your listener callback function you MAY use a function which has no parameters at all.

The listener callback function MUST NOT throw an Exception. The return value of the listener callback function will be ignored and has no effect, so for performance reasons you're recommended to not return any excessive data structures.

If you want to access any variables within your callback function, you can bind arbitrary data to a callback closure like this:

$loop->addReadStream($stream, function ($stream) use ($name) {
    echo $name . ' said: ' . fread($stream);
});

See also example #11.

You can invoke removeReadStream() to remove the read event listener for this stream.

The execution order of listeners when multiple streams become ready at the same time is not guaranteed.

Parameters
$stream : mixed

The PHP stream resource to check.

$listener : mixed

Invoked when the stream is ready.

addSignal()

Register a listener to be notified when a signal has been caught by this process.

public addSignal(mixed $signal, mixed $listener) : void

This is useful to catch user interrupt signals or shutdown signals from tools like supervisor or systemd.

The second parameter MUST be a listener callback function that accepts the signal as its only parameter. If you don't use the signal inside your listener callback function you MAY use a function which has no parameters at all.

The listener callback function MUST NOT throw an Exception. The return value of the listener callback function will be ignored and has no effect, so for performance reasons you're recommended to not return any excessive data structures.

$loop->addSignal(SIGINT, function (int $signal) {
    echo 'Caught user interrupt signal' . PHP_EOL;
});

See also example #4.

Signaling is only available on Unix-like platforms, Windows isn't supported due to operating system limitations. This method may throw a BadMethodCallException if signals aren't supported on this platform, for example when required extensions are missing.

Note: A listener can only be added once to the same signal, any attempts to add it more than once will be ignored.

Parameters
$signal : mixed
$listener : mixed

addTimer()

Enqueue a callback to be invoked once after the given interval.

public addTimer(mixed $interval, mixed $callback) : TimerInterface

The second parameter MUST be a timer callback function that accepts the timer instance as its only parameter. If you don't use the timer instance inside your timer callback function you MAY use a function which has no parameters at all.

The timer callback function MUST NOT throw an Exception. The return value of the timer callback function will be ignored and has no effect, so for performance reasons you're recommended to not return any excessive data structures.

This method returns a timer instance. The same timer instance will also be passed into the timer callback function as described above. You can invoke cancelTimer to cancel a pending timer. Unlike addPeriodicTimer(), this method will ensure the callback will be invoked only once after the given interval.

$loop->addTimer(0.8, function () {
    echo 'world!' . PHP_EOL;
});

$loop->addTimer(0.3, function () {
    echo 'hello ';
});

See also example #1.

If you want to access any variables within your callback function, you can bind arbitrary data to a callback closure like this:

function hello($name, LoopInterface $loop)
{
    $loop->addTimer(1.0, function () use ($name) {
        echo "hello $name\n";
    });
}

hello('Tester', $loop);

This interface does not enforce any particular timer resolution, so special care may have to be taken if you rely on very high precision with millisecond accuracy or below. Event loop implementations SHOULD work on a best effort basis and SHOULD provide at least millisecond accuracy unless otherwise noted. Many existing event loop implementations are known to provide microsecond accuracy, but it's generally not recommended to rely on this high precision.

Similarly, the execution order of timers scheduled to execute at the same time (within its possible accuracy) is not guaranteed.

This interface suggests that event loop implementations SHOULD use a monotonic time source if available. Given that a monotonic time source is only available as of PHP 7.3 by default, event loop implementations MAY fall back to using wall-clock time. While this does not affect many common use cases, this is an important distinction for programs that rely on a high time precision or on systems that are subject to discontinuous time adjustments (time jumps). This means that if you schedule a timer to trigger in 30s and then adjust your system time forward by 20s, the timer SHOULD still trigger in 30s. See also event loop implementations for more details.

Parameters
$interval : mixed

The number of seconds to wait before execution.

$callback : mixed

The callback to invoke.

Return values
TimerInterface

addWriteStream()

[Advanced] Register a listener to be notified when a stream is ready to write.

public addWriteStream(mixed $stream, mixed $listener) : mixed

Note that this low-level API is considered advanced usage. Most use cases should probably use the higher-level writable Stream API instead.

The first parameter MUST be a valid stream resource that supports checking whether it is ready to write by this loop implementation. A single stream resource MUST NOT be added more than once. Instead, either call removeWriteStream() first or react to this event with a single listener and then dispatch from this listener. This method MAY throw an Exception if the given resource type is not supported by this loop implementation.

The second parameter MUST be a listener callback function that accepts the stream resource as its only parameter. If you don't use the stream resource inside your listener callback function you MAY use a function which has no parameters at all.

The listener callback function MUST NOT throw an Exception. The return value of the listener callback function will be ignored and has no effect, so for performance reasons you're recommended to not return any excessive data structures.

If you want to access any variables within your callback function, you can bind arbitrary data to a callback closure like this:

$loop->addWriteStream($stream, function ($stream) use ($name) {
    fwrite($stream, 'Hello ' . $name);
});

See also example #12.

You can invoke removeWriteStream() to remove the write event listener for this stream.

The execution order of listeners when multiple streams become ready at the same time is not guaranteed.

Some event loop implementations are known to only trigger the listener if the stream becomes readable (edge-triggered) and may not trigger if the stream has already been readable from the beginning. This also implies that a stream may not be recognized as readable when data is still left in PHP's internal stream buffers. As such, it's recommended to use stream_set_read_buffer($stream, 0); to disable PHP's internal read buffer in this case.

Parameters
$stream : mixed

The PHP stream resource to check.

$listener : mixed

Invoked when the stream is ready.

futureTick()

Schedule a callback to be invoked on a future tick of the event loop.

public futureTick(mixed $listener) : void

This works very much similar to timers with an interval of zero seconds, but does not require the overhead of scheduling a timer queue.

The tick callback function MUST be able to accept zero parameters.

The tick callback function MUST NOT throw an Exception. The return value of the tick callback function will be ignored and has no effect, so for performance reasons you're recommended to not return any excessive data structures.

If you want to access any variables within your callback function, you can bind arbitrary data to a callback closure like this:

function hello($name, LoopInterface $loop)
{
    $loop->futureTick(function () use ($name) {
        echo "hello $name\n";
    });
}

hello('Tester', $loop);

Unlike timers, tick callbacks are guaranteed to be executed in the order they are enqueued. Also, once a callback is enqueued, there's no way to cancel this operation.

This is often used to break down bigger tasks into smaller steps (a form of cooperative multitasking).

$loop->futureTick(function () {
    echo 'b';
});
$loop->futureTick(function () {
    echo 'c';
});
echo 'a';

See also example #3.

Parameters
$listener : mixed

The callback to invoke.

removeReadStream()

Remove the read event listener for the given stream.

public removeReadStream(mixed $stream) : mixed

Removing a stream from the loop that has already been removed or trying to remove a stream that was never added or is invalid has no effect.

Parameters
$stream : mixed

The PHP stream resource.

removeSignal()

Removes a previously added signal listener.

public removeSignal(mixed $signal, mixed $listener) : void
$loop->removeSignal(SIGINT, $listener);

Any attempts to remove listeners that aren't registered will be ignored.

Parameters
$signal : mixed
$listener : mixed

removeWriteStream()

Remove the write event listener for the given stream.

public removeWriteStream(mixed $stream) : mixed

Removing a stream from the loop that has already been removed or trying to remove a stream that was never added or is invalid has no effect.

Parameters
$stream : mixed

The PHP stream resource.

run()

Run the event loop until there are no more tasks to perform.

public run() : void

For many applications, this method is the only directly visible invocation on the event loop. As a rule of thumb, it is usually recommended to attach everything to the same loop instance and then run the loop once at the bottom end of the application.

$loop->run();

This method will keep the loop running until there are no more tasks to perform. In other words: This method will block until the last timer, stream and/or signal has been removed.

Likewise, it is imperative to ensure the application actually invokes this method once. Adding listeners to the loop and missing to actually run it will result in the application exiting without actually waiting for any of the attached listeners.

This method MUST NOT be called while the loop is already running. This method MAY be called more than once after it has explicitly been stop()ped or after it automatically stopped because it previously did no longer have anything to do.

stop()

Instruct a running event loop to stop.

public stop() : void

This method is considered advanced usage and should be used with care. As a rule of thumb, it is usually recommended to let the loop stop only automatically when it no longer has anything to do.

This method can be used to explicitly instruct the event loop to stop:

$loop->addTimer(3.0, function () use ($loop) {
    $loop->stop();
});

Calling this method on a loop instance that is not currently running or on a loop instance that has already been stopped has no effect.


        
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