(PECL ev >= 0.2.0)
Periodic watchers are also timers of a kind, but they are very versatile.
Unlike EvTimer , EvPeriodic watchers are not based on real time(or relative time, the physical time that passes) but on wall clock time(absolute time, calendar or clock). The difference is that wall clock time can run faster or slower than real time, and time jumps are not uncommon(e.g. when adjusting it).
EvPeriodic
watcher can be configured to trigger after some specific point in time.
For example, if an
EvPeriodic
watcher is configured to trigger
"in 10 seconds"
(e.g.
EvLoop::now()
+
10.0
, i.e. an absolute time, not a delay), and the system clock is reset to
January of the previous year
, then it will take a year or more to trigger the event (unlike an
EvTimer
, which would still trigger roughly
10
seconds after starting it as it uses a relative timeout).
As with timers, the callback is guaranteed to be invoked only when the point in time where it is supposed to trigger has passed. If multiple timers become ready during the same loop iteration then the ones with earlier time-out values are invoked before ones with later time-out values (but this is no longer true when a callback calls EvLoop::run() recursively).
$offset
,
string
$interval
,
callable
$reschedule_cb
,
callable
$callback
[,
mixed
$data
= NULL
[,
int
$priority
= 0
]] )$offset
,
float
$interval
,
callable
$reschedule_cb
,
callable
$callback
[,
mixed
$data
= NULL
[,
int
$priority
= 0
]] )When repeating, this contains the offset value, otherwise this is the absolute point in time(the offset value passed to EvPeriodic::set() , although libev might modify this value for better numerical stability).
The current interval value. Can be modified any time, but changes only take effect when the periodic timer fires or EvPeriodic::again() is being called.