IPC::Run::Timer(3pm) User Contributed Perl Documentation IPC::Run::Timer(3pm)NAMEIPC::Run::Timer-- Timer channels for IPC::Run.
SYNOPSIS
use IPC::Run qw( run timer timeout );
## or IPC::Run::Timer ( timer timeout );
## or IPC::Run::Timer ( :all );
## A non-fatal timer:
$t = timer( 5 ); # or...
$t = IO::Run::Timer->new( 5 );
run $t, ...;
## A timeout (which is a timer that dies on expiry):
$t = timeout( 5 ); # or...
$t = IO::Run::Timer->new( 5, exception => "harness timed out" );
DESCRIPTION
This class and module allows timers and timeouts to be created for use
by IPC::Run. A timer simply expires when it's time is up. A timeout
is a timer that throws an exception when it expires.
Timeouts are usually a bit simpler to use than timers: they throw an
exception on expiration so you don't need to check them:
## Give @cmd 10 seconds to get started, then 5 seconds to respond
my $t = timeout( 10 );
$h = start(
\@cmd, \$in, \$out,
$t,
);
pump $h until $out =~ /prompt/;
$in = "some stimulus";
$out = '';
$t->time( 5 )
pump $h until $out =~ /expected response/;
You do need to check timers:
## Give @cmd 10 seconds to get started, then 5 seconds to respond
my $t = timer( 10 );
$h = start(
\@cmd, \$in, \$out,
$t,
);
pump $h until $t->is_expired || $out =~ /prompt/;
$in = "some stimulus";
$out = '';
$t->time( 5 )
pump $h until $out =~ /expected response/ || $t->is_expired;
Timers and timeouts that are reset get started by start() and pump().
Timers change state only in pump(). Since run() and finish() both call
pump(), they act like pump() with repect to timers.
Timers and timeouts have three states: reset, running, and expired.
Setting the timeout value resets the timer, as does calling the reset()
method. The start() method starts (or restarts) a timer with the most
recently set time value, no matter what state it's in.
Time values
All time values are in seconds. Times may be specified as integer or
floating point seconds, optionally preceded by puncuation-separated
days, hours, and minutes.\
Examples:
1 1 second
1.1 1.1 seconds
60 60 seconds
1:0 1 minute
1:1 1 minute, 1 second
1:90 2 minutes, 30 seconds
1:2:3:4.5 1 day, 2 hours, 3 minutes, 4.5 seconds
Absolute date/time strings are *not* accepted: year, month and day-of-
month parsing is not available (patches welcome :-).
Interval fudging
When calculating an end time from a start time and an interval,
IPC::Run::Timer instances add a little fudge factor. This is to ensure
that no time will expire before the interval is up.
First a little background. Time is sampled in discrete increments.
We'll call the exact moment that the reported time increments from one
interval to the next a tick, and the interval between ticks as the time
period. Here's a diagram of three ticks and the periods between them:
-0-0-0-0-0-0-0-0-0-0-1-1-1-1-1-1-1-1-1-1-2-...
^ ^ ^
|<--- period 0 ---->|<--- period 1 ---->|
| | |
tick 0 tick 1 tick 2
To see why the fudge factor is necessary, consider what would happen
when a timer with an interval of 1 second is started right at the end
of period 0:
-0-0-0-0-0-0-0-0-0-0-1-1-1-1-1-1-1-1-1-1-2-...
^ ^ ^ ^
| | | |
| | | |
tick 0 |tick 1 tick 2
|
start $t
Assuming that check() is called many times per period, then the timer
is likely to expire just after tick 1, since the time reported will
have lept from the value '0' to the value '1':
-0-0-0-0-0-0-0-0-0-0-1-1-1-1-1-1-1-1-1-1-2-...
^ ^ ^ ^ ^
| | | | |
| | | | |
tick 0 |tick 1| tick 2
| |
start $t |
|
check $t
Adding a fudge of '1' in this example means that the timer is
guaranteed not to expire before tick 2.
The fudge is not added to an interval of '0'.
This means that intervals guarantee a minimum interval. Given that the
process running perl may be suspended for some period of time, or that
it gets busy doing something time-consuming, there are no other
guarantees on how long it will take a timer to expire.
SUBCLASSING
INCOMPATIBLE CHANGE: Due to the awkwardness introduced by ripping
pseudohashes out of Perl, this class no longer uses the fields pragma.
FUNCTIONS & METHODS
timer
A constructor function (not method) of IPC::Run::Timer instances:
$t = timer( 5 );
$t = timer( 5, name => 'stall timer', debug => 1 );
$t = timer;
$t->interval( 5 );
run ..., $t;
run ..., $t = timer( 5 );
This convenience function is a shortened spelling of
IPC::Run::Timer->new( ... );
. It returns a timer in the reset state with a given interval.
If an exception is provided, it will be thrown when the timer
notices that it has expired (in check()). The name is for
debugging usage, if you plan on having multiple timers around. If
no name is provided, a name like "timer #1" will be provided.
timeout
A constructor function (not method) of IPC::Run::Timer instances:
$t = timeout( 5 );
$t = timeout( 5, exception => "kablooey" );
$t = timeout( 5, name => "stall", exception => "kablooey" );
$t = timeout;
$t->interval( 5 );
run ..., $t;
run ..., $t = timeout( 5 );
A This convenience function is a shortened spelling of
IPC::Run::Timer->new( exception => "IPC::Run: timeout ...", ... );
. It returns a timer in the reset state that will throw an
exception when it expires.
Takes the same parameters as "timer", any exception passed in
overrides the default exception.
new
IPC::Run::Timer->new() ;
IPC::Run::Timer->new( 5 ) ;
IPC::Run::Timer->new( 5, exception => 'kablooey' ) ;
Constructor. See "timer" for details.
check
check $t;
check $t, $now;
$t->check;
Checks to see if a timer has expired since the last check. Has no
effect on non-running timers. This will throw an exception if one
is defined.
IPC::Run::pump() calls this routine for any timers in the harness.
You may pass in a version of now, which is useful in case you have
it lying around or you want to check several timers with a
consistent concept of the current time.
Returns the time left before end_time or 0 if end_time is no longer
in the future or the timer is not running (unless, of course,
check()expire()s the timer and this results in an exception being
thrown).
Returns undef if the timer is not running on entry, 0 if check()
expires it, and the time left if it's left running.
debug
Sets/gets the current setting of the debugging flag for this timer.
This has no effect if debugging is not enabled for the current
harness.
end_time
$et = $t->end_time;
$et = end_time $t;
$t->end_time( time + 10 );
Returns the time when this timer will or did expire. Even if this
time is in the past, the timer may not be expired, since check()
may not have been called yet.
Note that this end_time is not start_time($t) + interval($t), since
some small extra amount of time is added to make sure that the
timer does not expire before interval() elapses. If this were not
so, then
Changing end_time() while a timer is running will set the
expiration time. Changing it while it is expired has no affect,
since reset()ing a timer always clears the end_time().
exception
$x = $t->exception;
$t->exception( $x );
$t->exception( undef );
Sets/gets the exception to throw, if any. 'undef' means that no
exception will be thrown. Exception does not need to be a scalar:
you may ask that references be thrown.
interval
$i = interval $t;
$i = $t->interval;
$t->interval( $i );
Sets the interval. Sets the end time based on the start_time() and
the interval (and a little fudge) if the timer is running.
expire
expire $t;
$t->expire;
Sets the state to expired (undef). Will throw an exception if one
is defined and the timer was not already expired. You can expire a
reset timer without starting it.
is_running
is_reset
is_expired
name
Sets/gets this timer's name. The name is only used for debugging
purposes so you can tell which freakin' timer is doing what.
reset
reset $t;
$t->reset;
Resets the timer to the non-running, non-expired state and clears
the end_time().
start
start $t;
$t->start;
start $t, $interval;
start $t, $interval, $now;
Starts or restarts a timer. This always sets the start_time. It
sets the end_time based on the interval if the timer is running or
if no end time has been set.
You may pass an optional interval or current time value.
Not passing a defined interval causes the previous interval setting
to be re-used unless the timer is reset and an end_time has been
set (an exception is thrown if no interval has been set).
Not passing a defined current time value causes the current time to
be used.
Passing a current time value is useful if you happen to have a time
value lying around or if you want to make sure that several timers
are started with the same concept of start time. You might even
need to lie to an IPC::Run::Timer, occasionally.
start_time
Sets/gets the start time, in seconds since the epoch. Setting this
manually is a bad idea, it's better to call "start"() at the
correct time.
state
$s = state $t;
$t->state( $s );
Get/Set the current state. Only use this if you really need to
transfer the state to/from some variable. Use "expire", "start",
"reset", "is_expired", "is_running", "is_reset".
Note: Setting the state to 'undef' to expire a timer will not
throw an exception.
TODO
use Time::HiRes; if it's present.
Add detection and parsing of [[[HH:]MM:]SS formatted times and
intervals.
AUTHOR
Barrie Slaymaker <barries@slaysys.com>
perl v5.14.2 2012-01-16 IPC::Run::Timer(3pm)