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+package Time::HiRes;
+
+use strict;
+use vars qw($VERSION $XS_VERSION @ISA @EXPORT @EXPORT_OK $AUTOLOAD);
+
+require Exporter;
+require DynaLoader;
+
+@ISA = qw(Exporter DynaLoader);
+
+@EXPORT = qw( );
+@EXPORT_OK = qw (usleep sleep ualarm alarm gettimeofday time tv_interval
+ getitimer setitimer nanosleep clock_gettime clock_getres
+ clock clock_nanosleep
+ CLOCK_HIGHRES CLOCK_MONOTONIC CLOCK_PROCESS_CPUTIME_ID
+ CLOCK_REALTIME CLOCK_SOFTTIME CLOCK_THREAD_CPUTIME_ID
+ CLOCK_TIMEOFDAY CLOCKS_PER_SEC
+ ITIMER_REAL ITIMER_VIRTUAL ITIMER_PROF ITIMER_REALPROF
+ TIMER_ABSTIME
+ d_usleep d_ualarm d_gettimeofday d_getitimer d_setitimer
+ d_nanosleep d_clock_gettime d_clock_getres
+ d_clock d_clock_nanosleep
+ stat
+ );
+
+$VERSION = '1.9719';
+$XS_VERSION = $VERSION;
+$VERSION = eval $VERSION;
+
+sub AUTOLOAD {
+ my $constname;
+ ($constname = $AUTOLOAD) =~ s/.*:://;
+ # print "AUTOLOAD: constname = $constname ($AUTOLOAD)\n";
+ die "&Time::HiRes::constant not defined" if $constname eq 'constant';
+ my ($error, $val) = constant($constname);
+ # print "AUTOLOAD: error = $error, val = $val\n";
+ if ($error) {
+ my (undef,$file,$line) = caller;
+ die "$error at $file line $line.\n";
+ }
+ {
+ no strict 'refs';
+ *$AUTOLOAD = sub { $val };
+ }
+ goto &$AUTOLOAD;
+}
+
+sub import {
+ my $this = shift;
+ for my $i (@_) {
+ if (($i eq 'clock_getres' && !&d_clock_getres) ||
+ ($i eq 'clock_gettime' && !&d_clock_gettime) ||
+ ($i eq 'clock_nanosleep' && !&d_clock_nanosleep) ||
+ ($i eq 'clock' && !&d_clock) ||
+ ($i eq 'nanosleep' && !&d_nanosleep) ||
+ ($i eq 'usleep' && !&d_usleep) ||
+ ($i eq 'ualarm' && !&d_ualarm)) {
+ require Carp;
+ Carp::croak("Time::HiRes::$i(): unimplemented in this platform");
+ }
+ }
+ Time::HiRes->export_to_level(1, $this, @_);
+}
+
+bootstrap Time::HiRes;
+
+# Preloaded methods go here.
+
+sub tv_interval {
+ # probably could have been done in C
+ my ($a, $b) = @_;
+ $b = [gettimeofday()] unless defined($b);
+ (${$b}[0] - ${$a}[0]) + ((${$b}[1] - ${$a}[1]) / 1_000_000);
+}
+
+# Autoload methods go after =cut, and are processed by the autosplit program.
+
+1;
+__END__
+
+=head1 NAME
+
+Time::HiRes - High resolution alarm, sleep, gettimeofday, interval timers
+
+=head1 SYNOPSIS
+
+ use Time::HiRes qw( usleep ualarm gettimeofday tv_interval nanosleep
+ clock_gettime clock_getres clock_nanosleep clock
+ stat );
+
+ usleep ($microseconds);
+ nanosleep ($nanoseconds);
+
+ ualarm ($microseconds);
+ ualarm ($microseconds, $interval_microseconds);
+
+ $t0 = [gettimeofday];
+ ($seconds, $microseconds) = gettimeofday;
+
+ $elapsed = tv_interval ( $t0, [$seconds, $microseconds]);
+ $elapsed = tv_interval ( $t0, [gettimeofday]);
+ $elapsed = tv_interval ( $t0 );
+
+ use Time::HiRes qw ( time alarm sleep );
+
+ $now_fractions = time;
+ sleep ($floating_seconds);
+ alarm ($floating_seconds);
+ alarm ($floating_seconds, $floating_interval);
+
+ use Time::HiRes qw( setitimer getitimer );
+
+ setitimer ($which, $floating_seconds, $floating_interval );
+ getitimer ($which);
+
+ use Time::HiRes qw( clock_gettime clock_getres clock_nanosleep
+ ITIMER_REAL ITIMER_VIRTUAL ITIMER_PROF ITIMER_REALPROF );
+
+ $realtime = clock_gettime(CLOCK_REALTIME);
+ $resolution = clock_getres(CLOCK_REALTIME);
+
+ clock_nanosleep(CLOCK_REALTIME, 1.5e9);
+ clock_nanosleep(CLOCK_REALTIME, time()*1e9 + 10e9, TIMER_ABSTIME);
+
+ my $ticktock = clock();
+
+ use Time::HiRes qw( stat );
+
+ my @stat = stat("file");
+ my @stat = stat(FH);
+
+=head1 DESCRIPTION
+
+The C<Time::HiRes> module implements a Perl interface to the
+C<usleep>, C<nanosleep>, C<ualarm>, C<gettimeofday>, and
+C<setitimer>/C<getitimer> system calls, in other words, high
+resolution time and timers. See the L</EXAMPLES> section below and the
+test scripts for usage; see your system documentation for the
+description of the underlying C<nanosleep> or C<usleep>, C<ualarm>,
+C<gettimeofday>, and C<setitimer>/C<getitimer> calls.
+
+If your system lacks C<gettimeofday()> or an emulation of it you don't
+get C<gettimeofday()> or the one-argument form of C<tv_interval()>.
+If your system lacks all of C<nanosleep()>, C<usleep()>,
+C<select()>, and C<poll>, you don't get C<Time::HiRes::usleep()>,
+C<Time::HiRes::nanosleep()>, or C<Time::HiRes::sleep()>.
+If your system lacks both C<ualarm()> and C<setitimer()> you don't get
+C<Time::HiRes::ualarm()> or C<Time::HiRes::alarm()>.
+
+If you try to import an unimplemented function in the C<use> statement
+it will fail at compile time.
+
+If your subsecond sleeping is implemented with C<nanosleep()> instead
+of C<usleep()>, you can mix subsecond sleeping with signals since
+C<nanosleep()> does not use signals. This, however, is not portable,
+and you should first check for the truth value of
+C<&Time::HiRes::d_nanosleep> to see whether you have nanosleep, and
+then carefully read your C<nanosleep()> C API documentation for any
+peculiarities.
+
+If you are using C<nanosleep> for something else than mixing sleeping
+with signals, give some thought to whether Perl is the tool you should
+be using for work requiring nanosecond accuracies.
+
+Remember that unless you are working on a I<hard realtime> system,
+any clocks and timers will be imprecise, especially so if you are working
+in a pre-emptive multiuser system. Understand the difference between
+I<wallclock time> and process time (in UNIX-like systems the sum of
+I<user> and I<system> times). Any attempt to sleep for X seconds will
+most probably end up sleeping B<more> than that, but don't be surpised
+if you end up sleeping slightly B<less>.
+
+The following functions can be imported from this module.
+No functions are exported by default.
+
+=over 4
+
+=item gettimeofday ()
+
+In array context returns a two-element array with the seconds and
+microseconds since the epoch. In scalar context returns floating
+seconds like C<Time::HiRes::time()> (see below).
+
+=item usleep ( $useconds )
+
+Sleeps for the number of microseconds (millionths of a second)
+specified. Returns the number of microseconds actually slept.
+Can sleep for more than one second, unlike the C<usleep> system call.
+Can also sleep for zero seconds, which often works like a I<thread yield>.
+See also C<Time::HiRes::usleep()>, C<Time::HiRes::sleep()>, and
+C<Time::HiRes::clock_nanosleep()>.
+
+Do not expect usleep() to be exact down to one microsecond.
+
+=item nanosleep ( $nanoseconds )
+
+Sleeps for the number of nanoseconds (1e9ths of a second) specified.
+Returns the number of nanoseconds actually slept (accurate only to
+microseconds, the nearest thousand of them). Can sleep for more than
+one second. Can also sleep for zero seconds, which often works like
+a I<thread yield>. See also C<Time::HiRes::sleep()>,
+C<Time::HiRes::usleep()>, and C<Time::HiRes::clock_nanosleep()>.
+
+Do not expect nanosleep() to be exact down to one nanosecond.
+Getting even accuracy of one thousand nanoseconds is good.
+
+=item ualarm ( $useconds [, $interval_useconds ] )
+
+Issues a C<ualarm> call; the C<$interval_useconds> is optional and
+will be zero if unspecified, resulting in C<alarm>-like behaviour.
+
+Returns the remaining time in the alarm in microseconds, or C<undef>
+if an error occurred.
+
+ualarm(0) will cancel an outstanding ualarm().
+
+Note that the interaction between alarms and sleeps is unspecified.
+
+=item tv_interval
+
+tv_interval ( $ref_to_gettimeofday [, $ref_to_later_gettimeofday] )
+
+Returns the floating seconds between the two times, which should have
+been returned by C<gettimeofday()>. If the second argument is omitted,
+then the current time is used.
+
+=item time ()
+
+Returns a floating seconds since the epoch. This function can be
+imported, resulting in a nice drop-in replacement for the C<time>
+provided with core Perl; see the L</EXAMPLES> below.
+
+B<NOTE 1>: This higher resolution timer can return values either less
+or more than the core C<time()>, depending on whether your platform
+rounds the higher resolution timer values up, down, or to the nearest second
+to get the core C<time()>, but naturally the difference should be never
+more than half a second. See also L</clock_getres>, if available
+in your system.
+
+B<NOTE 2>: Since Sunday, September 9th, 2001 at 01:46:40 AM GMT, when
+the C<time()> seconds since epoch rolled over to 1_000_000_000, the
+default floating point format of Perl and the seconds since epoch have
+conspired to produce an apparent bug: if you print the value of
+C<Time::HiRes::time()> you seem to be getting only five decimals, not
+six as promised (microseconds). Not to worry, the microseconds are
+there (assuming your platform supports such granularity in the first
+place). What is going on is that the default floating point format of
+Perl only outputs 15 digits. In this case that means ten digits
+before the decimal separator and five after. To see the microseconds
+you can use either C<printf>/C<sprintf> with C<"%.6f">, or the
+C<gettimeofday()> function in list context, which will give you the
+seconds and microseconds as two separate values.
+
+=item sleep ( $floating_seconds )
+
+Sleeps for the specified amount of seconds. Returns the number of
+seconds actually slept (a floating point value). This function can
+be imported, resulting in a nice drop-in replacement for the C<sleep>
+provided with perl, see the L</EXAMPLES> below.
+
+Note that the interaction between alarms and sleeps is unspecified.
+
+=item alarm ( $floating_seconds [, $interval_floating_seconds ] )
+
+The C<SIGALRM> signal is sent after the specified number of seconds.
+Implemented using C<setitimer()> if available, C<ualarm()> if not.
+The C<$interval_floating_seconds> argument is optional and will be
+zero if unspecified, resulting in C<alarm()>-like behaviour. This
+function can be imported, resulting in a nice drop-in replacement for
+the C<alarm> provided with perl, see the L</EXAMPLES> below.
+
+Returns the remaining time in the alarm in seconds, or C<undef>
+if an error occurred.
+
+B<NOTE 1>: With some combinations of operating systems and Perl
+releases C<SIGALRM> restarts C<select()>, instead of interrupting it.
+This means that an C<alarm()> followed by a C<select()> may together
+take the sum of the times specified for the the C<alarm()> and the
+C<select()>, not just the time of the C<alarm()>.
+
+Note that the interaction between alarms and sleeps is unspecified.
+
+=item setitimer ( $which, $floating_seconds [, $interval_floating_seconds ] )
+
+Start up an interval timer: after a certain time, a signal ($which) arrives,
+and more signals may keep arriving at certain intervals. To disable
+an "itimer", use C<$floating_seconds> of zero. If the
+C<$interval_floating_seconds> is set to zero (or unspecified), the
+timer is disabled B<after> the next delivered signal.
+
+Use of interval timers may interfere with C<alarm()>, C<sleep()>,
+and C<usleep()>. In standard-speak the "interaction is unspecified",
+which means that I<anything> may happen: it may work, it may not.
+
+In scalar context, the remaining time in the timer is returned.
+
+In list context, both the remaining time and the interval are returned.
+
+There are usually three or four interval timers (signals) available: the
+C<$which> can be C<ITIMER_REAL>, C<ITIMER_VIRTUAL>, C<ITIMER_PROF>, or
+C<ITIMER_REALPROF>. Note that which ones are available depends: true
+UNIX platforms usually have the first three, but only Solaris seems to
+have C<ITIMER_REALPROF> (which is used to profile multithreaded programs).
+Win32 unfortunately does not haveinterval timers.
+
+C<ITIMER_REAL> results in C<alarm()>-like behaviour. Time is counted in
+I<real time>; that is, wallclock time. C<SIGALRM> is delivered when
+the timer expires.
+
+C<ITIMER_VIRTUAL> counts time in (process) I<virtual time>; that is,
+only when the process is running. In multiprocessor/user/CPU systems
+this may be more or less than real or wallclock time. (This time is
+also known as the I<user time>.) C<SIGVTALRM> is delivered when the
+timer expires.
+
+C<ITIMER_PROF> counts time when either the process virtual time or when
+the operating system is running on behalf of the process (such as I/O).
+(This time is also known as the I<system time>.) (The sum of user
+time and system time is known as the I<CPU time>.) C<SIGPROF> is
+delivered when the timer expires. C<SIGPROF> can interrupt system calls.
+
+The semantics of interval timers for multithreaded programs are
+system-specific, and some systems may support additional interval
+timers. For example, it is unspecified which thread gets the signals.
+See your C<setitimer()> documentation.
+
+=item getitimer ( $which )
+
+Return the remaining time in the interval timer specified by C<$which>.
+
+In scalar context, the remaining time is returned.
+
+In list context, both the remaining time and the interval are returned.
+The interval is always what you put in using C<setitimer()>.
+
+=item clock_gettime ( $which )
+
+Return as seconds the current value of the POSIX high resolution timer
+specified by C<$which>. All implementations that support POSIX high
+resolution timers are supposed to support at least the C<$which> value
+of C<CLOCK_REALTIME>, which is supposed to return results close to the
+results of C<gettimeofday>, or the number of seconds since 00:00:00:00
+January 1, 1970 Greenwich Mean Time (GMT). Do not assume that
+CLOCK_REALTIME is zero, it might be one, or something else.
+Another potentially useful (but not available everywhere) value is
+C<CLOCK_MONOTONIC>, which guarantees a monotonically increasing time
+value (unlike time() or gettimeofday(), which can be adjusted).
+See your system documentation for other possibly supported values.
+
+=item clock_getres ( $which )
+
+Return as seconds the resolution of the POSIX high resolution timer
+specified by C<$which>. All implementations that support POSIX high
+resolution timers are supposed to support at least the C<$which> value
+of C<CLOCK_REALTIME>, see L</clock_gettime>.
+
+=item clock_nanosleep ( $which, $nanoseconds, $flags = 0)
+
+Sleeps for the number of nanoseconds (1e9ths of a second) specified.
+Returns the number of nanoseconds actually slept. The $which is the
+"clock id", as with clock_gettime() and clock_getres(). The flags
+default to zero but C<TIMER_ABSTIME> can specified (must be exported
+explicitly) which means that C<$nanoseconds> is not a time interval
+(as is the default) but instead an absolute time. Can sleep for more
+than one second. Can also sleep for zero seconds, which often works
+like a I<thread yield>. See also C<Time::HiRes::sleep()>,
+C<Time::HiRes::usleep()>, and C<Time::HiRes::nanosleep()>.
+
+Do not expect clock_nanosleep() to be exact down to one nanosecond.
+Getting even accuracy of one thousand nanoseconds is good.
+
+=item clock()
+
+Return as seconds the I<process time> (user + system time) spent by
+the process since the first call to clock() (the definition is B<not>
+"since the start of the process", though if you are lucky these times
+may be quite close to each other, depending on the system). What this
+means is that you probably need to store the result of your first call
+to clock(), and subtract that value from the following results of clock().
+
+The time returned also includes the process times of the terminated
+child processes for which wait() has been executed. This value is
+somewhat like the second value returned by the times() of core Perl,
+but not necessarily identical. Note that due to backward
+compatibility limitations the returned value may wrap around at about
+2147 seconds or at about 36 minutes.
+
+=item stat
+
+=item stat FH
+
+=item stat EXPR
+
+As L<perlfunc/stat> but with the access/modify/change file timestamps
+in subsecond resolution, if the operating system and the filesystem
+both support such timestamps. To override the standard stat():
+
+ use Time::HiRes qw(stat);
+
+Test for the value of &Time::HiRes::d_hires_stat to find out whether
+the operating system supports subsecond file timestamps: a value
+larger than zero means yes. There are unfortunately no easy
+ways to find out whether the filesystem supports such timestamps.
+UNIX filesystems often do; NTFS does; FAT doesn't (FAT timestamp
+granularity is B<two> seconds).
+
+A zero return value of &Time::HiRes::d_hires_stat means that
+Time::HiRes::stat is a no-op passthrough for CORE::stat(),
+and therefore the timestamps will stay integers. The same
+thing will happen if the filesystem does not do subsecond timestamps,
+even if the &Time::HiRes::d_hires_stat is non-zero.
+
+In any case do not expect nanosecond resolution, or even a microsecond
+resolution. Also note that the modify/access timestamps might have
+different resolutions, and that they need not be synchronized, e.g.
+if the operations are
+
+ write
+ stat # t1
+ read
+ stat # t2
+
+the access time stamp from t2 need not be greater-than the modify
+time stamp from t1: it may be equal or I<less>.
+
+=back
+
+=head1 EXAMPLES
+
+ use Time::HiRes qw(usleep ualarm gettimeofday tv_interval);
+
+ $microseconds = 750_000;
+ usleep($microseconds);
+
+ # signal alarm in 2.5s & every .1s thereafter
+ ualarm(2_500_000, 100_000);
+ # cancel that ualarm
+ ualarm(0);
+
+ # get seconds and microseconds since the epoch
+ ($s, $usec) = gettimeofday();
+
+ # measure elapsed time
+ # (could also do by subtracting 2 gettimeofday return values)
+ $t0 = [gettimeofday];
+ # do bunch of stuff here
+ $t1 = [gettimeofday];
+ # do more stuff here
+ $t0_t1 = tv_interval $t0, $t1;
+
+ $elapsed = tv_interval ($t0, [gettimeofday]);
+ $elapsed = tv_interval ($t0); # equivalent code
+
+ #
+ # replacements for time, alarm and sleep that know about
+ # floating seconds
+ #
+ use Time::HiRes;
+ $now_fractions = Time::HiRes::time;
+ Time::HiRes::sleep (2.5);
+ Time::HiRes::alarm (10.6666666);
+
+ use Time::HiRes qw ( time alarm sleep );
+ $now_fractions = time;
+ sleep (2.5);
+ alarm (10.6666666);
+
+ # Arm an interval timer to go off first at 10 seconds and
+ # after that every 2.5 seconds, in process virtual time
+
+ use Time::HiRes qw ( setitimer ITIMER_VIRTUAL time );
+
+ $SIG{VTALRM} = sub { print time, "\n" };
+ setitimer(ITIMER_VIRTUAL, 10, 2.5);
+
+ use Time::HiRes qw( clock_gettime clock_getres CLOCK_REALTIME );
+ # Read the POSIX high resolution timer.
+ my $high = clock_getres(CLOCK_REALTIME);
+ # But how accurate we can be, really?
+ my $reso = clock_getres(CLOCK_REALTIME);
+
+ use Time::HiRes qw( clock_nanosleep TIMER_ABSTIME );
+ clock_nanosleep(CLOCK_REALTIME, 1e6);
+ clock_nanosleep(CLOCK_REALTIME, 2e9, TIMER_ABSTIME);
+
+ use Time::HiRes qw( clock );
+ my $clock0 = clock();
+ ... # Do something.
+ my $clock1 = clock();
+ my $clockd = $clock1 - $clock0;
+
+ use Time::HiRes qw( stat );
+ my ($atime, $mtime, $ctime) = (stat("istics"))[8, 9, 10];
+
+=head1 C API
+
+In addition to the perl API described above, a C API is available for
+extension writers. The following C functions are available in the
+modglobal hash:
+
+ name C prototype
+ --------------- ----------------------
+ Time::NVtime double (*)()
+ Time::U2time void (*)(pTHX_ UV ret[2])
+
+Both functions return equivalent information (like C<gettimeofday>)
+but with different representations. The names C<NVtime> and C<U2time>
+were selected mainly because they are operating system independent.
+(C<gettimeofday> is Unix-centric, though some platforms like Win32 and
+VMS have emulations for it.)
+
+Here is an example of using C<NVtime> from C:
+
+ double (*myNVtime)(); /* Returns -1 on failure. */
+ SV **svp = hv_fetch(PL_modglobal, "Time::NVtime", 12, 0);
+ if (!svp) croak("Time::HiRes is required");
+ if (!SvIOK(*svp)) croak("Time::NVtime isn't a function pointer");
+ myNVtime = INT2PTR(double(*)(), SvIV(*svp));
+ printf("The current time is: %f\n", (*myNVtime)());
+
+=head1 DIAGNOSTICS
+
+=head2 useconds or interval more than ...
+
+In ualarm() you tried to use number of microseconds or interval (also
+in microseconds) more than 1_000_000 and setitimer() is not available
+in your system to emulate that case.
+
+=head2 negative time not invented yet
+
+You tried to use a negative time argument.
+
+=head2 internal error: useconds < 0 (unsigned ... signed ...)
+
+Something went horribly wrong-- the number of microseconds that cannot
+become negative just became negative. Maybe your compiler is broken?
+
+=head2 useconds or uinterval equal to or more than 1000000
+
+In some platforms it is not possible to get an alarm with subsecond
+resolution and later than one second.
+
+=head2 unimplemented in this platform
+
+Some calls simply aren't available, real or emulated, on every platform.
+
+=head1 CAVEATS
+
+Notice that the core C<time()> maybe rounding rather than truncating.
+What this means is that the core C<time()> may be reporting the time
+as one second later than C<gettimeofday()> and C<Time::HiRes::time()>.
+
+Adjusting the system clock (either manually or by services like ntp)
+may cause problems, especially for long running programs that assume
+a monotonously increasing time (note that all platforms do not adjust
+time as gracefully as UNIX ntp does). For example in Win32 (and derived
+platforms like Cygwin and MinGW) the Time::HiRes::time() may temporarily
+drift off from the system clock (and the original time()) by up to 0.5
+seconds. Time::HiRes will notice this eventually and recalibrate.
+Note that since Time::HiRes 1.77 the clock_gettime(CLOCK_MONOTONIC)
+might help in this (in case your system supports CLOCK_MONOTONIC).
+
+Some systems have APIs but not implementations: for example QNX and Haiku
+have the interval timer APIs but not the functionality.
+
+=head1 SEE ALSO
+
+Perl modules L<BSD::Resource>, L<Time::TAI64>.
+
+Your system documentation for C<clock>, C<clock_gettime>,
+C<clock_getres>, C<clock_nanosleep>, C<clock_settime>, C<getitimer>,
+C<gettimeofday>, C<setitimer>, C<sleep>, C<stat>, C<ualarm>.
+
+=head1 AUTHORS
+
+D. Wegscheid <wegscd@whirlpool.com>
+R. Schertler <roderick@argon.org>
+J. Hietaniemi <jhi@iki.fi>
+G. Aas <gisle@aas.no>
+
+=head1 COPYRIGHT AND LICENSE
+
+Copyright (c) 1996-2002 Douglas E. Wegscheid. All rights reserved.
+
+Copyright (c) 2002, 2003, 2004, 2005, 2006, 2007, 2008 Jarkko Hietaniemi.
+All rights reserved.
+
+This program is free software; you can redistribute it and/or modify
+it under the same terms as Perl itself.
+
+=cut