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Octave's core set of functions for manipulating time values are patterned after the corresponding functions from the standard C library. Several of these functions use a data structure for time that includes the following elements:
usec
sec
min
hour
mday
mon
year
wday
yday
isdst
zone
In the descriptions of the following functions, this structure is referred to as a tm_struct.
Return the current time as the number of seconds since the epoch. The epoch is referenced to 00:00:00 CUT (Coordinated Universal Time) 1 Jan 1970. For example, on Monday February 17, 1997 at 07:15:06 CUT, the value returned by
time
was 856163706.
Convert a value returned from
time
(or any other nonnegative integer), to the local time and return a string of the same form asasctime
. The functionctime (time)
is equivalent toasctime (localtime (time))
. For example,ctime (time ()) => "Mon Feb 17 01:15:06 1997\n"
Given a value returned from time (or any nonnegative integer), return a time structure corresponding to CUT. For example,
gmtime (time ()) => { usec = 0 year = 97 mon = 1 mday = 17 sec = 6 zone = CST min = 15 wday = 1 hour = 7 isdst = 0 yday = 47 }
Given a value returned from time (or any nonnegative integer), return a time structure corresponding to the local time zone.
localtime (time ()) => { usec = 0 year = 97 mon = 1 mday = 17 sec = 6 zone = CST min = 15 wday = 1 hour = 1 isdst = 0 yday = 47 }
Convert a time structure corresponding to the local time to the number of seconds since the epoch. For example,
mktime (localtime (time ()) => 856163706
Convert a time structure to a string using the following five-field format: Thu Mar 28 08:40:14 1996. For example,
asctime (localtime (time ()) => "Mon Feb 17 01:15:06 1997\n"This is equivalent to
ctime (time ())
.
Format a time structure in a flexible way using `%' substitutions similar to those in
printf
. Except where noted, substituted fields have a fixed size; numeric fields are padded if necessary. Padding is with zeros by default; for fields that display a single number, padding can be changed or inhibited by following the `%' with one of the modifiers described below. Unknown field specifiers are copied as normal characters. All other characters are copied to the output without change. For example,strftime ("%r (%Z) %A %e %B %Y", localtime (time ())) => "01:15:06 AM (CST) Monday 17 February 1997"Octave's
strftime
function supports a superset of the ANSI C field specifiers.Literal character fields:
%
- % character.
n
- Newline character.
t
- Tab character.
Numeric modifiers (a nonstandard extension):
- (dash)
- Do not pad the field.
_ (underscore)
- Pad the field with spaces.
Time fields:
%H
- Hour (00-23).
%I
- Hour (01-12).
%k
- Hour (0-23).
%l
- Hour (1-12).
%M
- Minute (00-59).
%p
- Locale's AM or PM.
%r
- Time, 12-hour (hh:mm:ss [AP]M).
%R
- Time, 24-hour (hh:mm).
%s
- Time in seconds since 00:00:00, Jan 1, 1970 (a nonstandard extension).
%S
- Second (00-61).
%T
- Time, 24-hour (hh:mm:ss).
%X
- Locale's time representation (%H:%M:%S).
%Z
- Time zone (EDT), or nothing if no time zone is determinable.
Date fields:
%a
- Locale's abbreviated weekday name (Sun-Sat).
%A
- Locale's full weekday name, variable length (Sunday-Saturday).
%b
- Locale's abbreviated month name (Jan-Dec).
%B
- Locale's full month name, variable length (January-December).
%c
- Locale's date and time (Sat Nov 04 12:02:33 EST 1989).
%C
- Century (00-99).
%d
- Day of month (01-31).
%e
- Day of month ( 1-31).
%D
- Date (mm/dd/yy).
%h
- Same as %b.
%j
- Day of year (001-366).
%m
- Month (01-12).
%U
- Week number of year with Sunday as first day of week (00-53).
%w
- Day of week (0-6).
%W
- Week number of year with Monday as first day of week (00-53).
%x
- Locale's date representation (mm/dd/yy).
%y
- Last two digits of year (00-99).
%Y
- Year (1970-).
Convert the string str to a time structure under the control of the format fmt.
Most of the remaining functions described in this section are not patterned after the standard C library. Some are available for compatiblity with Matlab and others are provided because they are useful.
Return a vector containing the current year, month (1-12), day (1-31), hour (0-23), minute (0-59) and second (0-61). For example,
clock () => [ 1993, 8, 20, 4, 56, 1 ]The function clock is more accurate on systems that have the
gettimeofday
function.
Return the date as a character string in the form DD-MMM-YY. For example,
date () => "20-Aug-93"
Return the difference (in seconds) between two time values returned from
clock
. For example:t0 = clock (); many computations later... elapsed_time = etime (clock (), t0);will set the variable
elapsed_time
to the number of seconds since the variablet0
was set.See also: tic, toc, clock, cputime.
Return the CPU time used by your Octave session. The first output is the total time spent executing your process and is equal to the sum of second and third outputs, which are the number of CPU seconds spent executing in user mode and the number of CPU seconds spent executing in system mode, respectively. If your system does not have a way to report CPU time usage,
cputime
returns 0 for each of its output values. Note that because Octave used some CPU time to start, it is reasonable to check to see ifcputime
works by checking to see if the total CPU time used is nonzero.
Return 1 if the given year is a leap year and 0 otherwise. If no arguments are provided,
is_leap_year
will use the current year. For example,is_leap_year (2000) => 1
These functions set and check a wall-clock timer. For example,
tic (); many computations later... elapsed_time = toc ();will set the variable
elapsed_time
to the number of seconds since the most recent call to the functiontic
.Nested timing with
tic
andtoc
is not supported. Thereforetoc
will always return the elapsed time from the most recent call totic
.If you are more interested in the CPU time that your process used, you should use the
cputime
function instead. Thetic
andtoc
functions report the actual wall clock time that elapsed between the calls. This may include time spent processing other jobs or doing nothing at all. For example,tic (); sleep (5); toc () => 5 t = cputime (); sleep (5); cputime () - t => 0(This example also illustrates that the CPU timer may have a fairly coarse resolution.)
Suspend the execution of the program. If invoked without any arguments, Octave waits until you type a character. With a numeric argument, it pauses for the given number of seconds. For example, the following statement prints a message and then waits 5 seconds before clearing the screen.
fprintf (stderr, "wait please... "); pause (5); clc;