다음: Filesystem Utilities, 상위 문서: System Utilities [차례][찾아보기]
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
Microseconds after the second (0-999999).
sec
Seconds after the minute (0-60). This number can be 60 to account for leap seconds.
min
Minutes after the hour (0-59).
hour
Hours since midnight (0-23).
mday
Day of the month (1-31).
mon
Months since January (0-11).
year
Years since 1900.
wday
Days since Sunday (0-6).
yday
Days since January 1 (0-365).
isdst
Daylight saving time flag.
gmtoff
Seconds offset from UTC.
zone
Time 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 UTC (Coordinated Universal Time) 1 Jan
1970. For example, on Monday February 17, 1997 at 07:15:06 UTC, the value
returned by time
was 856163706.
같이 보기: strftime, strptime, localtime, gmtime, mktime, now, date, clock, datenum, datestr, datevec, calendar, weekday.
Return the current local date/time as a serial day number
(see datenum
).
The integral part, floor (now)
corresponds to the number of days
between today and Jan 1, 0000.
The fractional part, rem (now, 1)
corresponds to the current time.
Convert a value returned from time
(or any other non-negative
integer), to the local time and return a string of the same form as
asctime
.
The function ctime (time)
is equivalent to
asctime (localtime (time))
. For example:
ctime (time ()) ⇒ "Mon Feb 17 01:15:06 1997\n"
Given a value returned from time
, or any non-negative integer,
return a time structure corresponding to UTC (Coordinated Universal Time).
For example:
gmtime (time ()) ⇒ { usec = 0 sec = 6 min = 15 hour = 7 mday = 17 mon = 1 year = 97 wday = 1 yday = 47 isdst = 0 gmtoff = 0 zone = GMT }
같이 보기: strftime, strptime, localtime, mktime, time, now, date, clock, datenum, datestr, datevec, calendar, weekday.
Given a value returned from time
, or any non-negative integer,
return a time structure corresponding to the local time zone.
localtime (time ()) ⇒ { usec = 0 sec = 6 min = 15 hour = 1 mday = 17 mon = 1 year = 97 wday = 1 yday = 47 isdst = 0 gmtoff = -21600 zone = CST }
같이 보기: strftime, strptime, gmtime, mktime, time, now, date, clock, datenum, datestr, datevec, calendar, weekday.
Convert a time structure corresponding to the local time to the number of seconds since the epoch.
For example:
mktime (localtime (time ())) ⇒ 856163706
같이 보기: strftime, strptime, localtime, gmtime, time, now, date, clock, datenum, datestr, datevec, calendar, weekday.
Convert a time structure to a string using the following
format: "ddd mmm mm HH:MM:SS yyyy\n"
.
For example:
asctime (localtime (time ())) ⇒ "Mon Feb 17 01:15:06 1997\n"
This is equivalent to ctime (time ())
.
Format the time structure tm_struct in a flexible way using the format
string fmt that contains ‘%’ 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
Offset from UTC (±hhmm), or nothing if no time zone is determinable.
%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-).
같이 보기: strptime, localtime, gmtime, mktime, time, now, date, clock, datenum, datestr, datevec, calendar, weekday.
Convert the string 문자열 to the time structure tm_struct under the control of the format string fmt.
If fmt fails to match, nchars is 0; otherwise, it is set to the position of last matched character plus 1. Always check for this unless you’re absolutely sure the date string will be parsed correctly.
같이 보기: strftime, localtime, gmtime, mktime, time, now, date, clock, datenum, datestr, datevec, calendar, weekday.
Most of the remaining functions described in this section are not patterned after the standard C library. Some are available for compatibility with 매트랩 and others are provided because they are useful.
Return the current local date and time as a date vector.
The date vector contains the following fields: current year, month (1-12), day (1-31), hour (0-23), minute (0-59), and second (0-61). The seconds field has a fractional part after the decimal point for extended accuracy.
For example:
fix (clock ()) ⇒ 1993 8 20 4 56 1
clock
is more accurate on systems that have the gettimeofday
function.
Return the current date as a character string in the form DD-MMM-YYYY.
For example:
date () ⇒ 20-Aug-1993
Return the difference in seconds between two time values returned from
clock
(t2 - t1).
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
variable t0
was set.
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 if cputime
works by checking to see if the total
CPU time used is nonzero.
Return true if year is a leap year and false otherwise.
If no year is specified, is_leap_year
uses the current year.
For example:
is_leap_year (2000) ⇒ 1
Initialize a wall-clock timer.
Calling tic
without an output argument resets the internal timer.
Subsequent calls to toc
return the number of seconds since the timer was
set.
If called with one output argument, tic
creates a new timer instance and
returns a timer identifier 식별자. The 식별자 is a scalar of type
uint64
that may be passed to toc
to check elapsed time on this
timer, rather than the default internal timer.
Example 1 : benchmarking code with internal timer
tic; # many computations later… elapsed_time = toc;
Example 2 : mixed timer id and internal timer
tic; pause (1); toc ⇒ Elapsed time is 1.0089 seconds. id = tic; pause (2); toc (id) ⇒ Elapsed time is 2.01142 seconds. toc Elapsed time is 3.02308 seconds.
Calling tic
and toc
in this way allows nested timing calls.
If you are more interested in the CPU time that your process used, you should
use the cputime
function instead. The tic
and toc
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.
Measure elapsed time on a wall-clock timer.
With no arguments, return the number of seconds elapsed on the internal timer
since the last call to tic
.
When given the identifier 식별자 of a specific timer, return the number of seconds elapsed since the timer 식별자 was initialized.
See tic, for examples of the use of tic
/toc
.
Suspend the execution of the program or change the state of the pause function.
If invoked without an input arguments then the program is suspended until a character is typed. If argument n is a positive real value, it indicates the number of seconds the program shall be suspended, for example:
tic; pause (0.05); toc -| Elapsed time is 0.05039 seconds.
The following example prints a message and then waits 5 seconds before clearing the screen.
disp ("wait please..."); pause (5); clc;
If invoked with a string argument "on"
, "off"
, or
"query"
, the state of the pause function is changed or queried. When
the state is "off"
, the pause function returns immediately. The
optional return value contains the previous state of the pause function. In
the following example pause is disabled locally:
old_state = pause ("off"); tic; pause (0.05); toc -| Elapsed time is 3.00407e-05 seconds. pause (old_state);
While the program is suspended Octave still handles figures painting and graphics callbacks execution.
같이 보기: kbhit.
Return the date/time input as a serial day number, with Jan 1, 0000 defined as day 1.
The integer part, floor (days)
counts the number of
complete days in the date input.
The fractional part, rem (days, 1)
corresponds to the time
on the given day.
The input may be a date vector (see datevec
),
datestr (see datestr
), or directly specified as input.
When processing input datestrings, f is the format string used to
interpret date strings (see datestr
). If no format f is
specified, then a relatively slow search is performed through various
formats. It is always preferable to specify the format string f if
it is known. Formats which do not specify a particular time component
will have the value set to zero. Formats which do not specify a date
will default to January 1st of the current year.
p is the year at the start of the century to which two-digit years will be referenced. If not specified, it defaults to the current year minus 50.
The optional output secs holds the time on the specified day with greater precision than days.
Notes:
Caution: datenums represent a specific time for the Earth as a
a whole. They do not take in to account time zones (shifts in time based
on location), nor seasonal changes due to Daylight Savings Time (shifts in
time based on local regulation). Be aware that it is possible to create
datenums that, when interpreted by a function which accounts for time zone
and DST shifts such as datestr
, are nonexistent or ambiguous.
Caution: this function does not attempt to handle Julian calendars so dates before October 15, 1582 are wrong by as much as eleven days. Also, be aware that only Roman Catholic countries adopted the calendar in 1582. It took until 1924 for it to be adopted everywhere. See the Wikipedia entry on the Gregorian calendar for more details.
Warning: leap seconds are ignored. A table of leap seconds is available on the Wikipedia entry for leap seconds.
Format the given date/time according to the format f and return the result in 문자열.
date is a serial date number (see datenum
), a date vector (see
datevec
), or a string or cell array of strings. In the latter case,
it is passed to datevec
to guess the input date format.
f can be an integer which corresponds to one of the codes in the table below, or a date format string.
p is the year at the start of the century in which two-digit years are to be interpreted in. If not specified, it defaults to the current year minus 50.
For example, the date 730736.65149 (2000-09-07 15:38:09.0934) would be formatted as follows:
Code | Format | Example |
---|---|---|
0 | dd-mmm-yyyy HH:MM:SS | 07-Sep-2000 15:38:09 |
1 | dd-mmm-yyyy | 07-Sep-2000 |
2 | mm/dd/yy | 09/07/00 |
3 | mmm | Sep |
4 | m | S |
5 | mm | 09 |
6 | mm/dd | 09/07 |
7 | dd | 07 |
8 | ddd | Thu |
9 | d | T |
10 | yyyy | 2000 |
11 | yy | 00 |
12 | mmmyy | Sep00 |
13 | HH:MM:SS | 15:38:09 |
14 | HH:MM:SS PM | 3:38:09 PM |
15 | HH:MM | 15:38 |
16 | HH:MM PM | 3:38 PM |
17 | QQ-YY | Q3-00 |
18 | Q3 | |
19 | dd/mm | 07/09 |
20 | dd/mm/yy | 07/09/00 |
21 | mmm.dd,yyyy HH:MM:SS | Sep.07,2000 15:38:08 |
22 | mmm.dd,yyyy | Sep.07,2000 |
23 | mm/dd/yyyy | 09/07/2000 |
24 | dd/mm/yyyy | 07/09/2000 |
25 | yy/mm/dd | 00/09/07 |
26 | yyyy/mm/dd | 2000/09/07 |
27 | QQ-YYYY | Q3-2000 |
28 | mmmyyyy | Sep2000 |
29 | yyyy-mm-dd | 2000-09-07 |
30 | yyyymmddTHHMMSS | 20000907T153808 |
31 | yyyy-mm-dd HH:MM:SS | 2000-09-07 15:38:08 |
If f is a format string, the following symbols are recognized:
Symbol | Meaning | Example |
---|---|---|
yyyy | Full year | 2005 |
yy | Two-digit year | 05 |
mmmm | Full month name | December |
mmm | Abbreviated month name | Dec |
mm | Numeric month number (padded with zeros) | 01, 08, 12 |
m | First letter of month name (capitalized) | D |
dddd | Full weekday name | Sunday |
ddd | Abbreviated weekday name | Sun |
dd | Numeric day of month (padded with zeros) | 11 |
d | First letter of weekday name (capitalized) | S |
HH | Hour of day, padded with zeros, | 09:00 |
or padded with spaces if PM is set | 9:00 AM | |
MM | Minute of hour (padded with zeros) | 10:05 |
SS | Second of minute (padded with zeros) | 10:05:03 |
FFF | Milliseconds of second (padded with zeros) | 10:05:03.012 |
AM | Use 12-hour time format | 11:30 AM |
PM | Use 12-hour time format | 11:30 PM |
If f is not specified or is -1
, then use 0, 1 or 16, depending
on whether the date portion or the time portion of date is empty.
If p is nor specified, it defaults to the current year minus 50.
If a matrix or cell array of dates is given, a column vector of date strings is returned.
Convert a serial date number (see datenum
) or date string (see
datestr
) into a date vector.
A date vector is a row vector with six members, representing the year, month, day, hour, minute, and seconds respectively.
f is the format string used to interpret date strings
(see datestr
). If date is a string, but no format is
specified, then a relatively slow search is performed through various
formats. It is always preferable to specify the format string f if it
is known. Formats which do not specify a particular time component will
have the value set to zero. Formats which do not specify a date will
default to January 1st of the current year.
p is the year at the start of the century to which two-digit years will be referenced. If not specified, it defaults to the current year minus 50.
Add q amount of time (with units f) to the serial datenum, d.
f must be one of "year"
, "month"
, "day"
,
"hour"
, "minute"
, "second"
, or
"millisecond"
.
Return the current monthly calendar in a 6x7 matrix.
If d is specified, return the calendar for the month containing the date d, which must be a serial date number or a date string.
If 세로 and m are specified, return the calendar for year 세로 and month m.
If no output arguments are specified, print the calendar on the screen instead of returning a matrix.
Return the day of the week as a number in n and as a string in s.
The days of the week are numbered 1–7 with the first day being Sunday.
d is a serial date number or a date string.
If the string 형식 is not present or is equal to "short"
then s will contain the abbreviated name of the weekday. If
형식 is "long"
then s will contain the full name.
Table of return values based on 형식:
n | "short" | "long" |
---|---|---|
1 | Sun | Sunday |
2 | Mon | Monday |
3 | Tue | Tuesday |
4 | Wed | Wednesday |
5 | Thu | Thursday |
6 | Fri | Friday |
7 | Sat | Saturday |
같이 보기: eomday, is_leap_year, calendar, datenum, datevec.
Return the last day of the month m for the year 세로.
같이 보기: weekday, datenum, datevec, is_leap_year, calendar.
Add date-formatted tick labels to an axis.
The axis to apply the ticks to is determined by axis_str which can
take the values "x"
, "y"
, or "z"
. The default
value is "x"
.
The formatting of the labels is determined by the variable
date_format, which can either be a string or positive integer that
datestr
accepts.
If the first argument hax is an axes handle, then plot into this axes,
rather than the current axes returned by gca
.
다음: Filesystem Utilities, 상위 문서: System Utilities [차례][찾아보기]