Next: Parsing Date and Time, Previous: High Accuracy Clock, Up: Calendar Time [Contents][Index]
The functions described in this section format calendar time values as strings. These functions are declared in the header file time.h.
Preliminary: | MT-Unsafe race:asctime locale | AS-Unsafe | AC-Safe | See POSIX Safety Concepts.
The asctime
function converts the broken-down time value that
brokentime points to into a string in a standard format:
"Tue May 21 13:46:22 1991\n"
The abbreviations for the days of week are: ‘Sun’, ‘Mon’, ‘Tue’, ‘Wed’, ‘Thu’, ‘Fri’, and ‘Sat’.
The abbreviations for the months are: ‘Jan’, ‘Feb’, ‘Mar’, ‘Apr’, ‘May’, ‘Jun’, ‘Jul’, ‘Aug’, ‘Sep’, ‘Oct’, ‘Nov’, and ‘Dec’.
The return value points to a statically allocated string, which might be
overwritten by subsequent calls to asctime
or ctime
.
(But no other library function overwrites the contents of this
string.)
Preliminary: | MT-Safe locale | AS-Safe | AC-Safe | See POSIX Safety Concepts.
This function is similar to asctime
but instead of placing the
result in a static buffer it writes the string in the buffer pointed to
by the parameter buffer. This buffer should have room
for at least 26 bytes, including the terminating null.
If no error occurred the function returns a pointer to the string the
result was written into, i.e., it returns buffer. Otherwise
it returns NULL
.
Preliminary: | MT-Unsafe race:tmbuf race:asctime env locale | AS-Unsafe heap lock | AC-Unsafe lock mem fd | See POSIX Safety Concepts.
The ctime
function is similar to asctime
, except that you
specify the calendar time argument as a time_t
simple time value
rather than in broken-down local time format. It is equivalent to
asctime (localtime (time))
Calling ctime
also sets the current time zone as if
tzset
were called. See Time Zone Functions.
Preliminary: | MT-Safe env locale | AS-Unsafe heap lock | AC-Unsafe lock mem fd | See POSIX Safety Concepts.
This function is similar to ctime
, but places the result in the
string pointed to by buffer. It is equivalent to (written using
gcc extensions, see Statement Exprs in Porting and Using gcc):
({ struct tm tm; asctime_r (localtime_r (time, &tm), buf); })
If no error occurred the function returns a pointer to the string the
result was written into, i.e., it returns buffer. Otherwise
it returns NULL
.
Preliminary: | MT-Safe env locale | AS-Unsafe corrupt heap lock dlopen | AC-Unsafe corrupt lock mem fd | See POSIX Safety Concepts.
This function is similar to the sprintf
function (see Formatted Input), but the conversion specifications that can appear in the format
template template are specialized for printing components of the date
and time brokentime according to the locale currently specified for
time conversion (see Locales) and the current time zone
(see Time Zone Functions).
Ordinary characters appearing in the template are copied to the output string s; this can include multibyte character sequences. Conversion specifiers are introduced by a ‘%’ character, followed by an optional flag which can be one of the following. These flags are all GNU extensions. The first three affect only the output of numbers:
_
The number is padded with spaces.
-
The number is not padded at all.
0
The number is padded with zeros even if the format specifies padding with spaces.
^
The output uses uppercase characters, but only if this is possible (see Case Conversion).
The default action is to pad the number with zeros to keep it a constant width. Numbers that do not have a range indicated below are never padded, since there is no natural width for them.
Following the flag an optional specification of the width is possible. This is specified in decimal notation. If the natural size of the output of the field has less than the specified number of characters, the result is written right adjusted and space padded to the given size.
An optional modifier can follow the optional flag and width specification. The modifiers, which were first standardized by POSIX.2-1992 and by ISO C99, are:
E
Use the locale’s alternate representation for date and time. This
modifier applies to the %c
, %C
, %x
, %X
,
%y
and %Y
format specifiers. In a Japanese locale, for
example, %Ex
might yield a date format based on the Japanese
Emperors’ reigns.
O
Use the locale’s alternate numeric symbols for numbers. This modifier applies only to numeric format specifiers.
If the format supports the modifier but no alternate representation is available, it is ignored.
The conversion specifier ends with a format specifier taken from the following list. The whole ‘%’ sequence is replaced in the output string as follows:
%a
The abbreviated weekday name according to the current locale.
%A
The full weekday name according to the current locale.
%b
The abbreviated month name according to the current locale.
%B
The full month name according to the current locale.
Using %B
together with %d
produces grammatically
incorrect results for some locales.
%c
The preferred calendar time representation for the current locale.
%C
The century of the year. This is equivalent to the greatest integer not greater than the year divided by 100.
This format was first standardized by POSIX.2-1992 and by ISO C99.
%d
The day of the month as a decimal number (range 01
through 31
).
%D
The date using the format %m/%d/%y
.
This format was first standardized by POSIX.2-1992 and by ISO C99.
%e
The day of the month like with %d
, but padded with spaces (range
1
through 31
).
This format was first standardized by POSIX.2-1992 and by ISO C99.
%F
The date using the format %Y-%m-%d
. This is the form specified
in the ISO 8601 standard and is the preferred form for all uses.
This format was first standardized by ISO C99 and by POSIX.1-2001.
%g
The year corresponding to the ISO week number, but without the century
(range 00
through 99
). This has the same format and value
as %y
, except that if the ISO week number (see %V
) belongs
to the previous or next year, that year is used instead.
This format was first standardized by ISO C99 and by POSIX.1-2001.
%G
The year corresponding to the ISO week number. This has the same format
and value as %Y
, except that if the ISO week number (see
%V
) belongs to the previous or next year, that year is used
instead.
This format was first standardized by ISO C99 and by POSIX.1-2001 but was previously available as a GNU extension.
%h
The abbreviated month name according to the current locale. The action
is the same as for %b
.
This format was first standardized by POSIX.2-1992 and by ISO C99.
%H
The hour as a decimal number, using a 24-hour clock (range 00
through
23
).
%I
The hour as a decimal number, using a 12-hour clock (range 01
through
12
).
%j
The day of the year as a decimal number (range 001
through 366
).
%k
The hour as a decimal number, using a 24-hour clock like %H
, but
padded with spaces (range 0
through 23
).
This format is a GNU extension.
%l
The hour as a decimal number, using a 12-hour clock like %I
, but
padded with spaces (range 1
through 12
).
This format is a GNU extension.
%m
The month as a decimal number (range 01
through 12
).
%M
The minute as a decimal number (range 00
through 59
).
%n
A single ‘\n’ (newline) character.
This format was first standardized by POSIX.2-1992 and by ISO C99.
%p
Either ‘AM’ or ‘PM’, according to the given time value; or the
corresponding strings for the current locale. Noon is treated as
‘PM’ and midnight as ‘AM’. In most locales
‘AM’/‘PM’ format is not supported, in such cases "%p"
yields an empty string.
%P
Either ‘am’ or ‘pm’, according to the given time value; or the
corresponding strings for the current locale, printed in lowercase
characters. Noon is treated as ‘pm’ and midnight as ‘am’. In
most locales ‘AM’/‘PM’ format is not supported, in such cases
"%P"
yields an empty string.
This format is a GNU extension.
%r
The complete calendar time using the AM/PM format of the current locale.
This format was first standardized by POSIX.2-1992 and by ISO C99.
In the POSIX locale, this format is equivalent to %I:%M:%S %p
.
%R
The hour and minute in decimal numbers using the format %H:%M
.
This format was first standardized by ISO C99 and by POSIX.1-2001 but was previously available as a GNU extension.
%s
The number of seconds since the epoch, i.e., since 1970-01-01 00:00:00 UTC. Leap seconds are not counted unless leap second support is available.
This format is a GNU extension.
%S
The seconds as a decimal number (range 00
through 60
).
%t
A single ‘\t’ (tabulator) character.
This format was first standardized by POSIX.2-1992 and by ISO C99.
%T
The time of day using decimal numbers using the format %H:%M:%S
.
This format was first standardized by POSIX.2-1992 and by ISO C99.
%u
The day of the week as a decimal number (range 1
through
7
), Monday being 1
.
This format was first standardized by POSIX.2-1992 and by ISO C99.
%U
The week number of the current year as a decimal number (range 00
through 53
), starting with the first Sunday as the first day of
the first week. Days preceding the first Sunday in the year are
considered to be in week 00
.
%V
The ISO 8601:1988 week number as a decimal number (range 01
through 53
). ISO weeks start with Monday and end with Sunday.
Week 01
of a year is the first week which has the majority of its
days in that year; this is equivalent to the week containing the year’s
first Thursday, and it is also equivalent to the week containing January
4. Week 01
of a year can contain days from the previous year.
The week before week 01
of a year is the last week (52
or
53
) of the previous year even if it contains days from the new
year.
This format was first standardized by POSIX.2-1992 and by ISO C99.
%w
The day of the week as a decimal number (range 0
through
6
), Sunday being 0
.
%W
The week number of the current year as a decimal number (range 00
through 53
), starting with the first Monday as the first day of
the first week. All days preceding the first Monday in the year are
considered to be in week 00
.
%x
The preferred date representation for the current locale.
%X
The preferred time of day representation for the current locale.
%y
The year without a century as a decimal number (range 00
through
99
). This is equivalent to the year modulo 100.
%Y
The year as a decimal number, using the Gregorian calendar. Years
before the year 1
are numbered 0
, -1
, and so on.
%z
RFC 822/ISO 8601:1988 style numeric time zone (e.g.,
-0600
or +0100
), or nothing if no time zone is
determinable.
This format was first standardized by ISO C99 and by POSIX.1-2001 but was previously available as a GNU extension.
In the POSIX locale, a full RFC 822 timestamp is generated by the format ‘"%a, %d %b %Y %H:%M:%S %z"’ (or the equivalent ‘"%a, %d %b %Y %T %z"’).
%Z
The time zone abbreviation (empty if the time zone can’t be determined).
%%
A literal ‘%’ character.
The size parameter can be used to specify the maximum number of
characters to be stored in the array s, including the terminating
null character. If the formatted time requires more than size
characters, strftime
returns zero and the contents of the array
s are undefined. Otherwise the return value indicates the
number of characters placed in the array s, not including the
terminating null character.
Warning: This convention for the return value which is prescribed
in ISO C can lead to problems in some situations. For certain
format strings and certain locales the output really can be the empty
string and this cannot be discovered by testing the return value only.
E.g., in most locales the AM/PM time format is not supported (most of
the world uses the 24 hour time representation). In such locales
"%p"
will return the empty string, i.e., the return value is
zero. To detect situations like this something similar to the following
code should be used:
buf[0] = '\1'; len = strftime (buf, bufsize, format, tp); if (len == 0 && buf[0] != '\0') { /* Something went wrong in the strftime call. */ … }
If s is a null pointer, strftime
does not actually write
anything, but instead returns the number of characters it would have written.
Calling strftime
also sets the current time zone as if
tzset
were called; strftime
uses this information
instead of brokentime’s tm_gmtoff
and tm_zone
members. See Time Zone Functions.
For an example of strftime
, see Time Functions Example.
Preliminary: | MT-Safe env locale | AS-Unsafe corrupt heap lock dlopen | AC-Unsafe corrupt lock mem fd | See POSIX Safety Concepts.
The wcsftime
function is equivalent to the strftime
function with the difference that it operates on wide character
strings. The buffer where the result is stored, pointed to by s,
must be an array of wide characters. The parameter size which
specifies the size of the output buffer gives the number of wide
characters, not the number of bytes.
Also the format string template is a wide character string. Since
all characters needed to specify the format string are in the basic
character set it is portably possible to write format strings in the C
source code using the L"…"
notation. The parameter
brokentime has the same meaning as in the strftime
call.
The wcsftime
function supports the same flags, modifiers, and
format specifiers as the strftime
function.
The return value of wcsftime
is the number of wide characters
stored in s
. When more characters would have to be written than
can be placed in the buffer s the return value is zero, with the
same problems indicated in the strftime
documentation.
Next: Parsing Date and Time, Previous: High Accuracy Clock, Up: Calendar Time [Contents][Index]