Next: General Time String Parsing, Up: Parsing Date and Time [Contents][Index]
The first function is rather low-level. It is nevertheless frequently
used in software since it is better known. Its interface and
implementation are heavily influenced by the getdate
function,
which is defined and implemented in terms of calls to strptime
.
Preliminary: | MT-Safe env locale | AS-Unsafe heap lock | AC-Unsafe lock mem fd | See POSIX Safety Concepts.
The strptime
function parses the input string s according
to the format string fmt and stores its results in the
structure tp.
The input string could be generated by a strftime
call or
obtained any other way. It does not need to be in a human-recognizable
format; e.g. a date passed as "02:1999:9"
is acceptable, even
though it is ambiguous without context. As long as the format string
fmt matches the input string the function will succeed.
The user has to make sure, though, that the input can be parsed in a
unambiguous way. The string "1999112"
can be parsed using the
format "%Y%m%d"
as 1999-1-12, 1999-11-2, or even 19991-1-2. It
is necessary to add appropriate separators to reliably get results.
The format string consists of the same components as the format string
of the strftime
function. The only difference is that the flags
_
, -
, 0
, and ^
are not allowed.
Several of the distinct formats of strftime
do the same work in
strptime
since differences like case of the input do not matter.
For reasons of symmetry all formats are supported, though.
The modifiers E
and O
are also allowed everywhere the
strftime
function allows them.
The formats are:
%a
%A
The weekday name according to the current locale, in abbreviated form or the full name.
%b
%B
%h
A month name according to the current locale. All three specifiers will recognize both abbreviated and full month names. If the locale provides two different grammatical forms of month names, all three specifiers will recognize both forms.
As a GNU extension, the O
modifier can be used with these
specifiers; it has no effect, as both grammatical forms of month
names are recognized.
%c
The date and time representation for the current locale.
%Ec
Like %c
but the locale’s alternative date and time format is used.
%C
The century of the year.
It makes sense to use this format only if the format string also
contains the %y
format.
%EC
The locale’s representation of the period.
Unlike %C
it sometimes makes sense to use this format since some
cultures represent years relative to the beginning of eras instead of
using the Gregorian years.
%d
%e
The day of the month as a decimal number (range 1
through 31
).
Leading zeroes are permitted but not required.
%Od
%Oe
Same as %d
but using the locale’s alternative numeric symbols.
Leading zeroes are permitted but not required.
%D
Equivalent to %m/%d/%y
.
%F
Equivalent to %Y-%m-%d
, which is the ISO 8601 date
format.
This is a GNU extension following an ISO C99 extension to
strftime
.
%g
The year corresponding to the ISO week number, but without the century
(range 00
through 99
).
Note: Currently, this is not fully implemented. The format is recognized, input is consumed but no field in tm is set.
This format is a GNU extension following a GNU extension of strftime
.
%G
The year corresponding to the ISO week number.
Note: Currently, this is not fully implemented. The format is recognized, input is consumed but no field in tm is set.
This format is a GNU extension following a GNU extension of strftime
.
%H
%k
The hour as a decimal number, using a 24-hour clock (range 00
through
23
).
%k
is a GNU extension following a GNU extension of strftime
.
%OH
Same as %H
but using the locale’s alternative numeric symbols.
%I
%l
The hour as a decimal number, using a 12-hour clock (range 01
through
12
).
%l
is a GNU extension following a GNU extension of strftime
.
%OI
Same as %I
but using the locale’s alternative numeric symbols.
%j
The day of the year as a decimal number (range 1
through 366
).
Leading zeroes are permitted but not required.
%m
The month as a decimal number (range 1
through 12
).
Leading zeroes are permitted but not required.
%Om
Same as %m
but using the locale’s alternative numeric symbols.
%M
The minute as a decimal number (range 0
through 59
).
Leading zeroes are permitted but not required.
%OM
Same as %M
but using the locale’s alternative numeric symbols.
%n
%t
Matches any white space.
%p
%P
The locale-dependent equivalent to ‘AM’ or ‘PM’.
This format is not useful unless %I
or %l
is also used.
Another complication is that the locale might not define these values at
all and therefore the conversion fails.
%P
is a GNU extension following a GNU extension to strftime
.
%r
The complete time using the AM/PM format of the current locale.
A complication is that the locale might not define this format at all and therefore the conversion fails.
%R
The hour and minute in decimal numbers using the format %H:%M
.
%R
is a GNU extension following a GNU extension to strftime
.
%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.
%s
is a GNU extension following a GNU extension to strftime
.
%S
The seconds as a decimal number (range 0
through 60
).
Leading zeroes are permitted but not required.
NB: The Unix specification says the upper bound on this value
is 61
, a result of a decision to allow double leap seconds. You
will not see the value 61
because no minute has more than one
leap second, but the myth persists.
%OS
Same as %S
but using the locale’s alternative numeric symbols.
%T
Equivalent to the use of %H:%M:%S
in this place.
%u
The day of the week as a decimal number (range 1
through
7
), Monday being 1
.
Leading zeroes are permitted but not required.
Note: Currently, this is not fully implemented. The format is recognized, input is consumed but no field in tm is set.
%U
The week number of the current year as a decimal number (range 0
through 53
).
Leading zeroes are permitted but not required.
%OU
Same as %U
but using the locale’s alternative numeric symbols.
%V
The ISO 8601:1988 week number as a decimal number (range 1
through 53
).
Leading zeroes are permitted but not required.
Note: Currently, this is not fully implemented. The format is recognized, input is consumed but no field in tm is set.
%w
The day of the week as a decimal number (range 0
through
6
), Sunday being 0
.
Leading zeroes are permitted but not required.
Note: Currently, this is not fully implemented. The format is recognized, input is consumed but no field in tm is set.
%Ow
Same as %w
but using the locale’s alternative numeric symbols.
%W
The week number of the current year as a decimal number (range 0
through 53
).
Leading zeroes are permitted but not required.
Note: Currently, this is not fully implemented. The format is recognized, input is consumed but no field in tm is set.
%OW
Same as %W
but using the locale’s alternative numeric symbols.
%x
The date using the locale’s date format.
%Ex
Like %x
but the locale’s alternative data representation is used.
%X
The time using the locale’s time format.
%EX
Like %X
but the locale’s alternative time representation is used.
%y
The year without a century as a decimal number (range 0
through
99
).
Leading zeroes are permitted but not required.
Note that it is questionable to use this format without
the %C
format. The strptime
function does regard input
values in the range 68 to 99 as the years 1969 to
1999 and the values 0 to 68 as the years
2000 to 2068. But maybe this heuristic fails for some
input data.
Therefore it is best to avoid %y
completely and use %Y
instead.
%Ey
The offset from %EC
in the locale’s alternative representation.
%Oy
The offset of the year (from %C
) using the locale’s alternative
numeric symbols.
%Y
The year as a decimal number, using the Gregorian calendar.
%EY
The full alternative year representation.
%z
The offset from GMT in ISO 8601/RFC822 format.
%Z
The timezone name.
Note: Currently, this is not fully implemented. The format is recognized, input is consumed but no field in tm is set.
%%
A literal ‘%’ character.
All other characters in the format string must have a matching character in the input string. Exceptions are white spaces in the input string which can match zero or more whitespace characters in the format string.
Portability Note: The XPG standard advises applications to use
at least one whitespace character (as specified by isspace
) or
other non-alphanumeric characters between any two conversion
specifications. The GNU C Library does not have this limitation but
other libraries might have trouble parsing formats like
"%d%m%Y%H%M%S"
.
The strptime
function processes the input string from right to
left. Each of the three possible input elements (white space, literal,
or format) are handled one after the other. If the input cannot be
matched to the format string the function stops. The remainder of the
format and input strings are not processed.
The function returns a pointer to the first character it was unable to
process. If the input string contains more characters than required by
the format string the return value points right after the last consumed
input character. If the whole input string is consumed the return value
points to the NULL
byte at the end of the string. If an error
occurs, i.e., strptime
fails to match all of the format string,
the function returns NULL
.
The specification of the function in the XPG standard is rather vague, leaving out a few important pieces of information. Most importantly, it does not specify what happens to those elements of tm which are not directly initialized by the different formats. The implementations on different Unix systems vary here.
The GNU C Library implementation does not touch those fields which are not
directly initialized. Exceptions are the tm_wday
and
tm_yday
elements, which are recomputed if any of the year, month,
or date elements changed. This has two implications:
strptime
function for a new input string, you
should prepare the tm structure you pass. Normally this will mean
initializing all values to zero. Alternatively, you can set all
fields to values like INT_MAX
, allowing you to determine which
elements were set by the function call. Zero does not work here since
it is a valid value for many of the fields.
Careful initialization is necessary if you want to find out whether a certain field in tm was initialized by the function call.
struct tm
value with several consecutive
strptime
calls. A useful application of this is e.g. the parsing
of two separate strings, one containing date information and the other
time information. By parsing one after the other without clearing the
structure in-between, you can construct a complete broken-down time.
The following example shows a function which parses a string which contains the date information in either US style or ISO 8601 form:
const char * parse_date (const char *input, struct tm *tm) { const char *cp; /* First clear the result structure. */ memset (tm, '\0', sizeof (*tm)); /* Try the ISO format first. */ cp = strptime (input, "%F", tm); if (cp == NULL) { /* Does not match. Try the US form. */ cp = strptime (input, "%D", tm); } return cp; }
Next: General Time String Parsing, Up: Parsing Date and Time [Contents][Index]