strptime                package:base                R Documentation

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_D_e_s_c_r_i_p_t_i_o_n:

     Functions to convert between character representations and objects
     of classes '"POSIXlt"' and '"POSIXct"' representing calendar dates
     and times.

_U_s_a_g_e:

     ## S3 method for class 'POSIXct':
     format(x, format = "", tz = "", usetz = FALSE, ...)
     ## S3 method for class 'POSIXlt':
     format(x, format = "", usetz = FALSE, ...)

     ## S3 method for class 'POSIXt':
     as.character(x, ...)

     strftime(x, format="", usetz = FALSE, ...)
     strptime(x, format)

     ISOdatetime(year, month, day, hour, min, sec, tz = "")
     ISOdate(year, month, day, hour = 12, min = 0, sec = 0, tz = "GMT")

_A_r_g_u_m_e_n_t_s:

       x: An object to be converted.

      tz: A timezone specification to be used for the conversion.
          System-specific, but '""' is the current time zone, and
          '"GMT"' is UTC.

  format: A character string.  The default is '"%Y-%m-%d %H:%M:%S"' if
          any component has a time component which is not midnight, and
          '"%Y-%m-%d"' otherwise.

     ...: Further arguments to be passed from or to other methods.

   usetz: logical.  Should the timezone be appended to the output? This
          is used in printing time, and as a workaround for problems
          with using '"%Z"' on most Linux systems.

year, month, day: numerical values to specify a day.

hour, min, sec: numerical values for a time within a day.

_D_e_t_a_i_l_s:

     'strftime' is an alias for 'format.POSIXlt', and 'format.POSIXct'
     first converts to class '"POSIXct"' by calling 'as.POSIXct'. Note
     that only that conversion depends on the time zone.

     The usual vector re-cycling rules are applied to 'x' and 'format'
     so the answer will be of length that of the longer of the vectors.

     Locale-specific conversions to and from character strings are used
     where appropriate and available.  This affects the names of the
     days and months, the AM/PM indicator (if used) and the separators
     in formats such as '%x' and '%X'.

     The details of the formats are system-specific, but the following
     are defined by the ISO C / POSIX standard for 'strftime' and are
     likely to be widely available.  Any character in the format string
     other than the '%' escape sequences is interpreted literally (and
     '%%' gives '%').

     '%_a' Abbreviated weekday name.

     '%_A' Full weekday name.

     '%_b' Abbreviated month name.

     '%_B' Full month name.

     '%_c' Date and time, locale-specific.

     '%_d' Day of the month as decimal number (01-31).

     '%_H' Hours as decimal number (00-23).

     '%_I' Hours as decimal number (01-12).

     '%_j' Day of year as decimal number (001-366).

     '%_m' Month as decimal number (01-12).

     '%_M' Minute as decimal number (00-59).

     '%_p' AM/PM indicator in the locale.  Used in conjuction with '%I'
          and *not* with '%H'.

     '%_S' Second as decimal number (00-61), allowing for up to two
          leap-seconds.

     '%_U' Week of the year as decimal number (00-53) using the first
          Sunday as day 1 of week 1.

     '%_w' Weekday as decimal number (0-6, Sunday is 0).

     '%_W' Week of the year as decimal number (00-53) using the first
          Monday as day 1 of week 1.

     '%_x' Date, locale-specific.

     '%_X' Time, locale-specific.

     '%_y' Year without century (00-99). If you use this on input, which
          century you get is system-specific.  So don't!  Often values
          up to 69 (or 68) are prefixed by 20 and 70-99 by 19.

     '%_Y' Year with century.

     '%_z' (output only.) Offset from Greenwich, so '-0800' is 8 hours
          west of Greenwich.

     '%_Z' (output only.) Time zone as a character string (empty if not
          available).

     Where leading zeros are shown they will be used on output but are
     optional on input.

     Also defined in the current standards but less widely implemented
     (e.g. not for output on Windows) are

     '%_F' Equivalent to %Y-%m-%d (the ISO 8601 date format).

     '%_g' The last two digits of the week-based year (see '%V').

     '%_G' The week-based year (see '%V') as a decimal number.

     '%_u' Weekday as a decimal number (1-7, Monday is 1).

     '%_V' Week of the year as decimal number (00-53). If the week
          (starting on Monday) containing 1 January has four or more
          days in the new year, then it is considered week 1.
          Otherwise, it is the last week of the previous year, and the
          next week is week 1.

     Other format specifiers in common use include

     '%_D' Locale-specific date format such as '%m/%d/%y'.

     '%_k' The 24-hour clock time with single digits preceded by a
          blank.

     '%_l' The 12-hour clock time with single digits preceded by a
          blank.

     '%_n' Newline on output, arbitrary whitespace on input.

     '%_r' The 12-hour clock time (using the locale's AM or PM).

     '%_R' Equivalent to '%H:%M'.

     '%_t' Newline on output, arbitrary whitespace on input.

     '%_T' Equivalent to '%H:%M:%S'.

     There are also '%O[dHImMSUVwWy]' which may emit numbers in an
     alternative local-dependent format (e.g. roman numerals), and
     '%E[cCyYxX]' which can use an alternative 'era' (e.g. a different
     religious calendar).  Which of these are supported is
     OS-dependent.

     'ISOdatetime' and 'ISOdate' are convenience wrappers for
     'strptime', that differ only in their defaults.

_V_a_l_u_e:

     The 'format' methods and 'strftime' return character vectors
     representing the time.

     'strptime' turns character representations into an object of class
     '"POSIXlt"'.

     'ISOdatetime' and 'ISOdate' return an object of class '"POSIXct"'.

_N_o_t_e:

     The default formats follow the rules of the ISO 8601 international
     standard which expresses a day as '"2001-02-03"' and a time as
     '"14:01:02"' using leading zeroes as here.  The ISO form uses no
     space to separate dates and times.

     If the date string does not specify the date completely, the
     returned answer may be system-specific.  The most common behaviour
     is to assume that unspecified seconds, minutes or hours are zero,
     and a missing year, month or day is the current one.  If it
     specifies a date incorrectly, reliable implementations will give
     an error and the date is reported as 'NA'.  Unfortunately some
     common implementations (such as 'glibc') are unreliable and guess
     at the intended meaning.

     If the timezone specified is invalid on your system, what happens
     is system-specific but it will probably be ignored.

     OS facilities will probably not print years before 1CE (aka 1AD)
     correctly.

_R_e_f_e_r_e_n_c_e_s:

     International Organization for Standardization (1988, 1997, ...)
     _ISO 8601. Data elements and interchange formats - Information
     interchange - Representation of dates and times._ The 1997 version
     is available on-line at <URL:
     ftp://ftp.qsl.net/pub/g1smd/8601v03.pdf>

_S_e_e _A_l_s_o:

     DateTimeClasses for details of the date-time classes; 'locales' to
     query or set a locale.

     Your system's help pages on 'strftime' and 'strptime' to see how
     to specify their formats.

_E_x_a_m_p_l_e_s:

     ## locale-specific version of date()
     format(Sys.time(), "%a %b %d %X %Y %Z")

     ## read in date info in format 'ddmmmyyyy'
     ## This will give NA(s) in some locales; setting the C locale
     ## as in the commented lines will overcome this on most systems.
     ## lct <- Sys.getlocale("LC_TIME"); Sys.setlocale("LC_TIME", "C")
     x <- c("1jan1960", "2jan1960", "31mar1960", "30jul1960")
     z <- strptime(x, "%d%b%Y")
     ## Sys.setlocale("LC_TIME", lct)
     z

     ## read in date/time info in format 'm/d/y h:m:s'
     dates <- c("02/27/92", "02/27/92", "01/14/92", "02/28/92", "02/01/92")
     times <- c("23:03:20", "22:29:56", "01:03:30", "18:21:03", "16:56:26")
     x <- paste(dates, times)
     z <- strptime(x, "%m/%d/%y %H:%M:%S")
     z

