Class: DateTime

Inherits:

Date

• Object
• Date
• DateTime

Defined in:

ext/date/date_core.c

Constant Summary

Constants inherited from Date

Date::ABBR_DAYNAMES, Date::ABBR_MONTHNAMES, Date::DAYNAMES, Date::ENGLAND, Date::GREGORIAN, Date::ITALY, Date::JULIAN, Date::MONTHNAMES, Date::VERSION

Class Method Summary

• ._strptime(string[, format = '%FT%T%z']) ⇒ Hash

  Parses the given representation of date and time with the given template, and returns a hash of parsed elements.

• .civil(*args) ⇒ Object

  Same as DateTime.new.

• .commercial([cwyear = -4712[, cweek=1[, cwday=1[, hour=0[, minute=0[, second=0[, offset=0[, start=Date::ITALY]]]]]]]]) ⇒ Object

  Creates a DateTime object denoting the given week date.

• .httpdate(string = 'Mon, 01 Jan -4712 00:00:00 GMT'[, start=Date::ITALY]) ⇒ Object

  Creates a new DateTime object by parsing from a string according to some RFC 2616 format.

• .iso8601(string = '-4712-01-01T00:00:00+00:00'[, start=Date::ITALY], limit: 128) ⇒ Object

  Creates a new DateTime object by parsing from a string according to some typical ISO 8601 formats.

• .jd([jd = 0[, hour=0[, minute=0[, second=0[, offset=0[, start=Date::ITALY]]]]]]) ⇒ Object

  Creates a DateTime object denoting the given chronological Julian day number.

• .jisx0301(string = '-4712-01-01T00:00:00+00:00'[, start=Date::ITALY], limit: 128) ⇒ Object

  Creates a new DateTime object by parsing from a string according to some typical JIS X 0301 formats.

• .new(*args) ⇒ Object

  Same as DateTime.new.

• .now([start = Date::ITALY]) ⇒ Object

  Creates a DateTime object denoting the present time.

• .nth_kday(*args) ⇒ Object

  :nodoc:.

• .ordinal([year = -4712[, yday=1[, hour=0[, minute=0[, second=0[, offset=0[, start=Date::ITALY]]]]]]]) ⇒ Object

  Creates a DateTime object denoting the given ordinal date.

• .parse(string = '-4712-01-01T00:00:00+00:00'[, comp=true[, start=Date::ITALY]], limit: 128) ⇒ Object

  Parses the given representation of date and time, and creates a DateTime object.

• .rfc2822(*args) ⇒ Object

  Creates a new DateTime object by parsing from a string according to some typical RFC 2822 formats.

• .rfc3339(string = '-4712-01-01T00:00:00+00:00'[, start=Date::ITALY], limit: 128) ⇒ Object

  Creates a new DateTime object by parsing from a string according to some typical RFC 3339 formats.

• .rfc822(*args) ⇒ Object

  Creates a new DateTime object by parsing from a string according to some typical RFC 2822 formats.

• .strptime([string = '-4712-01-01T00:00:00+00:00'[, format='%FT%T%z'[ ,start=Date::ITALY]]]) ⇒ Object

  Parses the given representation of date and time with the given template, and creates a DateTime object.

• .weeknum(*args) ⇒ Object

  :nodoc:.

• .xmlschema(string = '-4712-01-01T00:00:00+00:00'[, start=Date::ITALY], limit: 128) ⇒ Object

  Creates a new DateTime object by parsing from a string according to some typical XML Schema formats.

Instance Method Summary

• #hour ⇒ Integer

  Returns the hour in range (0..23):.

• #iso8601(*args) ⇒ Object

  This method is equivalent to strftime(‘%FT%T%:z’).

• #jisx0301([n = 0]) ⇒ String

  Returns a string in a JIS X 0301 format.

• #min ⇒ Integer

  Returns the minute in range (0..59):.

• #min ⇒ Integer

  Returns the minute in range (0..59):.

• #new_offset([offset = 0]) ⇒ Object

  Duplicates self and resets its offset.

• #offset ⇒ Object

  Returns the offset.

• #rfc3339([n = 0]) ⇒ String

  This method is equivalent to strftime(‘%FT%T%:z’).

• #sec ⇒ Integer

  Returns the second in range (0..59):.

• #sec_fraction ⇒ Object

  Returns the fractional part of the second in range (Rational(0, 1)…Rational(1, 1)):.

• #sec ⇒ Integer

  Returns the second in range (0..59):.

• #sec_fraction ⇒ Object

  Returns the fractional part of the second in range (Rational(0, 1)…Rational(1, 1)):.

• #strftime(format = '%FT%T%:z') ⇒ String

  Returns a string representation of self, formatted according the given +format:.

• #to_date ⇒ Object

  Returns a Date object which denotes self.

• #to_datetime ⇒ self

  Returns self.

• #to_s ⇒ String

  Returns a string in an ISO 8601 format.

• #to_time ⇒ Time

  Returns a Time object which denotes self.

• #xmlschema(*args) ⇒ Object

  This method is equivalent to strftime(‘%FT%T%:z’).

• #zone ⇒ String

  Returns the timezone.

Methods inherited from Date

#+, #-, #<<, #<=>, #===, #>>, _httpdate, _iso8601, _jisx0301, _load, _parse, _rfc2822, _rfc3339, _rfc822, _xmlschema, #ajd, #amjd, #asctime, #ctime, #cwday, #cweek, #cwyear, #day, #day_fraction, #downto, #england, #eql?, #fill, #friday?, #gregorian, #gregorian?, gregorian_leap?, #hash, #httpdate, #infinite?, #initialize, #initialize_copy, #inspect, #inspect_raw, #italy, #jd, #julian, #julian?, julian_leap?, #ld, #leap?, leap?, #marshal_dump, #marshal_dump_old, #marshal_load, #mday, #mjd, #mon, #monday?, #month, new!, #new_start, #next, #next_day, #next_month, #next_year, #nth_kday?, #prev_day, #prev_month, #prev_year, #rfc2822, #rfc822, #saturday?, #start, #step, #succ, #sunday?, test_all, test_civil, test_commercial, test_nth_kday, test_ordinal, test_unit_conv, test_weeknum, #thursday?, today, #tuesday?, #upto, valid_civil?, valid_commercial?, valid_date?, valid_jd?, valid_ordinal?, #wday, #wednesday?, #yday, #year

Constructor Details

This class inherits a constructor from Date

Class Method Details

._strptime(string[, format = '%FT%T%z']) ⇒ Hash

Parses the given representation of date and time with the given template, and returns a hash of parsed elements. _strptime does not support specification of flags and width unlike strftime.

See also strptime(3) and #strftime.

Returns:

• (Hash)

# File 'ext/date/date_core.c', line 8264

static VALUE
datetime_s__strptime(int argc, VALUE *argv, VALUE klass)
{
    return date_s__strptime_internal(argc, argv, klass, "%FT%T%z");
}

.civil(*args) ⇒ Object

Same as DateTime.new.

# File 'ext/date/date_core.c', line 7726

static VALUE
datetime_s_civil(int argc, VALUE *argv, VALUE klass)
{
    return datetime_initialize(argc, argv, d_lite_s_alloc_complex(klass));
}

.commercial([cwyear = -4712[, cweek=1[, cwday=1[, hour=0[, minute=0[, second=0[, offset=0[, start=Date::ITALY]]]]]]]]) ⇒ Object

Creates a DateTime object denoting the given week date.

DateTime.commercial(2001)	#=> #<DateTime: 2001-01-01T00:00:00+00:00 ...>
DateTime.commercial(2002)	#=> #<DateTime: 2001-12-31T00:00:00+00:00 ...>
DateTime.commercial(2001,5,6,4,5,6,'+7')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

# File 'ext/date/date_core.c', line 7841

static VALUE
datetime_s_commercial(int argc, VALUE *argv, VALUE klass)
{
    VALUE vy, vw, vd, vh, vmin, vs, vof, vsg, y, fr, fr2, ret;
    int w, d, h, min, s, rof;
    double sg;

    rb_scan_args(argc, argv, "08", &vy, &vw, &vd, &vh, &vmin, &vs, &vof, &vsg);

    y = INT2FIX(-4712);
    w = 1;
    d = 1;

    h = min = s = 0;
    fr2 = INT2FIX(0);
    rof = 0;
    sg = DEFAULT_SG;

    switch (argc) {
      case 8:
	val2sg(vsg, sg);
      case 7:
	val2off(vof, rof);
      case 6:
        check_numeric(vs, "second");
	num2int_with_frac(s, positive_inf);
      case 5:
        check_numeric(vmin, "minute");
	num2int_with_frac(min, 5);
      case 4:
        check_numeric(vh, "hour");
	num2int_with_frac(h, 4);
      case 3:
        check_numeric(vd, "cwday");
	num2int_with_frac(d, 3);
      case 2:
        check_numeric(vw, "cweek");
	w = NUM2INT(vw);
      case 1:
        check_numeric(vy, "year");
	y = vy;
    }

    {
	VALUE nth;
	int ry, rw, rd, rh, rmin, rs, rjd, rjd2, ns;

	if (!valid_commercial_p(y, w, d, sg,
				&nth, &ry,
				&rw, &rd, &rjd,
				&ns))
	    rb_raise(eDateError, "invalid date");
	if (!c_valid_time_p(h, min, s, &rh, &rmin, &rs))
	    rb_raise(eDateError, "invalid date");
	canon24oc();

	rjd2 = jd_local_to_utc(rjd,
			       time_to_df(rh, rmin, rs),
			       rof);

	ret = d_complex_new_internal(klass,
				     nth, rjd2,
				     0, INT2FIX(0),
				     rof, sg,
				     0, 0, 0,
				     rh, rmin, rs,
				     HAVE_JD | HAVE_TIME);
    }
    add_frac();
    return ret;
}

.httpdate(string = 'Mon, 01 Jan -4712 00:00:00 GMT'[, start=Date::ITALY]) ⇒ Object

Creates a new DateTime object by parsing from a string according to some RFC 2616 format.

DateTime.httpdate('Sat, 03 Feb 2001 04:05:06 GMT')

#=> #<DateTime: 2001-02-03T04:05:06+00:00 …>

Raise an ArgumentError when the string length is longer than limit. You can stop this check by passing limit: nil, but note that it may take a long time to parse.

# File 'ext/date/date_core.c', line 8557

static VALUE
datetime_s_httpdate(int argc, VALUE *argv, VALUE klass)
{
    VALUE str, sg, opt;

    rb_scan_args(argc, argv, "02:", &str, &sg, &opt);
    if (!NIL_P(opt)) argc--;

    switch (argc) {
      case 0:
	str = rb_str_new2("Mon, 01 Jan -4712 00:00:00 GMT");
      case 1:
	sg = INT2FIX(DEFAULT_SG);
    }

    {
        int argc2 = 1;
        VALUE argv2[2], hash;
        argv2[0] = str;
        argv2[1] = opt;
        if (!NIL_P(opt)) argc2++;
	hash = date_s__httpdate(argc2, argv2, klass);
	return dt_new_by_frags(klass, hash, sg);
    }
}

.iso8601(string = '-4712-01-01T00:00:00+00:00'[, start=Date::ITALY], limit: 128) ⇒ Object

Creates a new DateTime object by parsing from a string according to some typical ISO 8601 formats.

DateTime.iso8601('2001-02-03T04:05:06+07:00')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

DateTime.iso8601('20010203T040506+0700')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

DateTime.iso8601('2001-W05-6T04:05:06+07:00')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

Raise an ArgumentError when the string length is longer than limit. You can stop this check by passing limit: nil, but note that it may take a long time to parse.

# File 'ext/date/date_core.c', line 8396

static VALUE
datetime_s_iso8601(int argc, VALUE *argv, VALUE klass)
{
    VALUE str, sg, opt;

    rb_scan_args(argc, argv, "02:", &str, &sg, &opt);
    if (!NIL_P(opt)) argc--;

    switch (argc) {
      case 0:
	str = rb_str_new2("-4712-01-01T00:00:00+00:00");
      case 1:
	sg = INT2FIX(DEFAULT_SG);
    }

    {
        int argc2 = 1;
        VALUE argv2[2], hash;
        argv2[0] = str;
        argv2[1] = opt;
        if (!NIL_P(opt)) argc2--;
	hash = date_s__iso8601(argc2, argv2, klass);
	return dt_new_by_frags(klass, hash, sg);
    }
}

.jd([jd = 0[, hour=0[, minute=0[, second=0[, offset=0[, start=Date::ITALY]]]]]]) ⇒ Object

Creates a DateTime object denoting the given chronological Julian day number.

DateTime.jd(2451944)	#=> #<DateTime: 2001-02-03T00:00:00+00:00 ...>
DateTime.jd(2451945)	#=> #<DateTime: 2001-02-04T00:00:00+00:00 ...>
DateTime.jd(Rational('0.5'))

#=> #<DateTime: -4712-01-01T12:00:00+00:00 …>

# File 'ext/date/date_core.c', line 7583

static VALUE
datetime_s_jd(int argc, VALUE *argv, VALUE klass)
{
    VALUE vjd, vh, vmin, vs, vof, vsg, jd, fr, fr2, ret;
    int h, min, s, rof;
    double sg;

    rb_scan_args(argc, argv, "06", &vjd, &vh, &vmin, &vs, &vof, &vsg);

    jd = INT2FIX(0);

    h = min = s = 0;
    fr2 = INT2FIX(0);
    rof = 0;
    sg = DEFAULT_SG;

    switch (argc) {
      case 6:
	val2sg(vsg, sg);
      case 5:
	val2off(vof, rof);
      case 4:
        check_numeric(vs, "second");
	num2int_with_frac(s, positive_inf);
      case 3:
        check_numeric(vmin, "minute");
	num2int_with_frac(min, 3);
      case 2:
        check_numeric(vh, "hour");
	num2int_with_frac(h, 2);
      case 1:
        check_numeric(vjd, "jd");
	num2num_with_frac(jd, 1);
    }

    {
	VALUE nth;
	int rh, rmin, rs, rjd, rjd2;

	if (!c_valid_time_p(h, min, s, &rh, &rmin, &rs))
	    rb_raise(eDateError, "invalid date");
	canon24oc();

	decode_jd(jd, &nth, &rjd);
	rjd2 = jd_local_to_utc(rjd,
			       time_to_df(rh, rmin, rs),
			       rof);

	ret = d_complex_new_internal(klass,
				     nth, rjd2,
				     0, INT2FIX(0),
				     rof, sg,
				     0, 0, 0,
				     rh, rmin, rs,
				     HAVE_JD | HAVE_TIME);
    }
    add_frac();
    return ret;
}

.jisx0301(string = '-4712-01-01T00:00:00+00:00'[, start=Date::ITALY], limit: 128) ⇒ Object

Creates a new DateTime object by parsing from a string according to some typical JIS X 0301 formats.

DateTime.jisx0301('H13.02.03T04:05:06+07:00')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

For no-era year, legacy format, Heisei is assumed.

DateTime.jisx0301('13.02.03T04:05:06+07:00')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

Raise an ArgumentError when the string length is longer than limit. You can stop this check by passing limit: nil, but note that it may take a long time to parse.

# File 'ext/date/date_core.c', line 8602

static VALUE
datetime_s_jisx0301(int argc, VALUE *argv, VALUE klass)
{
    VALUE str, sg, opt;

    rb_scan_args(argc, argv, "02:", &str, &sg, &opt);
    if (!NIL_P(opt)) argc--;

    switch (argc) {
      case 0:
	str = rb_str_new2("-4712-01-01T00:00:00+00:00");
      case 1:
	sg = INT2FIX(DEFAULT_SG);
    }

    {
        int argc2 = 1;
        VALUE argv2[2], hash;
        argv2[0] = str;
        argv2[1] = opt;
        if (!NIL_P(opt)) argc2++;
	hash = date_s__jisx0301(argc2, argv2, klass);
	return dt_new_by_frags(klass, hash, sg);
    }
}

.new(*args) ⇒ Object

Same as DateTime.new.

# File 'ext/date/date_core.c', line 7726

static VALUE
datetime_s_civil(int argc, VALUE *argv, VALUE klass)
{
    return datetime_initialize(argc, argv, d_lite_s_alloc_complex(klass));
}

.now([start = Date::ITALY]) ⇒ Object

Creates a DateTime object denoting the present time.

DateTime.now		#=> #<DateTime: 2011-06-11T21:20:44+09:00 ...>

# File 'ext/date/date_core.c', line 8063

static VALUE
datetime_s_now(int argc, VALUE *argv, VALUE klass)
{
    VALUE vsg, nth, ret;
    double sg;
#ifdef HAVE_CLOCK_GETTIME
    struct timespec ts;
#else
    struct timeval tv;
#endif
    time_t sec;
    struct tm tm;
    long sf, of;
    int y, ry, m, d, h, min, s;

    rb_scan_args(argc, argv, "01", &vsg);

    if (argc < 1)
	sg = DEFAULT_SG;
    else
	sg = NUM2DBL(vsg);

#ifdef HAVE_CLOCK_GETTIME
    if (clock_gettime(CLOCK_REALTIME, &ts) == -1)
	rb_sys_fail("clock_gettime");
    sec = ts.tv_sec;
#else
    if (gettimeofday(&tv, NULL) == -1)
	rb_sys_fail("gettimeofday");
    sec = tv.tv_sec;
#endif
    tzset();
    if (!localtime_r(&sec, &tm))
	rb_sys_fail("localtime");

    y = tm.tm_year + 1900;
    m = tm.tm_mon + 1;
    d = tm.tm_mday;
    h = tm.tm_hour;
    min = tm.tm_min;
    s = tm.tm_sec;
    if (s == 60)
	s = 59;
#ifdef HAVE_STRUCT_TM_TM_GMTOFF
    of = tm.tm_gmtoff;
#elif defined(HAVE_TIMEZONE)
#if defined(HAVE_ALTZONE) && !defined(_AIX)
    of = (long)-((tm.tm_isdst > 0) ? altzone : timezone);
#else
    of = (long)-timezone;
    if (tm.tm_isdst) {
	time_t sec2;

	tm.tm_isdst = 0;
	sec2 = mktime(&tm);
	of += (long)difftime(sec2, sec);
    }
#endif
#elif defined(HAVE_TIMEGM)
    {
	time_t sec2;

	sec2 = timegm(&tm);
	of = (long)difftime(sec2, sec);
    }
#else
    {
	struct tm tm2;
	time_t sec2;

	if (!gmtime_r(&sec, &tm2))
	    rb_sys_fail("gmtime");
	tm2.tm_isdst = tm.tm_isdst;
	sec2 = mktime(&tm2);
	of = (long)difftime(sec, sec2);
    }
#endif
#ifdef HAVE_CLOCK_GETTIME
    sf = ts.tv_nsec;
#else
    sf = tv.tv_usec * 1000;
#endif

    if (of < -DAY_IN_SECONDS || of > DAY_IN_SECONDS) {
	of = 0;
	rb_warning("invalid offset is ignored");
    }

    decode_year(INT2FIX(y), -1, &nth, &ry);

    ret = d_complex_new_internal(klass,
				 nth, 0,
				 0, LONG2NUM(sf),
				 (int)of, GREGORIAN,
				 ry, m, d,
				 h, min, s,
				 HAVE_CIVIL | HAVE_TIME);
    {
	get_d1(ret);
	set_sg(dat, sg);
    }
    return ret;
}

.nth_kday(*args) ⇒ Object

:nodoc:

# File 'ext/date/date_core.c', line 7985

static VALUE
datetime_s_nth_kday(int argc, VALUE *argv, VALUE klass)
{
    VALUE vy, vm, vn, vk, vh, vmin, vs, vof, vsg, y, fr, fr2, ret;
    int m, n, k, h, min, s, rof;
    double sg;

    rb_scan_args(argc, argv, "09", &vy, &vm, &vn, &vk,
		 &vh, &vmin, &vs, &vof, &vsg);

    y = INT2FIX(-4712);
    m = 1;
    n = 1;
    k = 1;

    h = min = s = 0;
    fr2 = INT2FIX(0);
    rof = 0;
    sg = DEFAULT_SG;

    switch (argc) {
      case 9:
	val2sg(vsg, sg);
      case 8:
	val2off(vof, rof);
      case 7:
	num2int_with_frac(s, positive_inf);
      case 6:
	num2int_with_frac(min, 6);
      case 5:
	num2int_with_frac(h, 5);
      case 4:
	num2int_with_frac(k, 4);
      case 3:
	n = NUM2INT(vn);
      case 2:
	m = NUM2INT(vm);
      case 1:
	y = vy;
    }

    {
	VALUE nth;
	int ry, rm, rn, rk, rh, rmin, rs, rjd, rjd2, ns;

	if (!valid_nth_kday_p(y, m, n, k, sg,
			      &nth, &ry,
			      &rm, &rn, &rk, &rjd,
			      &ns))
	    rb_raise(eDateError, "invalid date");
	if (!c_valid_time_p(h, min, s, &rh, &rmin, &rs))
	    rb_raise(eDateError, "invalid date");
	canon24oc();

	rjd2 = jd_local_to_utc(rjd,
			       time_to_df(rh, rmin, rs),
			       rof);
	ret = d_complex_new_internal(klass,
				     nth, rjd2,
				     0, INT2FIX(0),
				     rof, sg,
				     0, 0, 0,
				     rh, rmin, rs,
				     HAVE_JD | HAVE_TIME);
    }
    add_frac();
    return ret;
}

.ordinal([year = -4712[, yday=1[, hour=0[, minute=0[, second=0[, offset=0[, start=Date::ITALY]]]]]]]) ⇒ Object

Creates a DateTime object denoting the given ordinal date.

DateTime.ordinal(2001,34)	#=> #<DateTime: 2001-02-03T00:00:00+00:00 ...>
DateTime.ordinal(2001,34,4,5,6,'+7')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

DateTime.ordinal(2001,-332,-20,-55,-54,'+7')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

# File 'ext/date/date_core.c', line 7655

static VALUE
datetime_s_ordinal(int argc, VALUE *argv, VALUE klass)
{
    VALUE vy, vd, vh, vmin, vs, vof, vsg, y, fr, fr2, ret;
    int d, h, min, s, rof;
    double sg;

    rb_scan_args(argc, argv, "07", &vy, &vd, &vh, &vmin, &vs, &vof, &vsg);

    y = INT2FIX(-4712);
    d = 1;

    h = min = s = 0;
    fr2 = INT2FIX(0);
    rof = 0;
    sg = DEFAULT_SG;

    switch (argc) {
      case 7:
	val2sg(vsg, sg);
      case 6:
	val2off(vof, rof);
      case 5:
        check_numeric(vs, "second");
	num2int_with_frac(s, positive_inf);
      case 4:
        check_numeric(vmin, "minute");
	num2int_with_frac(min, 4);
      case 3:
        check_numeric(vh, "hour");
	num2int_with_frac(h, 3);
      case 2:
        check_numeric(vd, "yday");
	num2int_with_frac(d, 2);
      case 1:
        check_numeric(vy, "year");
	y = vy;
    }

    {
	VALUE nth;
	int ry, rd, rh, rmin, rs, rjd, rjd2, ns;

	if (!valid_ordinal_p(y, d, sg,
			     &nth, &ry,
			     &rd, &rjd,
			     &ns))
	    rb_raise(eDateError, "invalid date");
	if (!c_valid_time_p(h, min, s, &rh, &rmin, &rs))
	    rb_raise(eDateError, "invalid date");
	canon24oc();

	rjd2 = jd_local_to_utc(rjd,
			       time_to_df(rh, rmin, rs),
			       rof);

	ret = d_complex_new_internal(klass,
				     nth, rjd2,
				     0, INT2FIX(0),
				     rof, sg,
				     0, 0, 0,
				     rh, rmin, rs,
				     HAVE_JD | HAVE_TIME);
    }
    add_frac();
    return ret;
}

.parse(string = '-4712-01-01T00:00:00+00:00'[, comp=true[, start=Date::ITALY]], limit: 128) ⇒ Object

Parses the given representation of date and time, and creates a DateTime object.

This method does not function as a validator. If the input string does not match valid formats strictly, you may get a cryptic result. Should consider to use DateTime.strptime instead of this method as possible.

If the optional second argument is true and the detected year is in the range “00” to “99”, makes it full.

DateTime.parse('2001-02-03T04:05:06+07:00')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

DateTime.parse('20010203T040506+0700')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

DateTime.parse('3rd Feb 2001 04:05:06 PM')

#=> #<DateTime: 2001-02-03T16:05:06+00:00 …>

Raise an ArgumentError when the string length is longer than limit. You can stop this check by passing limit: nil, but note that it may take a long time to parse.

# File 'ext/date/date_core.c', line 8349

static VALUE
datetime_s_parse(int argc, VALUE *argv, VALUE klass)
{
    VALUE str, comp, sg, opt;

    rb_scan_args(argc, argv, "03:", &str, &comp, &sg, &opt);
    if (!NIL_P(opt)) argc--;

    switch (argc) {
      case 0:
	str = rb_str_new2("-4712-01-01T00:00:00+00:00");
      case 1:
	comp = Qtrue;
      case 2:
	sg = INT2FIX(DEFAULT_SG);
    }

    {
        int argc2 = 2;
        VALUE argv2[3], hash;
        argv2[0] = str;
        argv2[1] = comp;
        argv2[2] = opt;
        if (!NIL_P(opt)) argc2++;
	hash = date_s__parse(argc2, argv2, klass);
	return dt_new_by_frags(klass, hash, sg);
    }
}

.rfc2822(string = 'Mon, 1 Jan -4712 00:00:00 +0000'[, start=Date::ITALY], limit: 128) ⇒ Object .rfc822(string = 'Mon, 1 Jan -4712 00:00:00 +0000'[, start=Date::ITALY], limit: 128) ⇒ Object

Creates a new DateTime object by parsing from a string according to some typical RFC 2822 formats.

DateTime.rfc2822('Sat, 3 Feb 2001 04:05:06 +0700')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

Raise an ArgumentError when the string length is longer than limit. You can stop this check by passing limit: nil, but note that it may take a long time to parse.

# File 'ext/date/date_core.c', line 8517

static VALUE
datetime_s_rfc2822(int argc, VALUE *argv, VALUE klass)
{
    VALUE str, sg, opt;

    rb_scan_args(argc, argv, "02:", &str, &sg, &opt);
    if (!NIL_P(opt)) argc--;

    switch (argc) {
      case 0:
	str = rb_str_new2("Mon, 1 Jan -4712 00:00:00 +0000");
      case 1:
	sg = INT2FIX(DEFAULT_SG);
    }

    {
        int argc2 = 1;
        VALUE argv2[2], hash;
        argv2[0] = str;
        argv2[1] = opt;
        if (!NIL_P(opt)) argc2++;
	hash = date_s__rfc2822(argc2, argv2, klass);
	return dt_new_by_frags(klass, hash, sg);
    }
}

.rfc3339(string = '-4712-01-01T00:00:00+00:00'[, start=Date::ITALY], limit: 128) ⇒ Object

Creates a new DateTime object by parsing from a string according to some typical RFC 3339 formats.

DateTime.rfc3339('2001-02-03T04:05:06+07:00')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

Raise an ArgumentError when the string length is longer than limit. You can stop this check by passing limit: nil, but note that it may take a long time to parse.

# File 'ext/date/date_core.c', line 8436

static VALUE
datetime_s_rfc3339(int argc, VALUE *argv, VALUE klass)
{
    VALUE str, sg, opt;

    rb_scan_args(argc, argv, "02:", &str, &sg, &opt);
    if (!NIL_P(opt)) argc--;

    switch (argc) {
      case 0:
	str = rb_str_new2("-4712-01-01T00:00:00+00:00");
      case 1:
	sg = INT2FIX(DEFAULT_SG);
    }

    {
        int argc2 = 1;
        VALUE argv2[2], hash;
        argv2[0] = str;
        argv2[1] = opt;
        if (!NIL_P(opt)) argc2++;
	hash = date_s__rfc3339(argc2, argv2, klass);
	return dt_new_by_frags(klass, hash, sg);
    }
}

.rfc2822(string = 'Mon, 1 Jan -4712 00:00:00 +0000'[, start=Date::ITALY], limit: 128) ⇒ Object .rfc822(string = 'Mon, 1 Jan -4712 00:00:00 +0000'[, start=Date::ITALY], limit: 128) ⇒ Object

Creates a new DateTime object by parsing from a string according to some typical RFC 2822 formats.

DateTime.rfc2822('Sat, 3 Feb 2001 04:05:06 +0700')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

Raise an ArgumentError when the string length is longer than limit. You can stop this check by passing limit: nil, but note that it may take a long time to parse.

# File 'ext/date/date_core.c', line 8517

static VALUE
datetime_s_rfc2822(int argc, VALUE *argv, VALUE klass)
{
    VALUE str, sg, opt;

    rb_scan_args(argc, argv, "02:", &str, &sg, &opt);
    if (!NIL_P(opt)) argc--;

    switch (argc) {
      case 0:
	str = rb_str_new2("Mon, 1 Jan -4712 00:00:00 +0000");
      case 1:
	sg = INT2FIX(DEFAULT_SG);
    }

    {
        int argc2 = 1;
        VALUE argv2[2], hash;
        argv2[0] = str;
        argv2[1] = opt;
        if (!NIL_P(opt)) argc2++;
	hash = date_s__rfc2822(argc2, argv2, klass);
	return dt_new_by_frags(klass, hash, sg);
    }
}

.strptime([string = '-4712-01-01T00:00:00+00:00'[, format='%FT%T%z'[ ,start=Date::ITALY]]]) ⇒ Object

Parses the given representation of date and time with the given template, and creates a DateTime object. strptime does not support specification of flags and width unlike strftime.

DateTime.strptime('2001-02-03T04:05:06+07:00', '%Y-%m-%dT%H:%M:%S%z')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

DateTime.strptime('03-02-2001 04:05:06 PM', '%d-%m-%Y %I:%M:%S %p')

#=> #<DateTime: 2001-02-03T16:05:06+00:00 …>

DateTime.strptime('2001-W05-6T04:05:06+07:00', '%G-W%V-%uT%H:%M:%S%z')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

DateTime.strptime('2001 04 6 04 05 06 +7', '%Y %U %w %H %M %S %z')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

DateTime.strptime('2001 05 6 04 05 06 +7', '%Y %W %u %H %M %S %z')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

DateTime.strptime('-1', '%s')

#=> #<DateTime: 1969-12-31T23:59:59+00:00 …>

DateTime.strptime('-1000', '%Q')

#=> #<DateTime: 1969-12-31T23:59:59+00:00 …>

DateTime.strptime('sat3feb014pm+7', '%a%d%b%y%H%p%z')

#=> #<DateTime: 2001-02-03T16:00:00+07:00 …>

See also strptime(3) and #strftime.

# File 'ext/date/date_core.c', line 8297

static VALUE
datetime_s_strptime(int argc, VALUE *argv, VALUE klass)
{
    VALUE str, fmt, sg;

    rb_scan_args(argc, argv, "03", &str, &fmt, &sg);

    switch (argc) {
      case 0:
	str = rb_str_new2("-4712-01-01T00:00:00+00:00");
      case 1:
	fmt = rb_str_new2("%FT%T%z");
      case 2:
	sg = INT2FIX(DEFAULT_SG);
    }

    {
	VALUE argv2[2], hash;

	argv2[0] = str;
	argv2[1] = fmt;
	hash = date_s__strptime(2, argv2, klass);
	return dt_new_by_frags(klass, hash, sg);
    }
}

.weeknum(*args) ⇒ Object

:nodoc:

# File 'ext/date/date_core.c', line 7915

static VALUE
datetime_s_weeknum(int argc, VALUE *argv, VALUE klass)
{
    VALUE vy, vw, vd, vf, vh, vmin, vs, vof, vsg, y, fr, fr2, ret;
    int w, d, f, h, min, s, rof;
    double sg;

    rb_scan_args(argc, argv, "09", &vy, &vw, &vd, &vf,
		 &vh, &vmin, &vs, &vof, &vsg);

    y = INT2FIX(-4712);
    w = 0;
    d = 1;
    f = 0;

    h = min = s = 0;
    fr2 = INT2FIX(0);
    rof = 0;
    sg = DEFAULT_SG;

    switch (argc) {
      case 9:
	val2sg(vsg, sg);
      case 8:
	val2off(vof, rof);
      case 7:
	num2int_with_frac(s, positive_inf);
      case 6:
	num2int_with_frac(min, 6);
      case 5:
	num2int_with_frac(h, 5);
      case 4:
	f = NUM2INT(vf);
      case 3:
	num2int_with_frac(d, 4);
      case 2:
	w = NUM2INT(vw);
      case 1:
	y = vy;
    }

    {
	VALUE nth;
	int ry, rw, rd, rh, rmin, rs, rjd, rjd2, ns;

	if (!valid_weeknum_p(y, w, d, f, sg,
			     &nth, &ry,
			     &rw, &rd, &rjd,
			     &ns))
	    rb_raise(eDateError, "invalid date");
	if (!c_valid_time_p(h, min, s, &rh, &rmin, &rs))
	    rb_raise(eDateError, "invalid date");
	canon24oc();

	rjd2 = jd_local_to_utc(rjd,
			       time_to_df(rh, rmin, rs),
			       rof);
	ret = d_complex_new_internal(klass,
				     nth, rjd2,
				     0, INT2FIX(0),
				     rof, sg,
				     0, 0, 0,
				     rh, rmin, rs,
				     HAVE_JD | HAVE_TIME);
    }
    add_frac();
    return ret;
}

.xmlschema(string = '-4712-01-01T00:00:00+00:00'[, start=Date::ITALY], limit: 128) ⇒ Object

Creates a new DateTime object by parsing from a string according to some typical XML Schema formats.

DateTime.xmlschema('2001-02-03T04:05:06+07:00')

#=> #<DateTime: 2001-02-03T04:05:06+07:00 …>

Raise an ArgumentError when the string length is longer than limit. You can stop this check by passing limit: nil, but note that it may take a long time to parse.

# File 'ext/date/date_core.c', line 8476

static VALUE
datetime_s_xmlschema(int argc, VALUE *argv, VALUE klass)
{
    VALUE str, sg, opt;

    rb_scan_args(argc, argv, "02:", &str, &sg, &opt);
    if (!NIL_P(opt)) argc--;

    switch (argc) {
      case 0:
	str = rb_str_new2("-4712-01-01T00:00:00+00:00");
      case 1:
	sg = INT2FIX(DEFAULT_SG);
    }

    {
        int argc2 = 1;
        VALUE argv2[2], hash;
        argv2[0] = str;
        argv2[1] = opt;
        if (!NIL_P(opt)) argc2++;
	hash = date_s__xmlschema(argc2, argv2, klass);
	return dt_new_by_frags(klass, hash, sg);
    }
}

Instance Method Details

#hour ⇒ Integer

Returns the hour in range (0..23):

DateTime.new(2001, 2, 3, 4, 5, 6).hour # => 4

Returns:

• (Integer)

# File 'ext/date/date_core.c', line 5596

static VALUE
d_lite_hour(VALUE self)
{
    get_d1(self);
    return INT2FIX(m_hour(dat));
}

#iso8601([n = 0]) ⇒ String #xmlschema([n = 0]) ⇒ String

This method is equivalent to strftime(‘%FT%T%:z’). The optional argument n is the number of digits for fractional seconds.

DateTime.parse('2001-02-03T04:05:06.123456789+07:00').iso8601(9)

#=> “2001-02-03T04:05:06.123456789+07:00”

Overloads:

• #iso8601([n = 0]) ⇒ String

  Returns:

  • (String)
• #xmlschema([n = 0]) ⇒ String

  Returns:

  • (String)

# File 'ext/date/date_core.c', line 8691

static VALUE
dt_lite_iso8601(int argc, VALUE *argv, VALUE self)
{
    long n = 0;

    rb_check_arity(argc, 0, 1);
    if (argc >= 1)
	n = NUM2LONG(argv[0]);

    return rb_str_append(strftimev("%Y-%m-%d", self, set_tmx),
			 iso8601_timediv(self, n));
}

#jisx0301([n = 0]) ⇒ String

Returns a string in a JIS X 0301 format. The optional argument n is the number of digits for fractional seconds.

DateTime.parse('2001-02-03T04:05:06.123456789+07:00').jisx0301(9)

#=> “H13.02.03T04:05:06.123456789+07:00”

Returns:

• (String)

# File 'ext/date/date_core.c', line 8730

static VALUE
dt_lite_jisx0301(int argc, VALUE *argv, VALUE self)
{
    long n = 0;

    rb_check_arity(argc, 0, 1);
    if (argc >= 1)
	n = NUM2LONG(argv[0]);

    return rb_str_append(d_lite_jisx0301(self),
			 iso8601_timediv(self, n));
}

#min ⇒ Integer

Returns the minute in range (0..59):

DateTime.new(2001, 2, 3, 4, 5, 6).min # => 5

Date#minute is an alias for Date#min.

Returns:

• (Integer)

# File 'ext/date/date_core.c', line 5613

static VALUE
d_lite_min(VALUE self)
{
    get_d1(self);
    return INT2FIX(m_min(dat));
}

#min ⇒ Integer

Returns the minute in range (0..59):

DateTime.new(2001, 2, 3, 4, 5, 6).min # => 5

Date#minute is an alias for Date#min.

Returns:

• (Integer)

# File 'ext/date/date_core.c', line 5613

static VALUE
d_lite_min(VALUE self)
{
    get_d1(self);
    return INT2FIX(m_min(dat));
}

#new_offset([offset = 0]) ⇒ Object

Duplicates self and resets its offset.

d = DateTime.new(2001,2,3,4,5,6,'-02:00')

#=> #<DateTime: 2001-02-03T04:05:06-02:00 …>

d.new_offset('+09:00')	#=> #<DateTime: 2001-02-03T15:05:06+09:00 ...>

# File 'ext/date/date_core.c', line 5938

static VALUE
d_lite_new_offset(int argc, VALUE *argv, VALUE self)
{
    VALUE vof;
    int rof;

    rb_scan_args(argc, argv, "01", &vof);

    rof = 0;
    if (argc >= 1)
	val2off(vof, rof);

    return dup_obj_with_new_offset(self, rof);
}

#offset ⇒ Object

Returns the offset.

DateTime.parse('04pm+0730').offset	#=> (5/16)

# File 'ext/date/date_core.c', line 5663

static VALUE
d_lite_offset(VALUE self)
{
    get_d1(self);
    return m_of_in_day(dat);
}

#rfc3339([n = 0]) ⇒ String

This method is equivalent to strftime(‘%FT%T%:z’). The optional argument n is the number of digits for fractional seconds.

DateTime.parse('2001-02-03T04:05:06.123456789+07:00').rfc3339(9)

#=> “2001-02-03T04:05:06.123456789+07:00”

Returns:

• (String)

# File 'ext/date/date_core.c', line 8714

static VALUE
dt_lite_rfc3339(int argc, VALUE *argv, VALUE self)
{
    return dt_lite_iso8601(argc, argv, self);
}

#sec ⇒ Integer

Returns the second in range (0..59):

DateTime.new(2001, 2, 3, 4, 5, 6).sec # => 6

Date#second is an alias for Date#sec.

Returns:

• (Integer)

# File 'ext/date/date_core.c', line 5630

static VALUE
d_lite_sec(VALUE self)
{
    get_d1(self);
    return INT2FIX(m_sec(dat));
}

#sec_fraction ⇒ Object

Returns the fractional part of the second in range (Rational(0, 1)…Rational(1, 1)):

DateTime.new(2001, 2, 3, 4, 5, 6.5).sec_fraction # => (1/2)

Date#second_fraction is an alias for Date#sec_fraction.

# File 'ext/date/date_core.c', line 5648

static VALUE
d_lite_sec_fraction(VALUE self)
{
    get_d1(self);
    return m_sf_in_sec(dat);
}

#sec ⇒ Integer

Returns the second in range (0..59):

DateTime.new(2001, 2, 3, 4, 5, 6).sec # => 6

Date#second is an alias for Date#sec.

Returns:

• (Integer)

# File 'ext/date/date_core.c', line 5630

static VALUE
d_lite_sec(VALUE self)
{
    get_d1(self);
    return INT2FIX(m_sec(dat));
}

#sec_fraction ⇒ Object

Returns the fractional part of the second in range (Rational(0, 1)…Rational(1, 1)):

DateTime.new(2001, 2, 3, 4, 5, 6.5).sec_fraction # => (1/2)

Date#second_fraction is an alias for Date#sec_fraction.

# File 'ext/date/date_core.c', line 5648

static VALUE
d_lite_sec_fraction(VALUE self)
{
    get_d1(self);
    return m_sf_in_sec(dat);
}

#strftime(format = '%FT%T%:z') ⇒ String

Returns a string representation of self, formatted according the given +format:

DateTime.now.strftime # => "2022-07-01T11:03:19-05:00"

For other formats, see Formats for Dates and Times.

Returns:

• (String)

# File 'ext/date/date_core.c', line 8657

static VALUE
dt_lite_strftime(int argc, VALUE *argv, VALUE self)
{
    return date_strftime_internal(argc, argv, self,
				  "%Y-%m-%dT%H:%M:%S%:z", set_tmx);
}

#to_date ⇒ Object

Returns a Date object which denotes self.

# File 'ext/date/date_core.c', line 8957

static VALUE
datetime_to_date(VALUE self)
{
    get_d1a(self);

    if (simple_dat_p(adat)) {
	VALUE new = d_lite_s_alloc_simple(cDate);
	{
	    get_d1b(new);
	    bdat->s = adat->s;
	    bdat->s.jd = m_local_jd(adat);
	    return new;
	}
    }
    else {
	VALUE new = d_lite_s_alloc_simple(cDate);
	{
	    get_d1b(new);
	    copy_complex_to_simple(new, &bdat->s, &adat->c);
	    bdat->s.jd = m_local_jd(adat);
	    bdat->s.flags &= ~(HAVE_DF | HAVE_TIME | COMPLEX_DAT);
	    return new;
	}
    }
}

#to_datetime ⇒ self

Returns self.

Returns:

• (self)

# File 'ext/date/date_core.c', line 8989

static VALUE
datetime_to_datetime(VALUE self)
{
    return self;
}

#to_s ⇒ String

Returns a string in an ISO 8601 format. (This method doesn’t use the expanded representations.)

DateTime.new(2001,2,3,4,5,6,'-7').to_s

#=> “2001-02-03T04:05:06-07:00”

Returns:

• (String)

# File 'ext/date/date_core.c', line 8638

static VALUE
dt_lite_to_s(VALUE self)
{
    return strftimev("%Y-%m-%dT%H:%M:%S%:z", self, set_tmx);
}

#to_time ⇒ Time

Returns a Time object which denotes self.

Returns:

• (Time)

# File 'ext/date/date_core.c', line 8922

static VALUE
datetime_to_time(VALUE self)
{
    get_d1(self);

    if (m_julian_p(dat)) {
	self = d_lite_gregorian(self);
	get_d1a(self);
	dat = adat;
    }

    {
	VALUE t;

	t = rb_funcall(rb_cTime,
		   rb_intern("new"),
                   7,
		   m_real_year(dat),
		   INT2FIX(m_mon(dat)),
		   INT2FIX(m_mday(dat)),
		   INT2FIX(m_hour(dat)),
		   INT2FIX(m_min(dat)),
		   f_add(INT2FIX(m_sec(dat)),
			 m_sf_in_sec(dat)),
		   INT2FIX(m_of(dat)));
	return t;
    }
}

#iso8601([n = 0]) ⇒ String #xmlschema([n = 0]) ⇒ String

This method is equivalent to strftime(‘%FT%T%:z’). The optional argument n is the number of digits for fractional seconds.

DateTime.parse('2001-02-03T04:05:06.123456789+07:00').iso8601(9)

#=> “2001-02-03T04:05:06.123456789+07:00”

Overloads:

• #iso8601([n = 0]) ⇒ String

  Returns:

  • (String)
• #xmlschema([n = 0]) ⇒ String

  Returns:

  • (String)

# File 'ext/date/date_core.c', line 8691

static VALUE
dt_lite_iso8601(int argc, VALUE *argv, VALUE self)
{
    long n = 0;

    rb_check_arity(argc, 0, 1);
    if (argc >= 1)
	n = NUM2LONG(argv[0]);

    return rb_str_append(strftimev("%Y-%m-%d", self, set_tmx),
			 iso8601_timediv(self, n));
}

#zone ⇒ String

Returns the timezone.

DateTime.parse('04pm+0730').zone		#=> "+07:30"

Returns:

• (String)

# File 'ext/date/date_core.c', line 5678

static VALUE
d_lite_zone(VALUE self)
{
    get_d1(self);
    return m_zone(dat);
}