time.rb
When ‘time’ is required, Time
is extended with additional methods for parsing and converting Times.
Features
This library extends the Time
class with the following conversions between date strings and Time
objects:
-
date-time defined by RFC 2822
-
HTTP-date defined by RFC 2616
-
various formats handled by
Date._parse
-
custom formats handled by
Date._strptime
Examples
All examples assume you have loaded Time
with:
require 'time'
All of these examples were done using the EST timezone which is GMT-5.
Converting to a String
t = Time.now t.iso8601 # => "2011-10-05T22:26:12-04:00" t.rfc2822 # => "Wed, 05 Oct 2011 22:26:12 -0400" t.httpdate # => "Thu, 06 Oct 2011 02:26:12 GMT"
Time.parse
parse takes a string representation of a Time
and attempts to parse it using a heuristic.
Time.parse("2010-10-31") #=> 2010-10-31 00:00:00 -0500
Any missing pieces of the date are inferred based on the current date.
# assuming the current date is "2011-10-31" Time.parse("12:00") #=> 2011-10-31 12:00:00 -0500
We can change the date used to infer our missing elements by passing a second object that responds to mon
, day
and year
, such as Date
, Time
or DateTime
. We can also use our own object.
class MyDate attr_reader :mon, :day, :year def initialize(mon, day, year) @mon, @day, @year = mon, day, year end end d = Date.parse("2010-10-28") t = Time.parse("2010-10-29") dt = DateTime.parse("2010-10-30") md = MyDate.new(10,31,2010) Time.parse("12:00", d) #=> 2010-10-28 12:00:00 -0500 Time.parse("12:00", t) #=> 2010-10-29 12:00:00 -0500 Time.parse("12:00", dt) #=> 2010-10-30 12:00:00 -0500 Time.parse("12:00", md) #=> 2010-10-31 12:00:00 -0500
parse also accepts an optional block. You can use this block to specify how to handle the year component of the date. This is specifically designed for handling two digit years. For example, if you wanted to treat all two digit years prior to 70 as the year 2000+ you could write this:
Time.parse("01-10-31") {|year| year + (year < 70 ? 2000 : 1900)} #=> 2001-10-31 00:00:00 -0500 Time.parse("70-10-31") {|year| year + (year < 70 ? 2000 : 1900)} #=> 1970-10-31 00:00:00 -0500
Time.strptime
strptime works similar to parse
except that instead of using a heuristic to detect the format of the input string, you provide a second argument that describes the format of the string. For example:
Time.strptime("2000-10-31", "%Y-%m-%d") #=> 2000-10-31 00:00:00 -0500
Time
is an abstraction of dates and times. Time
is stored internally as the number of seconds with fraction since the Epoch, January 1, 1970 00:00 UTC. Also see the library module Date
. The Time
class treats GMT (Greenwich Mean Time
) and UTC (Coordinated Universal Time
) as equivalent. GMT is the older way of referring to these baseline times but persists in the names of calls on POSIX systems.
All times may have fraction. Be aware of this fact when comparing times with each other – times that are apparently equal when displayed may be different when compared.
Since Ruby 1.9.2, Time
implementation uses a signed 63 bit integer, Bignum
or Rational
. The integer is a number of nanoseconds since the Epoch which can represent 1823-11-12 to 2116-02-20. When Bignum
or Rational
is used (before 1823, after 2116, under nanosecond), Time
works slower as when integer is used.
Examples
All of these examples were done using the EST timezone which is GMT-5.
Creating a new Time
instance
You can create a new instance of Time
with Time::new
. This will use the current system time. Time::now
is an alias for this. You can also pass parts of the time to Time::new
such as year, month, minute, etc. When you want to construct a time this way you must pass at least a year. If you pass the year with nothing else time will default to January 1 of that year at 00:00:00 with the current system timezone. Here are some examples:
Time.new(2002) #=> 2002-01-01 00:00:00 -0500 Time.new(2002, 10) #=> 2002-10-01 00:00:00 -0500 Time.new(2002, 10, 31) #=> 2002-10-31 00:00:00 -0500 Time.new(2002, 10, 31, 2, 2, 2, "+02:00") #=> 2002-10-31 02:02:02 +0200
You can also use gm
, local and utc
to infer GMT, local and UTC timezones instead of using the current system setting.
You can also create a new time using Time::at
which takes the number of seconds (or fraction of seconds) since the Unix Epoch.
Time.at(628232400) #=> 1989-11-28 00:00:00 -0500
Working with an instance of Time
Once you have an instance of Time
there is a multitude of things you can do with it. Below are some examples. For all of the following examples, we will work on the assumption that you have done the following:
t = Time.new(1993, 02, 24, 12, 0, 0, "+09:00")
Was that a monday?
t.monday? #=> false
What year was that again?
t.year #=> 1993
Was is daylight savings at the time?
t.dst? #=> false
What’s the day a year later?
t + (60*60*24*365) #=> 1994-02-24 12:00:00 +0900
How many seconds was that since the Unix Epoch?
t.to_i #=> 730522800
You can also do standard functions like compare two times.
t1 = Time.new(2010) t2 = Time.new(2011) t1 == t2 #=> false t1 == t1 #=> true t1 < t2 #=> true t1 > t2 #=> false Time.new(2010,10,31).between?(t1, t2) #=> true
A hash of timezones mapped to hour differences from UTC. The set of time zones corresponds to the ones specified by RFC 2822 and ISO 8601.
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 208
def apply_offset(year, mon, day, hour, min, sec, off)
if off < 0
off = -off
off, o = off.divmod(60)
if o != 0 then sec += o; o, sec = sec.divmod(60); off += o end
off, o = off.divmod(60)
if o != 0 then min += o; o, min = min.divmod(60); off += o end
off, o = off.divmod(24)
if o != 0 then hour += o; o, hour = hour.divmod(24); off += o end
if off != 0
day += off
days = month_days(year, mon)
if days and days < day
mon += 1
if 12 < mon
mon = 1
year += 1
end
day = 1
end
end
elsif 0 < off
off, o = off.divmod(60)
if o != 0 then sec -= o; o, sec = sec.divmod(60); off -= o end
off, o = off.divmod(60)
if o != 0 then min -= o; o, min = min.divmod(60); off -= o end
off, o = off.divmod(24)
if o != 0 then hour -= o; o, hour = hour.divmod(24); off -= o end
if off != 0 then
day -= off
if day < 1
mon -= 1
if mon < 1
year -= 1
mon = 12
end
day = month_days(year, mon)
end
end
end
return year, mon, day, hour, min, sec
end
static VALUE
time_s_at(int argc, VALUE *argv, VALUE klass)
{
VALUE time, t;
wideval_t timew;
if (rb_scan_args(argc, argv, "11", &time, &t) == 2) {
time = num_exact(time);
t = num_exact(t);
timew = wadd(rb_time_magnify(v2w(time)), wmulquoll(v2w(t), TIME_SCALE, 1000000));
t = time_new_timew(klass, timew);
}
else if (IsTimeval(time)) {
struct time_object *tobj, *tobj2;
GetTimeval(time, tobj);
t = time_new_timew(klass, tobj->timew);
GetTimeval(t, tobj2);
TIME_COPY_GMT(tobj2, tobj);
}
else {
timew = rb_time_magnify(v2w(num_exact(time)));
t = time_new_timew(klass, timew);
}
return t;
}
Creates a new Time
object with the value given by time
, the given number of seconds_with_frac
, or seconds
and microseconds_with_frac
since the Epoch. seconds_with_frac
and microseconds_with_frac
can be an Integer
, Float
, Rational
, or other Numeric
. non-portable feature allows the offset to be negative on some systems.
If a numeric argument is given, the result is in local time.
Time.at(0) #=> 1969-12-31 18:00:00 -0600 Time.at(Time.at(0)) #=> 1969-12-31 18:00:00 -0600 Time.at(946702800) #=> 1999-12-31 23:00:00 -0600 Time.at(-284061600) #=> 1960-12-31 00:00:00 -0600 Time.at(946684800.2).usec #=> 200000 Time.at(946684800, 123456.789).nsec #=> 123456789
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 179
def force_zone!(t, zone, offset=nil)
if zone_utc?(zone)
t.utc
elsif offset ||= zone_offset(zone)
# Prefer the local timezone over the fixed offset timezone because
# the former is a real timezone and latter is an artificial timezone.
t.localtime
if t.utc_offset != offset
# Use the fixed offset timezone only if the local timezone cannot
# represent the given offset.
t.localtime(offset)
end
else
t.localtime
end
end
static VALUE
time_s_mkutc(int argc, VALUE *argv, VALUE klass)
{
return time_utc_or_local(argc, argv, TRUE, klass);
}
Creates a Time
object based on given values, interpreted as UTC (GMT). The year must be specified. Other values default to the minimum value for that field (and may be nil
or omitted). Months may be specified by numbers from 1 to 12, or by the three-letter English
month names. Hours are specified on a 24-hour clock (0..23). Raises an ArgumentError
if any values are out of range. Will also accept ten arguments in the order output by Time#to_a
.
sec_with_frac
and usec_with_frac
can have a fractional part.
Time.utc(2000,"jan",1,20,15,1) #=> 2000-01-01 20:15:01 UTC Time.gm(2000,"jan",1,20,15,1) #=> 2000-01-01 20:15:01 UTC
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 519
def httpdate(date)
if /\A\s*
(?:Mon|Tue|Wed|Thu|Fri|Sat|Sun),\x20
(\d{2})\x20
(Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec)\x20
(\d{4})\x20
(\d{2}):(\d{2}):(\d{2})\x20
GMT
\s*\z/ix =~ date
self.rfc2822(date).utc
elsif /\A\s*
(?:Monday|Tuesday|Wednesday|Thursday|Friday|Saturday|Sunday),\x20
(\d\d)-(Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec)-(\d\d)\x20
(\d\d):(\d\d):(\d\d)\x20
GMT
\s*\z/ix =~ date
year = $3.to_i
if year < 50
year += 2000
else
year += 1900
end
self.utc(year, $2, $1.to_i, $4.to_i, $5.to_i, $6.to_i)
elsif /\A\s*
(?:Mon|Tue|Wed|Thu|Fri|Sat|Sun)\x20
(Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec)\x20
(\d\d|\x20\d)\x20
(\d\d):(\d\d):(\d\d)\x20
(\d{4})
\s*\z/ix =~ date
self.utc($6.to_i, MonthValue[$1.upcase], $2.to_i,
$3.to_i, $4.to_i, $5.to_i)
else
raise ArgumentError.new("not RFC 2616 compliant date: #{date.inspect}")
end
end
Parses date
as an HTTP-date defined by RFC 2616 and converts it to a Time
object.
ArgumentError
is raised if date
is not compliant with RFC 2616 or if the Time
class cannot represent specified date.
See httpdate
for more information on this format.
You must require ‘time’ to use this method.
# File tmp/rubies/ruby-2.3.8/ext/json/lib/json/add/time.rb, line 9
def self.json_create(object)
if usec = object.delete('u') # used to be tv_usec -> tv_nsec
object['n'] = usec * 1000
end
if method_defined?(:tv_nsec)
at(object['s'], Rational(object['n'], 1000))
else
at(object['s'], object['n'] / 1000)
end
end
static VALUE
time_s_mktime(int argc, VALUE *argv, VALUE klass)
{
return time_utc_or_local(argc, argv, FALSE, klass);
}
Same as Time::gm
, but interprets the values in the local time zone.
Time.local(2000,"jan",1,20,15,1) #=> 2000-01-01 20:15:01 -0600
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 252
def make_time(date, year, mon, day, hour, min, sec, sec_fraction, zone, now)
if !year && !mon && !day && !hour && !min && !sec && !sec_fraction
raise ArgumentError, "no time information in #{date.inspect}"
end
off_year = year || now.year
off = nil
off = zone_offset(zone, off_year) if zone
if off
now = now.getlocal(off) if now.utc_offset != off
else
now = now.getlocal
end
usec = nil
usec = sec_fraction * 1000000 if sec_fraction
if now
begin
break if year; year = now.year
break if mon; mon = now.mon
break if day; day = now.day
break if hour; hour = now.hour
break if min; min = now.min
break if sec; sec = now.sec
break if sec_fraction; usec = now.tv_usec
end until true
end
year ||= 1970
mon ||= 1
day ||= 1
hour ||= 0
min ||= 0
sec ||= 0
usec ||= 0
if year != off_year
off = nil
off = zone_offset(zone, year) if zone
end
if off
year, mon, day, hour, min, sec =
apply_offset(year, mon, day, hour, min, sec, off)
t = self.utc(year, mon, day, hour, min, sec, usec)
force_zone!(t, zone, off)
t
else
self.local(year, mon, day, hour, min, sec, usec)
end
end
static VALUE
time_s_mktime(int argc, VALUE *argv, VALUE klass)
{
return time_utc_or_local(argc, argv, FALSE, klass);
}
Same as Time::gm
, but interprets the values in the local time zone.
Time.local(2000,"jan",1,20,15,1) #=> 2000-01-01 20:15:01 -0600
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 199
def month_days(y, m)
if ((y % 4 == 0) && (y % 100 != 0)) || (y % 400 == 0)
LeapYearMonthDays[m-1]
else
CommonYearMonthDays[m-1]
end
end
static VALUE
time_init(int argc, VALUE *argv, VALUE time)
{
if (argc == 0)
return time_init_0(time);
else
return time_init_1(argc, argv, time);
}
Returns a Time
object.
It is initialized to the current system time if no argument is given.
Note: The new object will use the resolution available on your system clock, and may include fractional seconds.
If one or more arguments specified, the time is initialized to the specified time.
sec
may have fraction if it is a rational.
utc_offset
is the offset from UTC. It can be a string such as “+09:00” or a number of seconds such as 32400.
a = Time.new #=> 2007-11-19 07:50:02 -0600 b = Time.new #=> 2007-11-19 07:50:02 -0600 a == b #=> false "%.6f" % a.to_f #=> "1195480202.282373" "%.6f" % b.to_f #=> "1195480202.283415" Time.new(2008,6,21, 13,30,0, "+09:00") #=> 2008-06-21 13:30:00 +0900 # A trip for RubyConf 2007 t1 = Time.new(2007,11,1,15,25,0, "+09:00") # JST (Narita) t2 = Time.new(2007,11,1,12, 5,0, "-05:00") # CDT (Minneapolis) t3 = Time.new(2007,11,1,13,25,0, "-05:00") # CDT (Minneapolis) t4 = Time.new(2007,11,1,16,53,0, "-04:00") # EDT (Charlotte) t5 = Time.new(2007,11,5, 9,24,0, "-05:00") # EST (Charlotte) t6 = Time.new(2007,11,5,11,21,0, "-05:00") # EST (Detroit) t7 = Time.new(2007,11,5,13,45,0, "-05:00") # EST (Detroit) t8 = Time.new(2007,11,6,17,10,0, "+09:00") # JST (Narita) p((t2-t1)/3600.0) #=> 10.666666666666666 p((t4-t3)/3600.0) #=> 2.466666666666667 p((t6-t5)/3600.0) #=> 1.95 p((t8-t7)/3600.0) #=> 13.416666666666666
static VALUE
time_s_now(VALUE klass)
{
return rb_class_new_instance(0, NULL, klass);
}
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 361
def parse(date, now=self.now)
comp = !block_given?
d = Date._parse(date, comp)
year = d[:year]
year = yield(year) if year && !comp
make_time(date, year, d[:mon], d[:mday], d[:hour], d[:min], d[:sec], d[:sec_fraction], d[:zone], now)
end
Parses date
using Date._parse
and converts it to a Time
object.
If a block is given, the year described in date
is converted by the block. For example:
Time.parse(...) {|y| 0 <= y && y < 100 ? (y >= 69 ? y + 1900 : y + 2000) : y}
If the upper components of the given time are broken or missing, they are supplied with those of now
. For the lower components, the minimum values (1 or 0) are assumed if broken or missing. For example:
# Suppose it is "Thu Nov 29 14:33:20 2001" now and # your time zone is EST which is GMT-5. now = Time.parse("Thu Nov 29 14:33:20 2001") Time.parse("16:30", now) #=> 2001-11-29 16:30:00 -0500 Time.parse("7/23", now) #=> 2001-07-23 00:00:00 -0500 Time.parse("Aug 31", now) #=> 2001-08-31 00:00:00 -0500 Time.parse("Aug 2000", now) #=> 2000-08-01 00:00:00 -0500
Since there are numerous conflicts among locally defined time zone abbreviations all over the world, this method is not intended to understand all of them. For example, the abbreviation “CST” is used variously as:
-06:00 in America/Chicago, -05:00 in America/Havana, +08:00 in Asia/Harbin, +09:30 in Australia/Darwin, +10:30 in Australia/Adelaide, etc.
Based on this fact, this method only understands the time zone abbreviations described in RFC 822 and the system time zone, in the order named. (i.e. a definition in RFC 822 overrides the system time zone definition.) The system time zone is taken from Time.local(year, 1, 1).zone
and Time.local(year, 7, 1).zone
. If the extracted time zone abbreviation does not match any of them, it is ignored and the given time is regarded as a local time.
ArgumentError
is raised if Date._parse
cannot extract information from date
or if the Time
class cannot represent specified date.
This method can be used as a fail-safe for other parsing methods as:
Time.rfc2822(date) rescue Time.parse(date) Time.httpdate(date) rescue Time.parse(date) Time.xmlschema(date) rescue Time.parse(date)
A failure of Time.parse
should be checked, though.
You must require ‘time’ to use this method.
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 466
def rfc2822(date)
if /\A\s*
(?:(?:Mon|Tue|Wed|Thu|Fri|Sat|Sun)\s*,\s*)?
(\d{1,2})\s+
(Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec)\s+
(\d{2,})\s+
(\d{2})\s*
:\s*(\d{2})\s*
(?::\s*(\d{2}))?\s+
([+-]\d{4}|
UT|GMT|EST|EDT|CST|CDT|MST|MDT|PST|PDT|[A-IK-Z])/ix =~ date
# Since RFC 2822 permit comments, the regexp has no right anchor.
day = $1.to_i
mon = MonthValue[$2.upcase]
year = $3.to_i
short_year_p = $3.length <= 3
hour = $4.to_i
min = $5.to_i
sec = $6 ? $6.to_i : 0
zone = $7
if short_year_p
# following year completion is compliant with RFC 2822.
year = if year < 50
2000 + year
else
1900 + year
end
end
off = zone_offset(zone)
year, mon, day, hour, min, sec =
apply_offset(year, mon, day, hour, min, sec, off)
t = self.utc(year, mon, day, hour, min, sec)
force_zone!(t, zone, off)
t
else
raise ArgumentError.new("not RFC 2822 compliant date: #{date.inspect}")
end
end
Parses date
as date-time defined by RFC 2822 and converts it to a Time
object. The format is identical to the date format defined by RFC 822 and updated by RFC 1123.
ArgumentError
is raised if date
is not compliant with RFC 2822 or if the Time
class cannot represent specified date.
See rfc2822
for more information on this format.
You must require ‘time’ to use this method.
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 427
def strptime(date, format, now=self.now)
d = Date._strptime(date, format)
raise ArgumentError, "invalid strptime format - `#{format}'" unless d
if seconds = d[:seconds]
if sec_fraction = d[:sec_fraction]
usec = sec_fraction * 1000000
usec *= -1 if seconds < 0
else
usec = 0
end
t = Time.at(seconds, usec)
if zone = d[:zone]
force_zone!(t, zone)
end
else
year = d[:year]
year = yield(year) if year && block_given?
t = make_time(date, year, d[:mon], d[:mday], d[:hour], d[:min], d[:sec], d[:sec_fraction], d[:zone], now)
end
t
end
Parses date
using Date._strptime
and converts it to a Time
object.
If a block is given, the year described in date
is converted by the block. For example:
Time.strptime(...) {|y| y < 100 ? (y >= 69 ? y + 1900 : y + 2000) : y}
Below is a list of the formatting options:
- %a
-
The abbreviated weekday name (“Sun”)
- %A
-
The full weekday name (“Sunday”)
- %b
-
The abbreviated month name (“Jan”)
- %B
-
The full month name (“January”)
- %c
-
The preferred local date and time representation
- %C
-
Century (20 in 2009)
- %d
-
Day of the month (01..31)
- %D
-
Date
(%m/%d/%y) - %e
-
Day of the month, blank-padded ( 1..31)
- %F
-
Equivalent to %Y-%m-%d (the ISO 8601 date format)
- %h
-
Equivalent to %b
- %H
-
Hour of the day, 24-hour clock (00..23)
- %I
-
Hour of the day, 12-hour clock (01..12)
- %j
-
Day of the year (001..366)
- %k
-
hour, 24-hour clock, blank-padded ( 0..23)
- %l
-
hour, 12-hour clock, blank-padded ( 0..12)
- %L
-
Millisecond of the second (000..999)
- %m
-
Month of the year (01..12)
- %M
-
Minute of the hour (00..59)
- %n
-
Newline (n)
- %N
-
Fractional seconds digits, default is 9 digits (nanosecond)
- %3N
-
millisecond (3 digits)
- %6N
-
microsecond (6 digits)
- %9N
-
nanosecond (9 digits)
- %p
-
Meridian indicator (“AM” or “PM”)
- %P
-
Meridian indicator (“am” or “pm”)
- %r
-
time, 12-hour (same as %I:%M:%S %p)
- %R
-
time, 24-hour (%H:%M)
- %s
-
Number of seconds since 1970-01-01 00:00:00 UTC.
- %S
-
Second of the minute (00..60)
- %t
-
Tab character (t)
- %T
-
time, 24-hour (%H:%M:%S)
- %u
-
Day of the week as a decimal, Monday being 1. (1..7)
- %U
-
Week number of the current year, starting with the first Sunday as the first day of the first week (00..53)
- %v
-
VMS date (%e-%b-%Y)
- %V
-
Week number of year according to ISO 8601 (01..53)
- %W
-
Week number of the current year, starting with the first Monday as the first day of the first week (00..53)
- %w
-
Day of the week (Sunday is 0, 0..6)
- %x
-
Preferred representation for the date alone, no time
- %X
-
Preferred representation for the time alone, no date
- %y
-
Year without a century (00..99)
- %Y
-
Year which may include century, if provided
- %z
-
Time
zone as hour offset from UTC (e.g. +0900) - %Z
-
Time
zone name - %%
-
Literal “%” character
static VALUE
time_s_mkutc(int argc, VALUE *argv, VALUE klass)
{
return time_utc_or_local(argc, argv, TRUE, klass);
}
Creates a Time
object based on given values, interpreted as UTC (GMT). The year must be specified. Other values default to the minimum value for that field (and may be nil
or omitted). Months may be specified by numbers from 1 to 12, or by the three-letter English
month names. Hours are specified on a 24-hour clock (0..23). Raises an ArgumentError
if any values are out of range. Will also accept ten arguments in the order output by Time#to_a
.
sec_with_frac
and usec_with_frac
can have a fractional part.
Time.utc(2000,"jan",1,20,15,1) #=> 2000-01-01 20:15:01 UTC Time.gm(2000,"jan",1,20,15,1) #=> 2000-01-01 20:15:01 UTC
# File tmp/rubies/ruby-2.3.8/lib/rss/rss.rb, line 15
def w3cdtf(date)
if /\A\s*
(-?\d+)-(\d\d)-(\d\d)
(?:T
(\d\d):(\d\d)(?::(\d\d))?
(\.\d+)?
(Z|[+-]\d\d:\d\d)?)?
\s*\z/ix =~ date and (($5 and $8) or (!$5 and !$8))
datetime = [$1.to_i, $2.to_i, $3.to_i, $4.to_i, $5.to_i, $6.to_i]
usec = 0
usec = $7.to_f * 1000000 if $7
zone = $8
if zone
off = zone_offset(zone, datetime[0])
datetime = apply_offset(*(datetime + [off]))
datetime << usec
time = Time.utc(*datetime)
force_zone!(time, zone, off)
time
else
datetime << usec
Time.local(*datetime)
end
else
raise ArgumentError.new("invalid date: #{date.inspect}")
end
end
This method converts a W3CDTF string date/time format to Time
object.
The W3CDTF format is defined here: www.w3.org/TR/NOTE-datetime
Time.w3cdtf('2003-02-15T13:50:05-05:00') # => 2003-02-15 10:50:05 -0800 Time.w3cdtf('2003-02-15T13:50:05-05:00').class # => Time
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 568
def xmlschema(date)
if /\A\s*
(-?\d+)-(\d\d)-(\d\d)
T
(\d\d):(\d\d):(\d\d)
(\.\d+)?
(Z|[+-]\d\d:\d\d)?
\s*\z/ix =~ date
year = $1.to_i
mon = $2.to_i
day = $3.to_i
hour = $4.to_i
min = $5.to_i
sec = $6.to_i
usec = 0
if $7
usec = Rational($7) * 1000000
end
if $8
zone = $8
off = zone_offset(zone)
year, mon, day, hour, min, sec =
apply_offset(year, mon, day, hour, min, sec, off)
t = self.utc(year, mon, day, hour, min, sec, usec)
force_zone!(t, zone, off)
t
else
self.local(year, mon, day, hour, min, sec, usec)
end
else
raise ArgumentError.new("invalid date: #{date.inspect}")
end
end
Parses date
as a dateTime defined by the XML
Schema and converts it to a Time
object. The format is a restricted version of the format defined by ISO 8601.
ArgumentError
is raised if date
is not compliant with the format or if the Time
class cannot represent specified date.
See xmlschema
for more information on this format.
You must require ‘time’ to use this method.
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 134
def zone_offset(zone, year=self.now.year)
off = nil
zone = zone.upcase
if /\A([+-])(\d\d):?(\d\d)\z/ =~ zone
off = ($1 == '-' ? -1 : 1) * ($2.to_i * 60 + $3.to_i) * 60
elsif /\A[+-]\d\d\z/ =~ zone
off = zone.to_i * 3600
elsif ZoneOffset.include?(zone)
off = ZoneOffset[zone] * 3600
elsif ((t = self.local(year, 1, 1)).zone.upcase == zone rescue false)
off = t.utc_offset
elsif ((t = self.local(year, 7, 1)).zone.upcase == zone rescue false)
off = t.utc_offset
end
off
end
Return the number of seconds the specified time zone differs from UTC.
Numeric
time zones that include minutes, such as -10:00
or +1330
will work, as will simpler hour-only time zones like -10
or +13
.
Textual time zones listed in ZoneOffset are also supported.
If the time zone does not match any of the above, zone_offset
will check if the local time zone (both with and without potential Daylight Saving Time changes being in effect) matches zone
. Specifying a value for year
will change the year used to find the local time zone.
If zone_offset
is unable to determine the offset, nil will be returned.
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 151
def zone_utc?(zone)
# * +0000
# In RFC 2822, +0000 indicate a time zone at Universal Time.
# Europe/Lisbon is "a time zone at Universal Time" in Winter.
# Atlantic/Reykjavik is "a time zone at Universal Time".
# Africa/Dakar is "a time zone at Universal Time".
# So +0000 is a local time such as Europe/London, etc.
# * GMT
# GMT is used as a time zone abbreviation in Europe/London,
# Africa/Dakar, etc.
# So it is a local time.
#
# * -0000, -00:00
# In RFC 2822, -0000 the date-time contains no information about the
# local time zone.
# In RFC 3339, -00:00 is used for the time in UTC is known,
# but the offset to local time is unknown.
# They are not appropriate for specific time zone such as
# Europe/London because time zone neutral,
# So -00:00 and -0000 are treated as UTC.
if /\A(?:-00:00|-0000|-00|UTC|Z|UT)\z/i =~ zone
true
else
false
end
end
static VALUE
time_plus(VALUE time1, VALUE time2)
{
struct time_object *tobj;
GetTimeval(time1, tobj);
if (IsTimeval(time2)) {
rb_raise(rb_eTypeError, "time + time?");
}
return time_add(tobj, time2, 1);
}
Addition — Adds some number of seconds (possibly fractional) to time and returns that value as a new Time
object.
t = Time.now #=> 2007-11-19 08:22:21 -0600 t + (60 * 60 * 24) #=> 2007-11-20 08:22:21 -0600
static VALUE
time_minus(VALUE time1, VALUE time2)
{
struct time_object *tobj;
GetTimeval(time1, tobj);
if (IsTimeval(time2)) {
struct time_object *tobj2;
GetTimeval(time2, tobj2);
return rb_Float(rb_time_unmagnify_to_float(wsub(tobj->timew, tobj2->timew)));
}
return time_add(tobj, time2, -1);
}
Difference — Returns a new Time
object that represents the difference between time and other_time
, or subtracts the given number of seconds in numeric
from time.
t = Time.now #=> 2007-11-19 08:23:10 -0600 t2 = t + 2592000 #=> 2007-12-19 08:23:10 -0600 t2 - t #=> 2592000.0 t2 - 2592000 #=> 2007-11-19 08:23:10 -0600
static VALUE
time_cmp(VALUE time1, VALUE time2)
{
struct time_object *tobj1, *tobj2;
int n;
GetTimeval(time1, tobj1);
if (IsTimeval(time2)) {
GetTimeval(time2, tobj2);
n = wcmp(tobj1->timew, tobj2->timew);
}
else {
return rb_invcmp(time1, time2);
}
if (n == 0) return INT2FIX(0);
if (n > 0) return INT2FIX(1);
return INT2FIX(-1);
}
Comparison—Compares time
with other_time
.
-1, 0, +1 or nil depending on whether time
is less than, equal to, or greater than other_time
.
nil
is returned if the two values are incomparable.
t = Time.now #=> 2007-11-19 08:12:12 -0600 t2 = t + 2592000 #=> 2007-12-19 08:12:12 -0600 t <=> t2 #=> -1 t2 <=> t #=> 1 t = Time.now #=> 2007-11-19 08:13:38 -0600 t2 = t + 0.1 #=> 2007-11-19 08:13:38 -0600 t.nsec #=> 98222999 t2.nsec #=> 198222999 t <=> t2 #=> -1 t2 <=> t #=> 1 t <=> t #=> 0
# File tmp/rubies/ruby-2.3.8/ext/json/lib/json/add/time.rb, line 22
def as_json(*)
nanoseconds = [ tv_usec * 1000 ]
respond_to?(:tv_nsec) and nanoseconds << tv_nsec
nanoseconds = nanoseconds.max
{
JSON.create_id => self.class.name,
's' => tv_sec,
'n' => nanoseconds,
}
end
Returns a hash, that will be turned into a JSON
object and represent this object.
static VALUE
time_asctime(VALUE time)
{
return strftimev("%a %b %e %T %Y", time, rb_usascii_encoding());
}
Returns a canonical string representation of time.
Time.now.asctime #=> "Wed Apr 9 08:56:03 2003"
static VALUE
time_eql(VALUE time1, VALUE time2)
{
struct time_object *tobj1, *tobj2;
GetTimeval(time1, tobj1);
if (IsTimeval(time2)) {
GetTimeval(time2, tobj2);
return rb_equal(w2v(tobj1->timew), w2v(tobj2->timew));
}
return Qfalse;
}
Returns true
if time and other_time
are both Time
objects with the same seconds and fractional seconds.
static VALUE
time_friday(VALUE time)
{
wday_p(5);
}
Returns true
if time represents Friday.
t = Time.local(1987, 12, 18) #=> 1987-12-18 00:00:00 -0600 t.friday? #=> true
static VALUE
time_getgmtime(VALUE time)
{
return time_gmtime(time_dup(time));
}
Returns a new Time
object representing time in UTC.
t = Time.local(2000,1,1,20,15,1) #=> 2000-01-01 20:15:01 -0600 t.gmt? #=> false y = t.getgm #=> 2000-01-02 02:15:01 UTC y.gmt? #=> true t == y #=> true
static VALUE
time_getlocaltime(int argc, VALUE *argv, VALUE time)
{
VALUE off;
rb_scan_args(argc, argv, "01", &off);
if (!NIL_P(off)) {
off = utc_offset_arg(off);
validate_utc_offset(off);
time = time_dup(time);
time_set_utc_offset(time, off);
return time_fixoff(time);
}
return time_localtime(time_dup(time));
}
Returns a new Time
object representing time in local time (using the local time zone in effect for this process).
If utc_offset
is given, it is used instead of the local time. utc_offset
can be given as a human-readable string (eg. "+09:00"
) or as a number of seconds (eg. 32400
).
t = Time.utc(2000,1,1,20,15,1) #=> 2000-01-01 20:15:01 UTC t.utc? #=> true l = t.getlocal #=> 2000-01-01 14:15:01 -0600 l.utc? #=> false t == l #=> true j = t.getlocal("+09:00") #=> 2000-01-02 05:15:01 +0900 j.utc? #=> false t == j #=> true k = t.getlocal(9*60*60) #=> 2000-01-02 05:15:01 +0900 k.utc? #=> false t == k #=> true
static VALUE
time_gmtime(VALUE time)
{
struct time_object *tobj;
struct vtm vtm;
GetTimeval(time, tobj);
if (TIME_UTC_P(tobj)) {
if (tobj->tm_got)
return time;
}
else {
time_modify(time);
}
if (!gmtimew(tobj->timew, &vtm))
rb_raise(rb_eArgError, "gmtime error");
tobj->vtm = vtm;
tobj->tm_got = 1;
TIME_SET_UTC(tobj);
return time;
}
Converts time to UTC (GMT), modifying the receiver.
t = Time.now #=> 2007-11-19 08:18:31 -0600 t.gmt? #=> false t.gmtime #=> 2007-11-19 14:18:31 UTC t.gmt? #=> true t = Time.now #=> 2007-11-19 08:18:51 -0600 t.utc? #=> false t.utc #=> 2007-11-19 14:18:51 UTC t.utc? #=> true
static VALUE
time_utc_offset(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
MAKE_TM(time, tobj);
if (TIME_UTC_P(tobj)) {
return INT2FIX(0);
}
else {
return tobj->vtm.utc_offset;
}
}
Returns the offset in seconds between the timezone of time and UTC.
t = Time.gm(2000,1,1,20,15,1) #=> 2000-01-01 20:15:01 UTC t.gmt_offset #=> 0 l = t.getlocal #=> 2000-01-01 14:15:01 -0600 l.gmt_offset #=> -21600
static VALUE
time_hash(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
return rb_hash(w2v(tobj->timew));
}
Returns a hash code for this Time
object.
See also Object#hash
.
static VALUE
time_hour(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
MAKE_TM(time, tobj);
return INT2FIX(tobj->vtm.hour);
}
Returns the hour of the day (0..23) for time.
t = Time.now #=> 2007-11-19 08:26:20 -0600 t.hour #=> 8
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 650
def httpdate
t = dup.utc
sprintf('%s, %02d %s %0*d %02d:%02d:%02d GMT',
RFC2822_DAY_NAME[t.wday],
t.day, RFC2822_MONTH_NAME[t.mon-1], t.year < 0 ? 5 : 4, t.year,
t.hour, t.min, t.sec)
end
Returns a string which represents the time as RFC 1123 date of HTTP-date defined by RFC 2616:
day-of-week, DD month-name CCYY hh:mm:ss GMT
Note that the result is always UTC (GMT).
You must require ‘time’ to use this method.
static VALUE
time_isdst(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
MAKE_TM(time, tobj);
return tobj->vtm.isdst ? Qtrue : Qfalse;
}
Returns true
if time occurs during Daylight Saving Time
in its time zone.
# CST6CDT: Time.local(2000, 1, 1).zone #=> "CST" Time.local(2000, 1, 1).isdst #=> false Time.local(2000, 1, 1).dst? #=> false Time.local(2000, 7, 1).zone #=> "CDT" Time.local(2000, 7, 1).isdst #=> true Time.local(2000, 7, 1).dst? #=> true # Asia/Tokyo: Time.local(2000, 1, 1).zone #=> "JST" Time.local(2000, 1, 1).isdst #=> false Time.local(2000, 1, 1).dst? #=> false Time.local(2000, 7, 1).zone #=> "JST" Time.local(2000, 7, 1).isdst #=> false Time.local(2000, 7, 1).dst? #=> false
static VALUE
time_localtime_m(int argc, VALUE *argv, VALUE time)
{
VALUE off;
rb_scan_args(argc, argv, "01", &off);
if (!NIL_P(off)) {
off = utc_offset_arg(off);
validate_utc_offset(off);
time_set_utc_offset(time, off);
return time_fixoff(time);
}
return time_localtime(time);
}
Converts time to local time (using the local time zone in effect for this process) modifying the receiver.
If utc_offset
is given, it is used instead of the local time.
t = Time.utc(2000, "jan", 1, 20, 15, 1) #=> 2000-01-01 20:15:01 UTC t.utc? #=> true t.localtime #=> 2000-01-01 14:15:01 -0600 t.utc? #=> false t.localtime("+09:00") #=> 2000-01-02 05:15:01 +0900 t.utc? #=> false
static VALUE
time_mday(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
MAKE_TM(time, tobj);
return INT2FIX(tobj->vtm.mday);
}
Returns the day of the month (1..n) for time.
t = Time.now #=> 2007-11-19 08:27:03 -0600 t.day #=> 19 t.mday #=> 19
static VALUE
time_min(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
MAKE_TM(time, tobj);
return INT2FIX(tobj->vtm.min);
}
Returns the minute of the hour (0..59) for time.
t = Time.now #=> 2007-11-19 08:25:51 -0600 t.min #=> 25
static VALUE
time_mon(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
MAKE_TM(time, tobj);
return INT2FIX(tobj->vtm.mon);
}
Returns the month of the year (1..12) for time.
t = Time.now #=> 2007-11-19 08:27:30 -0600 t.mon #=> 11 t.month #=> 11
static VALUE
time_monday(VALUE time)
{
wday_p(1);
}
Returns true
if time represents Monday.
t = Time.local(2003, 8, 4) #=> 2003-08-04 00:00:00 -0500 p t.monday? #=> true
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 615
def rfc2822
sprintf('%s, %02d %s %0*d %02d:%02d:%02d ',
RFC2822_DAY_NAME[wday],
day, RFC2822_MONTH_NAME[mon-1], year < 0 ? 5 : 4, year,
hour, min, sec) <<
if utc?
'-0000'
else
off = utc_offset
sign = off < 0 ? '-' : '+'
sprintf('%s%02d%02d', sign, *(off.abs / 60).divmod(60))
end
end
Returns a string which represents the time as date-time defined by RFC 2822:
day-of-week, DD month-name CCYY hh:mm:ss zone
where zone is [+-]hhmm.
If self
is a UTC time, -0000 is used as zone.
You must require ‘time’ to use this method.
static VALUE
time_round(int argc, VALUE *argv, VALUE time)
{
VALUE ndigits, v, a, b, den;
long nd;
struct time_object *tobj;
rb_scan_args(argc, argv, "01", &ndigits);
if (NIL_P(ndigits))
ndigits = INT2FIX(0);
else
ndigits = rb_to_int(ndigits);
nd = NUM2LONG(ndigits);
if (nd < 0)
rb_raise(rb_eArgError, "negative ndigits given");
GetTimeval(time, tobj);
v = w2v(rb_time_unmagnify(tobj->timew));
a = INT2FIX(1);
b = INT2FIX(10);
while (0 < nd) {
if (nd & 1)
a = mul(a, b);
b = mul(b, b);
nd = nd >> 1;
}
den = quo(INT2FIX(1), a);
v = mod(v, den);
if (lt(v, quo(den, INT2FIX(2))))
return time_add(tobj, v, -1);
else
return time_add(tobj, sub(den, v), 1);
}
Rounds sub seconds to a given precision in decimal digits (0 digits by default). It returns a new Time
object. ndigits
should be zero or positive integer.
require 'time' t = Time.utc(2010,3,30, 5,43,"25.123456789".to_r) p t.iso8601(10) #=> "2010-03-30T05:43:25.1234567890Z" p t.round.iso8601(10) #=> "2010-03-30T05:43:25.0000000000Z" p t.round(0).iso8601(10) #=> "2010-03-30T05:43:25.0000000000Z" p t.round(1).iso8601(10) #=> "2010-03-30T05:43:25.1000000000Z" p t.round(2).iso8601(10) #=> "2010-03-30T05:43:25.1200000000Z" p t.round(3).iso8601(10) #=> "2010-03-30T05:43:25.1230000000Z" p t.round(4).iso8601(10) #=> "2010-03-30T05:43:25.1235000000Z" p t.round(5).iso8601(10) #=> "2010-03-30T05:43:25.1234600000Z" p t.round(6).iso8601(10) #=> "2010-03-30T05:43:25.1234570000Z" p t.round(7).iso8601(10) #=> "2010-03-30T05:43:25.1234568000Z" p t.round(8).iso8601(10) #=> "2010-03-30T05:43:25.1234567900Z" p t.round(9).iso8601(10) #=> "2010-03-30T05:43:25.1234567890Z" p t.round(10).iso8601(10) #=> "2010-03-30T05:43:25.1234567890Z" t = Time.utc(1999,12,31, 23,59,59) p((t + 0.4).round.iso8601(3)) #=> "1999-12-31T23:59:59.000Z" p((t + 0.49).round.iso8601(3)) #=> "1999-12-31T23:59:59.000Z" p((t + 0.5).round.iso8601(3)) #=> "2000-01-01T00:00:00.000Z" p((t + 1.4).round.iso8601(3)) #=> "2000-01-01T00:00:00.000Z" p((t + 1.49).round.iso8601(3)) #=> "2000-01-01T00:00:00.000Z" p((t + 1.5).round.iso8601(3)) #=> "2000-01-01T00:00:01.000Z" t = Time.utc(1999,12,31, 23,59,59) p (t + 0.123456789).round(4).iso8601(6) #=> "1999-12-31T23:59:59.123500Z"
static VALUE
time_saturday(VALUE time)
{
wday_p(6);
}
Returns true
if time represents Saturday.
t = Time.local(2006, 6, 10) #=> 2006-06-10 00:00:00 -0500 t.saturday? #=> true
static VALUE
time_sec(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
MAKE_TM(time, tobj);
return INT2FIX(tobj->vtm.sec);
}
Returns the second of the minute (0..60) for time.
Note: Seconds range from zero to 60 to allow the system to inject leap seconds. See en.wikipedia.org/wiki/Leap_second for further details.
t = Time.now #=> 2007-11-19 08:25:02 -0600 t.sec #=> 2
static VALUE
time_strftime(VALUE time, VALUE format)
{
struct time_object *tobj;
char buffer[SMALLBUF], *buf = buffer;
const char *fmt;
long len;
rb_encoding *enc;
VALUE str;
GetTimeval(time, tobj);
MAKE_TM(time, tobj);
StringValue(format);
if (!rb_enc_str_asciicompat_p(format)) {
rb_raise(rb_eArgError, "format should have ASCII compatible encoding");
}
format = rb_str_new4(format);
fmt = RSTRING_PTR(format);
len = RSTRING_LEN(format);
enc = rb_enc_get(format);
if (len == 0) {
rb_warning("strftime called with empty format string");
}
else if (fmt[len] || memchr(fmt, '\0', len)) {
/* Ruby string may contain \0's. */
const char *p = fmt, *pe = fmt + len;
str = rb_str_new(0, 0);
while (p < pe) {
len = rb_strftime_alloc(&buf, format, p, enc,
&tobj->vtm, tobj->timew, TIME_UTC_P(tobj));
rb_str_cat(str, buf, len);
p += strlen(p);
if (buf != buffer) {
xfree(buf);
buf = buffer;
}
for (fmt = p; p < pe && !*p; ++p);
if (p > fmt) rb_str_cat(str, fmt, p - fmt);
}
return str;
}
else {
len = rb_strftime_alloc(&buf, format, RSTRING_PTR(format), enc,
&tobj->vtm, tobj->timew, TIME_UTC_P(tobj));
}
str = rb_enc_str_new(buf, len, enc);
if (buf != buffer) xfree(buf);
return str;
}
Formats time according to the directives in the given format string.
The directives begin with a percent (%) character. Any text not listed as a directive will be passed through to the output string.
The directive consists of a percent (%) character, zero or more flags, optional minimum field width, optional modifier and a conversion specifier as follows:
%<flags><width><modifier><conversion>
Flags:
- don't pad a numerical output _ use spaces for padding 0 use zeros for padding ^ upcase the result string # change case : use colons for %z
The minimum field width specifies the minimum width.
The modifiers are “E” and “O”. They are ignored.
Format directives:
Date (Year, Month, Day): %Y - Year with century if provided, will pad result at least 4 digits. -0001, 0000, 1995, 2009, 14292, etc. %C - year / 100 (rounded down such as 20 in 2009) %y - year % 100 (00..99) %m - Month of the year, zero-padded (01..12) %_m blank-padded ( 1..12) %-m no-padded (1..12) %B - The full month name (``January'') %^B uppercased (``JANUARY'') %b - The abbreviated month name (``Jan'') %^b uppercased (``JAN'') %h - Equivalent to %b %d - Day of the month, zero-padded (01..31) %-d no-padded (1..31) %e - Day of the month, blank-padded ( 1..31) %j - Day of the year (001..366) Time (Hour, Minute, Second, Subsecond): %H - Hour of the day, 24-hour clock, zero-padded (00..23) %k - Hour of the day, 24-hour clock, blank-padded ( 0..23) %I - Hour of the day, 12-hour clock, zero-padded (01..12) %l - Hour of the day, 12-hour clock, blank-padded ( 1..12) %P - Meridian indicator, lowercase (``am'' or ``pm'') %p - Meridian indicator, uppercase (``AM'' or ``PM'') %M - Minute of the hour (00..59) %S - Second of the minute (00..60) %L - Millisecond of the second (000..999) The digits under millisecond are truncated to not produce 1000. %N - Fractional seconds digits, default is 9 digits (nanosecond) %3N millisecond (3 digits) %6N microsecond (6 digits) %9N nanosecond (9 digits) %12N picosecond (12 digits) %15N femtosecond (15 digits) %18N attosecond (18 digits) %21N zeptosecond (21 digits) %24N yoctosecond (24 digits) The digits under the specified length are truncated to avoid carry up. Time zone: %z - Time zone as hour and minute offset from UTC (e.g. +0900) %:z - hour and minute offset from UTC with a colon (e.g. +09:00) %::z - hour, minute and second offset from UTC (e.g. +09:00:00) %Z - Abbreviated time zone name or similar information. (OS dependent) Weekday: %A - The full weekday name (``Sunday'') %^A uppercased (``SUNDAY'') %a - The abbreviated name (``Sun'') %^a uppercased (``SUN'') %u - Day of the week (Monday is 1, 1..7) %w - Day of the week (Sunday is 0, 0..6) ISO 8601 week-based year and week number: The first week of YYYY starts with a Monday and includes YYYY-01-04. The days in the year before the first week are in the last week of the previous year. %G - The week-based year %g - The last 2 digits of the week-based year (00..99) %V - Week number of the week-based year (01..53) Week number: The first week of YYYY that starts with a Sunday or Monday (according to %U or %W). The days in the year before the first week are in week 0. %U - Week number of the year. The week starts with Sunday. (00..53) %W - Week number of the year. The week starts with Monday. (00..53) Seconds since the Epoch: %s - Number of seconds since 1970-01-01 00:00:00 UTC. Literal string: %n - Newline character (\n) %t - Tab character (\t) %% - Literal ``%'' character Combination: %c - date and time (%a %b %e %T %Y) %D - Date (%m/%d/%y) %F - The ISO 8601 date format (%Y-%m-%d) %v - VMS date (%e-%^b-%4Y) %x - Same as %D %X - Same as %T %r - 12-hour time (%I:%M:%S %p) %R - 24-hour time (%H:%M) %T - 24-hour time (%H:%M:%S)
This method is similar to strftime() function defined in ISO C and POSIX.
While all directives are locale independent since Ruby 1.9, %Z is platform dependent. So, the result may differ even if the same format string is used in other systems such as C.
%z is recommended over %Z. %Z doesn’t identify the timezone. For example, “CST” is used at America/Chicago (-06:00), America/Havana (-05:00), Asia/Harbin (+08:00), Australia/Darwin (+09:30) and Australia/Adelaide (+10:30). Also, %Z is highly dependent on the operating system. For example, it may generate a non ASCII string on Japanese Windows. i.e. the result can be different to “JST”. So the numeric time zone offset, %z, is recommended.
Examples:
t = Time.new(2007,11,19,8,37,48,"-06:00") #=> 2007-11-19 08:37:48 -0600 t.strftime("Printed on %m/%d/%Y") #=> "Printed on 11/19/2007" t.strftime("at %I:%M%p") #=> "at 08:37AM"
Various ISO 8601 formats:
%Y%m%d => 20071119 Calendar date (basic) %F => 2007-11-19 Calendar date (extended) %Y-%m => 2007-11 Calendar date, reduced accuracy, specific month %Y => 2007 Calendar date, reduced accuracy, specific year %C => 20 Calendar date, reduced accuracy, specific century %Y%j => 2007323 Ordinal date (basic) %Y-%j => 2007-323 Ordinal date (extended) %GW%V%u => 2007W471 Week date (basic) %G-W%V-%u => 2007-W47-1 Week date (extended) %GW%V => 2007W47 Week date, reduced accuracy, specific week (basic) %G-W%V => 2007-W47 Week date, reduced accuracy, specific week (extended) %H%M%S => 083748 Local time (basic) %T => 08:37:48 Local time (extended) %H%M => 0837 Local time, reduced accuracy, specific minute (basic) %H:%M => 08:37 Local time, reduced accuracy, specific minute (extended) %H => 08 Local time, reduced accuracy, specific hour %H%M%S,%L => 083748,000 Local time with decimal fraction, comma as decimal sign (basic) %T,%L => 08:37:48,000 Local time with decimal fraction, comma as decimal sign (extended) %H%M%S.%L => 083748.000 Local time with decimal fraction, full stop as decimal sign (basic) %T.%L => 08:37:48.000 Local time with decimal fraction, full stop as decimal sign (extended) %H%M%S%z => 083748-0600 Local time and the difference from UTC (basic) %T%:z => 08:37:48-06:00 Local time and the difference from UTC (extended) %Y%m%dT%H%M%S%z => 20071119T083748-0600 Date and time of day for calendar date (basic) %FT%T%:z => 2007-11-19T08:37:48-06:00 Date and time of day for calendar date (extended) %Y%jT%H%M%S%z => 2007323T083748-0600 Date and time of day for ordinal date (basic) %Y-%jT%T%:z => 2007-323T08:37:48-06:00 Date and time of day for ordinal date (extended) %GW%V%uT%H%M%S%z => 2007W471T083748-0600 Date and time of day for week date (basic) %G-W%V-%uT%T%:z => 2007-W47-1T08:37:48-06:00 Date and time of day for week date (extended) %Y%m%dT%H%M => 20071119T0837 Calendar date and local time (basic) %FT%R => 2007-11-19T08:37 Calendar date and local time (extended) %Y%jT%H%MZ => 2007323T0837Z Ordinal date and UTC of day (basic) %Y-%jT%RZ => 2007-323T08:37Z Ordinal date and UTC of day (extended) %GW%V%uT%H%M%z => 2007W471T0837-0600 Week date and local time and difference from UTC (basic) %G-W%V-%uT%R%:z => 2007-W47-1T08:37-06:00 Week date and local time and difference from UTC (extended)
static VALUE
time_subsec(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
return quo(w2v(wmod(tobj->timew, WINT2FIXWV(TIME_SCALE))), INT2FIX(TIME_SCALE));
}
Returns the fraction for time.
The return value can be a rational number.
t = Time.now #=> 2009-03-26 22:33:12 +0900 "%10.9f" % t.to_f #=> "1238074392.940563917" t.subsec #=> (94056401/100000000)
The lowest digits of to_f
and subsec
are different because IEEE 754 double is not accurate enough to represent the rational number.
The more accurate value is returned by subsec
.
VALUE
rb_time_succ(VALUE time)
{
struct time_object *tobj;
struct time_object *tobj2;
rb_warn("Time#succ is obsolete; use time + 1");
GetTimeval(time, tobj);
time = time_new_timew(rb_cTime, wadd(tobj->timew, WINT2FIXWV(TIME_SCALE)));
GetTimeval(time, tobj2);
TIME_COPY_GMT(tobj2, tobj);
return time;
}
static VALUE
time_sunday(VALUE time)
{
wday_p(0);
}
Returns true
if time represents Sunday.
t = Time.local(1990, 4, 1) #=> 1990-04-01 00:00:00 -0600 t.sunday? #=> true
static VALUE
time_thursday(VALUE time)
{
wday_p(4);
}
Returns true
if time represents Thursday.
t = Time.local(1995, 12, 21) #=> 1995-12-21 00:00:00 -0600 p t.thursday? #=> true
static VALUE
time_to_a(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
MAKE_TM(time, tobj);
return rb_ary_new3(10,
INT2FIX(tobj->vtm.sec),
INT2FIX(tobj->vtm.min),
INT2FIX(tobj->vtm.hour),
INT2FIX(tobj->vtm.mday),
INT2FIX(tobj->vtm.mon),
tobj->vtm.year,
INT2FIX(tobj->vtm.wday),
INT2FIX(tobj->vtm.yday),
tobj->vtm.isdst?Qtrue:Qfalse,
time_zone(time));
}
Returns a ten-element array of values for time:
[sec, min, hour, day, month, year, wday, yday, isdst, zone]
See the individual methods for an explanation of the valid ranges of each value. The ten elements can be passed directly to Time::utc
or Time::local
to create a new Time
object.
t = Time.now #=> 2007-11-19 08:36:01 -0600 now = t.to_a #=> [1, 36, 8, 19, 11, 2007, 1, 323, false, "CST"]
static VALUE
time_to_date(VALUE self)
{
VALUE y, nth, ret;
int ry, m, d;
y = f_year(self);
m = FIX2INT(f_mon(self));
d = FIX2INT(f_mday(self));
decode_year(y, -1, &nth, &ry);
ret = d_simple_new_internal(cDate,
nth, 0,
GREGORIAN,
ry, m, d,
HAVE_CIVIL);
{
get_d1(ret);
set_sg(dat, DEFAULT_SG);
}
return ret;
}
Returns a Date
object which denotes self.
static VALUE
time_to_datetime(VALUE self)
{
VALUE y, sf, nth, ret;
int ry, m, d, h, min, s, of;
y = f_year(self);
m = FIX2INT(f_mon(self));
d = FIX2INT(f_mday(self));
h = FIX2INT(f_hour(self));
min = FIX2INT(f_min(self));
s = FIX2INT(f_sec(self));
if (s == 60)
s = 59;
sf = sec_to_ns(f_subsec(self));
of = FIX2INT(f_utc_offset(self));
decode_year(y, -1, &nth, &ry);
ret = d_complex_new_internal(cDateTime,
nth, 0,
0, sf,
of, DEFAULT_SG,
ry, m, d,
h, min, s,
HAVE_CIVIL | HAVE_TIME);
{
get_d1(ret);
set_sg(dat, DEFAULT_SG);
}
return ret;
}
Returns a DateTime
object which denotes self.
static VALUE
time_to_f(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
return rb_Float(rb_time_unmagnify_to_float(tobj->timew));
}
Returns the value of time as a floating point number of seconds since the Epoch.
t = Time.now "%10.5f" % t.to_f #=> "1270968744.77658" t.to_i #=> 1270968744
Note that IEEE 754 double is not accurate enough to represent the number of nanoseconds since the Epoch.
static VALUE
time_to_i(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
return w2v(wdiv(tobj->timew, WINT2FIXWV(TIME_SCALE)));
}
Returns the value of time as an integer number of seconds since the Epoch.
t = Time.now "%10.5f" % t.to_f #=> "1270968656.89607" t.to_i #=> 1270968656
# File tmp/rubies/ruby-2.3.8/ext/json/lib/json/add/time.rb, line 35
def to_json(*args)
as_json.to_json(*args)
end
static VALUE
time_to_r(VALUE time)
{
struct time_object *tobj;
VALUE v;
GetTimeval(time, tobj);
v = w2v(rb_time_unmagnify(tobj->timew));
if (!RB_TYPE_P(v, T_RATIONAL)) {
v = rb_Rational1(v);
}
return v;
}
Returns the value of time as a rational number of seconds since the Epoch.
t = Time.now p t.to_r #=> (1270968792716287611/1000000000)
This methods is intended to be used to get an accurate value representing the nanoseconds since the Epoch. You can use this method to convert time to another Epoch.
static VALUE
time_to_s(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
if (TIME_UTC_P(tobj))
return strftimev("%Y-%m-%d %H:%M:%S UTC", time, rb_usascii_encoding());
else
return strftimev("%Y-%m-%d %H:%M:%S %z", time, rb_usascii_encoding());
}
Returns a string representing time. Equivalent to calling strftime
with the appropriate format string.
t = Time.now t.to_s => "2012-11-10 18:16:12 +0100" t.strftime "%Y-%m-%d %H:%M:%S %z" => "2012-11-10 18:16:12 +0100" t.utc.to_s => "2012-11-10 17:16:12 UTC" t.strftime "%Y-%m-%d %H:%M:%S UTC" => "2012-11-10 17:16:12 UTC"
static VALUE
time_to_time(VALUE self)
{
return f_getlocal(self);
}
Returns a copy of self as local mode.
static VALUE
time_tuesday(VALUE time)
{
wday_p(2);
}
Returns true
if time represents Tuesday.
t = Time.local(1991, 2, 19) #=> 1991-02-19 00:00:00 -0600 p t.tuesday? #=> true
static VALUE
time_nsec(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
return rb_to_int(w2v(wmulquoll(wmod(tobj->timew, WINT2WV(TIME_SCALE)), 1000000000, TIME_SCALE)));
}
Returns the number of nanoseconds for time.
t = Time.now #=> 2007-11-17 15:18:03 +0900 "%10.9f" % t.to_f #=> "1195280283.536151409" t.nsec #=> 536151406
The lowest digits of to_f
and nsec
are different because IEEE 754 double is not accurate enough to represent the exact number of nanoseconds since the Epoch.
The more accurate value is returned by nsec
.
static VALUE
time_usec(VALUE time)
{
struct time_object *tobj;
wideval_t w, q, r;
GetTimeval(time, tobj);
w = wmod(tobj->timew, WINT2WV(TIME_SCALE));
wmuldivmod(w, WINT2FIXWV(1000000), WINT2FIXWV(TIME_SCALE), &q, &r);
return rb_to_int(w2v(q));
}
Returns the number of microseconds for time.
t = Time.now #=> 2007-11-19 08:03:26 -0600 "%10.6f" % t.to_f #=> "1195481006.775195" t.usec #=> 775195
static VALUE
time_utc_p(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
if (TIME_UTC_P(tobj)) return Qtrue;
return Qfalse;
}
Returns true
if time represents a time in UTC (GMT).
t = Time.now #=> 2007-11-19 08:15:23 -0600 t.utc? #=> false t = Time.gm(2000,"jan",1,20,15,1) #=> 2000-01-01 20:15:01 UTC t.utc? #=> true t = Time.now #=> 2007-11-19 08:16:03 -0600 t.gmt? #=> false t = Time.gm(2000,1,1,20,15,1) #=> 2000-01-01 20:15:01 UTC t.gmt? #=> true
# File tmp/rubies/ruby-2.3.8/lib/rss/rss.rb, line 53
def w3cdtf
if usec.zero?
fraction_digits = 0
else
fraction_digits = strftime('%6N').index(/0*\z/)
end
xmlschema(fraction_digits)
end
This method converts a Time
object to a String. The String contains the time in W3CDTF date/time format.
The W3CDTF format is defined here: www.w3.org/TR/NOTE-datetime
Time.now.w3cdtf # => "2013-08-26T14:12:10.817124-07:00"
static VALUE
time_wday(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
MAKE_TM(time, tobj);
return INT2FIX((int)tobj->vtm.wday);
}
Returns an integer representing the day of the week, 0..6, with Sunday == 0.
t = Time.now #=> 2007-11-20 02:35:35 -0600 t.wday #=> 2 t.sunday? #=> false t.monday? #=> false t.tuesday? #=> true t.wednesday? #=> false t.thursday? #=> false t.friday? #=> false t.saturday? #=> false
static VALUE
time_wednesday(VALUE time)
{
wday_p(3);
}
Returns true
if time represents Wednesday.
t = Time.local(1993, 2, 24) #=> 1993-02-24 00:00:00 -0600 p t.wednesday? #=> true
# File tmp/rubies/ruby-2.3.8/lib/time.rb, line 674
def xmlschema(fraction_digits=0)
fraction_digits = fraction_digits.to_i
s = strftime("%FT%T")
if fraction_digits > 0
s << strftime(".%#{fraction_digits}N")
end
s << (utc? ? 'Z' : strftime("%:z"))
end
Returns a string which represents the time as a dateTime defined by XML
Schema:
CCYY-MM-DDThh:mm:ssTZD CCYY-MM-DDThh:mm:ss.sssTZD
where TZD is Z or [+-]hh:mm.
If self is a UTC time, Z is used as TZD. [+-]hh:mm is used otherwise.
fractional_digits
specifies a number of digits to use for fractional seconds. Its default value is 0.
You must require ‘time’ to use this method.
static VALUE
time_yday(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
MAKE_TM(time, tobj);
return INT2FIX(tobj->vtm.yday);
}
Returns an integer representing the day of the year, 1..366.
t = Time.now #=> 2007-11-19 08:32:31 -0600 t.yday #=> 323
static VALUE
time_year(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
MAKE_TM(time, tobj);
return tobj->vtm.year;
}
Returns the year for time (including the century).
t = Time.now #=> 2007-11-19 08:27:51 -0600 t.year #=> 2007
static VALUE
time_zone(VALUE time)
{
struct time_object *tobj;
GetTimeval(time, tobj);
MAKE_TM(time, tobj);
if (TIME_UTC_P(tobj)) {
return rb_usascii_str_new_cstr("UTC");
}
if (tobj->vtm.zone == NULL)
return Qnil;
return time_zone_name(tobj->vtm.zone);
}
Returns the name of the time zone used for time. As of Ruby 1.8, returns “UTC” rather than “GMT” for UTC times.
t = Time.gm(2000, "jan", 1, 20, 15, 1) t.zone #=> "UTC" t = Time.local(2000, "jan", 1, 20, 15, 1) t.zone #=> "CST"