Elixir v1.8.0-rc.1 Calendar.ISO View Source
A calendar implementation that follows to ISO 8601.
This calendar implements the proleptic Gregorian calendar and is therefore compatible with the calendar used in most countries today. The proleptic means the Gregorian rules for leap years are applied for all time, consequently the dates give different results before the year 1583 from when the Gregorian calendar was adopted.
Note that while ISO 8601 allows times and datetimes to specify 24:00:00 as the zero hour of the next day, this notation is not supported by Elixir.
Link to this section Summary
Functions
Converts the given date into a string.
Converts the datetime (with time zone) into a string.
Calculates the day and era from the given year
, month
, and day
.
Calculates the day of the week from the given year
, month
, and day
.
Calculates the day of the year from the given year
, month
, and day
.
See Calendar.day_rollover_relative_to_midnight_utc/0
for documentation.
Returns how many days there are in the given year-month.
Returns if the given year is a leap year.
Returns how many months there are in the given year.
Converts the Calendar.iso_days/0
format to the datetime format specified by this calendar.
Returns the Calendar.iso_days/0
format of the specified date.
Converts the datetime (without time zone) into a string.
Calculates the quarter of the year from the given year
, month
, and day
.
Converts a day fraction to this Calendar's representation of time.
Returns the normalized day fraction of the specified time.
Converts the given time into a string.
Determines if the date given is valid according to the proleptic Gregorian calendar.
Determines if the date given is valid according to the proleptic Gregorian calendar.
Calculates the year and era from the given year
.
Link to this section Types
Specs
day() :: 1..31
Specs
month() :: 1..12
Specs
year() :: -9999..9999
Link to this section Functions
Specs
Converts the given date into a string.
Examples
iex> Calendar.ISO.date_to_string(2015, 2, 28)
"2015-02-28"
iex> Calendar.ISO.date_to_string(2017, 8, 1)
"2017-08-01"
iex> Calendar.ISO.date_to_string(-99, 1, 31)
"-0099-01-31"
datetime_to_string(year, month, day, hour, minute, second, microsecond, time_zone, zone_abbr, utc_offset, std_offset)
View SourceSpecs
datetime_to_string( year(), month(), day(), Calendar.hour(), Calendar.minute(), Calendar.second(), Calendar.microsecond(), Calendar.time_zone(), Calendar.zone_abbr(), Calendar.utc_offset(), Calendar.std_offset() ) :: String.t()
Converts the datetime (with time zone) into a string.
Examples
iex> time_zone = "Europe/Berlin"
iex> Calendar.ISO.datetime_to_string(2017, 8, 1, 1, 2, 3, {4, 5}, time_zone, "CET", 3600, 0)
"2017-08-01 01:02:03.00000+01:00 CET Europe/Berlin"
iex> Calendar.ISO.datetime_to_string(2017, 8, 1, 1, 2, 3, {4, 5}, time_zone, "CDT", 3600, 3600)
"2017-08-01 01:02:03.00000+02:00 CDT Europe/Berlin"
iex> time_zone = "America/Los_Angeles"
iex> Calendar.ISO.datetime_to_string(2015, 2, 28, 1, 2, 3, {4, 5}, time_zone, "PST", -28800, 0)
"2015-02-28 01:02:03.00000-08:00 PST America/Los_Angeles"
iex> Calendar.ISO.datetime_to_string(2015, 2, 28, 1, 2, 3, {4, 5}, time_zone, "PDT", -28800, 3600)
"2015-02-28 01:02:03.00000-07:00 PDT America/Los_Angeles"
Specs
day_of_era(year(), month(), day()) :: {day :: pos_integer(), era :: 0..1}
Calculates the day and era from the given year
, month
, and day
.
Examples
iex> Calendar.ISO.day_of_era(0, 1, 1)
{366, 0}
iex> Calendar.ISO.day_of_era(1, 1, 1)
{1, 1}
iex> Calendar.ISO.day_of_era(0, 12, 31)
{1, 0}
iex> Calendar.ISO.day_of_era(0, 12, 30)
{2, 0}
iex> Calendar.ISO.day_of_era(-1, 12, 31)
{367, 0}
Specs
Calculates the day of the week from the given year
, month
, and day
.
It is an integer from 1 to 7, where 1 is Monday and 7 is Sunday.
Examples
iex> Calendar.ISO.day_of_week(2016, 10, 31)
1
iex> Calendar.ISO.day_of_week(2016, 11, 1)
2
iex> Calendar.ISO.day_of_week(2016, 11, 2)
3
iex> Calendar.ISO.day_of_week(2016, 11, 3)
4
iex> Calendar.ISO.day_of_week(2016, 11, 4)
5
iex> Calendar.ISO.day_of_week(2016, 11, 5)
6
iex> Calendar.ISO.day_of_week(2016, 11, 6)
7
iex> Calendar.ISO.day_of_week(-99, 1, 31)
4
Specs
Calculates the day of the year from the given year
, month
, and day
.
It is an integer from 1 to 366.
Examples
iex> Calendar.ISO.day_of_year(2016, 1, 31)
31
iex> Calendar.ISO.day_of_year(-99, 2, 1)
32
iex> Calendar.ISO.day_of_year(2018, 2, 28)
59
Specs
day_rollover_relative_to_midnight_utc() :: {0, 1}
See Calendar.day_rollover_relative_to_midnight_utc/0
for documentation.
Specs
Returns how many days there are in the given year-month.
Examples
iex> Calendar.ISO.days_in_month(1900, 1)
31
iex> Calendar.ISO.days_in_month(1900, 2)
28
iex> Calendar.ISO.days_in_month(2000, 2)
29
iex> Calendar.ISO.days_in_month(2001, 2)
28
iex> Calendar.ISO.days_in_month(2004, 2)
29
iex> Calendar.ISO.days_in_month(2004, 4)
30
iex> Calendar.ISO.days_in_month(-1, 5)
31
Specs
Returns if the given year is a leap year.
Examples
iex> Calendar.ISO.leap_year?(2000)
true
iex> Calendar.ISO.leap_year?(2001)
false
iex> Calendar.ISO.leap_year?(2004)
true
iex> Calendar.ISO.leap_year?(1900)
false
iex> Calendar.ISO.leap_year?(-4)
true
Specs
months_in_year(year()) :: 12
Returns how many months there are in the given year.
Example
iex> Calendar.ISO.months_in_year(2004)
12
Specs
naive_datetime_from_iso_days(Calendar.iso_days()) :: {Calendar.year(), Calendar.month(), Calendar.day(), Calendar.hour(), Calendar.minute(), Calendar.second(), Calendar.microsecond()}
Converts the Calendar.iso_days/0
format to the datetime format specified by this calendar.
Examples
iex> Calendar.ISO.naive_datetime_from_iso_days({0, {0, 86400}})
{0, 1, 1, 0, 0, 0, {0, 6}}
iex> Calendar.ISO.naive_datetime_from_iso_days({730_485, {0, 86400}})
{2000, 1, 1, 0, 0, 0, {0, 6}}
iex> Calendar.ISO.naive_datetime_from_iso_days({730_485, {43200, 86400}})
{2000, 1, 1, 12, 0, 0, {0, 6}}
iex> Calendar.ISO.naive_datetime_from_iso_days({-365, {0, 86400000000}})
{-1, 1, 1, 0, 0, 0, {0, 6}}
naive_datetime_to_iso_days(year, month, day, hour, minute, second, microsecond)
View Source (since 1.5.0)Specs
naive_datetime_to_iso_days( Calendar.year(), Calendar.month(), Calendar.day(), Calendar.hour(), Calendar.minute(), Calendar.second(), Calendar.microsecond() ) :: Calendar.iso_days()
Returns the Calendar.iso_days/0
format of the specified date.
Examples
iex> Calendar.ISO.naive_datetime_to_iso_days(0, 1, 1, 0, 0, 0, {0, 6})
{0, {0, 86400000000}}
iex> Calendar.ISO.naive_datetime_to_iso_days(2000, 1, 1, 12, 0, 0, {0, 6})
{730485, {43200000000, 86400000000}}
iex> Calendar.ISO.naive_datetime_to_iso_days(2000, 1, 1, 13, 0, 0, {0, 6})
{730485, {46800000000, 86400000000}}
iex> Calendar.ISO.naive_datetime_to_iso_days(-1, 1, 1, 0, 0, 0, {0, 6})
{-365, {0, 86400000000}}
naive_datetime_to_string(year, month, day, hour, minute, second, microsecond)
View SourceSpecs
naive_datetime_to_string( year(), month(), day(), Calendar.hour(), Calendar.minute(), Calendar.second(), Calendar.microsecond() ) :: String.t()
Converts the datetime (without time zone) into a string.
Examples
iex> Calendar.ISO.naive_datetime_to_string(2015, 2, 28, 1, 2, 3, {4, 6})
"2015-02-28 01:02:03.000004"
iex> Calendar.ISO.naive_datetime_to_string(2017, 8, 1, 1, 2, 3, {4, 5})
"2017-08-01 01:02:03.00000"
Specs
Calculates the quarter of the year from the given year
, month
, and day
.
It is an integer from 1 to 4.
Examples
iex> Calendar.ISO.quarter_of_year(2016, 1, 31)
1
iex> Calendar.ISO.quarter_of_year(2016, 4, 3)
2
iex> Calendar.ISO.quarter_of_year(-99, 9, 31)
3
iex> Calendar.ISO.quarter_of_year(2018, 12, 28)
4
Specs
time_from_day_fraction(Calendar.day_fraction()) :: {Calendar.hour(), Calendar.minute(), Calendar.second(), Calendar.microsecond()}
Converts a day fraction to this Calendar's representation of time.
Examples
iex> Calendar.ISO.time_from_day_fraction({1, 2})
{12, 0, 0, {0, 6}}
iex> Calendar.ISO.time_from_day_fraction({13, 24})
{13, 0, 0, {0, 6}}
Specs
time_to_day_fraction( Calendar.hour(), Calendar.minute(), Calendar.second(), Calendar.microsecond() ) :: Calendar.day_fraction()
Returns the normalized day fraction of the specified time.
Examples
iex> Calendar.ISO.time_to_day_fraction(0, 0, 0, {0, 6})
{0, 86400000000}
iex> Calendar.ISO.time_to_day_fraction(12, 34, 56, {123, 6})
{45296000123, 86400000000}
Specs
time_to_string( Calendar.hour(), Calendar.minute(), Calendar.second(), Calendar.microsecond() ) :: String.t()
Converts the given time into a string.
Examples
iex> Calendar.ISO.time_to_string(2, 2, 2, {2, 6})
"02:02:02.000002"
iex> Calendar.ISO.time_to_string(2, 2, 2, {2, 2})
"02:02:02.00"
iex> Calendar.ISO.time_to_string(2, 2, 2, {2, 0})
"02:02:02"
Specs
Determines if the date given is valid according to the proleptic Gregorian calendar.
Examples
iex> Calendar.ISO.valid_date?(2015, 2, 28)
true
iex> Calendar.ISO.valid_date?(2015, 2, 30)
false
iex> Calendar.ISO.valid_date?(-1, 12, 31)
true
iex> Calendar.ISO.valid_date?(-1, 12, 32)
false
Specs
valid_time?( Calendar.hour(), Calendar.minute(), Calendar.second(), Calendar.microsecond() ) :: boolean()
Determines if the date given is valid according to the proleptic Gregorian calendar.
Note that while ISO 8601 allows times to specify 24:00:00 as the zero hour of the next day, this notation is not supported by Elixir. Leap seconds are not supported as well by the built-in Calendar.ISO.
Examples
iex> Calendar.ISO.valid_time?(10, 50, 25, {3006, 6})
true
iex> Calendar.ISO.valid_time?(23, 59, 60, {0, 0})
false
iex> Calendar.ISO.valid_time?(24, 0, 0, {0, 0})
false
Specs
Calculates the year and era from the given year
.
The ISO calendar has two eras: the current era which starts in year 1 and is defined as era "1". And a second era for those years less than 1 defined as era "0".
Examples
iex> Calendar.ISO.year_of_era(1)
{1, 1}
iex> Calendar.ISO.year_of_era(2018)
{2018, 1}
iex> Calendar.ISO.year_of_era(0)
{1, 0}
iex> Calendar.ISO.year_of_era(-1)
{2, 0}