View Source Date (Elixir v1.12.3)

A Date struct and functions.

The Date struct contains the fields year, month, day and calendar. New dates can be built with the new/3 function or using the ~D (see Kernel.sigil_D/2) sigil:

iex> ~D[2000-01-01]
~D[2000-01-01]

Both new/3 and sigil return a struct where the date fields can be accessed directly:

iex> date = ~D[2000-01-01]
iex> date.year
2000
iex> date.month
1

The functions on this module work with the Date struct as well as any struct that contains the same fields as the Date struct, such as NaiveDateTime and DateTime. Such functions expect Calendar.date/0 in their typespecs (instead of t/0).

Developers should avoid creating the Date structs directly and instead rely on the functions provided by this module as well as the ones in third-party calendar libraries.

Comparing dates

Comparisons in Elixir using ==/2, >/2, </2 and similar are structural and based on the Date struct fields. For proper comparison between dates, use the compare/2 function.

Using epochs

The add/2 and diff/2 functions can be used for computing dates or retrieving the number of days between instants. For example, if there is an interest in computing the number of days from the Unix epoch (1970-01-01):

iex> Date.diff(~D[2010-04-17], ~D[1970-01-01])
14716

iex> Date.add(~D[1970-01-01], 14716)
~D[2010-04-17]

Those functions are optimized to deal with common epochs, such as the Unix Epoch above or the Gregorian Epoch (0000-01-01).

Link to this section Summary

Functions

Adds the number of days to the given date.

Calculates a date that is the first day of the month for the given date.

Calculates a date that is the first day of the week for the given date.

Compares two date structs.

Converts the given date from its calendar to the given calendar.

Similar to Date.convert/2, but raises an ArgumentError if the conversion between the two calendars is not possible.

Calculates the day-of-era and era for a given calendar date.

Calculates the day of the week of a given date.

Calculates the day of the year of a given date.

Returns the number of days in the given date month.

Calculates the difference between two dates, in a full number of days.

Calculates a date that is the last day of the month for the given date.

Calculates a date that is the last day of the week for the given date.

Converts an Erlang date tuple to a Date struct.

Converts an Erlang date tuple but raises for invalid dates.

Converts a number of gregorian days to a Date struct.

Parses the extended "Dates" format described by ISO 8601:2019.

Parses the extended "Dates" format described by ISO 8601:2019.

Returns true if the year in the given date is a leap year.

Returns the number of months in the given date year.

Calculates the quarter of the year of a given date.

Returns a range of dates.

Returns a range of dates with a step.

Converts the given date to an Erlang date tuple.

Converts a date struct to a number of gregorian days.

Converts the given date to a string according to its calendar.

Returns the current date in UTC.

Calculates the year-of-era and era for a given calendar year.

Link to this section Types

@type t() :: %Date{
  calendar: Calendar.calendar(),
  day: Calendar.day(),
  month: Calendar.month(),
  year: Calendar.year()
}

Link to this section Functions

Link to this function

add(date, days)

View Source (since 1.5.0)
@spec add(Calendar.date(), integer()) :: t()

Adds the number of days to the given date.

The days are counted as Gregorian days. The date is returned in the same calendar as it was given in.

Examples

iex> Date.add(~D[2000-01-03], -2)
~D[2000-01-01]
iex> Date.add(~D[2000-01-01], 2)
~D[2000-01-03]
iex> Date.add(~N[2000-01-01 09:00:00], 2)
~D[2000-01-03]
iex> Date.add(~D[-0010-01-01], -2)
~D[-0011-12-30]
Link to this function

beginning_of_month(map)

View Source (since 1.11.0)
@spec beginning_of_month(Calendar.date()) :: t()

Calculates a date that is the first day of the month for the given date.

Examples

iex> Date.beginning_of_month(~D[2000-01-31])
~D[2000-01-01]
iex> Date.beginning_of_month(~D[2000-01-01])
~D[2000-01-01]
iex> Date.beginning_of_month(~N[2000-01-31 01:23:45])
~D[2000-01-01]
Link to this function

beginning_of_week(date, starting_on \\ :default)

View Source (since 1.11.0)
@spec beginning_of_week(Calendar.date(), starting_on :: :default | atom()) :: t()

Calculates a date that is the first day of the week for the given date.

If the day is already the first day of the week, it returns the day itself. For the built-in ISO calendar, the week starts on Monday. A weekday rather than :default can be given as starting_on.

Examples

iex> Date.beginning_of_week(~D[2020-07-11])
~D[2020-07-06]
iex> Date.beginning_of_week(~D[2020-07-06])
~D[2020-07-06]
iex> Date.beginning_of_week(~D[2020-07-11], :sunday)
~D[2020-07-05]
iex> Date.beginning_of_week(~D[2020-07-11], :saturday)
~D[2020-07-11]
iex> Date.beginning_of_week(~N[2020-07-11 01:23:45])
~D[2020-07-06]
Link to this function

compare(date1, date2)

View Source (since 1.4.0)
@spec compare(Calendar.date(), Calendar.date()) :: :lt | :eq | :gt

Compares two date structs.

Returns :gt if first date is later than the second and :lt for vice versa. If the two dates are equal :eq is returned.

Examples

iex> Date.compare(~D[2016-04-16], ~D[2016-04-28])
:lt

This function can also be used to compare across more complex calendar types by considering only the date fields:

iex> Date.compare(~D[2016-04-16], ~N[2016-04-28 01:23:45])
:lt
iex> Date.compare(~D[2016-04-16], ~N[2016-04-16 01:23:45])
:eq
iex> Date.compare(~N[2016-04-16 12:34:56], ~N[2016-04-16 01:23:45])
:eq
Link to this function

convert(date, calendar)

View Source (since 1.5.0)
@spec convert(Calendar.date(), Calendar.calendar()) ::
  {:ok, t()} | {:error, :incompatible_calendars}

Converts the given date from its calendar to the given calendar.

Returns {:ok, date} if the calendars are compatible, or {:error, :incompatible_calendars} if they are not.

See also Calendar.compatible_calendars?/2.

Examples

Imagine someone implements Calendar.Holocene, a calendar based on the Gregorian calendar that adds exactly 10,000 years to the current Gregorian year:

iex> Date.convert(~D[2000-01-01], Calendar.Holocene)
{:ok, %Date{calendar: Calendar.Holocene, year: 12000, month: 1, day: 1}}
Link to this function

convert!(date, calendar)

View Source (since 1.5.0)
@spec convert!(Calendar.date(), Calendar.calendar()) :: t()

Similar to Date.convert/2, but raises an ArgumentError if the conversion between the two calendars is not possible.

Examples

Imagine someone implements Calendar.Holocene, a calendar based on the Gregorian calendar that adds exactly 10,000 years to the current Gregorian year:

iex> Date.convert!(~D[2000-01-01], Calendar.Holocene)
%Date{calendar: Calendar.Holocene, year: 12000, month: 1, day: 1}
Link to this function

day_of_era(date)

View Source (since 1.8.0)
@spec day_of_era(Calendar.date()) :: {Calendar.day(), non_neg_integer()}

Calculates the day-of-era and era for a given calendar date.

Returns a tuple {day, era} representing the day within the era and the era number.

Examples

iex> Date.day_of_era(~D[0001-01-01])
{1, 1}

iex> Date.day_of_era(~D[0000-12-31])
{1, 0}
Link to this function

day_of_week(date, starting_on \\ :default)

View Source (since 1.4.0)
@spec day_of_week(Calendar.date(), starting_on :: :default | atom()) ::
  Calendar.day_of_week()

Calculates the day of the week of a given date.

Returns the day of the week as an integer. For the ISO 8601 calendar (the default), it is an integer from 1 to 7, where 1 is Monday and 7 is Sunday.

An optional starting_on value may be supplied, which configures the weekday the week starts on. The default value for it is :default, which translates to :monday for the built-in ISO calendar. Any other weekday may be given to.

Examples

iex> Date.day_of_week(~D[2016-10-31])
1
iex> Date.day_of_week(~D[2016-11-01])
2
iex> Date.day_of_week(~N[2016-11-01 01:23:45])
2
iex> Date.day_of_week(~D[-0015-10-30])
3

iex> Date.day_of_week(~D[2016-10-31], :sunday)
2
iex> Date.day_of_week(~D[2016-11-01], :sunday)
3
iex> Date.day_of_week(~N[2016-11-01 01:23:45], :sunday)
3
iex> Date.day_of_week(~D[-0015-10-30], :sunday)
4
Link to this function

day_of_year(date)

View Source (since 1.8.0)
@spec day_of_year(Calendar.date()) :: Calendar.day()

Calculates the day of the year of a given date.

Returns the day of the year as an integer. For the ISO 8601 calendar (the default), it is an integer from 1 to 366.

Examples

iex> Date.day_of_year(~D[2016-01-01])
1
iex> Date.day_of_year(~D[2016-11-01])
306
iex> Date.day_of_year(~D[-0015-10-30])
303
iex> Date.day_of_year(~D[2004-12-31])
366
Link to this function

days_in_month(date)

View Source (since 1.4.0)
@spec days_in_month(Calendar.date()) :: Calendar.day()

Returns the number of days in the given date month.

Examples

iex> Date.days_in_month(~D[1900-01-13])
31
iex> Date.days_in_month(~D[1900-02-09])
28
iex> Date.days_in_month(~N[2000-02-20 01:23:45])
29
Link to this function

diff(date1, date2)

View Source (since 1.5.0)
@spec diff(Calendar.date(), Calendar.date()) :: integer()

Calculates the difference between two dates, in a full number of days.

It returns the number of Gregorian days between the dates. Only Date structs that follow the same or compatible calendars can be compared this way. If two calendars are not compatible, it will raise.

Examples

iex> Date.diff(~D[2000-01-03], ~D[2000-01-01])
2
iex> Date.diff(~D[2000-01-01], ~D[2000-01-03])
-2
iex> Date.diff(~D[0000-01-02], ~D[-0001-12-30])
3
iex> Date.diff(~D[2000-01-01], ~N[2000-01-03 09:00:00])
-2
Link to this function

end_of_month(date)

View Source (since 1.11.0)
@spec end_of_month(Calendar.date()) :: t()

Calculates a date that is the last day of the month for the given date.

Examples

iex> Date.end_of_month(~D[2000-01-01])
~D[2000-01-31]
iex> Date.end_of_month(~D[2000-01-31])
~D[2000-01-31]
iex> Date.end_of_month(~N[2000-01-01 01:23:45])
~D[2000-01-31]
Link to this function

end_of_week(date, starting_on \\ :default)

View Source (since 1.11.0)
@spec end_of_week(Calendar.date(), starting_on :: :default | atom()) :: t()

Calculates a date that is the last day of the week for the given date.

If the day is already the last day of the week, it returns the day itself. For the built-in ISO calendar, the week ends on Sunday. A weekday rather than :default can be given as starting_on.

Examples

iex> Date.end_of_week(~D[2020-07-11])
~D[2020-07-12]
iex> Date.end_of_week(~D[2020-07-05])
~D[2020-07-05]
iex> Date.end_of_week(~D[2020-07-06], :sunday)
~D[2020-07-11]
iex> Date.end_of_week(~D[2020-07-06], :sunday)
~D[2020-07-11]
iex> Date.end_of_week(~D[2020-07-06], :saturday)
~D[2020-07-10]
iex> Date.end_of_week(~N[2020-07-11 01:23:45])
~D[2020-07-12]
Link to this function

from_erl(tuple, calendar \\ Calendar.ISO)

View Source
@spec from_erl(:calendar.date(), Calendar.calendar()) :: {:ok, t()} | {:error, atom()}

Converts an Erlang date tuple to a Date struct.

Only supports converting dates which are in the ISO calendar, or other calendars in which the days also start at midnight. Attempting to convert dates from other calendars will return an error tuple.

Examples

iex> Date.from_erl({2000, 1, 1})
{:ok, ~D[2000-01-01]}
iex> Date.from_erl({2000, 13, 1})
{:error, :invalid_date}
Link to this function

from_erl!(tuple, calendar \\ Calendar.ISO)

View Source
@spec from_erl!(:calendar.date(), Calendar.calendar()) :: t()

Converts an Erlang date tuple but raises for invalid dates.

Examples

iex> Date.from_erl!({2000, 1, 1})
~D[2000-01-01]
iex> Date.from_erl!({2000, 13, 1})
** (ArgumentError) cannot convert {2000, 13, 1} to date, reason: :invalid_date
Link to this function

from_gregorian_days(days, calendar \\ Calendar.ISO)

View Source (since 1.11.0)
@spec from_gregorian_days(integer(), Calendar.calendar()) :: t()

Converts a number of gregorian days to a Date struct.

Examples

iex> Date.from_gregorian_days(1)
~D[0000-01-02]
iex> Date.from_gregorian_days(730_485)
~D[2000-01-01]
iex> Date.from_gregorian_days(-1)
~D[-0001-12-31]
Link to this function

from_iso8601(string, calendar \\ Calendar.ISO)

View Source
@spec from_iso8601(String.t(), Calendar.calendar()) :: {:ok, t()} | {:error, atom()}

Parses the extended "Dates" format described by ISO 8601:2019.

The year parsed by this function is limited to four digits.

Examples

iex> Date.from_iso8601("2015-01-23")
{:ok, ~D[2015-01-23]}

iex> Date.from_iso8601("2015:01:23")
{:error, :invalid_format}

iex> Date.from_iso8601("2015-01-32")
{:error, :invalid_date}
Link to this function

from_iso8601!(string, calendar \\ Calendar.ISO)

View Source
@spec from_iso8601!(String.t(), Calendar.calendar()) :: t()

Parses the extended "Dates" format described by ISO 8601:2019.

Raises if the format is invalid.

Examples

iex> Date.from_iso8601!("2015-01-23")
~D[2015-01-23]
iex> Date.from_iso8601!("2015:01:23")
** (ArgumentError) cannot parse "2015:01:23" as date, reason: :invalid_format
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leap_year?(date)

View Source (since 1.4.0)
@spec leap_year?(Calendar.date()) :: boolean()

Returns true if the year in the given date is a leap year.

Examples

iex> Date.leap_year?(~D[2000-01-01])
true
iex> Date.leap_year?(~D[2001-01-01])
false
iex> Date.leap_year?(~D[2004-01-01])
true
iex> Date.leap_year?(~D[1900-01-01])
false
iex> Date.leap_year?(~N[2004-01-01 01:23:45])
true
Link to this function

months_in_year(date)

View Source (since 1.7.0)
@spec months_in_year(Calendar.date()) :: Calendar.month()

Returns the number of months in the given date year.

Example

iex> Date.months_in_year(~D[1900-01-13])
12
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new(year, month, day, calendar \\ Calendar.ISO)

View Source
@spec new(Calendar.year(), Calendar.month(), Calendar.day(), Calendar.calendar()) ::
  {:ok, t()} | {:error, atom()}

Builds a new ISO date.

Expects all values to be integers. Returns {:ok, date} if each entry fits its appropriate range, returns {:error, reason} otherwise.

Examples

iex> Date.new(2000, 1, 1)
{:ok, ~D[2000-01-01]}
iex> Date.new(2000, 13, 1)
{:error, :invalid_date}
iex> Date.new(2000, 2, 29)
{:ok, ~D[2000-02-29]}

iex> Date.new(2000, 2, 30)
{:error, :invalid_date}
iex> Date.new(2001, 2, 29)
{:error, :invalid_date}
Link to this function

new!(year, month, day, calendar \\ Calendar.ISO)

View Source (since 1.11.0)

Builds a new ISO date.

Expects all values to be integers. Returns date if each entry fits its appropriate range, raises if the date is invalid.

Examples

iex> Date.new!(2000, 1, 1)
~D[2000-01-01]
iex> Date.new!(2000, 13, 1)
** (ArgumentError) cannot build date, reason: :invalid_date
iex> Date.new!(2000, 2, 29)
~D[2000-02-29]
Link to this function

quarter_of_year(date)

View Source (since 1.8.0)
@spec quarter_of_year(Calendar.date()) :: non_neg_integer()

Calculates the quarter of the year of a given date.

Returns the day of the year as an integer. For the ISO 8601 calendar (the default), it is an integer from 1 to 4.

Examples

iex> Date.quarter_of_year(~D[2016-10-31])
4
iex> Date.quarter_of_year(~D[2016-01-01])
1
iex> Date.quarter_of_year(~N[2016-04-01 01:23:45])
2
iex> Date.quarter_of_year(~D[-0015-09-30])
3
Link to this function

range(first, last)

View Source (since 1.5.0)
@spec range(Calendar.date(), Calendar.date()) :: Date.Range.t()

Returns a range of dates.

A range of dates represents a discrete number of dates where the first and last values are dates with matching calendars.

Ranges of dates can be either increasing (first <= last) or decreasing (first > last). They are also always inclusive.

Examples

iex> Date.range(~D[1999-01-01], ~D[2000-01-01])
#DateRange<~D[1999-01-01], ~D[2000-01-01]>

A range of dates implements the Enumerable protocol, which means functions in the Enum module can be used to work with ranges:

iex> range = Date.range(~D[2001-01-01], ~D[2002-01-01])
iex> Enum.count(range)
366
iex> Enum.member?(range, ~D[2001-02-01])
true
iex> Enum.take(range, 3)
[~D[2001-01-01], ~D[2001-01-02], ~D[2001-01-03]]
Link to this function

range(first, last, step)

View Source (since 1.12.0)
@spec range(Calendar.date(), Calendar.date(), step :: pos_integer() | neg_integer()) ::
  Date.Range.t()

Returns a range of dates with a step.

Examples

iex> range = Date.range(~D[2001-01-01], ~D[2002-01-01], 2)
iex> range
#DateRange<~D[2001-01-01], ~D[2002-01-01], 2>
iex> Enum.count(range)
183
iex> Enum.member?(range, ~D[2001-01-03])
true
iex> Enum.take(range, 3)
[~D[2001-01-01], ~D[2001-01-03], ~D[2001-01-05]]
@spec to_erl(Calendar.date()) :: :calendar.date()

Converts the given date to an Erlang date tuple.

Only supports converting dates which are in the ISO calendar, or other calendars in which the days also start at midnight. Attempting to convert dates from other calendars will raise.

Examples

iex> Date.to_erl(~D[2000-01-01])
{2000, 1, 1}

iex> Date.to_erl(~N[2000-01-01 00:00:00])
{2000, 1, 1}
Link to this function

to_gregorian_days(date)

View Source (since 1.11.0)
@spec to_gregorian_days(Calendar.date()) :: integer()

Converts a date struct to a number of gregorian days.

Examples

iex> Date.to_gregorian_days(~D[0000-01-02])
1
iex> Date.to_gregorian_days(~D[2000-01-01])
730_485
iex> Date.to_gregorian_days(~N[2000-01-01 00:00:00])
730_485
Link to this function

to_iso8601(date, format \\ :extended)

View Source
@spec to_iso8601(Calendar.date(), :extended | :basic) :: String.t()

Converts the given date to ISO 8601:2019.

By default, Date.to_iso8601/2 returns dates formatted in the "extended" format, for human readability. It also supports the "basic" format through passing the :basic option.

Only supports converting dates which are in the ISO calendar, or other calendars in which the days also start at midnight. Attempting to convert dates from other calendars will raise an ArgumentError.

Examples

iex> Date.to_iso8601(~D[2000-02-28])
"2000-02-28"

iex> Date.to_iso8601(~D[2000-02-28], :basic)
"20000228"

iex> Date.to_iso8601(~N[2000-02-28 00:00:00])
"2000-02-28"
@spec to_string(Calendar.date()) :: String.t()

Converts the given date to a string according to its calendar.

Examples

iex> Date.to_string(~D[2000-02-28])
"2000-02-28"
iex> Date.to_string(~N[2000-02-28 01:23:45])
"2000-02-28"
iex> Date.to_string(~D[-0100-12-15])
"-0100-12-15"
Link to this function

utc_today(calendar \\ Calendar.ISO)

View Source (since 1.4.0)
@spec utc_today(Calendar.calendar()) :: t()

Returns the current date in UTC.

Examples

iex> date = Date.utc_today()
iex> date.year >= 2016
true
Link to this function

year_of_era(date)

View Source (since 1.8.0)
@spec year_of_era(Calendar.date()) :: {Calendar.year(), non_neg_integer()}

Calculates the year-of-era and era for a given calendar year.

Returns a tuple {year, era} representing the year within the era and the era number.

Examples

iex> Date.year_of_era(~D[0001-01-01])
{1, 1}
iex> Date.year_of_era(~D[0000-12-31])
{1, 0}
iex> Date.year_of_era(~D[-0001-01-01])
{2, 0}