Specs

add_days(fixed() | old_hindu_solar_date(), integer(), :fixed | :date) ::
  fixed() | old_hindu_solar_date()

Adds the number of days to a fixed day or OldHinduSolar date.

If days is negative, the days will be subtracted.

The type parameter determines the type of the returned value:

• :fixed returns a fixed day (default),
• :date returns a OldHinduSolar date.

Examples

  iex>Elixir.OldHinduSolar.add_days(730739, 100)
  730839
  iex>Elixir.OldHinduSolar.add_days(730739, -100)
  730639

  iex>Elixir.OldHinduSolar.add_days(730739, 100, :fixed)
  730839
  iex>Elixir.OldHinduSolar.add_days(730739, -100, :fixed)
  730639

  iex>Elixir.OldHinduSolar.add_days(730739, 100, :date)
  {5102, 9, 5}
  iex>Elixir.OldHinduSolar.add_days(730739, -100, :date)
  {5102, 2, 19}

  iex>Elixir.OldHinduSolar.add_days({5102, 5, 27}, 100)
  730839
  iex>Elixir.OldHinduSolar.add_days({5102, 5, 27}, -100)
  730639

  iex>Elixir.OldHinduSolar.add_days({5102, 5, 27}, 100, :fixed)
  730839
  iex>Elixir.OldHinduSolar.add_days({5102, 5, 27}, -100, :fixed)
  730639

  iex>Elixir.OldHinduSolar.add_days({5102, 5, 27}, 100, :date)
  {5102, 9, 5}
  iex>Elixir.OldHinduSolar.add_days({5102, 5, 27}, -100, :date)
  {5102, 2, 19}

Specs

as_date(fixed() | old_hindu_solar_date()) :: old_hindu_solar_date()

Returns a fixed day or OldHinduSolar date as a OldHinduSolar date.

This is a convenience function to simplify certain function calls.

Examples

  iex>Elixir.OldHinduSolar.as_date(730739)
  {5102, 5, 27}
  iex>Elixir.OldHinduSolar.as_date({5102, 5, 27})
  {5102, 5, 27}

Specs

as_fixed(fixed() | old_hindu_solar_date()) :: fixed()

Returns a fixed day or OldHinduSolar date as a fixed day.

This is a convenience function to simplify certain function calls.

Examples

  iex>Elixir.OldHinduSolar.as_fixed(730739)
  730739
  iex>Elixir.OldHinduSolar.as_fixed({5102, 5, 27})
  730739

Specs

as_type(fixed() | old_hindu_solar_date(), :fixed | :date) ::
  fixed() | old_hindu_solar_date()

Returns a fixed day or OldHinduSolar date either as a fixed day or a OldHinduSolar date.

The type parameter determines the type of the returned value:

• :fixed returns a fixed day (default),
• :date returns a OldHinduSolar date.

Examples

  iex>Elixir.OldHinduSolar.as_type(730739)
  730739
  iex>Elixir.OldHinduSolar.as_type(730739, :fixed)
  730739
  iex>Elixir.OldHinduSolar.as_type(730739, :date)
  {5102, 5, 27}
  iex>Elixir.OldHinduSolar.as_type({5102, 5, 27})
  730739
  iex>Elixir.OldHinduSolar.as_type({5102, 5, 27}, :fixed)
  730739
  iex>Elixir.OldHinduSolar.as_type({5102, 5, 27}, :date)
  {5102, 5, 27}

Specs

compare(old_hindu_solar_date(), old_hindu_solar_date()) :: :lt | :eq | :gt

Compares two OldHinduSolar dates and returns...

• :lt if date1 is smaller (= earlier) than date2,
• :eq if date1 is equal date2,
• :gt if date1 is larger (= later) than date2.

Examples

  iex>Elixir.OldHinduSolar.compare({5102, 5, 27}, {5102, 5, 27})
  :eq
  iex>Elixir.OldHinduSolar.compare({5102, 5, 27}, {5102, 9, 5})
  :lt
  iex>Elixir.OldHinduSolar.compare({5102, 9, 5}, {5102, 5, 27})
  :gt

Specs

date(old_hindu_solar_year(), old_hindu_solar_month(), old_hindu_solar_day()) ::
  t()

Returns a OldHinduSolar date from its fields year, month, day.

Example

  iex>Elixir.OldHinduSolar.date(5102, 5, 27)
  {5102, 5, 27}

Specs

date_diff(fixed() | old_hindu_solar_date(), fixed() | old_hindu_solar_date()) ::
  integer()

Returns the difference (= number of days) between two OldHinduSolar dates.

The dates can be given as fixed days or OldHinduSolar dates in arbitrary combination. The difference is calculated by date2 - date1.

If cal_date2 is larger (= later) than cal_date1 the result is positive.

If cal_date2 is smaller (= earlier) than cal_date1 the result is negative.

Examples

  iex>Elixir.OldHinduSolar.date_diff(730739, 730839)
  100
  iex>Elixir.OldHinduSolar.date_diff(730839, 730739)
  -100
  iex>Elixir.OldHinduSolar.date_diff({5102, 5, 27}, {5102, 9, 5})
  100
  iex>Elixir.OldHinduSolar.date_diff({5102, 9, 5}, {5102, 5, 27})
  -100
  iex>Elixir.OldHinduSolar.date_diff(730739, {5102, 9, 5})
  100
  iex>Elixir.OldHinduSolar.date_diff({5102, 5, 27}, 730839)
  100

Specs

day(fixed() | old_hindu_solar_date(), :atom | :index | :name | :value) ::
  :atom | integer() | String.t() | number()

Returns the day field of a OldHinduSolar date.

The type parameter determines the type of the returned day:

• :atom returns the internal name of day,
• :index returns the position of the day field within the date,
• :name returns the common name of the day,
• :value returns the value of the day (default).

Examples

  iex>Elixir.OldHinduSolar.day(730739)
  27
  iex>Elixir.OldHinduSolar.day(730739, :atom)
  :day
  iex>Elixir.OldHinduSolar.day(730739, :index)
  2
  iex>Elixir.OldHinduSolar.day(730739, :name)
  "Day"
  iex>Elixir.OldHinduSolar.day(730739, :value)
  27

  iex>Elixir.OldHinduSolar.day({5102, 5, 27})
  27
  iex>Elixir.OldHinduSolar.day({5102, 5, 27}, :atom)
  :day
  iex>Elixir.OldHinduSolar.day({5102, 5, 27}, :index)
  2
  iex>Elixir.OldHinduSolar.day({5102, 5, 27}, :name)
  "Day"
  iex>Elixir.OldHinduSolar.day({5102, 5, 27}, :value)
  27

Specs

eq(old_hindu_solar_date(), old_hindu_solar_date()) :: boolean()

Returns true if OldHinduSolar date1 is equal OldHinduSolar date2, otherwise false.

Examples

  iex>Elixir.OldHinduSolar.eq({5102, 5, 27}, {5102, 5, 27})
  true
  iex>Elixir.OldHinduSolar.eq({5102, 5, 27}, {5102, 9, 5})
  false
  iex>Elixir.OldHinduSolar.eq({5102, 9, 5}, {5102, 5, 27})
  false

Specs

field_atom(integer()) :: atom()

Returns the name of the field atom in a OldHinduSolar date at field_index.

Examples

  iex>Elixir.OldHinduSolar.field_atom(0)
  :year
  iex>Elixir.OldHinduSolar.field_atom(1)
  :month
  iex>Elixir.OldHinduSolar.field_atom(2)
  :day

Specs

field_atoms() :: [atom()]

Returns a list of the field atoms (names) of a OldHinduSolar date.

Example

  iex>Elixir.OldHinduSolar.field_atoms()
  [:year, :month, :day]

Specs

field_count() :: integer()

Returns the number of fields in a OldHinduSolar date

Example

  iex>Elixir.OldHinduSolar.field_count()
  3

Specs

field_index(atom()) :: integer()

Returns the index (= position) of the field_atom in a OldHinduSolar date.

Examples

  iex>Elixir.OldHinduSolar.field_index(:year)
  0
  iex>Elixir.OldHinduSolar.field_index(:month)
  1
  iex>Elixir.OldHinduSolar.field_index(:day)
  2

Specs

from_date(tuple(), module()) :: old_hindu_solar_date()

from_date(tuple(), module()) :: {:error, String.t()}

Converts the other_date of the other_calendar into the equivalent date of the OldHinduSolar calendar.

Example

  iex>Elixir.OldHinduSolar.from_date({2001, 9, 11}, Gregorian)
  {5102, 5, 27}

Specs

from_fixed(fixed()) :: old_hindu_solar_date()

Converts a fixed day to a OldHinduSolar date.

Example

  iex>Elixir.OldHinduSolar.from_fixed(730739)
  {5102, 5, 27}

Specs

from_jd(tuple() | number()) :: old_hindu_solar_date()

Converts a Julian Day into the equivalent OldHinduSolar date.

The Julian Day can be given as a tuple or by a Julian day.

Examples

  iex>Elixir.OldHinduSolar.from_jd({2452163.5})
  {5102, 5, 27}
  iex>Elixir.OldHinduSolar.from_jd(2452163.5)
  {5102, 5, 27}

Specs

from_rata_die(tuple() | integer()) :: old_hindu_solar_date()

Converts a RataDie date into the equivalent OldHinduSolar date.

The RataDie date can be given as a tuple or by a RataDie rd.

Examples

  iex>Elixir.OldHinduSolar.from_rata_die({730739})
  {5102, 5, 27}
  iex>Elixir.OldHinduSolar.from_rata_die(730739)
  {5102, 5, 27}

Specs

from_unix(tuple() | integer()) :: old_hindu_solar_date()

Converts a Unix date into the equivalent OldHinduSolar date.

The Unix date can be given as a tuple or by Unix seconds.

Examples

  iex>Elixir.OldHinduSolar.from_unix({1000166400})
  {5102, 5, 27}
  iex>Elixir.OldHinduSolar.from_unix(1000166400)
  {5102, 5, 27}

Specs

ge(old_hindu_solar_date(), old_hindu_solar_date()) :: boolean()

Returns true if OldHinduSolar date1 is greater (= later) than or equal OldHinduSolar date2, otherwise false.

Examples

  iex>Elixir.OldHinduSolar.ge({5102, 5, 27}, {5102, 5, 27})
  true
  iex>Elixir.OldHinduSolar.ge({5102, 5, 27}, {5102, 9, 5})
  false
  iex>Elixir.OldHinduSolar.ge({5102, 9, 5}, {5102, 5, 27})
  true

Specs

gt(old_hindu_solar_date(), old_hindu_solar_date()) :: boolean()

Returns true if OldHinduSolar date1 is greater (= later) than OldHinduSolar date2, otherwise false.

Examples

  iex>Elixir.OldHinduSolar.gt({5102, 5, 27}, {5102, 5, 27})
  false
  iex>Elixir.OldHinduSolar.gt({5102, 5, 27}, {5102, 9, 5})
  false
  iex>Elixir.OldHinduSolar.gt({5102, 9, 5}, {5102, 5, 27})
  true

Specs

keyword() :: atom()

Returns the internal keyword of the OldHinduSolar calendar.

Example

  iex>Elixir.OldHinduSolar.keyword()
  :old_hindu_solar

Specs

le(old_hindu_solar_date(), old_hindu_solar_date()) :: boolean()

Returns true if OldHinduSolar date1 is smaller (= earlier) than or equal OldHinduSolar date2, otherwise false.

Examples

  iex>Elixir.OldHinduSolar.le({5102, 5, 27}, {5102, 5, 27})
  true
  iex>Elixir.OldHinduSolar.le({5102, 5, 27}, {5102, 9, 5})
  true
  iex>Elixir.OldHinduSolar.le({5102, 9, 5}, {5102, 5, 27})
  false

Specs

lt(old_hindu_solar_date(), old_hindu_solar_date()) :: boolean()

Returns true if OldHinduSolar date1 is smaller (= earlier) than OldHinduSolar date2, otherwise false.

Examples

  iex>Elixir.OldHinduSolar.lt({5102, 5, 27}, {5102, 5, 27})
  false
  iex>Elixir.OldHinduSolar.lt({5102, 5, 27}, {5102, 9, 5})
  true
  iex>Elixir.OldHinduSolar.lt({5102, 9, 5}, {5102, 5, 27})
  false

Specs

module() :: module()

Returns the module of the OldHinduSolar calendar.

Example

  iex>Elixir.OldHinduSolar.module()
  OldHinduSolar

Specs

month(fixed() | old_hindu_solar_date(), :atom | :index | :name | :value) ::
  :atom | integer() | String.t() | number()

Returns the month field of a OldHinduSolar date.

The type parameter determines the type of the returned month:

• :atom returns the internal name of month,
• :index returns the position of the month field within the date,
• :name returns the common name of the month,
• :value returns the value of the month (default).

Examples

  iex>Elixir.OldHinduSolar.month(730739)
  5
  iex>Elixir.OldHinduSolar.month(730739, :atom)
  :month
  iex>Elixir.OldHinduSolar.month(730739, :index)
  1
  iex>Elixir.OldHinduSolar.month(730739, :name)
  "Month"
  iex>Elixir.OldHinduSolar.month(730739, :value)
  5

  iex>Elixir.OldHinduSolar.month({5102, 5, 27})
  5
  iex>Elixir.OldHinduSolar.month({5102, 5, 27}, :atom)
  :month
  iex>Elixir.OldHinduSolar.month({5102, 5, 27}, :index)
  1
  iex>Elixir.OldHinduSolar.month({5102, 5, 27}, :name)
  "Month"
  iex>Elixir.OldHinduSolar.month({5102, 5, 27}, :value)
  5

Specs

name() :: atom()

Returns the internal name of the OldHinduSolar calendar.

Example

  iex>Elixir.OldHinduSolar.name()
  "OldHinduSolar"

Specs

range(old_hindu_solar_date(), old_hindu_solar_date()) :: integer()

Returns the distance between two OldHinduSolar dates as a range of fixed days.

Example

  iex>Elixir.OldHinduSolar.range({5102, 5, 27}, {5102, 9, 5})
  730739..730839

Specs

start_of_day() :: :midnight | :sunset | :sunrise | :noon

Returns the start of the day in the OldHinduSolar calendar.

Possible return values are:

• :midnight,
• :noon,
• :sunrise,
• :sunset,

Example

  iex>Elixir.OldHinduSolar.start_of_day()
  :midnight

Specs

to_date(old_hindu_solar_date(), module()) :: tuple()

Converts a OldHinduSolar date into the equivalent date of the other_calendar.

For the following example to work the Gregorian calendar must be available.

Example

  iex>Elixir.OldHinduSolar.to_date({5102, 5, 27}, Gregorian)
  {2001, 9, 11}

Specs

to_fixed(old_hindu_solar_date()) :: fixed()

Converts a OldHinduSolar date tuple into a fixed day.

Example

  iex>Elixir.OldHinduSolar.to_fixed({5102, 5, 27})
  730739

Specs

to_fixed(old_hindu_solar_year(), old_hindu_solar_month(), old_hindu_solar_day()) ::
  fixed()

Converts a OldHinduSolar date given by year, month, day into a fixed day.

Example

  iex>Elixir.OldHinduSolar.to_fixed(5102, 5, 27)
  730739

Specs

to_jd(old_hindu_solar_date()) :: {number()}

Converts a OldHinduSolar date into the equivalent Julian Day.

Example

  iex>Elixir.OldHinduSolar.to_jd({5102, 5, 27})
  {2452163.5}

Specs

to_jd(old_hindu_solar_year(), old_hindu_solar_month(), old_hindu_solar_day()) ::
  {number()}

Converts a OldHinduSolar date given by year, month, day into the equivalent Julian Day.

Example

  iex>Elixir.OldHinduSolar.to_jd(5102, 5, 27)
  {2452163.5}

Specs

to_rata_die(old_hindu_solar_date()) :: {integer()}

Converts a OldHinduSolar date into the equivalent RataDie date.

Example

  iex>Elixir.OldHinduSolar.to_rata_die({5102, 5, 27})
  {730739}

Specs

to_rata_die(
  old_hindu_solar_year(),
  old_hindu_solar_month(),
  old_hindu_solar_day()
) :: {integer()}

Converts a OldHinduSolar date given by year, month, day into the equivalent RataDie date.

Example

  iex>Elixir.OldHinduSolar.to_rata_die(5102, 5, 27)
  {730739}

Specs

to_unix(old_hindu_solar_date()) :: {integer()}

Converts a OldHinduSolar date into the equivalent Unix date.

Example

  iex>Elixir.OldHinduSolar.to_unix({5102, 5, 27})
  {1000166400}

Specs

to_unix(old_hindu_solar_year(), old_hindu_solar_month(), old_hindu_solar_day()) ::
  {integer()}

Converts a OldHinduSolar date given by year, month, day into the equivalent Unix date.

Example

  iex>Elixir.OldHinduSolar.to_unix(5102, 5, 27)
  {1000166400}

Specs

today(:fixed | :date) :: fixed() | old_hindu_solar_date()

Returns the current date either as a fixed day or a OldHinduSolar date.

(This cannot be doctested, because today is a moving target.)

The type parameter determines the type of the returned value:

• :fixed returns a fixed day (default),
• :date returns a OldHinduSolar date.

Examples

  Elixir.OldHinduSolar.today()
  730739
  Elixir.OldHinduSolar.today(:fixed)
  730739
  Elixir.OldHinduSolar.today(:date)
  {5102, 5, 27}

Specs

year(fixed() | old_hindu_solar_date(), :atom | :index | :name | :value) ::
  :atom | integer() | String.t() | number()

Returns the year field of a OldHinduSolar date.

The type parameter determines the type of the returned year:

• :atom returns the internal name of year,
• :index returns the position of the year field within the date,
• :name returns the common name of the year,
• :value returns the value of the year (default).

Examples

  iex>Elixir.OldHinduSolar.year(730739)
  5102
  iex>Elixir.OldHinduSolar.year(730739, :atom)
  :year
  iex>Elixir.OldHinduSolar.year(730739, :index)
  0
  iex>Elixir.OldHinduSolar.year(730739, :name)
  "Year"
  iex>Elixir.OldHinduSolar.year(730739, :value)
  5102

  iex>Elixir.OldHinduSolar.year({5102, 5, 27})
  5102
  iex>Elixir.OldHinduSolar.year({5102, 5, 27}, :atom)
  :year
  iex>Elixir.OldHinduSolar.year({5102, 5, 27}, :index)
  0
  iex>Elixir.OldHinduSolar.year({5102, 5, 27}, :name)
  "Year"
  iex>Elixir.OldHinduSolar.year({5102, 5, 27}, :value)
  5102