Safe Haskell | Trustworthy |
---|---|

Language | Haskell2010 |

## Synopsis

- toJulianYearAndDay :: Day -> (Integer, Int)
- fromJulianYearAndDay :: Integer -> Int -> Day
- fromJulianYearAndDayValid :: Integer -> Int -> Maybe Day
- showJulianYearAndDay :: Day -> String
- isJulianLeapYear :: Integer -> Bool
- toJulian :: Day -> (Integer, Int, Int)
- fromJulian :: Integer -> Int -> Int -> Day
- fromJulianValid :: Integer -> Int -> Int -> Maybe Day
- showJulian :: Day -> String
- julianMonthLength :: Integer -> Int -> Int
- addJulianMonthsClip :: Integer -> Day -> Day
- addJulianMonthsRollOver :: Integer -> Day -> Day
- addJulianYearsClip :: Integer -> Day -> Day
- addJulianYearsRollOver :: Integer -> Day -> Day
- addJulianDurationClip :: CalendarDiffDays -> Day -> Day
- addJulianDurationRollOver :: CalendarDiffDays -> Day -> Day
- diffJulianDurationClip :: Day -> Day -> CalendarDiffDays
- diffJulianDurationRollOver :: Day -> Day -> CalendarDiffDays

# Documentation

toJulianYearAndDay :: Day -> (Integer, Int) #

Convert to proleptic Julian year and day format. First element of result is year (proleptic Julian calendar), second is the day of the year, with 1 for Jan 1, and 365 (or 366 in leap years) for Dec 31.

fromJulianYearAndDay :: Integer -> Int -> Day #

Convert from proleptic Julian year and day format. Invalid day numbers will be clipped to the correct range (1 to 365 or 366).

fromJulianYearAndDayValid :: Integer -> Int -> Maybe Day #

Convert from proleptic Julian year and day format. Invalid day numbers will return Nothing

showJulianYearAndDay :: Day -> String #

Show in proleptic Julian year and day format (yyyy-ddd)

isJulianLeapYear :: Integer -> Bool #

Is this year a leap year according to the proleptic Julian calendar?

toJulian :: Day -> (Integer, Int, Int) #

Convert to proleptic Julian calendar. First element of result is year, second month number (1-12), third day (1-31).

fromJulian :: Integer -> Int -> Int -> Day #

Convert from proleptic Julian calendar. First argument is year, second month number (1-12), third day (1-31). Invalid values will be clipped to the correct range, month first, then day.

fromJulianValid :: Integer -> Int -> Int -> Maybe Day #

Convert from proleptic Julian calendar. First argument is year, second month number (1-12), third day (1-31). Invalid values will return Nothing.

showJulian :: Day -> String #

Show in ISO 8601 format (yyyy-mm-dd)

julianMonthLength :: Integer -> Int -> Int #

The number of days in a given month according to the proleptic Julian calendar. First argument is year, second is month.

addJulianMonthsClip :: Integer -> Day -> Day #

Add months, with days past the last day of the month clipped to the last day. For instance, 2005-01-30 + 1 month = 2005-02-28.

addJulianMonthsRollOver :: Integer -> Day -> Day #

Add months, with days past the last day of the month rolling over to the next month. For instance, 2005-01-30 + 1 month = 2005-03-02.

addJulianYearsClip :: Integer -> Day -> Day #

Add years, matching month and day, with Feb 29th clipped to Feb 28th if necessary. For instance, 2004-02-29 + 2 years = 2006-02-28.

addJulianYearsRollOver :: Integer -> Day -> Day #

Add years, matching month and day, with Feb 29th rolled over to Mar 1st if necessary. For instance, 2004-02-29 + 2 years = 2006-03-01.

addJulianDurationClip :: CalendarDiffDays -> Day -> Day Source #

Add months (clipped to last day), then add days

addJulianDurationRollOver :: CalendarDiffDays -> Day -> Day Source #

Add months (rolling over to next month), then add days

diffJulianDurationClip :: Day -> Day -> CalendarDiffDays Source #

Calendrical difference, with as many whole months as possible

diffJulianDurationRollOver :: Day -> Day -> CalendarDiffDays Source #

Calendrical difference, with as many whole months as possible.
Same as `diffJulianDurationClip`

for positive durations.