As described in the core concepts documentation, a calendar system is a scheme for dividing time into eras, years, months and days and so on. As a matter of simplification, Noda Time treats every day as starting and ending at midnight, despite some calendars (such as the Islamic, Hebrew and Wondrous calendars) traditionally having days stretching from sunset to sunset.
Additionally, Noda Time only handles calendars that do split time into eras, years, months and days - if we ever need to support any calendar which has other subdivisions, that would require specific support.
Finally, only calculated calendars are supported. Observational calendars (where years and months start based on unpredictable conditions such as the weather, or periodic decisions by political or religious leaders) are currently out of scope for Noda Time.
Note that although the API version listed indicates when a calendar system was first introduced into Noda Time, the access to most calendars was simplified in 2.0 to use properties instead of methods. The API access listed is from 2.0.0 onwards; please refer to the relevant copy of this user guide if you are using an older version.
As of Noda Time 2.0.0, calendar systems themselves only deal with
concepts of eras, years, months and days - not the alternative
mapping of a date to a "week year, week of week year, day of week".
That is now represented by
Details are in the week year page.
First supported in v1.0.0
This is the default calendar system when constructing values without explicitly specifying a calendar. It is designed to correspond to the calendar described in ISO-8601, and is equivalent to the Gregorian calendar in all respects other than the century and year-of-century values.
As of Noda Time 2.0, century and year-of-century properties have been removed, at which point the ISO calendar system and the Gregorian calendar system are equivalent. The separation between them in Noda Time is maintained for simplicity, compatibility and consistency.
First supported in v1.0.0
The Gregorian calendar was a refinement to the Julian calendar, changing the formula for which years are leap years from "whenever the year is divisible by 4" to "whenever the year is divisible by 4, except when it's also divisible by 100 and not divisible by 400". This keeps the calendar in closer sync with the observed rotation of the earth around the sun.
Although the Gregorian calendar was introduced by Pope Gregory XIII in 1582, it was adopted in different places at different times. Noda Time's implementation is proleptic, in that it extends into the distant past. There is no support for a "cutover" calendar system which observes the Julian calendar until some point, at which point it cuts over to the Gregorian calendar system. Although such a calendar system would more accurately represent the calendar observed in many countries over time, it causes all sorts of API difficulties.
First supported in v1.0.0
The Julian calendar was introduced by Julius Caesar in 46 BCE, and took effect in 45 BCE. It was like the Gregorian calendar, but with a simpler leap year rule - every year number divisible by 4 was a leap year.
The Noda Time implementation of the Julian calendar is proleptic, and ignores the fact that before around 4 CE the leap year rule was accidentally implemented as a leap year every three years. See the linked Wikipedia article for more details of this leap year error, along with suggestions of how history might have actually played out.
First supported in v1.0.0
The Coptic calendar system is used by the Coptic Orthodox Church. Each year has 12 months of exactly 30 days, followed by one month with either 5 or 6 days depending on whether or not the year is a leap year. Like the Julian calendar, every year number divisible by 4 is a leap year in the Coptic calendar.
Year 1 in the Coptic calendar began on August 29th 284 CE (Julian). The implementation is not proleptic; dates earlier than year 1 cannot be represented in the Coptic calendar in Noda Time.
First supported in v1.0.0 API access:
The Islamic (or Hijri) calendar is a lunar calendar with years of 12
months, totalling either 355 or 354 days depending on whether or not it's a leap year. There are various schemes
for determining which years are leap years, all based on a 30 year cycle. Noda Time supports four options here,
specified in the
In the Islamic calendar, each day officially begins at sunset, but the Noda Time implementation (like most other date/time APIs) ignores this and treats every day as beginning and ending at midnight.
Year 1 in the Islamic calendar began on July 15th or 16th, 622 CE (Julian) - different sources appear to use different
epochs, and the "sunset vs midnight" difference exacerbates this. Within Noda Time, the two epochs are known as
astronomical (July 15th CE Julian) and civil (July 16th CE Julian) and are specified in the
GetIslamicCalendar() method accepts two parameters, specifying the leap year pattern and epoch. You should carefully
consider which other systems you need to interoperate with when deciding which values to specify for these parameters.
IslamicBcl property follows the same leap year pattern and epoch as the BCL
IslamicCalendar type. It is
equivalent to the result of calling
This calendar is not to be confused with the Solar Hijri calendar which is implemented in a simplified form within Noda Time, as described below.
First supported in v1.3.0 ("simple" form only; arithmetic and astronomical introduced in 2.0.0) API access:
The Persian (or Solar Hijri) calendar is the official calendar of Iran and Pakistan. Three variants of this are supported in Noda Time:
PersianCalendarbefore .NET 4.6. This has a simple leap cycle of 33 years, where years 1, 5, 9, 13, 17, 22, 26, and 30 in each cycle are leap years. This calendar starts on March 18th 622 CE (Julian).
PersianCalendarfrom .NET 4.6 onwards, and the Windows 10 Persian calendar. This calendar starts on March 19th 622 CE (Julian).
First supported in v2.0.0
The Um Al Qura (or Umm al-Qura) calendar, primarily used in Saudi Arabia, is similar to the Islamic Hijri calendar, except that instead of being algorithmic it relies on tabular data. Each month has 29 or 30 days, and each year has 354 or 355 days, but the month lengths cannot be determined algorithmically.
The Noda Time implementation uses data from the BCL
UmAlQuraCalendar to obtain the required
information, but the data is baked into Noda Time so it is available
on all platforms.
First supported in v1.3.0 API access:
The Hebrew calendar is a lunisolar calendar used primarily for determination of religious holidays within Judaism. It was originally observational, but a computed version is now commonly used. Even this is very complicated, however: most years have 12 months, but 7 in every 19 years are leap years, with 13 months. Two of the months in the regular calendar have variable numbers of days depending on other aspects of the calendar, in order to avoid religious holidays from falling on inappropriate days of the week.
The additional month in a leap year presents challenges for text handling, as well as for calendrical calculations in general. The support in Noda Time 1.3.0 should be seen as somewhat experimental, but feedback is very warmly welcomed. It's important to note that parsing and formatting of month names is expected to be incorrect in this version.
Like the Islamic calendar, a Hebrew day properly starts at sunset, but this is not modelled within Noda Time.
GetHebrewCalendar() method accepts one parameter, specifying which month numbering system to use. The scriptural
month numbering system uses Nisan as month 1, even though the new year (when the year number changes) occurs at the start of
Tishri. In the scriptural system, Adar is month 12 in a non-leap year, and Adar I and Adar II are months 12 and 13 in a leap year.
The civil month numbering system uses Tishri as month 1 (so the year number increases when the month number becomes 1 again, as in most calendars) but this means that Adar is month 6 in a non-leap year, and Adar I and Adar II are months 6 and 7 in a leap year. This then means that the subsequent months (Nisan, Iyar, Sivan, Tamuz, Av, Elul) have different numbers in leap and non-leap years.
Unlike the parameters for the Islamic calendar, the month numbering in the Hebrew calendar doesn't affect any calculations - it only
affects the numeric values of the months both accepted when constructing values (such as in the
and retrieving them (such as with
The convenience properties
HebrewCivil are just simpler alternatives to the
GetHebrewCalendar method call.
First supported in v2.3.0 API access:
The Wondrous calendar, also called the Bah�'� or Bad� calendar, is a solar calendar used by the Bah�'� Faith. A year consists of 19 months of 19 days, with 4 or 5 intercalary days between months 18 and 19. These intercalary days are called Ayy�m-i-H�, and are not regarded as belonging to any month. Until 2015, the length of Ayy�m-i-H� was related to the Gregorian calendar: 5 in a Gregorian leap year, and 4 otherwise. From 2015 onwards, the length of Ayy�m-i-H� is set to ensure that the new year (Naw-R�z) coincides with the vernal equinox in Tehran.
The Noda Time implementation of the Wondrous calendar has two aspects which diverge from the "correct" calendar:
It is expected that an additional package will be created to report dates in a more strictly-correct fashion, using the Noda Time calendar as the base implementation with a thin wrapper for more idiomatic usage.