pythaidate 0.2.0

Date classes for Thai calendar systems.

pythaidate: Thai Calendar Systems for Python

Thailand has used several calendar systems during its history with several still in use today. This library provides datetime.date-like classes for working with the Thai lunisolar calendar of the Chulasakarat Era (จุลศักราช) and the lunar Pakkhakhananaa calendar (ปฏิทินปักขคณนา).

Installation

$ python3 -m pip install pythaidate

Examples

CsDate: Chulasakarat Date

CsDate objects can be created from a year, month, day triple, like a datetime.date object. They represent the Thai lunisolar calendar with the epoch of 22nd March 638 AD. Months should be specified in Sukothai number format (eg. 5 is the first month). The example here specifies month 1 which, according to Sukothai numbering, is the 9th month in the year (although the 10th month in a year with intercalary month). Intercalary months (อธิกมาส) are specified as 88.

>>> from pythaidate import CsDate
>>> cs = CsDate(1361, 1, 24)
>>> cs.year, cs.month, cs.day
(1361, 1, 24)

The days property gives the zero-indexed count of days since new years day.

>>> cs.days
260

The horakhun (หรคุฌ) property gives the days since the epoch and julianday gives the Julian Day Number, useful for converting between calendar formats.

>>> cs.horakhun
497378
>>> cs.julianday
2451545

Other properties show the internal calculation values:

• kammabucala: (กัมมัขผล) the excess of solar days over whole solar days
• masaken: (มาสเกฌฑ์) The number of lunar months since the epoch
• uccapon: (อุจจพล) The measure of the position of the Moon's apogee (furthest distance from the Earth). It increases by one unit a day to a maximum of 3232.
• avoman: (อวมาน) The excess of lunar days over solar days in units of 1/692 of a lunar day modulus 692, increasing by 11 units each solar day. It is used to determine when to add intercalary days in the calendar
• tithi: (ดิถี) a lunar day, equal to 1/30th of a synodic month

The year and day count since new years day can also be used to create a CsDate object with the fromyd class method:

>>> cs = CsDate.fromyd(1361, 260)
>>> cs.julianday
2451545

Similarly, a CsDate object can be created from the Julian Day Number:

>>> cs = CsDate.fromjulianday(2451545)
>>> cs.year, cs.month, cs.day
(1361, 1, 24)

A CsDate can be displayed as text with .csformat() or by converting the object to a string:

>>> cs.csformat()
'วันเสาร์ เดือน ๑ แรม ๙ ค่ำ ปีเถาะ จ.ศ.๑๓๖๑'
>>> str(cs)
'วันเสาร์ เดือน ๑ แรม ๙ ค่ำ ปีเถาะ จ.ศ.๑๓๖๑'

CsDate objects have 3 properties for intercalations and a day count:

• solar_leap_year: for the solar leap year (อธิกสุรทิน)
• leap_day: for the lunar intercalary day (อธิกวาร)
• leap_month: for the lunar intercalary month (อธิกมาส)
• days_in_year: returns the number of days in the year. This will be one of:
  • 354: no intercalations (ปกติมาส ปกติวาร)
  • 355: intercalary month, no intercalary day (ปกติมาส อธิกวาร)
  • 384: no intercalary month, intercalary day (อธิกมาส ปกติวาร)

In the Thai lunisolar calendar system a year can only have either zero or one intercalations. There can't be both an intercalary day (อธิกวาร) and month (อธิกมาส) in the same year.

>>> cs.solar_leap_year
False
>>> cs.leap_day
False
>>> cs.leap_month
True
>>> cs.days_in_year
384

PakDate: Pakkhakhananaa Date

Create a PakDate object from a pakcode. The 1- prefix is the cycle number (1-indexed), followed by the ปักขคณนา, สัมพยุหะ, พยุหะ, สมุหะ, วรรค and day of moon phase. The Pakkhakhananaa cycle repeats every 289,577 days.

>>> from pythaidate import PakDate
>>> p = PakDate(pakcode="1-6:11:5:2:2:10")
>>> p.horakhun
96398
>>> p.julianday
2451545
>>> p.iswanphra
False

Note that the horakhun value from Pakkhakhananaa lunar and (Chulasakarat era) lunisolar calendars are not compatible as they represent day count since the epoch of each calendar. For comparisons use julianday instead. iswanphra has an alias issabbath.

The Pakkhakhananaa code and abbreviations are available:

>>> p.pakcode
'1-6:11:5:2:2:10'
>>> print(p.pakabbr)
๖๑๕ข๒
 ๑

Pakkhakhananaa can be created from a datetime.date object:

>>> from datetime import date
>>> from pythaidate import PakDate
>>> p = PakDate(date=date(2000, 1, 1))
>>> p.julianday
2451545

...and from Julian Day Number:

>>> from pythaidate import PakDate
>>> p = PakDate(jd=2451545)
>>> p.julianday
2451545
>>> p.pakcode
'1-6:11:5:2:2:10'

pakboard() will display an ASCII Pakkhakhananaa board (กระดานปักขคณนา) and (best viewed with a fixed-width font):

>>> p.pakboard()
           ๑  ๒  ๓  ๔  ๕  ๖  ๗  ๘  ๙ ๑๐ ๑๑ ๑๒ ๑๓ ๑๔ ๑๕ ๑๖ ๑๗ ๑๘
ปักขคณนา    ม  ม  ม  ม  ม  ม  ม  ม  ม  ม  ม  ม  ม  ม  ม  ม  ม  จ
มหาสัมพยุหะ  จ  จ  จ  จ  จ  จ  จ  จ  จ  จ  ม
จุลสัมพยุหะ   จ  จ  จ  จ  จ  จ  จ  จ  จ  ม
มหาพยุหะ    ม  ม  ม  ม  ม  ม  จ
จุลพยุหะ     ม  ม  ม  ม  ม  จ
มหาสมุหะ    จ  จ  จ  ม
จุลสมุหะ     จ  จ  ม
มหาวรรค    ม  ม  ม  ม  จ
จุลวรรค     ม  ม  ม  จ
มหาปักข์     ๑  ๒  ๓  ๔  ๕  ๖  ๗  ๘  ๙ ๑๐ ๑๑ ๑๒ ๑๓ ๑๔ ๑๕
จุลปักข์      ๑  ๒  ๓  ๔  ๕  ๖  ๗  ๘  ๙ ๑๐ ๑๑ ๑๒ ๑๓ ๑๔
           รอบที่ ๑   หรคุณปักขคณนา ๙๖๓๙๘   ปักขเกณฑ์ ๖๕๒๙

Julian Day Number (JDN) helpers

• to_julianday(year, month, day): Returns JDN from a year, month, day triple
• from_julianday(jd): Returns a year, month, day triple from a JDN
• today(): returns JDN for today
• date_to_julianday(d): converts datetime.date object or other object with a julianday property to JDN
• julianday_to_date(jd): converts JDN to a datetime.date object

pythaidate.date: A datetime.date subclass

pythaidate.date is a simple subclass of datetime.date with an added .julianday property:

>>> from pythaidate import date
>>> d = date(2000, 1, 1)
>>> d.julianday
2451545

Limitations

General

• Tested and supported on Python 3.8 - 3.12.

Chulasakarat Era Lunisolar Calendar

• The determination of which years are intercalary has been a somewhat subjective process and changed over the centuries, along with regional variations too. This library produces 7 intercalary months per 19 year period and 11 intercalary days per 57 years. This maintains the overall "pace" of the calendar but there may be slight short-term deviations from other calendars. But don't worry, those other calendars are just as wrong too - there's no definitive reference calendar.
• Currently only supports Sukothai-style month numbering (eg. first month of the year is month 5)
• strftime and strptime are not implemented

Selected References

Thai

• หลวงวิศาลดรุณกร (อั้น สาริกบุตร) (1997) คัมภีร์โหราศาสตร์ไทย มาตรฐาน ฉบับสมบูรณ์. Thailand: ศรีปัญญา, สนพ.

• ความรู้เรื่องปักขคณนา ตําราการคํานวณปฏิทินทางจันทรคติ. (1999). Thailand: มูลนิธิมหามกุฏราชวิทยาลัยฯ.

English

• Eade, J.C. (2018). The Calendrical Systems of Mainland South-East Asia. Netherlands: Brill.
• Gislén L., Eade, J.C. (2019). The Calendars of Southeast Asia 2: Burma, Thailand, Laos and Cambodia. Journal of Astronomical History and Heritage, 22(3).

French

• Faraut, F. G. (1910). Astronomie cambodgienne. Vietnam: Imprimerie F.-H. Schneider.

• Billard, R. L'Astronomie Indienne. Investigation des Textes Sanskrits et des Donnees Numeriques. Paris: Ecole francaise d'extreme-orient. (1971).

Other Resources

• NASA's Julian Day Number Calculator
• ปฏิทินปักขคณนา.com

Contributors

• Mark Hollow <dev {at} hmmbug.com> (Project Owner)