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====double estimatePriorSolarLongitude(double longitude, double time)====
====double estimatePriorSolarLongitude(double longitude, double time)====
This function has an important role to play in implementing astronomical solar calendars, as it determines a particular solar longitude on or before the given date. The solar longitude can correspondingly help to find the day of the New Year as per the astronomical calendar.
This function has an important role to play in implementing astronomical solar calendars, as it determines a particular solar longitude on or before the given date. The solar longitude can correspondingly help to find the day of the New Year as per the astronomical calendar.
==KCalendarSystem API==
To implement the Chinese calendar, certain changes had to be made in the KCalendar System API in order to incorporate features requiring leap months, namely:
===QString monthName(double month, int year, MonthNameFormat format = LongName)===
Gets specific calendar type month for a given date. The monthName() method is overloaded to use a double type value of the month returned by calculations.
===bool julianDayToDate(int jd, int &year, double &month, double &day) const===
Method to convert Julian day to calendar specific date.
===bool dateToJulianDay(int year, double month, double day, int &jd) const===
Method to convert calendar specific date to Julian day.
===int daysInMonth(int year, double month) const===
Returns the number of days in that month of the year. The double data type implements functionalities for leap months.


== The Chinese Calendar ==
== The Chinese Calendar ==
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====virtual QDate epoch() const====
====virtual QDate epoch() const====
Returns a QDate holding the epoch of the calendar system. Islamic epoch is defined on Julian Day 758326. (8th March 2637 BCE in Julian Calendar)
Returns a QDate holding the epoch of the calendar system. Chinese epoch is defined on Julian Day 758326. (8th March 2637 BCE in Julian Calendar)


====virtual QDate earliestValidDate() const====
====virtual QDate earliestValidDate() const====
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Returns whether a given year(taken from the QDate) is a leap year.
Returns whether a given year(taken from the QDate) is a leap year.


====virtual QString monthName(int month, int year, MonthNameFormat format = LongName) const====
====virtual QString monthName(double month, int year, MonthNameFormat format = LongName) const====
Gets specific calendar type month name for a given month number If an invalid month is specified, QString() is returned.
Gets specific calendar type month name for a given month number If an invalid month is specified, QString() is returned. The double data type is used to incorporate functionalities requiring leap months.


====virtual QString monthName(const QDate &date, MonthNameFormat format = LongName) const====
====virtual QString monthName(const QDate &date, MonthNameFormat format = LongName) const====
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Returns the date of Chinese New Year on or before the given date.
Returns the date of Chinese New Year on or before the given date.


====void chineseDateToJulianDay(int year, int month, bool leap, int day, int &jd)====
====void chineseDateToJulianDay(int year, double month, bool leap, int day, int &jd)====
Converts Chinese date to Julian day.
Converts Chinese date to Julian day.


====void julianDayToChineseDate(int &year, int &month, bool &leap, int &day, int jd)====
====void julianDayToChineseDate(int &year, double &month, bool &leap, int &day, int jd)====
Converts Julian day to Chinese date.
Converts Julian day to Chinese date.


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Returns the number of months in the year used by this calendar system.
Returns the number of months in the year used by this calendar system.


====virtual int daysInMonth(int year, int month) const====
====virtual int daysInMonth(int year, double month) const====
Returns the number of days in a month used by this calendar system.
Returns the number of days in a month used by this calendar system. The double data type implements functionalities for leap months.


====virtual int daysInYear(int year) const====
====virtual int daysInYear(int year) const====
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Returns the latest valid year in this calendar system, i.e., year 9999.
Returns the latest valid year in this calendar system, i.e., year 9999.


====virtual QString monthName(int month, int year, Locale::DateTimeComponentFormat format, bool possessive) const====
====virtual QString monthName(double month, int year, Locale::DateTimeComponentFormat format, bool possessive) const====
Gets specific calendar type month name for a given month number If an invalid month is specified, QString() is returned.
Gets specific calendar type month name for a given month number If an invalid month is specified, QString() is returned.


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Re-implementations of the functions dateToJulianDay() and julianDayToDate() using the functions defined in the Astro Library.
Re-implementations of the functions dateToJulianDay() and julianDayToDate() using the functions defined in the Astro Library.


====bool julianDayToDate(int jd, int &year, int &month, int &day) const====
====bool julianDayToDate(int jd, int &year, double &month, double &day) const====
Returns the date implemented in this calendar system from Julian day. It implements the previously defined ''julianDayToChineseDate()'' function.
Returns the date implemented in this calendar system from Julian day. It implements the previously defined ''julianDayToChineseDate()'' function.


====bool dateToJulianDay(int &jd, int year, int month, int day) const====
====bool dateToJulianDay(int &jd, int year, double month, double day) const====
Returns the Julian day from the date in this calendar system. It implements the previously defined ''chineseDateToJulianDay()'' function.
Returns the Julian day from the date in this calendar system. It implements the previously defined ''chineseDateToJulianDay()'' function.


The calculations for implementing the Chinese Calendar have been derived from the public domain Lisp code/Mathematical functions of ''Calendrical Calculations'' by Edward M. Reingold on the Illinois Institute of Technology website, and from the book ''Astronomical Algorithms'' by Jean Meeus
The calculations for implementing the Chinese Calendar have been derived from the public domain Lisp code/Mathematical functions of ''Calendrical Calculations'' by Edward M. Reingold on the Illinois Institute of Technology website, and from the book ''Astronomical Algorithms'' by Jean Meeus

Latest revision as of 17:13, 16 August 2011

Introduction

The Chinese calendar is a lunisolar calendar, as it uses months to approximate the tropical year. By the modern definition, the tropical year has been defined as the time taken by the Sun's mean longitude to increase by 360 degrees. The Chinese lunar calendar is followed by many Asian countries like Japan, Vietnam and Korea. Similar to the Islamic Calendar, 12 synodic months fall short by 11 days to the tropical year. However, instead of using a leap year to compensate for this difference, the Chinese use 'leap months' in about every third year to maintain the synchronization with the tropical year. A more predictable method to get the insertion of leap months is to follow the Metonic Cycle according to which 235 synodic months are equal to 19 tropical years (with a difference of only two hours). To break this down in calendar arithmetics:

  • 235 = 19x12 + 7

Therefore, 7 leap months are inserted in a period of 19 years. More details about the leap months have been mentioned in the forthcoming sections.

Despite the controversial debates going on between the Chinese calendar epoch, in our calculations we have been defined the Chinese epoch as March 8, 2637 BCE. There have been various controversies regarding the selection of the Chinese epoch. Scholars have claimed that the calendar was invented during the reign of Yellow Emperor Huangdi, which began in 2697 BCE. The debate is that some scholars claim that the year was invented in the first year of his reign (2697 BCE) while others claim that the year was invented in the 61st year of his reign (2637 BCE). There have been more than 50 calendar reforms in the Chinese calendar since its inception.

The Solar Terms

The Chinese astronomers use 24 solar nodes(solar terms) which correspond to significant events in the Chinese culture. Seasonal markers cut the ecliptic in 4 sections of 90degrees each. Solar terms cut the ecliptic in 24 sections of 15degrees each. The even terms are called the major solar terms or Zhongqi and the odd ones are called minor solar terms of Jieqi.

Ecliptic longitude Chinese name Approx Gregorian date Translation
315° lichun February 4 start of spring
330° yushui February 19 rain water
345° jingzhe March 5 insects awaken
chunfen March 20 vernal equinox
15° qingming April 5 clear and bright
30° guyu April 20 grain rains
45° lixia May 6 start of summer
60° xiaoman May 21 grain full
75° mangzhong June 6 grain in ear
90° xiazhi June 21 summer solstice
105° xiaoshu July 7 minor heat
120° dashu July 23 major heat
135° liqiu August 7 start of autumn
150° chushu August 23 limit of heat
165° bailu September 8 white dew
180° qiufen September 23 autumnal equinox
195° hanlu October 8 cold dew
210° shuangjiang October 23 descent of frost
225° lidong November 7 start of winter
240° xiaoxue November 22 minor snow
255° daxue December 7 major snow
270° dongzhi December 22 winter solstice
285° xiaohan January 6 minor cold
300° dahan January 20 major cold

The Month

The Chinese system of 12 double hours starts at 11pm. This has a significant role to play in Chinese astrology. The new moon marks the beginning of the new Chinese month. Regarding the calculations based on locale, before 1929 the calculations of the Chinese astronomy were based on the meridian in Beijing(39.9167degrees, 116.4167degrees); but in 1928, China adopted the standard time zone of 120degrees longitude which is close to the republican capital Nanjing. There are a variety of series for naming months, such as flowers, numbers, etc.


# Corresponding to Zodiac Sign Solar Longitude Corresponding to Flowers
1 正月 zhengyue 330° 正月Primens
2 二月 eryue 杏月 Apricomens
3 三月 sanyue 30° 桃月 Peacimens
4 四月 siyue 60° 梅月 Plumens
5 五月 wuyue 90° 榴月 Guavamens
6 六月 liuyue 120° 荷月 Lotumens
7 七月 qiyue 150° 蘭月 Orchimens
8 八月 bayue 180° 桂月 Osmanthumens
9 九月 jiuyue 210° 菊月 Chrysanthemens
10 十月 shiyue 240° 良月 Benimens
11 十一月 shiyiyue 270° 冬月 Hiemens
12 十二月 shieryue 300° 臘月 Ultimens

The Year

Chinese Calendar = solar calendar + lunisolar calendar

The solar calendar starts at the December Solstice and follows the 24 solar terms. It is known as sui. The lunisolar calendar starts at the Chinese New Year and it consists of 12 or 13 months. It is called nian. The solar calendar follows the tropical year more closely than the lunisolar calendar,. The solar year has a fixed length whereas the length of the lunisolar year is variable. An important rule in implementing the Chinese calendar is the definition of the leap month. The rule followed is:

  • December solstice falls in month 11. A sui is a leap sui if there are 12 complete months between the two 11th months at the beginning and the end of the sui.
  • In a leap sui, the first month that does not contain a major solar term is the leap month.
  • Leap months take the same number as the preceding month, and a prefix "Leap (閏)" before the number.

The Week

The modern Chinese calendar follows a 7-day week with Monday of the Gregorian Calendar being the first day of the week. The weekdays are named in pinyin as:

  1. Xingqi Yi (Weekday One)
  2. Xingqi Er (Weekday Two)
  3. Xingqi San(Weekday Three)
  4. Xingqi Si (Weekday Four)
  5. Xingqi Wu (Weekday Five)
  6. Xingqi Liu (Weekday Six)
  7. Xingqi Tian (Sun Day)


Research Sources

The research has been documented from the following sources, namely:

  1. Calendrical Calculations: Third Edition - Nachum Dershowitz and Edward M. Reingold
  2. Notes and Errata on Calendrical Calculations: Third Edition - 25th May 2011
  3. Astronomical Algorithms: First Edition - Jean Meeus
  4. Practical Astronomy with your Calculator: Third Edition - Peter Duffet-Smith
  5. How to compute planetary positions - Paul Schlyter
  6. Mathematics of Chinese Calendar - Helmer Aslaksen

Astro Library

Most of the astronomical functions have already been described in the implementation of Chinese Calendar. A few functions were appended to the previously described Astro Library, namely:

astro.h

int roundOff(double value)

Rounds off the double value to the integer value

astrolunar.h

double newMoonBefore(double time)

Returns the moment of a New Moon occurrence before the given time

double newMoonAtOrAfter(double time)

Returns the moment of a New Moon occurrence at or after the given time

astrosolar.h

double estimatePriorSolarLongitude(double longitude, double time)

This function has an important role to play in implementing astronomical solar calendars, as it determines a particular solar longitude on or before the given date. The solar longitude can correspondingly help to find the day of the New Year as per the astronomical calendar.

KCalendarSystem API

To implement the Chinese calendar, certain changes had to be made in the KCalendar System API in order to incorporate features requiring leap months, namely:

QString monthName(double month, int year, MonthNameFormat format = LongName)

Gets specific calendar type month for a given date. The monthName() method is overloaded to use a double type value of the month returned by calculations.

bool julianDayToDate(int jd, int &year, double &month, double &day) const

Method to convert Julian day to calendar specific date.

bool dateToJulianDay(int year, double month, double day, int &jd) const

Method to convert calendar specific date to Julian day.

int daysInMonth(int year, double month) const

Returns the number of days in that month of the year. The double data type implements functionalities for leap months.

The Chinese Calendar

The header file defining the implementation of Chinese Lunisolar Calendar is kcalendarsystemchinese.h. It has defined two classes:

KCalendarSystemChinese

Class definition in the public domain, publicly inherited from KCalendarSystem. It re-implements the virtual functions defined in the KCalendarSystem class. The re-implemented functions are defined in the public domain of the class.

virtual QString calendarType() const

Returns the calendar system type.

virtual QDate epoch() const

Returns a QDate holding the epoch of the calendar system. Chinese epoch is defined on Julian Day 758326. (8th March 2637 BCE in Julian Calendar)

virtual QDate earliestValidDate() const

Returns the earliest date valid in this calendar system implementation, i.e. the epoch of the calendar system as the Chinese calendar is not proleptic.

virtual QDate latestValidDate() const

Returns the latest date valid in this calendar system implementation, i.e. 30th December 9999 in Chinese Calendar (which becomes 5th February 7303 in Gregorian Calendar).

virtual bool isValid(int year, int month, int day) const

Returns whether a given date is valid in this calendar system.

virtual bool isValid(const QDate &date) const

Returns whether a given date is valid in this calendar system.

virtual bool isLeapYear(int year) const

Returns whether a given year is a leap year.

virtual bool isLeapYear(const QDate &date) const

Returns whether a given year(taken from the QDate) is a leap year.

virtual QString monthName(double month, int year, MonthNameFormat format = LongName) const

Gets specific calendar type month name for a given month number If an invalid month is specified, QString() is returned. The double data type is used to incorporate functionalities requiring leap months.

virtual QString monthName(const QDate &date, MonthNameFormat format = LongName) const

Gets specific calendar type month name for a given date.

virtual QString weekDayName(int weekDay, WeekDayNameFormat format = LongDayName) const

Gets specific calendar type week day name. If an invalid week day is specified, QString() is returned.

virtual QString weekDayName(const QDate &date, WeekDayNameFormat format = LongDayName) const

Gets specific calendar type week day name.

virtual int weekDayOfPray() const

Returns the weekday of pray for this calendar system, i.e. Sunday (7th day of the Chinese Week).

virtual bool isLunar() const

Returns whether the calendar is lunar. (False)

virtual bool isLunisolar() const

Returns whether the calendar is lunisolar. (True)

virtual bool isSolar() const

Returns whether the calendar is solar. (False)

virtual bool isProleptic() const

Returns whether the calendar is proleptic, i.e, supports dates before the epoch. (False)

KCalendarSystemChinesePrivate

Class definition in the private domain, publicy inherited from KCalendarSystemPrivate. It re-implements the virtual functions defined in the KCalendarSystem class. The re-implemented functions are defined in the public domain of the class.

virtual AstroLocale* chineseLocation(int date)

Defines the Chinese Locale(as explained in the previous section) for implementing the Chinese Calendar

double midnightInChina(int date)

Computes the Chinese Universal Time for implementing astronomical calculations

int currentMajorSolarTerm(int date)

Returns the major solar term number at the given date, after computing the solar longitude at the given date.

int winterSolsticeOnOrAfter(int date)

Returns the date of December Solstice on or after the given date.

int chineseNewMoonOnOrAfter(int date)

Returns the date when the New Moon is observed at the Chinese Locale on or after the given date.

int chineseNewMoonBefore(int date)

Returns the date when the New Moon is observed at the Chinese Locale before the given date.

bool noMajorSolarTerm(int date)

Checks whether the month containing the given date has a major solar term or not.

bool priorLeapMonth(int m1, int m2)

Checks whether there is a leap month from the date m1(inclusive) to date m2.

int newYearInSui(int date)

Returns the starting date of Chinese New Year after December Solstice.

int newYearOnOrBefore(int date)

Returns the date of Chinese New Year on or before the given date.

void chineseDateToJulianDay(int year, double month, bool leap, int day, int &jd)

Converts Chinese date to Julian day.

void julianDayToChineseDate(int &year, double &month, bool &leap, int &day, int jd)

Converts Julian day to Chinese date.

virtual KLocale::CalendarSystem calendarSystem() const

Returns the calendar type.

virtual int monthsInYear(int year) const

Returns the number of months in the year used by this calendar system.

virtual int daysInMonth(int year, double month) const

Returns the number of days in a month used by this calendar system. The double data type implements functionalities for leap months.

virtual int daysInYear(int year) const

Returns the number of days in a year used by this calendar system.

virtual int daysInWeek() const

Returns the number of days in a week used by this calendar system, i.e, 7.

virtual bool isLeapYear(int year) const

Checks whether a year is a leap year or not.

virtual bool hasLeapMonths() const

Returns true is this calendar system has leap months. The Chinese calendar has leap months.

virtual bool hasYearZero() const

Returns true is this calendar system uses year 0. The Chinese calendar doesn't have a year 0.

virtual int maxDaysInWeek() const

Returns the maximum number of days in a week in this calendar system, i.e, 7.

virtual int maxMonthsInYear() const

Returns the maximum number of months in a year in this calendar system, i.e. 13.

virtual int earliestValidYear() const

Returns the earliest valid year in this calendar system, i.e., year 1.

virtual int latestValidYear() const

Returns the latest valid year in this calendar system, i.e., year 9999.

virtual QString monthName(double month, int year, Locale::DateTimeComponentFormat format, bool possessive) const

Gets specific calendar type month name for a given month number If an invalid month is specified, QString() is returned.

virtual QString weekDayName(int weekDay, KLocale::DateTimeComponentFormat format) const

Gets specific calendar type weekday name for a given month number If an invalid weekday is specified, QString() is returned.

Astronomical Implementation

Re-implementations of the functions dateToJulianDay() and julianDayToDate() using the functions defined in the Astro Library.

bool julianDayToDate(int jd, int &year, double &month, double &day) const

Returns the date implemented in this calendar system from Julian day. It implements the previously defined julianDayToChineseDate() function.

bool dateToJulianDay(int &jd, int year, double month, double day) const

Returns the Julian day from the date in this calendar system. It implements the previously defined chineseDateToJulianDay() function.

The calculations for implementing the Chinese Calendar have been derived from the public domain Lisp code/Mathematical functions of Calendrical Calculations by Edward M. Reingold on the Illinois Institute of Technology website, and from the book Astronomical Algorithms by Jean Meeus