python实现的阳历转阴历(农历)算法
搜索了好几个python实现的万年历多有部分时间有问题,好多是来自这个代码:
#!/usr/bin/env python
# -*- coding: utf-8 -*-
'''
Usage: ccal Month [4-Digit-Year]
or: ccal 4-Digit-Year Month
This Python script is to show Solar and Lunar calender at the
same time. You need to have Python (2.0 or above) installed.
Acceptable date range: 1900/2 -- 2049/12
Output contains Chinese characters (mainland GB2312 encoding),
must be viewed in a Chinese-enabled system or "cxterm" etc.
programms under UNIX X-Windows.
The major reference for me to compose this program is:
lunar-2.1.tgz (1992), composed by
Fung F. Lee
Ricky Yeung
And Lee and Yeung refered to:
1. "Zhong1guo2 yin1yang2 ri4yue4 dui4zhao4 wan4nian2li4"
by Lin2 Qi3yuan2. 《中国阴阳日月对照万年历》.林
2. "Ming4li3 ge2xin1 zi3ping2 cui4yan2" by Xu2 Le4wu2.
《命理革新子平粹言》.徐
3. Da1zhong4 wan4nian2li4. 《大众万年历》
License:
GNU General Public License (GPL, see http://www.gnu.org).
In short, users are free to use and distribute this program
in whole. If users make revisions and distribute the revised
one, they are required to keep the revised source accessible
to the public.
Version:
0.3.2, Jan/16/2007, according to sprite's information, changed 3 codes:
1954: 0x0a5d0 --> 0x0a5b0, 1956: 0x052d0 --> 0x052b0
1916: 0x0d6a0 --> 0x056a0
0.3.1, Jan/15/2007, changed 1978's code from 0xb5a0 to 0xb6a0.
A young lady's birth day (lunar 1978/8/4) problem reported
on internet -- informed by sprite at linuxsir.org
0.3.0, Sep/25/2006, add coding line, prevent python to report warning
0.2.0, Jan/6/2002, ShengXiao(生肖), lunar leap month(闰月)
added.
0.1.0, Jan/4/2002
--- Changsen Xu
'''
#Remember, in this program:
# month=0 means Januaray, month=1 means February ...;
# day=0 means the first day of a month, day=1 means the second day,
# so as to ease manipulation of Python lists.
# year=0 is 1900, until the last step to output
daysInSolarMonth= [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31]
lunarMonthDays = [29,30] # a short (long) lunar month has 29 (30) days */
shengXiaoEn = ["Mouse", "Ox", "Tiger", "Rabbit", "Dragon", "Snake",
"Horse", "Goat", "Monkey", "Rooster", "Dog", "Pig"]
shengXiaoGB = ["鼠", "牛", "虎", "兔", "龙", "蛇", "马", "羊", "猴", "鸡",
"狗", "猪"]
zhiGB = ["子", "丑", "寅", "卯", "辰", "巳", "午", "未", "申", "酉",
"戌", "亥"]
ganGB = ["甲", "乙", "丙", "丁", "戊", "己", "庚", "辛", "壬", "癸"]
monthEn = ['January', 'February', 'March', 'April', 'May', 'June',
'July', 'August', 'September', 'October', 'November',
'December']
weekdayEn = ["Monday", "Tuesday", "Wednesday", "Thursday",
"Friday", "Saturday", "Sunday"]
weekdayGB = ["一", "二", "三", "四", "五", "六", "日"]
numGB = ['○', "一", "二", "三", "四", "五", "六", "七", "八", "九",
"十"]
lunarHoliday = {'0_0':'春节', '4_4':'端午', '7_14':'中秋', '8_8':'重阳',
'0_14':'元宵'}
# encoding:
# b bbbbbbbbbbbb bbbb
# bit# 1 111111000000 0000
# 6 543210987654 3210
# . ............ ....
# month# 000000000111
# M 123456789012 L
#
# b_j = 1 for long month, b_j = 0 for short month
# L is the leap month of the year if 1# The leap month (if exists) is long one if M = 1.
yearCode = [
0x04bd8, # 1900
0x04ae0, 0x0a570, 0x054d5, 0x0d260, 0x0d950, # 1905
0x16554, 0x056a0, 0x09ad0, 0x055d2, 0x04ae0, # 1910
0x0a5b6, 0x0a4d0, 0x0d250, 0x1d255, 0x0b540, # 1915
0x056a0, 0x0ada2, 0x095b0, 0x14977, 0x04970, # 1920
0x0a4b0, 0x0b4b5, 0x06a50, 0x06d40, 0x1ab54, # 1925
0x02b60, 0x09570, 0x052f2, 0x04970, 0x06566, # 1930
0x0d4a0, 0x0ea50, 0x06e95, 0x05ad0, 0x02b60, # 1935
0x186e3, 0x092e0, 0x1c8d7, 0x0c950, 0x0d4a0, # 1940
0x1d8a6, 0x0b550, 0x056a0, 0x1a5b4, 0x025d0, # 1945
0x092d0, 0x0d2b2, 0x0a950, 0x0b557, 0x06ca0, # 1950
0x0b550, 0x15355, 0x04da0, 0x0a5b0, 0x14573, # 1955
0x052b0, 0x0a9a8, 0x0e950, 0x06aa0, 0x0aea6, # 1960
0x0ab50, 0x04b60, 0x0aae4, 0x0a570, 0x05260, # 1965
0x0f263, 0x0d950, 0x05b57, 0x056a0, 0x096d0, # 1970
0x04dd5, 0x04ad0, 0x0a4d0, 0x0d4d4, 0x0d250, # 1975
0x0d558, 0x0b540, 0x0b6a0, 0x195a6, 0x095b0, # 1980
0x049b0, 0x0a974, 0x0a4b0, 0x0b27a, 0x06a50, # 1985
0x06d40, 0x0af46, 0x0ab60, 0x09570, 0x04af5, # 1990
0x04970, 0x064b0, 0x074a3, 0x0ea50, 0x06b58, # 1995
0x055c0, 0x0ab60, 0x096d5, 0x092e0, 0x0c960, # 2000
0x0d954, 0x0d4a0, 0x0da50, 0x07552, 0x056a0, # 2005
0x0abb7, 0x025d0, 0x092d0, 0x0cab5, 0x0a950, # 2010
0x0b4a0, 0x0baa4, 0x0ad50, 0x055d9, 0x04ba0, # 2015
0x0a5b0, 0x15176, 0x052b0, 0x0a930, 0x07954, # 2020
0x06aa0, 0x0ad50, 0x05b52, 0x04b60, 0x0a6e6, # 2025
0x0a4e0, 0x0d260, 0x0ea65, 0x0d530, 0x05aa0, # 2030
0x076a3, 0x096d0, 0x04bd7, 0x04ad0, 0x0a4d0, # 2035
0x1d0b6, 0x0d250, 0x0d520, 0x0dd45, 0x0b5a0, # 2040
0x056d0, 0x055b2, 0x049b0, 0x0a577, 0x0a4b0, # 2045
0x0aa50, 0x1b255, 0x06d20, 0x0ada0 # 2049
]
yearsCoded = len(yearCode)
from sys import argv, exit, stdout
from time import time, localtime
ow=stdout.write
class LunarYearInfo:
def __init__(self):
self.yearDays = 0
self.monthDays = [0]*13
self.leapMonth = -1 # -1 means no lunar leap month
yearInfo = [0]*yearsCoded #global variable
for i in range(yearsCoded):
yearInfo[i] = LunarYearInfo()
class Date:
def __init__(self, year, month, day, weekday=-1, gan=-1, zhi=-1):
self.year =year
self.month =month
self.day =day
self.weekday=weekday
self.gan =gan
self.zhi =zhi
solar1st = Date(0, 0, 30, weekday=2) #Wednesday, January 31, 1900
lunar1st = Date(0, 0, 0, weekday=2, gan=6, zhi=0)
#Wednesday, First day, First month, 1900, 庚子年
def error(msg):
print 'Error:', msg; exit(0)
def isSolarLeapYear (year):
year=year+1900
return (year%4 == 0) and (year%100 != 0) or (year%400 == 0)
baseYear=1201 - 1900
# in fact, real baseYear=1201. In order to ease calculation of
# leap years. real baseYear must conform to:
# realBaseYear%4==1 and realBaseYear%400==1.
# Assert realBaseYear
# Compute the number of days from the Solar First Date
# month=0 means January, ...
def solarDaysFromBaseYear(d): #d is a Date class
delta = d.year - baseYear
offset = delta*365 + delta/4 - delta/100 + delta/400
for i in range(d.month):
offset += daysInSolarMonth[i];
if d.month>1 and isSolarLeapYear(d.year):
offset += 1
offset += d.day
## print '___', year, month, day, 'offset=', offset ########
return offset
# Compute the number of days from the Solar First Date
# month=0 means January, ..., year=0 means 1900, ...
def solarDaysFromFirstDate (d): #d is a Date class
return solarDaysFromBaseYear (d) - solarDaysFromBaseYear (solar1st)
def calcLunarDaysPerMonth(iYear):
code = yearCode[iYear]
leapMonth = code&0xf #leapMonth==0 means no lunar leap month
code >>= 4
for iMonth in range(12):
yearInfo[iYear].monthDays[11-iMonth] = lunarMonthDays [code&0x1]
code >>= 1
if leapMonth>0:
yearInfo[iYear].leapMonth = leapMonth-1
yearInfo[iYear].monthDays.insert (leapMonth,
lunarMonthDays [code & 0x1])
def calcAllLunarYearsInfo():
for iYear in range(yearsCoded):
calcLunarDaysPerMonth (iYear)
for iMonth in range(13):
yearInfo[iYear].yearDays += yearInfo[iYear].monthDays[iMonth]
#input dateSolar, return (dateLunar, isLunarMonthOrNot)
def solar2Lunar(d): #d is a Date class
dLunar = Date(-1, -1, -1) #unknown lunar Date class
offset = solarDaysFromFirstDate(d)
dLunar.weekday = (offset + solar1st.weekday)%7
for iYear in range(yearsCoded):
if offset dLunar.year = iYear; break
offset -= yearInfo[iYear].yearDays
if dLunar.year == -1: error ("Date out of range.")
dLunar.gan = (dLunar.year + lunar1st.gan) % 10
dLunar.zhi = (dLunar.year + lunar1st.zhi) % 12
for iMonth in range(13):
if offset dLunar.month = iMonth; break
offset -= yearInfo[dLunar.year].monthDays[iMonth]
dLunar.day = offset
isLeapMonth=0
if yearInfo[dLunar.year].leapMonth >=0:
if dLunar.month == yearInfo[iYear].leapMonth + 1:
isLeapMonth=1
if dLunar.month > yearInfo[dLunar.year].leapMonth:
dLunar.month -= 1
return (dLunar, isLeapMonth)
def getSolarDaysInMonth (year, month):
if isSolarLeapYear(year) and month==1:
return 29
else: return daysInSolarMonth[month]
def num2GB (num):
if num==10:
return '十'
elif num>10 and num return '十' + numGB[num-10]
tmp=''
while num>10:
tmp = numGB[num%10] + tmp
num = int(num/10)
tmp = numGB[num] + tmp
return tmp
def lunarDate2GB (dLunar, isLeapMonth):
tmp = str(dLunar.month)+'_'+str(dLunar.day)
if lunarHoliday.has_key( tmp ):
return '[0;33;44m%s[0m '% lunarHoliday[tmp] + \
' '*(6-len(lunarHoliday[tmp]))
elif dLunar.day==0:
tmp2 = '闰'*isLeapMonth + num2GB(dLunar.month+1) +'月'
return '[7m%s[0m' % tmp2 + ' '*(8-len(tmp2))
elif dLunar.day return '初' + num2GB(dLunar.day+1)
else:
return num2GB(dLunar.day+1)
def outputCalendar(year, month):
dLunar = Date(-1,-1,-1)
ow ('\n 阳历%d年%d月 ' % (year+1900, month+1) )
for iDay in range( getSolarDaysInMonth(year, month) ):
dSolar = Date(year, month, iDay)
dLunar, isLeapMonth = solar2Lunar (dSolar)
if iDay==0:
ow ('始于 阴历%s年%s%s月 (%s%s年, 生肖属%s)\n' %
( num2GB(dLunar.year+1900), '闰'*isLeapMonth,
num2GB(dLunar.month+1),
ganGB [dLunar.gan], zhiGB[dLunar.zhi], shengXiaoGB[dLunar.zhi]
))
ow ('='*74 + '\n')
for i in range(7):
ow ("%3s %2s " % (weekdayEn[i][:3], weekdayGB[i]) )
ow('\n\n')
for i in range(dLunar.weekday): ow(' '*11)
elif dLunar.weekday==0: ow('\n')
ow ( "%2d %-8s" %(iDay+1, lunarDate2GB(dLunar, isLeapMonth) ) )
ow('\n\n')
def checkArgv (argv):
argc = len(argv)
if argc==1 or argv[1] in ('-h', '--help'):
print __doc__; exit(0)
#in case people input arguments as "4-digit-year month"
if argc==3 and len(argv[1]) == 4 and len(argv[2]) in (1,2):
argv[1], argv[2] = argv[2], argv[1]
#Get month
month=-1
for iMonth in range(12):
if argv[1].lower() == monthEn[iMonth].lower() or \
argv[1].lower() == monthEn[iMonth][:3].lower():
month = iMonth+1; break
if month==-1:
month = eval(argv[1])
if month12: error ("Month not within 1--12.")
#Get year
if argc==2: year = localtime(time())[0]
else:
if len(argv[2]) != 4: error ("Year must be 4 digits.")
year = eval(argv[2])
if year= 1900+yearsCoded or (year==1900 and month==1):
error ("Year must be within %d--%d, excluding 1900/1."
% (1900, 1900 + yearsCoded-1) )
return year-1900, month-1
year, month = checkArgv(argv)
calcAllLunarYearsInfo()
outputCalendar(year, month)
这个也有问题(1989年8月的数据转换成农历就有问题)
看了好几个程序,发现实现这个并不需要什么NB的算法(好像也不存在这样的算法)可以直接实现阳历转为阴历的,都是记录了一堆阴历的数据,然后根据和基本时间来算相差几天来计算的,所有阴历数据的正确性决定了这个程序的正确性。
同学给了一个lua的程序,我试了一下,还没有找到错误的,先直接给上程序(直接从lua转成python的,写的比较乱)
#!/usr/bin/env python
# -*- coding: utf-8 -*-
import math
def GetDayOf(st):
#–天干名称
cTianGan = ["甲","乙","丙","丁","戊","己","庚","辛","壬","癸"]
#–地支名称
cDiZhi = ["子","丑","寅","卯","辰","巳","午", "未","申","酉","戌","亥"]
#–属相名称
cShuXiang = ["鼠","牛","虎","兔","龙","蛇", "马","羊","猴","鸡","狗","猪"]
#–农历日期名
cDayName =[
"*","初一","初二","初三","初四","初五",
"初六","初七","初八","初九","初十",
"十一","十二","十三","十四","十五",
"十六","十七","十八","十九","二十",
"廿一","廿二","廿三","廿四","廿五",
"廿六","廿七","廿八","廿九","三十"
]
#–农历月份名
cMonName = ["*","正","二","三","四","五","六", "七","八","九","十","十一","腊"]
#–公历每月前面的天数
wMonthAdd = [0,31,59,90,120,151,181,212,243,273,304,334]
#– 农历数据
wNongliData = [2635,333387,1701,1748,267701,694,2391,133423,1175,396438
,3402,3749,331177,1453,694,201326,2350,465197,3221,3402
,400202,2901,1386,267611,605,2349,137515,2709,464533,1738
,2901,330421,1242,2651,199255,1323,529706,3733,1706,398762
,2741,1206,267438,2647,1318,204070,3477,461653,1386,2413
,330077,1197,2637,268877,3365,531109,2900,2922,398042,2395
,1179,267415,2635,661067,1701,1748,398772,2742,2391,330031
,1175,1611,200010,3749,527717,1452,2742,332397,2350,3222
,268949,3402,3493,133973,1386,464219,605,2349,334123,2709
,2890,267946,2773,592565,1210,2651,395863,1323,2707,265877]
#—取当前公历年、月、日—
wCurYear = st["year"]
wCurMonth = st["mon"]
wCurDay = st["day"]
#—计算到初始时间1921年2月8日的天数:1921-2-8(正月初一)—
#nTheDate = (wCurYear – 1921) * 365 + (wCurYear – 1921)/4 + wCurDay + wMonthAdd[wCurMonth] – 38
nTheDate = (wCurYear – 1921) * 365 + (wCurYear – 1921)/4 + wCurDay + wMonthAdd[wCurMonth-1] – 38
if (((wCurYear % 4) == 0) and (wCurMonth > 2)):
nTheDate = nTheDate + 1
#–计算农历天干、地支、月、日—
nIsEnd = 0
m = 0
while nIsEnd != 1:
#if wNongliData[m+1] if wNongliData[m] k = 11
else:
k = 12
n = k
while n>=0:
nBit = wNongliData[m]
for i in range(n):
nBit = math.floor(nBit/2);
nBit = nBit % 2
if nTheDate nIsEnd = 1
break
nTheDate = nTheDate – 29 – nBit
n = n – 1
if nIsEnd != 0:
break
m = m + 1
wCurYear = 1921 + m
wCurMonth = k – n + 1
wCurDay = int(math.floor(nTheDate))
if k == 12:
if wCurMonth == wNongliData[m] / 65536 + 1:
wCurMonth = 1 – wCurMonth
elif wCurMonth > wNongliData[m] / 65536 + 1:
wCurMonth = wCurMonth – 1
print '阳历', st["year"], st["mon"], st["day"]
print '农历', wCurYear, wCurMonth, wCurDay
#–生成农历天干、地支、属相 ==> wNongli–
szShuXiang = cShuXiang[(((wCurYear - 4) % 60) % 12) + 1]
szShuXiang = cShuXiang[(((wCurYear - 4) % 60) % 12) + 1]
zNongli = szShuXiang + '(' + cTianGan[(((wCurYear - 4) % 60) % 10)] + cDiZhi[(((wCurYear - 4) % 60) % 12)] + ')年'
#–szNongli,"%s(%s%s)年",szShuXiang,cTianGan[((wCurYear - 4) % 60) % 10],cDiZhi[((wCurYear - 4) % 60) % 12]);
#–生成农历月、日 ==> wNongliDay–*/
if wCurMonth szNongliDay = "闰" + cMonName[(-1 * wCurMonth)]
else:
szNongliDay = cMonName[wCurMonth]
szNongliDay = szNongliDay + "月" + cDayName[wCurDay]
print szNongliDay
#return szNongli .. szNongliDay
def main():
st = {"year": 1989, "mon": 8, "day": 1}
GetDayOf(st)
st1 = {"year": 2013, "mon": 10, "day": 7}
GetDayOf(st1)
st1 = {"year": 2013, "mon": 10, "day": 1}
GetDayOf(st1)
#print("" .. GetDayOf(st))
main()
数据基本上正确了,根据自己的需要改一改程序就可以了。以后有时间在改好一点的。
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MySQL 可在无需网络连接的情况下运行,进行基本的数据存储和管理。但是,对于与其他系统交互、远程访问或使用高级功能(如复制和集群)的情况,则需要网络连接。此外,安全措施(如防火墙)、性能优化(选择合适的网络连接)和数据备份对于连接到互联网的 MySQL 数据库至关重要。
MySQL安装后服务无法启动的解决办法
Apr 08, 2025 am 11:18 AM
MySQL拒启动?别慌,咱来排查!很多朋友安装完MySQL后,发现服务死活启动不了,心里那个急啊!别急,这篇文章带你从容应对,揪出幕后黑手!读完后,你不仅能解决这个问题,还能提升对MySQL服务的理解,以及排查问题的思路,成为一名更强大的数据库管理员!MySQL服务启动失败,原因五花八门,从简单的配置错误到复杂的系统问题都有可能。咱们先从最常见的几个方面入手。基础知识:服务启动流程简述MySQL服务启动,简单来说,就是操作系统加载MySQL相关的文件,然后启动MySQL守护进程。这其中涉及到配置
mysql安装后怎么优化数据库性能
Apr 08, 2025 am 11:36 AM
MySQL性能优化需从安装配置、索引及查询优化、监控与调优三个方面入手。1.安装后需根据服务器配置调整my.cnf文件,例如innodb_buffer_pool_size参数,并关闭query_cache_size;2.创建合适的索引,避免索引过多,并优化查询语句,例如使用EXPLAIN命令分析执行计划;3.利用MySQL自带监控工具(SHOWPROCESSLIST,SHOWSTATUS)监控数据库运行状况,定期备份和整理数据库。通过这些步骤,持续优化,才能提升MySQL数据库性能。
如何针对高负载应用程序优化 MySQL 性能?
Apr 08, 2025 pm 06:03 PM
MySQL数据库性能优化指南在资源密集型应用中,MySQL数据库扮演着至关重要的角色,负责管理海量事务。然而,随着应用规模的扩大,数据库性能瓶颈往往成为制约因素。本文将探讨一系列行之有效的MySQL性能优化策略,确保您的应用在高负载下依然保持高效响应。我们将结合实际案例,深入讲解索引、查询优化、数据库设计以及缓存等关键技术。1.数据库架构设计优化合理的数据库架构是MySQL性能优化的基石。以下是一些核心原则:选择合适的数据类型选择最小的、符合需求的数据类型,既能节省存储空间,又能提升数据处理速度
