public class CalendarUtil {
// Array lIntLunarDay is stored in the monthly day information in every year
// from 1901 to 2100 of the lunar calendar,
// The lunar calendar can only be 29 or 30 days every month, express with
// 12(or 13) pieces of binary bit in one year,
// it is 30 days for 1 form in the corresponding location , otherwise it is
// 29 days
private static final int[] iLunarMonthDaysTable = {
0x4ae0,
0xa570,
0x5268,
0xd260,
0xd950,
0x6aa8,
0x56a0,
0x9ad0,
0x4ae8,
0x4ae0, // 1910
0xa4d8,
0xa4d0,
0xd250,
0xd548,
0xb550,
0x56a0,
0x96d0,
0x95b0,
0x49b8,
0x49b0, // 1920
0xa4b0,
0xb258,
0x6a50,
0x6d40,
0xada8,
0x2b60,
0x9570,
0x4978,
0x4970,
0x64b0, // 1930
0xd4a0,
0xea50,
0x6d48,
0x5ad0,
0x2b60,
0x9370,
0x92e0,
0xc968,
0xc950,
0xd4a0, // 1940
0xda50,
0xb550,
0x56a0,
0xaad8,
0x25d0,
0x92d0,
0xc958,
0xa950,
0xb4a8,
0x6ca0, // 1950
0xb550,
0x55a8,
0x4da0,
0xa5b0,
0x52b8,
0x52b0,
0xa950,
0xe950,
0x6aa0,
0xad50, // 1960
0xab50,
0x4b60,
0xa570,
0xa570,
0x5260,
0xe930,
0xd950,
0x5aa8,
0x56a0,
0x96d0, // 1970
0x4ae8, 0x4ad0,
0xa4d0,
0xd268,
0xd250,
0xd528,
0xb540,
0xb6a0,
0x96d0,
0x95b0, // 1980
0x49b0, 0xa4b8, 0xa4b0,
0xb258,
0x6a50,
0x6d40,
0xada0,
0xab60,
0x9370,
0x4978, // 1990
0x4970, 0x64b0, 0x6a50, 0xea50,
0x6b28,
0x5ac0,
0xab60,
0x9368,
0x92e0,
0xc960, // 2000
0xd4a8, 0xd4a0, 0xda50, 0x5aa8, 0x56a0,
0xaad8,
0x25d0,
0x92d0,
0xc958,
0xa950, // 2010
0xb4a0, 0xb550, 0xb550, 0x55a8, 0x4ba0, 0xa5b0,
0x52b8,
0x52b0,
0xa930,
0x74a8, // 2020
0x6aa0, 0xad50, 0x4da8, 0x4b60, 0x9570, 0xa4e0, 0xd260,
0xe930,
0xd530,
0x5aa0, // 2030
0x6b50, 0x96d0, 0x4ae8, 0x4ad0, 0xa4d0, 0xd258, 0xd250, 0xd520,
0xdaa0,
0xb5a0, // 2040
0x56d0, 0x4ad8, 0x49b0, 0xa4b8, 0xa4b0, 0xaa50, 0xb528, 0x6d20,
0xada0, 0x55b0 // 2050
};
// Array iLunarLeapMonthTable preserves the lunar calendar leap month from
// 1901 to 2050,
// if it is 0 express not to have , every byte was stored for two years
private static final char[] iLunarLeapMonthTable = { 0x00, 0x50, 0x04,
0x00, 0x20, // 1910
0x60, 0x05, 0x00, 0x20, 0x70, // 1920
0x05, 0x00, 0x40, 0x02, 0x06, // 1930
0x00, 0x50, 0x03, 0x07, 0x00, // 1940
0x60, 0x04, 0x00, 0x20, 0x70, // 1950
0x05, 0x00, 0x30, 0x80, 0x06, // 1960
0x00, 0x40, 0x03, 0x07, 0x00, // 1970
0x50, 0x04, 0x08, 0x00, 0x60, // 1980
0x04, 0x0a, 0x00, 0x60, 0x05, // 1990
0x00, 0x30, 0x80, 0x05, 0x00, // 2000
0x40, 0x02, 0x07, 0x00, 0x50, // 2010
0x04, 0x09, 0x00, 0x60, 0x04, // 2020
0x00, 0x20, 0x60, 0x05, 0x00, // 2030
0x30, 0xb0, 0x06, 0x00, 0x50, // 2040
0x02, 0x07, 0x00, 0x50, 0x03 // 2050
};
// Array iSolarLunarTable stored the offset days
// in New Year of solar calendar and lunar calendar from 1901 to 2050;
private static final char[] iSolarLunarOffsetTable = { 49, 38, 28, 46, 34,
24, 43, 32, 21, 40, // 1910
29, 48, 36, 25, 44, 34, 22, 41, 31, 50, // 1920
38, 27, 46, 35, 23, 43, 32, 22, 40, 29, // 1930
47, 36, 25, 44, 34, 23, 41, 30, 49, 38, // 1940
26, 45, 35, 24, 43, 32, 21, 40, 28, 47, // 1950
36, 26, 44, 33, 23, 42, 30, 48, 38, 27, // 1960
45, 35, 24, 43, 32, 20, 39, 29, 47, 36, // 1970
26, 45, 33, 22, 41, 30, 48, 37, 27, 46, // 1980
35, 24, 43, 32, 50, 39, 28, 47, 36, 26, // 1990
45, 34, 22, 40, 30, 49, 37, 27, 46, 35, // 2000
23, 42, 31, 21, 39, 28, 48, 37, 25, 44, // 2010
33, 23, 41, 31, 50, 39, 28, 47, 35, 24, // 2020
42, 30, 21, 40, 28, 47, 36, 25, 43, 33, // 2030
22, 41, 30, 49, 37, 26, 44, 33, 23, 42, // 2040
31, 21, 40, 29, 47, 36, 25, 44, 32, 22, // 2050
};
static boolean bIsSolarLeapYear(int iYear) {
return ((iYear % 4 == 0) && (iYear % 100 != 0) || iYear % 400 == 0);
}
// The days in the month of solar calendar
static int iGetSYearMonthDays(int iYear, int iMonth) {
if ((iMonth == 1) || (iMonth == 3) || (iMonth == 5) || (iMonth == 7)
|| (iMonth == 8) || (iMonth == 10) || (iMonth == 12))
return 31;
else if ((iMonth == 4) || (iMonth == 6) || (iMonth == 9)
|| (iMonth == 11))
return 30;
else if (iMonth == 2) {
if (bIsSolarLeapYear(iYear))
return 29;
else
return 28;
} else
return 0;
}
// The offset days from New Year and the day when point out in solar
// calendar
static int iGetSNewYearOffsetDays(int iYear, int iMonth, int iDay) {
int iOffsetDays = 0;
for (int i = 1; i < iMonth; i++) {
iOffsetDays += iGetSYearMonthDays(iYear, i);
}
iOffsetDays += iDay - 1;
return iOffsetDays;
}
static int iGetLLeapMonth(int iYear) {
char iMonth = iLunarLeapMonthTable[(iYear - 1901) / 2];
if (iYear % 2 == 0)
return (iMonth & 0x0f);
else
return (iMonth & 0xf0) >> 4;
}
static int iGetLMonthDays(int iYear, int iMonth) {
int iLeapMonth = iGetLLeapMonth(iYear);
if ((iMonth > 12) && (iMonth - 12 != iLeapMonth) || (iMonth < 0)) {
System.out
.println("Wrong month, ^_^ , i think you are want a -1, go to death!");
return -1;
}
if (iMonth - 12 == iLeapMonth) {
if ((iLunarMonthDaysTable[iYear - 1901] & (0x8000 >> iLeapMonth)) == 0)
return 29;
else
return 30;
}
if ((iLeapMonth > 0) && (iMonth > iLeapMonth))
iMonth++;
if ((iLunarMonthDaysTable[iYear - 1901] & (0x8000 >> (iMonth - 1))) == 0)
return 29;
else
return 30;
}
// Days in this year of lunar calendar
static int iGetLYearDays(int iYear) {
int iYearDays = 0;
int iLeapMonth = iGetLLeapMonth(iYear);
for (int i = 1; i < 13; i++)
iYearDays += iGetLMonthDays(iYear, i);
if (iLeapMonth > 0)
iYearDays += iGetLMonthDays(iYear, iLeapMonth + 12);
return iYearDays;
}
static int iGetLNewYearOffsetDays(int iYear, int iMonth, int iDay) {
int iOffsetDays = 0;
int iLeapMonth = iGetLLeapMonth(iYear);
if ((iLeapMonth > 0) && (iLeapMonth == iMonth - 12)) {
iMonth = iLeapMonth;
iOffsetDays += iGetLMonthDays(iYear, iMonth);
}
for (int i = 1; i < iMonth; i++) {
iOffsetDays += iGetLMonthDays(iYear, i);
if (i == iLeapMonth)
iOffsetDays += iGetLMonthDays(iYear, iLeapMonth + 12);
}
iOffsetDays += iDay - 1;
return iOffsetDays;
}
// The solar calendar is turned into the lunar calendar
static String sCalendarSolarToLundar(int iYear, int iMonth, int iDay) {
int iLDay, iLMonth, iLYear;
int iOffsetDays = iGetSNewYearOffsetDays(iYear, iMonth, iDay);
int iLeapMonth = iGetLLeapMonth(iYear);
if (iOffsetDays < iSolarLunarOffsetTable[iYear - 1901]) {
iLYear = iYear - 1;
iOffsetDays = iSolarLunarOffsetTable[iYear - 1901] - iOffsetDays;
iLDay = iOffsetDays;
for (iLMonth = 12; iOffsetDays > iGetLMonthDays(iLYear, iLMonth); iLMonth--) {
iLDay = iOffsetDays;
iOffsetDays -= iGetLMonthDays(iLYear, iLMonth);
}
if (0 == iLDay)
iLDay = 1;
else
iLDay = iGetLMonthDays(iLYear, iLMonth) - iOffsetDays + 1;
} else {
iLYear = iYear;
iOffsetDays -= iSolarLunarOffsetTable[iYear - 1901];
iLDay = iOffsetDays + 1;
for (iLMonth = 1; iOffsetDays >= 0; iLMonth++) {
iLDay = iOffsetDays + 1;
iOffsetDays -= iGetLMonthDays(iLYear, iLMonth);
if ((iLeapMonth == iLMonth) && (iOffsetDays > 0)) {
iLDay = iOffsetDays;
iOffsetDays -= iGetLMonthDays(iLYear, iLMonth + 12);
if (iOffsetDays <= 0) {
iLMonth += 12 + 1;
break;
}
}
}
iLMonth--;
}
return "" + iLYear + (iLMonth > 9 ? "" + iLMonth : "0" + iLMonth)
+ (iLDay > 9 ? "" + iLDay : "0" + iLDay);
}
// The lunar calendar is turned into the Solar calendar
static String sCalendarLundarToSolar(int iYear, int iMonth, int iDay) {
int iSYear, iSMonth, iSDay;
int iOffsetDays = iGetLNewYearOffsetDays(iYear, iMonth, iDay)
+ iSolarLunarOffsetTable[iYear - 1901];
int iYearDays = bIsSolarLeapYear(iYear) ? 366 : 365;
if (iOffsetDays >= iYearDays) {
iSYear = iYear + 1;
iOffsetDays -= iYearDays;
} else {
iSYear = iYear;
}
iSDay = iOffsetDays + 1;
for (iSMonth = 1; iOffsetDays >= 0; iSMonth++) {
iSDay = iOffsetDays + 1;
iOffsetDays -= iGetSYearMonthDays(iSYear, iSMonth);
}
iSMonth--;
return "" + iSYear + (iSMonth > 9 ? iSMonth + "" : "0" + iSMonth)
+ (iSDay > 9 ? iSDay + "" : "0" + iSDay);
}
}
//自定义星期类
class Week {
int iWeek;
private String sWeek[] = { "Sunday", "Monday", "Tuesday", "Wednesday",
"Thursday", "Friday", "Saturday" };
public Week() {
iWeek = 0;
}
public Week(int w) {
if ((w > 6) || (w < 0)) {
System.out.println("Week out of range, I think you want Sunday");
this.iWeek = 0;
} else
this.iWeek = w;
}
public String toString() {
return sWeek[iWeek];
}
}
// 自定义日期类
class MyDate {
public int iYear;
public int iMonth;
public int iDay;
private static int checkYear(int iYear) {
if ((iYear > 1901) && (iYear < 2050))
return iYear;
else {
System.out.println("The Year out of range, I think you want 1981");
return 1981;
}
}
public MyDate(int iYear, int iMonth, int iDay) {
this.iYear = checkYear(iYear);
this.iMonth = iMonth;
this.iDay = iDay;
}
public MyDate(int iYear, int iMonth) {
this.iYear = checkYear(iYear);
this.iMonth = iMonth;
this.iDay = 1;
}
public MyDate(int iYear) {
this.iYear = checkYear(iYear);
this.iMonth = 1;
this.iDay = 1;
}
public MyDate() {
this.iYear = 1981;
this.iMonth = 1;
this.iDay = 1;
}
public String toString() {
return "" + this.iYear
+ (this.iMonth > 9 ? "" + this.iMonth : "0" + this.iMonth)
+ (this.iDay > 9 ? "" + this.iDay : "0" + this.iDay);
}
public boolean equals(MyDate md) {
return ((md.iDay == this.iDay) && (md.iMonth == this.iMonth) && (md.iYear == this.iYear));
}
}
// 阳历日期类,继承自定义日期
class SolarDate extends MyDate {
private static int checkMonth(int iMonth) {
if (iMonth > 12) {
System.out.println("Month out of range, I think you want 12 ");
return 12;
} else if (iMonth < 1) {
System.out.println("Month out of range, I think you want 1 ");
return 1;
} else
return iMonth;
}
private static int checkDay(int iYear, int iMonth, int iDay) {
int iMonthDays = CalendarUtil.iGetSYearMonthDays(iYear, iMonth);
if (iDay > iMonthDays) {
System.out.println("Day out of range, I think you want "
+ iMonthDays + " ");
return iMonthDays;
} else if (iDay < 1) {
System.out.println("Day out of range, I think you want 1 ");
return 1;
} else
return iDay;
}
public SolarDate(int iYear, int iMonth, int iDay) {
super(iYear);
this.iMonth = checkMonth(iMonth);
this.iDay = checkDay(this.iYear, this.iMonth, iDay);
}
public SolarDate(int iYear, int iMonth) {
super(iYear);
this.iMonth = checkMonth(iMonth);
}
public SolarDate(int iYear) {
super(iYear);
}
public SolarDate() {
super();
}
public String toString() {
return "" + this.iYear
+ (this.iMonth > 9 ? "-" + this.iMonth : "-0" + this.iMonth)
+ (this.iDay > 9 ? "-" + this.iDay : "-0" + this.iDay);
}
public Week toWeek() {
int iOffsetDays = 0;
for (int i = 1901; i < iYear; i++) {
if (CalendarUtil.bIsSolarLeapYear(i))
iOffsetDays += 366;
else
iOffsetDays += 365;
}
iOffsetDays += CalendarUtil.iGetSNewYearOffsetDays(iYear, iMonth,
iDay);
return new Week((iOffsetDays + 2) % 7);
}
public LunarDate toLunarDate() {
int iYear, iMonth, iDay, iDate;
LunarDate ld;
iDate = Integer.parseInt(CalendarUtil.sCalendarSolarToLundar(
this.iYear, this.iMonth, this.iDay));
iYear = iDate / 10000;
iMonth = iDate % 10000 / 100;
iDay = iDate % 100;
ld = new LunarDate(iYear, iMonth, iDay);
return ld;
}
}
// 阴历日期类,继承自定义日期类
class LunarDate extends MyDate {
private String sChineseNum[] = { "零", "一", "二", "三", "四", "五", "六", "七",
"八", "九", "十" };
private static int checkMonth(int iYear, int iMonth) {
if ((iMonth > 12)
&& (iMonth == CalendarUtil.iGetLLeapMonth(iYear) + 12)) {
return iMonth;
} else if (iMonth > 12) {
System.out.println("Month out of range, I think you want 12 ");
return 12;
} else if (iMonth < 1) {
System.out.println("Month out of range, I think you want 1 ");
return 1;
} else
return iMonth;
}
private static int checkDay(int iYear, int iMonth, int iDay) {
int iMonthDays = CalendarUtil.iGetLMonthDays(iYear, iMonth);
if (iDay > iMonthDays) {
System.out.println("Day out of range, I think you want "
+ iMonthDays + " ");
return iMonthDays;
} else if (iDay < 1) {
System.out.println("Day out of range, I think you want 1 ");
return 1;
} else
return iDay;
}
public LunarDate(int iYear, int iMonth, int iDay) {
super(iYear);
this.iMonth = checkMonth(this.iYear, iMonth);
this.iDay = checkDay(this.iYear, this.iMonth, iDay);
}
public LunarDate(int iYear, int iMonth) {
super(iYear);
this.iMonth = checkMonth(this.iYear, iMonth);
}
public LunarDate(int iYear) {
super(iYear);
}
public LunarDate() {
super();
}
public String toString() {
String sCalendar = "农历";
sCalendar += sChineseNum[iYear / 1000]
+ sChineseNum[iYear % 1000 / 100]
+ sChineseNum[iYear % 100 / 10] + sChineseNum[iYear % 10] + "("
+ toChineseEra() + ")年";
if (iMonth > 12) {
iMonth -= 12;
sCalendar += "闰";
}
if (iMonth == 12)
sCalendar += "腊月";
else if (iMonth == 11)
sCalendar += "冬月";
else if (iMonth == 1)
sCalendar += "正月";
else
sCalendar += sChineseNum[iMonth] + "月";
if (iDay > 29)
sCalendar += "三十";
else if (iDay > 20)
sCalendar += "二十" + sChineseNum[iDay % 20];
else if (iDay == 20)
sCalendar += "二十";
else if (iDay > 10)
sCalendar += "十" + sChineseNum[iDay % 10];
else
sCalendar += "初" + sChineseNum[iDay];
return sCalendar;
}
public CnWeek toWeek() {
int iOffsetDays = 0;
for (int i = 1901; i < iYear; i++)
iOffsetDays += CalendarUtil.iGetLYearDays(i);
iOffsetDays += CalendarUtil.iGetLNewYearOffsetDays(iYear, iMonth,
iDay);
return new CnWeek((iOffsetDays + 2) % 7);
}
public ChineseEra toChineseEra() {
return new ChineseEra(iYear);
}
public SolarDate toSolarDate() {
int iYear, iMonth, iDay, iDate;
SolarDate sd;
iDate = Integer.parseInt(CalendarUtil.sCalendarLundarToSolar(
this.iYear, this.iMonth, this.iDay));
iYear = iDate / 10000;
iMonth = iDate % 10000 / 100;
iDay = iDate % 100;
sd = new SolarDate(iYear, iMonth, iDay);
return sd;
}
}
class CnWeek extends Week {
private String sCnWeek[] = { "日", "一", "二", "三", "四", "五", "六" };
public CnWeek() {
super();
}
public CnWeek(int iWeek) {
super(iWeek);
}
public String toString() {
return "星期" + sCnWeek[this.iWeek];
}
}
class ChineseEra {
int iYear;
String[] sHeavenlyStems = { "甲", "乙", "丙", "丁", "戊", "己", "庚", "辛", "壬",
"癸" };
String[] sEarthlyBranches = { "子", "丑", "寅", "卯", "辰", "巳", "午", "未", "申",
"酉", "戌", "亥" };
public ChineseEra() {
int iYear = 1981;
}
public ChineseEra(int iYear) {
if ((iYear < 2050) && (iYear > 1901))
this.iYear = iYear;
else
this.iYear = 1981;
}
public String toString() {
int temp;
temp = Math.abs(iYear - 1924);
return sHeavenlyStems[temp % 10] + sEarthlyBranches[temp % 12];
}
}
相关推荐
从给定的文件标题、描述、标签以及部分内容中,我们可以提炼出有关公历与农历互相转换的知识点。以下是对这些信息的详细解析: ### 公历与农历互相转换概述 公历(Gregorian Calendar),也被称为格里高利历或西历...
自己做的C#中日历转换类,需要时请根据自己情况更改
在IT领域,尤其是对于处理日期和时间相关的数据时,能够实现农历(阴历)与公历(阳历)之间的互相转换是一项非常实用的功能。本文将深入探讨如何使用ASP(Active Server Pages)进行农历与公历的转换,基于给定的...
- **转换函数**:将公历和农历互相转换的函数,调用上述模块完成实际计算。 - **测试程序**:用于验证上述功能的正确性,可能包含输入一个日期并打印转换结果的示例。 在实际应用中,51单片机的资源有限,因此在...
这种情况下选择生日就有点牵强,本人最近在做的一个项目中需要用户输入自己的生日,既可选择公历,也可选择农历,经过研究做出了这种生日选择器,可以任意切换公历和农历,公历农历相互转换的算法90%是本人原创,...
`LunarFuncs` 很可能是包含了农历转换核心算法的单元,其中可能包含了公历与农历相互转换的函数,例如 `GregorianToLunar` 和 `LunarToGregorian`。 3. `Unit1.dcu`:这是另一个编译后的单元文件,可能包含了用户...
标题中的“农历阳历在线互相转换 1.0.zip”表明这是一个软件压缩包,其中包含了一个能够实现农历和阳历之间转换的程序。这个程序可能是为了解决用户在日常生活或工作中需要进行日期转换的需求,例如在中国,人们既...
本文将详细探讨一个专用于阴历阳历互相转化的C#类,帮助开发者理解和实现这一功能。 首先,让我们了解基础概念。阳历,也被称为公历,是我们日常生活中最常用的时间体系,基于格里高利历。而阴历则是根据月亮的相位...
本文将深入探讨如何实现一个类似iOS UIDatePicker的UIPickerView,用于农历与公历之间的转换,以及如何应用于生日提醒等功能。 首先,我们需要理解农历和公历的基本概念。公历,又称阳历,是国际通用的日历系统,...
可以对阳历、阴历生日进行全转换,利用天干地支年历进行开发,转换阳历阴历
在IT行业中,日期和时间处理是一项基础且重要的任务,尤其在中国,由于同时使用公历(阳历)和农历(阴历),开发相关的日历转换和节日查询功能具有很高的实用价值。本文将深入探讨如何实现公历与农历之间的相互转化...
内容索引:VC/C++源码,其它分类,日历转换 阳历与农历转换程序,也就是公历与阴历的相互转换,部分代码是从网上找到的,重新修正了一大部分代码,大家也可以把它当作控件来使用,因为我不初就是想想这样一个程序,...
C#实现的阴历阳历互相转化类实例是基于C#语言开发的一款阴历阳历互相转化工具,主要用于解决阴历和阳历之间的日期转换问题。该工具可以将阴历日期转换为阳历日期,并提供了星座和诞生石的计算功能。 1. 阴历阳历...
公历、农历互换组件完成公历和农历之间的互相转换,组件的属性如下:属性:LunarDate:TLunarDate;TLunarDate类由下列属性和方法组成属性:lDay:Word; 农历年的日。属性:lMonth:Word; 农历年的月。属性:lYear: Word; ...
Delphi 农历控件 软件名称:开发包基础库 单元名称:历法计算函数 ... 二十八宿、九九三伏已实现,公历、农历互相转换也初步实现。 开发平台:PWinXP SP2 + Delphi 2006 兼容测试:PWin9X/2000/XP + Delphi 5/6
内容索引:ASP源码,其它类别,网钛,农历,倒计时 ASP公历、农历互相转换程序,写成了类,方便嵌入到你的程序代码中,并可单独作为一个公农历互转程序,可转换1901~2100年之间的任意日期,2007年曾以个人名义SY发布了...
通过objective-c实现了类似iphone系统日历的日历,项目里着重实现了类似iphone系统日历的布局、封装了阳历和阴历的互相转换。 简单地实现了日历事件的创建 并添加到EKEventStore中
在“日历查询”应用中,国、农历的互相转换是一项核心功能。公历,也就是国际通用的格里高利历,是我们日常生活和工作中最常使用的日期系统。而农历则在中国以及一些东亚国家和地区广泛使用,它根据月相变化来确定...
类型转换类 TypeParse.cs 各种类型互相转换,如int string bool等 用户实用类 User.cs 登陆,退出时候身份加密或解除方式 验证码类 ValidateImage.cs 图片验证码 验证实用类 ValidateUtils.cs 数据类型,字符串功能,IP,...