上一个项目开发中遇到的需求,用户选择出生日期后自动计算出对应的农历。用到这种工具类,必定百度谷歌。结果翻了个遍没看到靠谱的,基本都是用的iOS自带的农历算法然后抄个遍。但是这个算法有点小误差,而且农历这种博大精深的东西不像公历是个死的,还要推算出来。终于终于终于在某个角落找到个靠谱的可以使用,所以分享出来,不过现在我也找不出来源了,但还是感谢原作者。
// LunarSolarConverter.h #import <Foundation/Foundation.h> @interface Lunar : NSObject /** *是否闰月 */ @property(assign) BOOL isleap; /** *农历 日 */ @property(assign) int lunarDay; /** *农历 月 */ @property(assign) int lunarMonth; /** *农历 年 */ @property(assign) int lunarYear; @end @interface Solar : NSObject /** *公历 日 */ @property(assign) int solarDay; /** *公历 月 */ @property(assign) int solarMonth; /** *公历 年 */ @property(assign) int solarYear; @end @interface LunarSolarConverter : NSObject /** *农历转公历 */ + (Solar *)lunarToSolar:(Lunar *)lunar; /** *公历转农历 */ + (Lunar *)solarToLunar:(Solar *)solar; @end
// LunarSolarConverter.m #import "LunarSolarConverter.h" static int lunar_month_days[] = { 1887, 0x1694, 0x16aa, 0x4ad5, 0xab6, 0xc4b7, 0x4ae, 0xa56, 0xb52a, 0x1d2a, 0xd54, 0x75aa, 0x156a, 0x1096d, 0x95c, 0x14ae, 0xaa4d, 0x1a4c, 0x1b2a, 0x8d55, 0xad4, 0x135a, 0x495d, 0x95c, 0xd49b, 0x149a, 0x1a4a, 0xbaa5, 0x16a8, 0x1ad4, 0x52da, 0x12b6, 0xe937, 0x92e, 0x1496, 0xb64b, 0xd4a, 0xda8, 0x95b5, 0x56c, 0x12ae, 0x492f, 0x92e, 0xcc96, 0x1a94, 0x1d4a, 0xada9, 0xb5a, 0x56c, 0x726e, 0x125c, 0xf92d, 0x192a, 0x1a94, 0xdb4a, 0x16aa, 0xad4, 0x955b, 0x4ba, 0x125a, 0x592b, 0x152a, 0xf695, 0xd94, 0x16aa, 0xaab5, 0x9b4, 0x14b6, 0x6a57, 0xa56, 0x1152a, 0x1d2a, 0xd54, 0xd5aa, 0x156a, 0x96c, 0x94ae, 0x14ae, 0xa4c, 0x7d26, 0x1b2a, 0xeb55, 0xad4, 0x12da, 0xa95d, 0x95a, 0x149a, 0x9a4d, 0x1a4a, 0x11aa5, 0x16a8, 0x16d4, 0xd2da, 0x12b6, 0x936, 0x9497, 0x1496, 0x1564b, 0xd4a, 0xda8, 0xd5b4, 0x156c, 0x12ae, 0xa92f, 0x92e, 0xc96, 0x6d4a, 0x1d4a, 0x10d65, 0xb58, 0x156c, 0xb26d, 0x125c, 0x192c, 0x9a95, 0x1a94, 0x1b4a, 0x4b55, 0xad4, 0xf55b, 0x4ba, 0x125a, 0xb92b, 0x152a, 0x1694, 0x96aa, 0x15aa, 0x12ab5, 0x974, 0x14b6, 0xca57, 0xa56, 0x1526, 0x8e95, 0xd54, 0x15aa, 0x49b5, 0x96c, 0xd4ae, 0x149c, 0x1a4c, 0xbd26, 0x1aa6, 0xb54, 0x6d6a, 0x12da, 0x1695d, 0x95a, 0x149a, 0xda4b, 0x1a4a, 0x1aa4, 0xbb54, 0x16b4, 0xada, 0x495b, 0x936, 0xf497, 0x1496, 0x154a, 0xb6a5, 0xda4, 0x15b4, 0x6ab6, 0x126e, 0x1092f, 0x92e, 0xc96, 0xcd4a, 0x1d4a, 0xd64, 0x956c, 0x155c, 0x125c, 0x792e, 0x192c, 0xfa95, 0x1a94, 0x1b4a, 0xab55, 0xad4, 0x14da, 0x8a5d, 0xa5a, 0x1152b, 0x152a, 0x1694, 0xd6aa, 0x15aa, 0xab4, 0x94ba, 0x14b6, 0xa56, 0x7527, 0xd26, 0xee53, 0xd54, 0x15aa, 0xa9b5, 0x96c, 0x14ae, 0x8a4e, 0x1a4c, 0x11d26, 0x1aa4, 0x1b54, 0xcd6a, 0xada, 0x95c, 0x949d, 0x149a, 0x1a2a, 0x5b25, 0x1aa4, 0xfb52, 0x16b4, 0xaba, 0xa95b, 0x936, 0x1496, 0x9a4b, 0x154a, 0x136a5, 0xda4, 0x15ac }; static int solar_1_1[] = { 1887, 0xec04c, 0xec23f, 0xec435, 0xec649, 0xec83e, 0xeca51, 0xecc46, 0xece3a, 0xed04d, 0xed242, 0xed436, 0xed64a, 0xed83f, 0xeda53, 0xedc48, 0xede3d, 0xee050, 0xee244, 0xee439, 0xee64d, 0xee842, 0xeea36, 0xeec4a, 0xeee3e, 0xef052, 0xef246, 0xef43a, 0xef64e, 0xef843, 0xefa37, 0xefc4b, 0xefe41, 0xf0054, 0xf0248, 0xf043c, 0xf0650, 0xf0845, 0xf0a38, 0xf0c4d, 0xf0e42, 0xf1037, 0xf124a, 0xf143e, 0xf1651, 0xf1846, 0xf1a3a, 0xf1c4e, 0xf1e44, 0xf2038, 0xf224b, 0xf243f, 0xf2653, 0xf2848, 0xf2a3b, 0xf2c4f, 0xf2e45, 0xf3039, 0xf324d, 0xf3442, 0xf3636, 0xf384a, 0xf3a3d, 0xf3c51, 0xf3e46, 0xf403b, 0xf424e, 0xf4443, 0xf4638, 0xf484c, 0xf4a3f, 0xf4c52, 0xf4e48, 0xf503c, 0xf524f, 0xf5445, 0xf5639, 0xf584d, 0xf5a42, 0xf5c35, 0xf5e49, 0xf603e, 0xf6251, 0xf6446, 0xf663b, 0xf684f, 0xf6a43, 0xf6c37, 0xf6e4b, 0xf703f, 0xf7252, 0xf7447, 0xf763c, 0xf7850, 0xf7a45, 0xf7c39, 0xf7e4d, 0xf8042, 0xf8254, 0xf8449, 0xf863d, 0xf8851, 0xf8a46, 0xf8c3b, 0xf8e4f, 0xf9044, 0xf9237, 0xf944a, 0xf963f, 0xf9853, 0xf9a47, 0xf9c3c, 0xf9e50, 0xfa045, 0xfa238, 0xfa44c, 0xfa641, 0xfa836, 0xfaa49, 0xfac3d, 0xfae52, 0xfb047, 0xfb23a, 0xfb44e, 0xfb643, 0xfb837, 0xfba4a, 0xfbc3f, 0xfbe53, 0xfc048, 0xfc23c, 0xfc450, 0xfc645, 0xfc839, 0xfca4c, 0xfcc41, 0xfce36, 0xfd04a, 0xfd23d, 0xfd451, 0xfd646, 0xfd83a, 0xfda4d, 0xfdc43, 0xfde37, 0xfe04b, 0xfe23f, 0xfe453, 0xfe648, 0xfe83c, 0xfea4f, 0xfec44, 0xfee38, 0xff04c, 0xff241, 0xff436, 0xff64a, 0xff83e, 0xffa51, 0xffc46, 0xffe3a, 0x10004e, 0x100242, 0x100437, 0x10064b, 0x100841, 0x100a53, 0x100c48, 0x100e3c, 0x10104f, 0x101244, 0x101438, 0x10164c, 0x101842, 0x101a35, 0x101c49, 0x101e3d, 0x102051, 0x102245, 0x10243a, 0x10264e, 0x102843, 0x102a37, 0x102c4b, 0x102e3f, 0x103053, 0x103247, 0x10343b, 0x10364f, 0x103845, 0x103a38, 0x103c4c, 0x103e42, 0x104036, 0x104249, 0x10443d, 0x104651, 0x104846, 0x104a3a, 0x104c4e, 0x104e43, 0x105038, 0x10524a, 0x10543e, 0x105652, 0x105847, 0x105a3b, 0x105c4f, 0x105e45, 0x106039, 0x10624c, 0x106441, 0x106635, 0x106849, 0x106a3d, 0x106c51, 0x106e47, 0x10703c, 0x10724f, 0x107444, 0x107638, 0x10784c, 0x107a3f, 0x107c53, 0x107e48 }; int GetBitInt(int data, int length, int shift) { return (data & (((1 << length) - 1) << shift)) >> shift; } //WARNING: Dates before Oct. 1582 are inaccurate long SolarToInt(int y, int m, int d) { m = (m + 9) % 12; y = y - m / 10; return 365 * y + y / 4 - y / 100 + y / 400 + (m * 306 + 5) / 10 + (d - 1); } @implementation Lunar : NSObject @end @implementation Solar : NSObject @end @implementation LunarSolarConverter + (Solar *)SolarFromInt:(long)g { long y = (10000 * g + 14780) / 3652425; long ddd = g - (365 * y + y / 4 - y / 100 + y / 400); if (ddd < 0) { y--; ddd = g - (365 * y + y / 4 - y / 100 + y / 400); } long mi = (100 * ddd + 52) / 3060; long mm = (mi + 2) % 12 + 1; y = y + (mi + 2) / 12; long dd = ddd - (mi * 306 + 5) / 10 + 1; Solar *solar = [[Solar alloc] init]; solar.solarYear = (int) y; solar.solarMonth = (int) mm; solar.solarDay = (int) dd; return solar; } + (Solar *)lunarToSolar:(Lunar *)lunar; { int days = lunar_month_days[lunar.lunarYear - lunar_month_days[0]]; int leap = GetBitInt(days, 4, 13); int offset = 0; int loopend = leap; if (!lunar.isleap) { if (lunar.lunarMonth <= leap || leap == 0) { loopend = lunar.lunarMonth - 1; } else { loopend = lunar.lunarMonth; } } for (int i = 0; i < loopend; i++) { offset += GetBitInt(days, 1, 12 - i) == 1 ? 30 : 29; } offset += lunar.lunarDay; int solar11 = solar_1_1[lunar.lunarYear - solar_1_1[0]]; int y = GetBitInt(solar11, 12, 9); int m = GetBitInt(solar11, 4, 5); int d = GetBitInt(solar11, 5, 0); return [self SolarFromInt:(SolarToInt(y, m, d) + offset - 1)]; } + (Lunar *)solarToLunar:(Solar *)solar; { Lunar *lunar = [[Lunar alloc] init]; int index = solar.solarYear - solar_1_1[0]; int data = (solar.solarYear << 9) | (solar.solarMonth << 5) | (solar.solarDay); int solar11 = 0; if (solar_1_1[index] > data) { index--; } solar11 = solar_1_1[index]; int y = GetBitInt(solar11, 12, 9); int m = GetBitInt(solar11, 4, 5); int d = GetBitInt(solar11, 5, 0); long offset = SolarToInt(solar.solarYear, solar.solarMonth, solar.solarDay) - SolarToInt(y, m, d); int days = lunar_month_days[index]; int leap = GetBitInt(days, 4, 13); int lunarY = index + solar_1_1[0]; int lunarM = 1; int lunarD = 1; offset += 1; for (int i = 0; i < 13; i++) { int dm = GetBitInt(days, 1, 12 - i) == 1 ? 30 : 29; if (offset > dm) { lunarM++; offset -= dm; } else { break; } } lunarD = (int) (offset); lunar.lunarYear = lunarY; lunar.lunarMonth = lunarM; lunar.isleap = false; if (leap != 0 && lunarM > leap) { lunar.lunarMonth = lunarM - 1; if (lunarM == leap + 1) { lunar.isleap = true; } } lunar.lunarDay = lunarD; return lunar; } @end
转换后的农历还可以再格式化一下
- (NSString *)formatlunarWithYear:(int)year AndMonth:(int)month AndDay:(int)day { NSArray *chineseMonths=[NSArray arrayWithObjects: @"正月", @"二月", @"三月", @"四月", @"五月", @"六月", @"七月", @"八月", @"九月", @"十月", @"冬月", @"腊月", nil]; NSArray *chineseDays=[NSArray arrayWithObjects: @"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", nil]; return [NSString stringWithFormat:@"%d年%@%@", year, chineseMonths[month - 1], chineseDays[day - 1]]; }
然后就是星座计算,没什么难度,就是算的太麻烦,所以直接拿来用就行了。
-(NSString *)getXingzuo:(NSDate *)in_date { //计算星座 NSString *retStr=@""; NSDateFormatter *dateFormat = [[NSDateFormatter alloc] init]; [dateFormat setDateFormat:@"MM"]; int i_month=0; NSString *theMonth = [dateFormat stringFromDate:in_date]; if([[theMonth substringToIndex:0] isEqualToString:@"0"]){ i_month = [[theMonth substringFromIndex:1] intValue]; }else{ i_month = [theMonth intValue]; } [dateFormat setDateFormat:@"dd"]; int i_day=0; NSString *theDay = [dateFormat stringFromDate:in_date]; if([[theDay substringToIndex:0] isEqualToString:@"0"]){ i_day = [[theDay substringFromIndex:1] intValue]; }else{ i_day = [theDay intValue]; } /* 摩羯座 12月22日------1月19日 水瓶座 1月20日-------2月18日 双鱼座 2月19日-------3月20日 白羊座 3月21日-------4月19日 金牛座 4月20日-------5月20日 双子座 5月21日-------6月21日 巨蟹座 6月22日-------7月22日 狮子座 7月23日-------8月22日 处女座 8月23日-------9月22日 天秤座 9月23日------10月23日 天蝎座 10月24日-----11月21日 射手座 11月22日-----12月21日 */ switch (i_month) { case 1: if(i_day>=20 && i_day<=31){ retStr=@"水瓶座"; } if(i_day>=1 && i_day<=19){ retStr=@"摩羯座"; } break; case 2: if(i_day>=1 && i_day<=18){ retStr=@"水瓶座"; } if(i_day>=19 && i_day<=31){ retStr=@"双鱼座"; } break; case 3: if(i_day>=1 && i_day<=20){ retStr=@"双鱼座"; } if(i_day>=21 && i_day<=31){ retStr=@"白羊座"; } break; case 4: if(i_day>=1 && i_day<=19){ retStr=@"白羊座"; } if(i_day>=20 && i_day<=31){ retStr=@"金牛座"; } break; case 5: if(i_day>=1 && i_day<=20){ retStr=@"金牛座"; } if(i_day>=21 && i_day<=31){ retStr=@"双子座"; } break; case 6: if(i_day>=1 && i_day<=21){ retStr=@"双子座"; } if(i_day>=22 && i_day<=31){ retStr=@"巨蟹座"; } break; case 7: if(i_day>=1 && i_day<=22){ retStr=@"巨蟹座"; } if(i_day>=23 && i_day<=31){ retStr=@"狮子座"; } break; case 8: if(i_day>=1 && i_day<=22){ retStr=@"狮子座"; } if(i_day>=23 && i_day<=31){ retStr=@"处女座"; } break; case 9: if(i_day>=1 && i_day<=22){ retStr=@"处女座"; } if(i_day>=23 && i_day<=31){ retStr=@"天秤座"; } break; case 10: if(i_day>=1 && i_day<=23){ retStr=@"天秤座"; } if(i_day>=24 && i_day<=31){ retStr=@"天蝎座"; } break; case 11: if(i_day>=1 && i_day<=21){ retStr=@"天蝎座"; } if(i_day>=22 && i_day<=31){ retStr=@"射手座"; } break; case 12: if(i_day>=1 && i_day<=21){ retStr=@"射手座"; } if(i_day>=21 && i_day<=31){ retStr=@"摩羯座"; } break; } return retStr; }
时间: 2024-10-09 13:02:48