470 lines
10 KiB
C
470 lines
10 KiB
C
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/* persian calendar functions original code is by Kees Couprie
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http://www.geocities.com/couprie/calmath/ */
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/* islamic conversion and moonphase calculation is taken from
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*
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* hdate
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*
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* Copyright (c) 1992 by Waleed A. Muhanna
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*
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* Permission for nonprofit use and redistribution of this software and
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* its documentation is hereby granted without fee, provided that the
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* above copyright notice appear in all copies and that both that copyright
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* notice and this permission notice appear in supporting documentation.
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*
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* No representation is made about the suitability of this software for any
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* purpose. It is provided "as is" without express or implied warranty.
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*
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* Send any comments/suggestions/fixes/additions to:
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* wmuhanna@magnus.acs.ohio-state.edu
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*
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*/
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#include "calendarfunc.h"
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#include <stdio.h>
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long persian_jdn(struct icaltimetype dt)
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{
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const long PERSIAN_EPOCH = 1948321; /* The JDN of 1 Farvardin 1*/
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int epbase;
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long epyear;
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long mdays;
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long jdn;
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epbase = dt.year - 474;
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epyear = 474 + (epbase % 2820);
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if (dt.month <= 7)
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mdays = (dt.month - 1) * 31;
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else
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mdays = (dt.month - 1) * 30 + 6;
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jdn = dt.day + mdays ;
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jdn += (((epyear * 682) - 110) / 2816) ;
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jdn += (epyear - 1) * 365;
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jdn += (epbase / 2820) * 1029983 ;
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jdn += (PERSIAN_EPOCH - 1);
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return jdn;
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}
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double tmoonphase( long n, int nph)
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{
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double jd, t, t2, t3, k, ma, sa, tf, xtra;
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k = n + nph/4.0; t = k/1236.85; t2 = t*t; t3 = t2*t;
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jd = 2415020.75933 + 29.53058868*k - 1.178e-4 * t2
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- 1.55e-7 * t3
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+ 3.3e-4 * sin (RPD * (166.56 +132.87*t -0.009173*t2));
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/* Sun's mean anomaly */
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sa = RPD * (359.2242 + 29.10535608*k - 3.33e-5 * t2 - 3.47e-6 * t3);
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/* Moon's mean anomaly */
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ma = RPD * (306.0253 + 385.81691806*k + 0.0107306*t2 +1.236e-5 *t3);
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/* Moon's argument of latitude */
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tf = RPD * 2.0 * (21.2964 + 390.67050646*k -0.0016528*t2
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-2.39e-6 * t3);
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/* should reduce to interval 0-1.0 before calculating further */
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if (nph==0 || nph==2)
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/* Corrections for New and Full Moon */
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xtra = (0.1734 - 0.000393*t) * sin(sa)
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+0.0021*sin(sa*2)
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-0.4068*sin(ma) +0.0161*sin(2*ma) -0.0004*sin(3*ma)
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+0.0104*sin(tf)
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-0.0051*sin(sa+ma) -0.0074*sin(sa-ma)
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+0.0004*sin(tf+sa) -0.0004*sin(tf-sa)
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-0.0006*sin(tf+ma) +0.0010*sin(tf-ma)
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+0.0005*sin(sa+ 2*ma);
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else if (nph==1 || nph==3) {
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xtra = (0.1721 - 0.0004*t) * sin(sa)
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+0.0021*sin(sa*2)
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-0.6280*sin(ma) +0.0089*sin(2*ma) -0.0004*sin(3*ma)
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+0.0079*sin(tf)
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-0.0119*sin(sa+ma) -0.0047*sin(sa-ma)
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+0.0003*sin(tf+sa) -0.0004*sin(tf-sa)
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-0.0006*sin(tf+ma) +0.0021*sin(tf-ma)
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+0.0003*sin(sa+ 2*ma) +0.0004*sin(sa-2*ma)
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-0.0003*sin(2*sa+ma);
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if (nph==1)
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xtra = xtra +0.0028 -0.0004*cos(sa) +0.0003*cos(ma);
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else
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xtra = xtra -0.0028 +0.0004*cos(sa) -0.0003*cos(ma);
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} else {
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printf("tmoonphase: illegal phase number\n");
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exit(1);
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}
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/* convert from Ephemeris Time (ET) to (approximate)
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Universal Time (UT) */
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jd += xtra - (0.41 +1.2053*t +0.4992*t2)/1440;
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return (jd);
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}
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double visible(long n,double * rjd)
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{
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double jd;
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float tf;
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long d;
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jd = tmoonphase(n,0);
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*rjd = jd;
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d = jd;
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tf = (jd - d);
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if (tf<=0.5) /*new moon starts in the afternoon */
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return(jd+1.0);
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/* new moon starts before noon */
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tf = (tf-0.5)*24 +TIMZ; /* local time */
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if (tf>TIMDIF) return(jd+1.0); /*age at sunset < min for visiblity*/
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return(jd);
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}
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struct icaltimetype jdn_islamic(long jdn)
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{
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struct icaltimetype h;
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double mjd, rjd;
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long k, hm;
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/* obtain first approx. of how many new moons since the beginning
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of the year 1900 */
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h = jdn_civil(jdn);
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k = 0.6 + (h.year + ((int) (h.month - 0.5)) / 12.0 + h.day
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/ 365.0 - 1900) * 12.3685;
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do{
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mjd = visible(k--, &rjd);
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} while (mjd > jdn);
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k++;
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/*first of the month is the following day*/
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hm = k - 1048;
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h.year = 1405 + (hm / 12);
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h.month = (hm % 12) +1;
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if (hm != 0 && h.month <= 0) {
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h.month += 12;
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h.year--;
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}
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if (h.year<=0)
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h.year--;
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h.day = jdn - mjd + 1;
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return h;
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}
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long islamic_jdn(struct icaltimetype dt)
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{
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double jd, rjd;
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long k;
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k = dt.month + dt.year * 12 - NMONTHS; /* # of m since 1/1/1405 */
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jd = visible(k + 1048L, &rjd) + dt.day;
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return jd;
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}
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struct icaltimetype jdn_persian(long jdn)
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{
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struct icaltimetype ret, h;
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int iYear, iMonth, iDay;
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int depoch;
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int cycle;
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int cyear;
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int ycycle;
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int aux1, aux2;
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int yday;
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h.day = 1;
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h.month = 1;
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h.year = 475;
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depoch = jdn - persian_jdn(h);
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cycle = depoch / 1029983;
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cyear = depoch % 1029983;
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if( cyear == 1029982)
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ycycle = 2820;
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else{
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aux1 = cyear / 366;
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aux2 = cyear % 366;
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ycycle = (((2134 * aux1) + (2816 * aux2) + 2815) / 1028522) + aux1 + 1;
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}
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iYear = ycycle + (2820 * cycle) + 474;
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if (iYear <= 0)
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iYear = iYear - 1;
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h.year = iYear;
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yday = (jdn - persian_jdn(h)) + 1;
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if(yday <= 186 )
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iMonth = Ceil((yday-1) / 31);
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else
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iMonth = Ceil((yday - 7) / 30);
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iMonth++;
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h.month = iMonth;
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iDay = (jdn - persian_jdn(h)) + 1;
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ret.day = iDay;
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ret.month = iMonth;
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ret.year = iYear;
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ret.is_date = 1;
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return ret;
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}
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int Ceil(float number)
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{
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int ret;
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if(number>0)
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number += 0.5;
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ret = number;
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return ret;
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}
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long civil_jdn(struct icaltimetype dt)
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{
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long jdn = ((1461 * (dt.year + 4800 + ((dt.month - 14) / 12))) / 4)
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+ ((367 * (dt.month - 2 - 12 * (((dt.month - 14) / 12)))) / 12)
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- ((3 * (((dt.year + 4900 + ((dt.month - 14) / 12)) / 100))) / 4)
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+ dt.day - 32075;
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return jdn;
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}
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struct icaltimetype jdn_civil(long jdn)
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{
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long l, n, i, j;
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struct icaltimetype ret;
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int iday, imonth, iyear;
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l = jdn + 68569;
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n = ((4 * l) / 146097);
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l = l - ((146097 * n + 3) / 4);
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i = ((4000 * (l + 1)) / 1461001);
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l = l - ((1461 * i) / 4) + 31;
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j = ((80 * l) / 2447);
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iday = l - ((2447 * j) / 80);
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l = (j / 11);
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imonth = j + 2 - 12 * l;
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iyear = 100 * (n - 49) + i + l;
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ret.day = iday;
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ret.month = imonth;
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ret.year = iyear;
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ret.hour = 0;
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ret.minute = 0;
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ret.second = 0;
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return ret;
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}
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struct icaltimetype civil_persian(struct icaltimetype dt)
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{
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return(jdn_persian(civil_jdn(dt)));
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}
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struct icaltimetype civil_islamic(struct icaltimetype dt)
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{
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return(jdn_islamic(civil_jdn(dt)));
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}
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struct icaltimetype persian_civil(struct icaltimetype dt)
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{
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return(jdn_civil(persian_jdn(dt)));
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}
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struct icaltimetype islamic_civil(struct icaltimetype dt)
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{
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return(jdn_civil(islamic_jdn(dt)));
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}
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struct icaltimetype get_civil(struct icaltimetype dt, int calendar){
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if(calendar == 0)
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return dt;
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else if(calendar == 1)
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return persian_civil(dt);
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else if(calendar == 2)
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return islamic_civil(dt);
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}
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int isPersianLeap(int year)
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{
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struct icaltimetype dt, dold;
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dt.year = year;
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dt.month = 12;
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dt.day = 30;
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dold = jdn_civil(2453108);
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dt = civil_persian(persian_civil(dt));
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if(dt.day == 1)
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return 0;
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return 1 ;
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}
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int isGregorianLeap(int year)
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{
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if(year % 4 !=0)
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return 0;
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if(year % 100 == 0 && year % 400 != 0)
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return 0;
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return 1;
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}
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int days_in_month(int month, int year, int calendar)
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{
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if(calendar == 0)
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return days_in_gregorian_month(month, year);
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else if(calendar == 1)
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return days_in_persian_month(month, year);
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else if(calendar == 2)
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return days_in_islamic_month(month, year);
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}
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int days_in_persian_month(int month, int year)
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{
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if(month < 7)
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return 31;
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if(month < 12)
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return 30;
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if(isPersianLeap(year))
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return 30;
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return 29;
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}
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int days_in_islamic_month(int month, int year)
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{
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struct icaltimetype dt, dold;
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month++;
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if(month == 13){
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month = 1;
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year++;
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}
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dt.year = year;
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dt.month = month;
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dt.day = 1;
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dt = jdn_islamic(islamic_jdn(dt) - 1);
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return dt.day;
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}
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int days_in_gregorian_month(int month, int year)
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{
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switch(month){
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case 4:
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case 6:
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case 9:
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case 11:
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return 30;
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case 2:
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return 28 + isGregorianLeap(year);
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default:
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return 31;
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}
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}
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int day_of_week(struct icaltimetype dt)
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{
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int jd;
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jd = civil_jdn(dt);
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jd --;
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return jd % 7;
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}
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int moon(struct icaltimetype h)
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{
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int k, jd, i ,j, jdn;
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long mjd = 0;
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jd = civil_jdn(h);
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if(datemoon[jd%200][1] == jd)
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return datemoon[jd%200][0];
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k = 1 + (h.year + ((int) (h.month - 0.5)) / 12.0 + h.day / 365.0 - 1900) * 12.3685;
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do {
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mjd = tmoonphase(k--, 0);
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} while (mjd > jd);
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k--;
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for(i = tmoonphase(k,0); i < tmoonphase(k+5,0 ); i++){
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datemoon[i%200][0] = 0;
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datemoon[i%200][1] = i;
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}
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for(j = 0; j < 6; j++){
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for(i = 0; i < 4; i++){
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mjd = tmoonphase(k, i);
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datemoon[mjd%200][0] = i+1;
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datemoon[mjd%200][1] = mjd;
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}
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k++;
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}
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if(datemoon[jd%200][1] == jd)
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return datemoon[jd%200][0];
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return 0;
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}
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int daysComp(struct icaltimetype d1, struct icaltimetype d2){
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if(d1.year < d2.year)
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return 1; /* d1 < d2 */
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if(d1.year > d2.year)
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return 2; /* d1 > d2 */
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/* years are equal */
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if(d1.month < d2.month)
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return 1; /* d1 < d2 */
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if(d1.month > d2.month)
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return 2; /* d1 > d2 */
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/* months are equal */
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if(d1.day < d2.day)
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return 1; /* d1 < d2 */
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if(d1.day > d2.day)
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return 2; /* d1 > d2 */
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return 0; /* days are equal */
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}
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int daysEqual(struct icaltimetype d1, struct icaltimetype d2){
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if(daysComp(d1, d2) == 0)
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return 1;
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return 0;
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}
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|
|
||
|
int daysLater(struct icaltimetype d1, struct icaltimetype d2){
|
||
|
if(daysComp(d1, d2) == 1)
|
||
|
return 1;
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
|
||
|
int daysEarlier(struct icaltimetype d1, struct icaltimetype d2){
|
||
|
if(daysComp(d1, d2) == 2)
|
||
|
return 1;
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
|
||
|
int daysLaterEqual(struct icaltimetype d1, struct icaltimetype d2){
|
||
|
if(daysComp(d1, d2) != 2)
|
||
|
return 1;
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
|
||
|
int daysEarlierEqual(struct icaltimetype d1, struct icaltimetype d2){
|
||
|
if(daysComp(d1, d2) != 1)
|
||
|
return 1;
|
||
|
return 0;
|
||
|
}
|