#include "slalib.h" #include "slamac.h" void slaClyd ( int iy, int im, int id, int *ny, int *nd, int *jstat ) /* ** - - - - - - - - ** s l a C l y d ** - - - - - - - - ** ** Gregorian calendar to year and day in year (in a Julian calendar ** aligned to the 20th/21st century Gregorian calendar). ** ** Given: ** iy,im,id int year, month, day in Gregorian calendar ** ** Returned: ** ny int year (re-aligned Julian calendar) ** nd int day in year (1 = January 1st) ** jstat int status: ** 0 = OK ** 1 = bad year (before -4711) ** 2 = bad month ** 3 = bad day (but conversion performed) ** ** Notes: ** ** 1 This routine exists to support the low-precision routines ** slaEarth, slaMoon and slaEcor. ** ** 2 Between 1900 March 1 and 2100 February 28 it returns answers ** which are consistent with the ordinary Gregorian calendar. ** Outside this range there will be a discrepancy which increases ** by one day for every non-leap century year. ** ** 3 The essence of the algorithm is first to express the Gregorian ** date as a Julian Day Number and then to convert this back to ** a Julian calendar date, with day-in-year instead of month and ** day. See 12.92-1 and 12.95-1 in the reference. ** ** Reference: Explanatory Supplement to the Astronomical Almanac, ** ed P.K.Seidelmann, University Science Books (1992), ** p604-606. ** ** Last revision: 26 November 1994 ** ** Copyright P.T.Wallace. All rights reserved. */ { long i, j, k, l, n, iyL, imL; /* Month lengths in days */ static int mtab[12] = { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; /* Validate year */ if ( iy < -4711 ) { *jstat = 1; return; } /* Validate month */ if ( ( im < 1 ) || ( im > 12 ) ) { *jstat = 2; return; } /* Allow for (Gregorian) leap year */ mtab[1] = ( ( ( iy % 4 ) == 0 ) && ( ( ( iy % 100 ) != 0 ) || ( ( iy % 400 ) == 0 ) ) ) ? 29 : 28; /* Validate day */ *jstat = ( id < 1 || id > mtab[im-1] ) ? 3 : 0; /* Perform the conversion */ iyL = (long) iy; imL = (long) im; i = ( 14 - imL ) /12L; k = iyL - i; j = ( 1461L * ( k + 4800L ) ) / 4L + ( 367L * ( imL - 2L + 12L * i ) ) / 12L - ( 3L * ( ( k + 4900L ) / 100L ) ) / 4L + (long) id - 30660L; k = ( j - 1L ) / 1461L; l = j - 1461L * k; n = ( l - 1L ) / 365L - l / 1461L; j = ( ( 80L * ( l - 365L * n + 30L ) ) / 2447L ) / 11L; i = n + j; *nd = 59 + (int) ( l -365L * i + ( ( 4L - n ) / 4L ) * ( 1L - j ) ); *ny = (int) ( 4L * k + i ) - 4716; }