- Copy stable/10 (r259064) to releng/10.0 as part of the

[FreeBSD/releng/10.0.git] / contrib / ntp / include / ntp_calendar.h

/*
 * ntp_calendar.h - definitions for the calendar time-of-day routine
 */
#ifndef NTP_CALENDAR_H
#define NTP_CALENDAR_H

#include "ntp_types.h"

struct calendar {
        u_short year;   /* year (A.D.) */
        u_short yearday;        /* day of year, 1 = January 1 */
        u_char month;   /* month, 1 = January */
        u_char monthday;        /* day of month */
        u_char hour;    /* hour of day, midnight = 0 */
        u_char minute;  /* minute of hour */
        u_char second;  /* second of minute */
};

/*
 * Days in each month.  30 days hath September...
 */
#define JAN     31
#define FEB     28
#define FEBLEAP 29
#define MAR     31
#define APR     30
#define MAY     31
#define JUN     30
#define JUL     31
#define AUG     31
#define SEP     30
#define OCT     31
#define NOV     30
#define DEC     31

/*
 * We deal in a 4 year cycle starting at March 1, 1900.  We assume
 * we will only want to deal with dates since then, and not to exceed
 * the rollover day in 2036.
 */
#define SECSPERMIN      (60)                    /* seconds per minute */
#define MINSPERHR       (60)                    /* minutes per hour */
#define HRSPERDAY       (24)                    /* hours per day */
#define DAYSPERYEAR     (365)                   /* days per year */

#define SECSPERDAY      (SECSPERMIN*MINSPERHR*HRSPERDAY)
#define SECSPERYEAR     (365 * SECSPERDAY)      /* regular year */
#define SECSPERLEAPYEAR (366 * SECSPERDAY)      /* leap year */

#define MAR1900         ((JAN+FEB) * SECSPERDAY) /* no leap year in 1900 */
#define DAYSPERCYCLE    (365+365+365+366)       /* 3 normal years plus leap */
#define SECSPERCYCLE    (DAYSPERCYCLE*SECSPERDAY)
#define YEARSPERCYCLE   4

/*
 * Gross hacks.  I have illicit knowlege that there won't be overflows
 * here, the compiler often can't tell this.
 */
#define TIMES60(val)    ((((val)<<4) - (val))<<2)       /* *(16 - 1) * 4 */
#define TIMES24(val)    (((val)<<4) + ((val)<<3))       /* *16 + *8 */
#define TIMES7(val)     (((val)<<3) - (val))            /* *8  - *1 */
#define TIMESDPERC(val) (((val)<<10) + ((val)<<8) \
                        + ((val)<<7) + ((val)<<5) \
                        + ((val)<<4) + ((val)<<2) + (val))      /* *big* hack */

/*
 * Another big hack.  Cycle 22 started on March 1, 1988.  This is
 * STARTCYCLE22 seconds after the start of cycle 0.
 */
#define CYCLE22         (22)
#define STARTCYCLE22    (u_long)(0xa586b500)    /* 2777068800 */
#define MAR1988         (u_long)(STARTCYCLE22 + (u_long)MAR1900)

/*
 * The length of January + February in leap and non-leap years.
 */
#define JANFEBNOLEAP    ((JAN+FEB) * SECSPERDAY)
#define JANFEBLEAP      ((JAN+FEBLEAP) * SECSPERDAY)


extern  void    caljulian       P((u_long, struct calendar *));
extern  u_long  caltontp        P((const struct calendar *));

/*
 * Additional support stuff for Ed Rheingold's calendrical calculations
 */

/*
 * Start day of NTP time as days past the imaginary date 12/1/1 BC.
 * P((This is the beginning of the Christian Era, or BCE.))
 */
#define DAY_NTP_STARTS 693596
/*
 * The Gregorian calendar is based on a 400 year cycle.  This is the number
 * of days in each cycle.
 */
#define GREGORIAN_CYCLE_DAYS 146097

/*
 * Days in a normal 100 year leap year calendar.  We lose a leap year day
 * in years evenly divisible by 100 but not by 400.
 */
#define GREGORIAN_NORMAL_CENTURY_DAYS 36524

/*
 * Days in a normal 4 year leap year calendar cycle.
 */
#define GREGORIAN_NORMAL_LEAP_CYCLE_DAYS 1461

#define is_leapyear(y) (y%4 == 0 && !(y%100 == 0 && !(y%400 == 0)))

#endif