/* - mode: c; c-basic-offset: 2; indent-tabs-mode: nil; -*- * vim:expandtab:shiftwidth=2:tabstop=2:smarttab: * * Copyright (C) 2008 Sun Microsystems * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ /** * @file * * Structures and functions for: * * Calculating day number in Gregorian and Julian proleptic calendars. * Converting between day numbers and dates in the calendars. * Converting between different calendars. * Calculating differences between dates. * * Works used in research: * * @cite "Calendrical Calculations", Dershowitz and Reingold * @cite ISO 8601 http://en.wikipedia.org/wiki/ISO_8601 * @cite http://www.ddj.com/hpc-high-performance-computing/197006254 * @cite http://en.wikipedia.org/wiki/Julian_day#Calculation */ #ifndef DRIZZLED_CALENDAR_H #define DRIZZLED_CALENDAR_H #define JULIAN_DAY_NUMBER_AT_ABSOLUTE_DAY_ONE INT64_C(1721425) #define DAYS_IN_NORMAL_YEAR INT32_C(365) #define DAYS_IN_LEAP_YEAR INT32_C(366) #define GREGORIAN_START_YEAR 1582 #define GREGORIAN_START_MONTH 10 #define GREGORIAN_START_DAY 15 #define UNIX_EPOCH_MAX_YEARS 2038 #define UNIX_EPOCH_MIN_YEARS 1970 #define CALENDAR_YY_PART_YEAR 70 /** * The following constants define the system of calculating the number * of days in various periods of time in the Gregorian calendar. * * Leap years (years containing 366 days) occur: * * - When the year is evenly divisible by 4 * - If the year is evenly divisible by 100, it must also * be evenly divisible by 400. */ #define GREGORIAN_DAYS_IN_400_YEARS UINT32_C(146097) #define GREGORIAN_DAYS_IN_100_YEARS UINT32_C(36524) #define GREGORIAN_DAYS_IN_4_YEARS UINT32_C(1461) /** * Simple macro returning whether the supplied year * is a leap year in the supplied calendar. * * @param Year to evaluate * @param Calendar to use */ #define IS_LEAP_YEAR(y, c) (days_in_year((y),(c)) == 366) /** * Simple macro returning whether the supplied year * is a leap year in the Gregorian proleptic calendar. */ #define IS_GREGORIAN_LEAP_YEAR(y) (days_in_year_gregorian((y)) == 366) /** * Simple macro returning whether the supplied year * is a leap year in the Julian proleptic calendar. */ #define IS_JULIAN_LEAP_YEAR(y) (days_in_year_julian((y)) == 366) namespace drizzled { /** * Different calendars supported by the temporal library */ enum calendar { GREGORIAN= 1 , JULIAN= 2 , HEBREW= 3 , ISLAM= 4 }; /** * Calculates the Julian Day Number from the year, month * and day supplied for a Gregorian Proleptic calendar date. * * @note * * Year month and day values are assumed to be valid. This * method does no bounds checking or validation. * * @param Year of date * @param Month of date * @param Day of date */ int64_t julian_day_number_from_gregorian_date(uint32_t year, uint32_t month, uint32_t day); /** * Translates an absolute day number to a * Julian day number. * * @param The absolute day number */ int64_t absolute_day_number_to_julian_day_number(int64_t absolute_day); /** * Translates a Julian day number to an * absolute day number. * * @param The Julian day number */ int64_t julian_day_number_to_absolute_day_number(int64_t julian_day); /** * Given a supplied Julian Day Number, populates a year, month, and day * with the date in the Gregorian Proleptic calendar which corresponds to * the given Julian Day Number. * * @param Julian Day Number * @param Pointer to year to populate * @param Pointer to month to populate * @param Pointer to the day to populate */ void gregorian_date_from_julian_day_number(int64_t julian_day , uint32_t *year_out , uint32_t *month_out , uint32_t *day_out); /** * Given a supplied Absolute Day Number, populates a year, month, and day * with the date in the Gregorian Proleptic calendar which corresponds to * the given Absolute Day Number. * * @param Absolute Day Number * @param Pointer to year to populate * @param Pointer to month to populate * @param Pointer to the day to populate */ void gregorian_date_from_absolute_day_number(int64_t absolute_day , uint32_t *year_out , uint32_t *month_out , uint32_t *day_out); /** * Returns the number of days in a particular year. * * @param year to evaluate * @param calendar to use */ uint32_t days_in_year(uint32_t year, enum calendar calendar); /** * Returns the number of days in a particular Gregorian Proleptic calendar year. * * @param year to evaluate */ uint32_t days_in_year_gregorian(uint32_t year); /** * Returns the number of days in a particular Julian Proleptic calendar year. * * @param year to evaluate */ uint32_t days_in_year_julian(uint32_t year); #define NUM_LEAP_YEARS(y, c) ((c) == GREGORIAN \ ? number_of_leap_years_gregorian((y)) \ : number_of_leap_years_julian((y))) /** * Returns the number of leap years that have * occurred in the Julian Proleptic calendar * up to the supplied year. * * @param year to evaluate (1 - 9999) */ int32_t number_of_leap_years_julian(uint32_t year); /** * Returns the number of leap years that have * occurred in the Gregorian Proleptic calendar * up to the supplied year. * * @param year to evaluate (1 - 9999) */ int32_t number_of_leap_years_gregorian(uint32_t year); /** * Returns the number of days in a month, given * a year and a month in the Gregorian calendar. * * @param Year in Gregorian Proleptic calendar * @param Month in date */ uint32_t days_in_gregorian_year_month(uint32_t year, uint32_t month); /** * Returns the number of the day in a week. * * @see temporal_to_number_days() * * Return values: * * Day Day Number Sunday first day? * -------------- ----------- ----------------- * Sunday 0 true * Monday 1 true * Tuesday 2 true * Wednesday 3 true * Thursday 4 true * Friday 5 true * Saturday 6 true * Sunday 6 false * Monday 0 false * Tuesday 1 false * Wednesday 2 false * Thursday 3 false * Friday 4 false * Saturday 5 false * * @param Number of days since start of Gregorian calendar. * @param Consider Sunday the first day of the week? */ uint32_t day_of_week(int64_t day_number, bool sunday_is_first_day_of_week); /** * Given a year, month, and day, returns whether the date is * valid for the Gregorian proleptic calendar. * * @param The year * @param The month * @param The day */ bool is_valid_gregorian_date(uint32_t year, uint32_t month, uint32_t day); /** * Returns whether the supplied date components are within the * range of the UNIX epoch. * * Times in the range of 1970-01-01T00:00:00 to 2038-01-19T03:14:07 * * @param Year * @param Month * @param Day * @param Hour * @param Minute * @param Second */ bool in_unix_epoch_range(uint32_t year , uint32_t month , uint32_t day , uint32_t hour , uint32_t minute , uint32_t second); /** * Returns the number of the week from a supplied year, month, and * date in the Gregorian proleptic calendar. We use strftime() and * the %U, %W, and %V format specifiers depending on the value * of the sunday_is_first_day_of_week parameter. * * @param Subject year * @param Subject month * @param Subject day * @param Is sunday the first day of the week? * @param Pointer to a uint32_t to hold the resulting year, which * may be incremented or decremented depending on flags */ uint32_t week_number_from_gregorian_date(uint32_t year , uint32_t month , uint32_t day , bool sunday_is_first_day_of_week); /** * Returns the ISO week number of a supplied year, month, and * date in the Gregorian proleptic calendar. We use strftime() and * the %V format specifier to do the calculation, which yields a * correct ISO 8601:1988 week number. * * The final year_out parameter is a pointer to an integer which will * be set to the year in which the week belongs, according to ISO8601:1988, * which may be different from the Gregorian calendar year. * * @see http://en.wikipedia.org/wiki/ISO_8601 * * @param Subject year * @param Subject month * @param Subject day */ uint32_t iso_week_number_from_gregorian_date(uint32_t year , uint32_t month , uint32_t day); /** * Takes a number in the form [YY]YYMM and converts it into * a number of months. * * @param Period in the form [YY]YYMM */ uint32_t year_month_to_months(uint32_t year_month); /** * Takes a number of months and converts it to * a period in the form YYYYMM. * * @param Number of months */ uint32_t months_to_year_month(uint32_t months); } /* namespace drizzled */ #endif /* DRIZZLED_CALENDAR_H */