8dacc3e636
Change-Id: I202f09303fd385cfcaa468411d0fae8b1707cf88 Reviewed-on: https://gerrit.libreoffice.org/c/core/+/165884 Tested-by: Jenkins Reviewed-by: Noel Grandin <noel.grandin@collabora.co.uk>
315 lines
9.6 KiB
C++
315 lines
9.6 KiB
C++
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
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/*
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* This file is part of the LibreOffice project.
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*
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/.
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*
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* This file incorporates work covered by the following license notice:
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*
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* Licensed to the Apache Software Foundation (ASF) under one or more
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* contributor license agreements. See the NOTICE file distributed
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* with this work for additional information regarding copyright
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* ownership. The ASF licenses this file to you under the Apache
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* License, Version 2.0 (the "License"); you may not use this file
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* except in compliance with the License. You may obtain a copy of
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* the License at http://www.apache.org/licenses/LICENSE-2.0 .
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*/
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#include <sal/config.h>
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#include <i18nutil/calendar.hxx>
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#include <cmath>
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#include <stdlib.h>
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#include <calendar_hijri.hxx>
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#include <tools/long.hxx>
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#include <basegfx/numeric/ftools.hxx>
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using namespace ::com::sun::star::i18n;
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namespace i18npool {
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// Synodic Period (mean time between 2 successive new moon: 29d, 12 hr, 44min, 3sec
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constexpr double SynPeriod = 29.53058868;
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// Julian day on Jan 1, 1900
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constexpr double jd1900 = 2415020.75933;
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// Reference point: March 26, 2001 == 1422 Hijri == 1252 Synodial month from 1900
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constexpr sal_Int32 SynRef = 1252;
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constexpr sal_Int32 GregRef = 1422;
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Calendar_hijri::Calendar_hijri()
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{
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cCalendar = u"com.sun.star.i18n.Calendar_hijri"_ustr;
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}
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#define FIELDS ((1 << CalendarFieldIndex::ERA) | (1 << CalendarFieldIndex::YEAR) | (1 << CalendarFieldIndex::MONTH) | (1 << CalendarFieldIndex::DAY_OF_MONTH))
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// map field value from hijri calendar to gregorian calendar
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void Calendar_hijri::mapToGregorian()
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{
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if (!(fieldSet & FIELDS))
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return;
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sal_Int32 day = static_cast<sal_Int32>(fieldSetValue[CalendarFieldIndex::DAY_OF_MONTH]);
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sal_Int32 month = static_cast<sal_Int32>(fieldSetValue[CalendarFieldIndex::MONTH]) + 1;
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sal_Int32 year = static_cast<sal_Int32>(fieldSetValue[CalendarFieldIndex::YEAR]);
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if (fieldSetValue[CalendarFieldIndex::ERA] == 0)
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year *= -1;
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ToGregorian(&day, &month, &year);
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fieldSetValue[CalendarFieldIndex::ERA] = year <= 0 ? 0 : 1;
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fieldSetValue[CalendarFieldIndex::MONTH] = sal::static_int_cast<sal_Int16>(month - 1);
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fieldSetValue[CalendarFieldIndex::DAY_OF_MONTH] = static_cast<sal_Int16>(day);
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fieldSetValue[CalendarFieldIndex::YEAR] = static_cast<sal_Int16>(abs(year));
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fieldSet |= FIELDS;
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}
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// map field value from gregorian calendar to hijri calendar
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void Calendar_hijri::mapFromGregorian()
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{
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sal_Int32 month, day, year;
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day = static_cast<sal_Int32>(fieldValue[CalendarFieldIndex::DAY_OF_MONTH]);
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month = static_cast<sal_Int32>(fieldValue[CalendarFieldIndex::MONTH]) + 1;
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year = static_cast<sal_Int32>(fieldValue[CalendarFieldIndex::YEAR]);
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if (fieldValue[CalendarFieldIndex::ERA] == 0)
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year *= -1;
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// Get Hijri date
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getHijri(&day, &month, &year);
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fieldValue[CalendarFieldIndex::DAY_OF_MONTH] = static_cast<sal_Int16>(day);
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fieldValue[CalendarFieldIndex::MONTH] = sal::static_int_cast<sal_Int16>(month - 1);
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fieldValue[CalendarFieldIndex::YEAR] = static_cast<sal_Int16>(abs(year));
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fieldValue[CalendarFieldIndex::ERA] = static_cast<sal_Int16>(year) < 1 ? 0 : 1;
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}
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// This function returns the Julian date/time of the Nth new moon since
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// January 1900. The synodic month is passed as parameter.
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// Adapted from "Astronomical Formulae for Calculators" by
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// Jean Meeus, Third Edition, Willmann-Bell, 1985.
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double
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Calendar_hijri::NewMoon(sal_Int32 n)
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{
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double jd, t, t2, t3, k, ma, sa, tf, xtra;
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k = n;
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t = k/1236.85; // Time in Julian centuries from 1900 January 0.5
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t2 = t * t;
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t3 = t2 * t;
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// Mean time of phase
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jd = jd1900
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+ SynPeriod * k
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- 0.0001178 * t2
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- 0.000000155 * t3
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+ 0.00033 * sin(basegfx::deg2rad(166.56 + 132.87 * t - 0.009173 * t2));
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// Sun's mean anomaly in radian
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sa = basegfx::deg2rad(359.2242
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+ 29.10535608 * k
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- 0.0000333 * t2
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- 0.00000347 * t3);
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// Moon's mean anomaly
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ma = basegfx::deg2rad(306.0253
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+ 385.81691806 * k
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+ 0.0107306 * t2
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+ 0.00001236 * t3);
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// Moon's argument of latitude
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tf = 2.0 * basegfx::deg2rad(21.2964
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+ 390.67050646 * k
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- 0.0016528 * t2
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- 0.00000239 * t3);
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// should reduce to interval between 0 to 1.0 before calculating further
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// Corrections for New 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)
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+ 0.0161 * sin(2 * ma)
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- 0.0004 * sin(3 * ma)
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+ 0.0104 * sin(tf)
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- 0.0051 * sin(sa + ma)
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- 0.0074 * sin(sa - ma)
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+ 0.0004 * sin(tf + sa)
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- 0.0004 * sin(tf - sa)
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- 0.0006 * sin(tf + ma)
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+ 0.0010 * sin(tf - ma)
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+ 0.0005 * sin(sa + 2 * ma);
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// convert from Ephemeris Time (ET) to (approximate) 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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// Get Hijri Date
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void
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Calendar_hijri::getHijri(sal_Int32 *day, sal_Int32 *month, sal_Int32 *year)
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{
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double prevday;
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sal_Int32 syndiff;
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sal_Int32 newsyn;
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double newjd;
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sal_Int32 synmonth;
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// Get Julian Day from Gregorian
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sal_Int32 const julday = getJulianDay(*day, *month, *year);
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// obtain approx. of how many Synodic months since the beginning of the year 1900
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synmonth = static_cast<sal_Int32>(0.5 + (julday - jd1900)/SynPeriod);
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newsyn = synmonth;
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prevday = julday - 0.5;
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do {
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newjd = NewMoon(newsyn);
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// Decrement syntonic months
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newsyn--;
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} while (newjd > prevday);
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newsyn++;
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// difference from reference point
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syndiff = newsyn - SynRef;
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// Round up the day
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*day = static_cast<sal_Int32>(julday - newjd + 0.5);
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*month = (syndiff % 12) + 1;
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// currently not supported
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//dayOfYear = (sal_Int32)(month * SynPeriod + day);
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*year = GregRef + static_cast<sal_Int32>(syndiff / 12);
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// If month negative, consider it previous year
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if (syndiff != 0 && *month <= 0) {
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*month += 12;
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(*year)--;
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}
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// If Before Hijri subtract 1
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if (*year <= 0) (*year)--;
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}
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void
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Calendar_hijri::ToGregorian(sal_Int32 *day, sal_Int32 *month, sal_Int32 *year)
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{
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sal_Int32 nmonth;
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double jday;
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if ( *year < 0 ) (*year)++;
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// Number of month from reference point
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nmonth = *month + *year * 12 - (GregRef * 12 + 1);
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// Add Synodic Reference point
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nmonth += SynRef;
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// Get Julian days add time too
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jday = NewMoon(nmonth) + *day;
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// Round-up
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jday = std::trunc(jday + 0.5);
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// Use algorithm from "Numerical Recipes in C"
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getGregorianDay(static_cast<sal_Int32>(jday), day, month, year);
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// Julian -> Gregorian only works for non-negative year
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if ( *year <= 0 ) {
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*day = -1;
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*month = -1;
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*year = -1;
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}
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}
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/* this algorithm is taken from "Numerical Recipes in C", 2nd ed, pp 14-15. */
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/* this algorithm only valid for non-negative gregorian year */
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void
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Calendar_hijri::getGregorianDay(sal_Int32 lJulianDay, sal_Int32 *pnDay, sal_Int32 *pnMonth, sal_Int32 *pnYear)
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{
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/* working variables */
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tools::Long lFactorA, lFactorB, lFactorC, lFactorD, lFactorE;
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constexpr sal_Int32 GREGORIAN_CROSSOVER = 2299161;
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/* test whether to adjust for the Gregorian calendar crossover */
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if (lJulianDay >= GREGORIAN_CROSSOVER) {
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/* calculate a small adjustment */
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tools::Long lAdjust = static_cast<tools::Long>((static_cast<float>(lJulianDay - 1867216) - 0.25) / 36524.25);
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lFactorA = lJulianDay + 1 + lAdjust - static_cast<tools::Long>(0.25 * lAdjust);
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} else {
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/* no adjustment needed */
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lFactorA = lJulianDay;
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}
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lFactorB = lFactorA + 1524;
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lFactorC = static_cast<tools::Long>(6680.0 + (static_cast<float>(lFactorB - 2439870) - 122.1) / 365.25);
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lFactorD = static_cast<tools::Long>(365 * lFactorC + (0.25 * lFactorC));
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lFactorE = static_cast<tools::Long>((lFactorB - lFactorD) / i18nutil::monthDaysWithoutJanFeb);
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/* now, pull out the day number */
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*pnDay = lFactorB - lFactorD - static_cast<tools::Long>(i18nutil::monthDaysWithoutJanFeb * lFactorE);
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/* ...and the month, adjusting it if necessary */
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*pnMonth = lFactorE - 1;
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if (*pnMonth > 12)
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(*pnMonth) -= 12;
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/* ...and similarly for the year */
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*pnYear = lFactorC - 4715;
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if (*pnMonth > 2)
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(*pnYear)--;
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// Negative year adjustments
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if (*pnYear <= 0)
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(*pnYear)--;
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}
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sal_Int32
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Calendar_hijri::getJulianDay(sal_Int32 day, sal_Int32 month, sal_Int32 year)
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{
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double jy, jm;
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if( year == 0 ) {
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return -1;
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}
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if( year == 1582 && month == 10 && day > 4 && day < 15 ) {
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return -1;
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}
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if( month > 2 ) {
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jy = year;
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jm = month + 1;
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} else {
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jy = year - 1;
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jm = month + 13;
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}
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sal_Int32 intgr = static_cast<sal_Int32>(static_cast<sal_Int32>(365.25 * jy) + static_cast<sal_Int32>(i18nutil::monthDaysWithoutJanFeb * jm) + day + 1720995 );
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//check for switch to Gregorian calendar
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double const gregcal = 15 + 31 * ( 10 + 12 * 1582 );
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if( day + 31 * (month + 12 * year) >= gregcal ) {
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double ja;
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ja = std::trunc(0.01 * jy);
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intgr += static_cast<sal_Int32>(2 - ja + std::trunc(0.25 * ja));
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}
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return intgr;
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}
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}
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/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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