import {CalendarDate as $35ea8db9cb2ccb90$export$99faa760c7908e4f} from "./CalendarDate.mjs"; import {mod as $2b4dce13dd5a17fa$export$842a2cf37af977e1} from "./utils.mjs"; /* * Copyright 2020 Adobe. All rights reserved. * This file is licensed to you under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. You may obtain a copy * of the License at http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software distributed under * the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR REPRESENTATIONS * OF ANY KIND, either express or implied. See the License for the specific language * governing permissions and limitations under the License. */ // Portions of the code in this file are based on code from ICU. // Original licensing can be found in the NOTICE file in the root directory of this source tree. const $7c5f6fbf42389787$var$HEBREW_EPOCH = 347997; // Hebrew date calculations are performed in terms of days, hours, and // "parts" (or halakim), which are 1/1080 of an hour, or 3 1/3 seconds. const $7c5f6fbf42389787$var$HOUR_PARTS = 1080; const $7c5f6fbf42389787$var$DAY_PARTS = 24 * $7c5f6fbf42389787$var$HOUR_PARTS; // An approximate value for the length of a lunar month. // It is used to calculate the approximate year and month of a given // absolute date. const $7c5f6fbf42389787$var$MONTH_DAYS = 29; const $7c5f6fbf42389787$var$MONTH_FRACT = 12 * $7c5f6fbf42389787$var$HOUR_PARTS + 793; const $7c5f6fbf42389787$var$MONTH_PARTS = $7c5f6fbf42389787$var$MONTH_DAYS * $7c5f6fbf42389787$var$DAY_PARTS + $7c5f6fbf42389787$var$MONTH_FRACT; function $7c5f6fbf42389787$var$isLeapYear(year) { return (0, $2b4dce13dd5a17fa$export$842a2cf37af977e1)(year * 7 + 1, 19) < 7; } // Test for delay of start of new year and to avoid // Sunday, Wednesday, and Friday as start of the new year. function $7c5f6fbf42389787$var$hebrewDelay1(year) { let months = Math.floor((235 * year - 234) / 19); let parts = 12084 + 13753 * months; let day = months * 29 + Math.floor(parts / 25920); if ((0, $2b4dce13dd5a17fa$export$842a2cf37af977e1)(3 * (day + 1), 7) < 3) day += 1; return day; } // Check for delay in start of new year due to length of adjacent years function $7c5f6fbf42389787$var$hebrewDelay2(year) { let last = $7c5f6fbf42389787$var$hebrewDelay1(year - 1); let present = $7c5f6fbf42389787$var$hebrewDelay1(year); let next = $7c5f6fbf42389787$var$hebrewDelay1(year + 1); if (next - present === 356) return 2; if (present - last === 382) return 1; return 0; } function $7c5f6fbf42389787$var$startOfYear(year) { return $7c5f6fbf42389787$var$hebrewDelay1(year) + $7c5f6fbf42389787$var$hebrewDelay2(year); } function $7c5f6fbf42389787$var$getDaysInYear(year) { return $7c5f6fbf42389787$var$startOfYear(year + 1) - $7c5f6fbf42389787$var$startOfYear(year); } function $7c5f6fbf42389787$var$getYearType(year) { let yearLength = $7c5f6fbf42389787$var$getDaysInYear(year); if (yearLength > 380) yearLength -= 30; // Subtract length of leap month. switch(yearLength){ case 353: return 0; // deficient case 354: return 1; // normal case 355: return 2; // complete } } function $7c5f6fbf42389787$var$getDaysInMonth(year, month) { // Normalize month numbers from 1 - 13, even on non-leap years if (month >= 6 && !$7c5f6fbf42389787$var$isLeapYear(year)) month++; // First of all, dispose of fixed-length 29 day months if (month === 4 || month === 7 || month === 9 || month === 11 || month === 13) return 29; let yearType = $7c5f6fbf42389787$var$getYearType(year); // If it's Heshvan, days depend on length of year if (month === 2) return yearType === 2 ? 30 : 29; // Similarly, Kislev varies with the length of year if (month === 3) return yearType === 0 ? 29 : 30; // Adar I only exists in leap years if (month === 6) return $7c5f6fbf42389787$var$isLeapYear(year) ? 30 : 0; return 30; } class $7c5f6fbf42389787$export$ca405048b8fb5af { fromJulianDay(jd) { let d = jd - $7c5f6fbf42389787$var$HEBREW_EPOCH; let m = d * $7c5f6fbf42389787$var$DAY_PARTS / $7c5f6fbf42389787$var$MONTH_PARTS; // Months (approx) let year = Math.floor((19 * m + 234) / 235) + 1; // Years (approx) let ys = $7c5f6fbf42389787$var$startOfYear(year); // 1st day of year let dayOfYear = Math.floor(d - ys); // Because of the postponement rules, it's possible to guess wrong. Fix it. while(dayOfYear < 1){ year--; ys = $7c5f6fbf42389787$var$startOfYear(year); dayOfYear = Math.floor(d - ys); } // Now figure out which month we're in, and the date within that month let month = 1; let monthStart = 0; while(monthStart < dayOfYear){ monthStart += $7c5f6fbf42389787$var$getDaysInMonth(year, month); month++; } month--; monthStart -= $7c5f6fbf42389787$var$getDaysInMonth(year, month); let day = dayOfYear - monthStart; return new (0, $35ea8db9cb2ccb90$export$99faa760c7908e4f)(this, year, month, day); } toJulianDay(date) { let jd = $7c5f6fbf42389787$var$startOfYear(date.year); for(let month = 1; month < date.month; month++)jd += $7c5f6fbf42389787$var$getDaysInMonth(date.year, month); return jd + date.day + $7c5f6fbf42389787$var$HEBREW_EPOCH; } getDaysInMonth(date) { return $7c5f6fbf42389787$var$getDaysInMonth(date.year, date.month); } getMonthsInYear(date) { return $7c5f6fbf42389787$var$isLeapYear(date.year) ? 13 : 12; } getDaysInYear(date) { return $7c5f6fbf42389787$var$getDaysInYear(date.year); } getYearsInEra() { // 6239 gregorian return 9999; } getEras() { return [ 'AM' ]; } balanceYearMonth(date, previousDate) { // Keep date in the same month when switching between leap years and non leap years if (previousDate.year !== date.year) { if ($7c5f6fbf42389787$var$isLeapYear(previousDate.year) && !$7c5f6fbf42389787$var$isLeapYear(date.year) && previousDate.month > 6) date.month--; else if (!$7c5f6fbf42389787$var$isLeapYear(previousDate.year) && $7c5f6fbf42389787$var$isLeapYear(date.year) && previousDate.month > 6) date.month++; } } constructor(){ this.identifier = 'hebrew'; } } export {$7c5f6fbf42389787$export$ca405048b8fb5af as HebrewCalendar}; //# sourceMappingURL=HebrewCalendar.module.js.map