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 * Copyright (c) 2012, 2013, Oracle and/or its affiliates. All rights reserved.

 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.

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 * This code is free software; you can redistribute it and/or modify it

 * under the terms of the GNU General Public License version 2 only, as

 * published by the Free Software Foundation.  Oracle designates this

 * particular file as subject to the "Classpath" exception as provided

 * by Oracle in the LICENSE file that accompanied this code.

 *

 * This code 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

 * version 2 for more details (a copy is included in the LICENSE file that

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 * You should have received a copy of the GNU General Public License version

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/*

 * This file is available under and governed by the GNU General Public

 * License version 2 only, as published by the Free Software Foundation.

 * However, the following notice accompanied the original version of this

 * file:

 *

 * Copyright (c) 2012, Stephen Colebourne & Michael Nascimento Santos

 *

 * All rights reserved.

 *

 * Redistribution and use in source and binary forms, with or without

 * modification, are permitted provided that the following conditions are met:

 *

 *  * Redistributions of source code must retain the above copyright notice,

 *    this list of conditions and the following disclaimer.

 *

 *  * Redistributions in binary form must reproduce the above copyright notice,

 *    this list of conditions and the following disclaimer in the documentation

 *    and/or other materials provided with the distribution.

 *

 *  * Neither the name of JSR-310 nor the names of its contributors

 *    may be used to endorse or promote products derived from this software

 *    without specific prior written permission.

 *

 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS

 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT

 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR

 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR

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 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 */

package java.time.chrono;

import static java.time.temporal.ChronoField.ALIGNED_DAY_OF_WEEK_IN_MONTH;

import static java.time.temporal.ChronoField.ALIGNED_DAY_OF_WEEK_IN_YEAR;

import static java.time.temporal.ChronoField.ALIGNED_WEEK_OF_MONTH;

import static java.time.temporal.ChronoField.ALIGNED_WEEK_OF_YEAR;

import static java.time.temporal.ChronoField.DAY_OF_MONTH;

import static java.time.temporal.ChronoField.DAY_OF_WEEK;

import static java.time.temporal.ChronoField.DAY_OF_YEAR;

import static java.time.temporal.ChronoField.EPOCH_DAY;

import static java.time.temporal.ChronoField.ERA;

import static java.time.temporal.ChronoField.MONTH_OF_YEAR;

import static java.time.temporal.ChronoField.PROLEPTIC_MONTH;

import static java.time.temporal.ChronoField.YEAR;

import static java.time.temporal.ChronoField.YEAR_OF_ERA;

import static java.time.temporal.TemporalAdjuster.nextOrSame;

import java.io.Serializable;

import java.time.Clock;

import java.time.DateTimeException;

import java.time.DayOfWeek;

import java.time.Instant;

import java.time.LocalDate;

import java.time.LocalDateTime;

import java.time.Month;

import java.time.Year;

import java.time.ZoneId;

import java.time.ZonedDateTime;

import java.time.format.ResolverStyle;

import java.time.temporal.ChronoField;

import java.time.temporal.TemporalAccessor;

import java.time.temporal.TemporalField;

import java.time.temporal.ValueRange;

import java.util.Arrays;

import java.util.List;

import java.util.Locale;

import java.util.Map;

import java.util.Objects;

/**

 * The ISO calendar system.

 * <p>

 * This chronology defines the rules of the ISO calendar system.

 * This calendar system is based on the ISO-8601 standard, which is the

 * <i>de facto</i> world calendar.

 * <p>

 * The fields are defined as follows:

 * <p><ul>

 * <li>era - There are two eras, 'Current Era' (CE) and 'Before Current Era' (BCE).

 * <li>year-of-era - The year-of-era is the same as the proleptic-year for the current CE era.

 *  For the BCE era before the ISO epoch the year increases from 1 upwards as time goes backwards.

 * <li>proleptic-year - The proleptic year is the same as the year-of-era for the

 *  current era. For the previous era, years have zero, then negative values.

 * <li>month-of-year - There are 12 months in an ISO year, numbered from 1 to 12.

 * <li>day-of-month - There are between 28 and 31 days in each of the ISO month, numbered from 1 to 31.

 *  Months 4, 6, 9 and 11 have 30 days, Months 1, 3, 5, 7, 8, 10 and 12 have 31 days.

 *  Month 2 has 28 days, or 29 in a leap year.

 * <li>day-of-year - There are 365 days in a standard ISO year and 366 in a leap year.

 *  The days are numbered from 1 to 365 or 1 to 366.

 * <li>leap-year - Leap years occur every 4 years, except where the year is divisble by 100 and not divisble by 400.

 * </ul><p>

 *

 * This class is immutable and thread-safe.

 *

 * @since 1.8

 */

public final class IsoChronology extends Chronology implements Serializable {

    /**

     * Singleton instance of the ISO chronology.

     */

    public static final IsoChronology INSTANCE = new IsoChronology();

    /**

     * Serialization version.

     */

    private static final long serialVersionUID = -1440403870442975015L;

    /**

     * Restricted constructor.

     */

    private IsoChronology() {

    }

    //-----------------------------------------------------------------------

    /**

     * Gets the ID of the chronology - 'ISO'.

     * <p>

     * The ID uniquely identifies the {@code Chronology}.

     * It can be used to lookup the {@code Chronology} using {@link #of(String)}.

     *

     * @return the chronology ID - 'ISO'

     * @see #getCalendarType()

     */

    @Override

    public String getId() {

        return "ISO";

    }

    /**

     * Gets the calendar type of the underlying calendar system - 'iso8601'.

     * <p>

     * The calendar type is an identifier defined by the

     * <em>Unicode Locale Data Markup Language (LDML)</em> specification.

     * It can be used to lookup the {@code Chronology} using {@link #of(String)}.

     * It can also be used as part of a locale, accessible via

     * {@link Locale#getUnicodeLocaleType(String)} with the key 'ca'.

     *

     * @return the calendar system type - 'iso8601'

     * @see #getId()

     */

    @Override

    public String getCalendarType() {

        return "iso8601";

    }

    //-----------------------------------------------------------------------

    /**

     * Obtains an ISO local date from the era, year-of-era, month-of-year

     * and day-of-month fields.

     *

     * @param era  the ISO era, not null

     * @param yearOfEra  the ISO year-of-era

     * @param month  the ISO month-of-year

     * @param dayOfMonth  the ISO day-of-month

     * @return the ISO local date, not null

     * @throws DateTimeException if unable to create the date

     * @throws ClassCastException if the type of {@code era} is not {@code IsoEra}

     */

    @Override  // override with covariant return type

    public LocalDate date(Era era, int yearOfEra, int month, int dayOfMonth) {

        return date(prolepticYear(era, yearOfEra), month, dayOfMonth);

    }

    /**

     * Obtains an ISO local date from the proleptic-year, month-of-year

     * and day-of-month fields.

     * <p>

     * This is equivalent to {@link LocalDate#of(int, int, int)}.

     *

     * @param prolepticYear  the ISO proleptic-year

     * @param month  the ISO month-of-year

     * @param dayOfMonth  the ISO day-of-month

     * @return the ISO local date, not null

     * @throws DateTimeException if unable to create the date

     */

    @Override  // override with covariant return type

    public LocalDate date(int prolepticYear, int month, int dayOfMonth) {

        return LocalDate.of(prolepticYear, month, dayOfMonth);

    }

    /**

     * Obtains an ISO local date from the era, year-of-era and day-of-year fields.

     *

     * @param era  the ISO era, not null

     * @param yearOfEra  the ISO year-of-era

     * @param dayOfYear  the ISO day-of-year

     * @return the ISO local date, not null

     * @throws DateTimeException if unable to create the date

     */

    @Override  // override with covariant return type

    public LocalDate dateYearDay(Era era, int yearOfEra, int dayOfYear) {

        return dateYearDay(prolepticYear(era, yearOfEra), dayOfYear);

    }

    /**

     * Obtains an ISO local date from the proleptic-year and day-of-year fields.

     * <p>

     * This is equivalent to {@link LocalDate#ofYearDay(int, int)}.

     *

     * @param prolepticYear  the ISO proleptic-year

     * @param dayOfYear  the ISO day-of-year

     * @return the ISO local date, not null

     * @throws DateTimeException if unable to create the date

     */

    @Override  // override with covariant return type

    public LocalDate dateYearDay(int prolepticYear, int dayOfYear) {

        return LocalDate.ofYearDay(prolepticYear, dayOfYear);

    }

    /**

     * Obtains an ISO local date from the epoch-day.

     * <p>

     * This is equivalent to {@link LocalDate#ofEpochDay(long)}.

     *

     * @param epochDay  the epoch day

     * @return the ISO local date, not null

     * @throws DateTimeException if unable to create the date

     */

    @Override  // override with covariant return type

    public LocalDate dateEpochDay(long epochDay) {

        return LocalDate.ofEpochDay(epochDay);

    }

    //-----------------------------------------------------------------------

    /**

     * Obtains an ISO local date from another date-time object.

     * <p>

     * This is equivalent to {@link LocalDate#from(TemporalAccessor)}.

     *

     * @param temporal  the date-time object to convert, not null

     * @return the ISO local date, not null

     * @throws DateTimeException if unable to create the date

     */

    @Override  // override with covariant return type

    public LocalDate date(TemporalAccessor temporal) {

        return LocalDate.from(temporal);

    }

    /**

     * Obtains an ISO local date-time from another date-time object.

     * <p>

     * This is equivalent to {@link LocalDateTime#from(TemporalAccessor)}.

     *

     * @param temporal  the date-time object to convert, not null

     * @return the ISO local date-time, not null

     * @throws DateTimeException if unable to create the date-time

     */

    @Override  // override with covariant return type

    public LocalDateTime localDateTime(TemporalAccessor temporal) {

        return LocalDateTime.from(temporal);

    }

    /**

     * Obtains an ISO zoned date-time from another date-time object.

     * <p>

     * This is equivalent to {@link ZonedDateTime#from(TemporalAccessor)}.

     *

     * @param temporal  the date-time object to convert, not null

     * @return the ISO zoned date-time, not null

     * @throws DateTimeException if unable to create the date-time

     */

    @Override  // override with covariant return type

    public ZonedDateTime zonedDateTime(TemporalAccessor temporal) {

        return ZonedDateTime.from(temporal);

    }

    /**

     * Obtains an ISO zoned date-time in this chronology from an {@code Instant}.

     * <p>

     * This is equivalent to {@link ZonedDateTime#ofInstant(Instant, ZoneId)}.

     *

     * @param instant  the instant to create the date-time from, not null

     * @param zone  the time-zone, not null

     * @return the zoned date-time, not null

     * @throws DateTimeException if the result exceeds the supported range

     */

    @Override

    public ZonedDateTime zonedDateTime(Instant instant, ZoneId zone) {

        return ZonedDateTime.ofInstant(instant, zone);

    }

    //-----------------------------------------------------------------------

    /**

     * Obtains the current ISO local date from the system clock in the default time-zone.

     * <p>

     * This will query the {@link Clock#systemDefaultZone() system clock} in the default

     * time-zone to obtain the current date.

     * <p>

     * Using this method will prevent the ability to use an alternate clock for testing

     * because the clock is hard-coded.

     *

     * @return the current ISO local date using the system clock and default time-zone, not null

     * @throws DateTimeException if unable to create the date

     */

    @Override  // override with covariant return type

    public LocalDate dateNow() {

        return dateNow(Clock.systemDefaultZone());

    }

    /**

     * Obtains the current ISO local date from the system clock in the specified time-zone.

     * <p>

     * This will query the {@link Clock#system(ZoneId) system clock} to obtain the current date.

     * Specifying the time-zone avoids dependence on the default time-zone.

     * <p>

     * Using this method will prevent the ability to use an alternate clock for testing

     * because the clock is hard-coded.

     *

     * @return the current ISO local date using the system clock, not null

     * @throws DateTimeException if unable to create the date

     */

    @Override  // override with covariant return type

    public LocalDate dateNow(ZoneId zone) {

        return dateNow(Clock.system(zone));

    }

    /**

     * Obtains the current ISO local date from the specified clock.

     * <p>

     * This will query the specified clock to obtain the current date - today.

     * Using this method allows the use of an alternate clock for testing.

     * The alternate clock may be introduced using {@link Clock dependency injection}.

     *

     * @param clock  the clock to use, not null

     * @return the current ISO local date, not null

     * @throws DateTimeException if unable to create the date

     */

    @Override  // override with covariant return type

    public LocalDate dateNow(Clock clock) {

        Objects.requireNonNull(clock, "clock");

        return date(LocalDate.now(clock));

    }

    //-----------------------------------------------------------------------

    /**

     * Checks if the year is a leap year, according to the ISO proleptic

     * calendar system rules.

     * <p>

     * This method applies the current rules for leap years across the whole time-line.

     * In general, a year is a leap year if it is divisible by four without

     * remainder. However, years divisible by 100, are not leap years, with

     * the exception of years divisible by 400 which are.

     * <p>

     * For example, 1904 is a leap year it is divisible by 4.

     * 1900 was not a leap year as it is divisible by 100, however 2000 was a

     * leap year as it is divisible by 400.

     * <p>

     * The calculation is proleptic - applying the same rules into the far future and far past.

     * This is historically inaccurate, but is correct for the ISO-8601 standard.

     *

     * @param prolepticYear  the ISO proleptic year to check

     * @return true if the year is leap, false otherwise

     */

    @Override

    public boolean isLeapYear(long prolepticYear) {

        return ((prolepticYear & 3) == 0) && ((prolepticYear % 100) != 0 || (prolepticYear % 400) == 0);

    }

    @Override

    public int prolepticYear(Era era, int yearOfEra) {

        if (era instanceof IsoEra == false) {

            throw new ClassCastException("Era must be IsoEra");

        }

        return (era == IsoEra.CE ? yearOfEra : 1 - yearOfEra);

    }

    @Override

    public Era eraOf(int eraValue) {

        return IsoEra.of(eraValue);

    }

    @Override

    public List<Era> eras() {

        return Arrays.<Era>asList(IsoEra.values());

    }

    //-----------------------------------------------------------------------

    /**

     * Resolves parsed {@code ChronoField} values into a date during parsing.

     * <p>

     * Most {@code TemporalField} implementations are resolved using the

     * resolve method on the field. By contrast, the {@code ChronoField} class

     * defines fields that only have meaning relative to the chronology.

     * As such, {@code ChronoField} date fields are resolved here in the

     * context of a specific chronology.

     * <p>

     * {@code ChronoField} instances on the ISO calendar system are resolved

     * as follows.

     * <ul>

     * <li>{@code EPOCH_DAY} - If present, this is converted to a {@code LocalDate}

     *  all other date fields are then cross-checked against the date

     * <li>{@code PROLEPTIC_MONTH} - If present, then it is split into the

     *  {@code YEAR} and {@code MONTH_OF_YEAR}. If the mode is strict or smart

     *  then the field is validated.

     * <li>{@code YEAR_OF_ERA} and {@code ERA} - If both are present, then they

     *  are combined to form a {@code YEAR}. In lenient mode, the {@code YEAR_OF_ERA}

     *  range is not validated, in smart and strict mode it is. The {@code ERA} is

     *  validated for range in all three modes. If only the {@code YEAR_OF_ERA} is

     *  present, and the mode is smart or lenient, then the current era (CE/AD)

     *  is assumed. In strict mode, no ers is assumed and the {@code YEAR_OF_ERA} is

     *  left untouched. If only the {@code ERA} is present, then it is left untouched.

     * <li>{@code YEAR}, {@code MONTH_OF_YEAR} and {@code DAY_OF_MONTH} -

     *  If all three are present, then they are combined to form a {@code LocalDate}.

     *  In all three modes, the {@code YEAR} is validated. If the mode is smart or strict,

     *  then the month and day are validated, with the day validated from 1 to 31.

     *  If the mode is lenient, then the date is combined in a manner equivalent to

     *  creating a date on the first of January in the requested year, then adding

     *  the difference in months, then the difference in days.

     *  If the mode is smart, and the day-of-month is greater than the maximum for

     *  the year-month, then the day-of-month is adjusted to the last day-of-month.

     *  If the mode is strict, then the three fields must form a valid date.

     * <li>{@code YEAR} and {@code DAY_OF_YEAR} -

     *  If both are present, then they are combined to form a {@code LocalDate}.

     *  In all three modes, the {@code YEAR} is validated.

     *  If the mode is lenient, then the date is combined in a manner equivalent to

     *  creating a date on the first of January in the requested year, then adding

     *  the difference in days.

     *  If the mode is smart or strict, then the two fields must form a valid date.

     * <li>{@code YEAR}, {@code MONTH_OF_YEAR}, {@code ALIGNED_WEEK_OF_MONTH} and

     *  {@code ALIGNED_DAY_OF_WEEK_IN_MONTH} -

     *  If all four are present, then they are combined to form a {@code LocalDate}.

     *  In all three modes, the {@code YEAR} is validated.

     *  If the mode is lenient, then the date is combined in a manner equivalent to

     *  creating a date on the first of January in the requested year, then adding

     *  the difference in months, then the difference in weeks, then in days.

     *  If the mode is smart or strict, then the all four fields are validated to

     *  their outer ranges. The date is then combined in a manner equivalent to

     *  creating a date on the first day of the requested year and month, then adding

     *  the amount in weeks and days to reach their values. If the mode is strict,

     *  the date is additionally validated to check that the day and week adjustment

     *  did not change the month.

     * <li>{@code YEAR}, {@code MONTH_OF_YEAR}, {@code ALIGNED_WEEK_OF_MONTH} and

     *  {@code DAY_OF_WEEK} - If all four are present, then they are combined to

     *  form a {@code LocalDate}. The approach is the same as described above for

     *  years, months and weeks in {@code ALIGNED_DAY_OF_WEEK_IN_MONTH}.

     *  The day-of-week is adjusted as the next or same matching day-of-week once

     *  the years, months and weeks have been handled.

     * <li>{@code YEAR}, {@code ALIGNED_WEEK_OF_YEAR} and {@code ALIGNED_DAY_OF_WEEK_IN_YEAR} -

     *  If all three are present, then they are combined to form a {@code LocalDate}.

     *  In all three modes, the {@code YEAR} is validated.

     *  If the mode is lenient, then the date is combined in a manner equivalent to

     *  creating a date on the first of January in the requested year, then adding

     *  the difference in weeks, then in days.

     *  If the mode is smart or strict, then the all three fields are validated to

     *  their outer ranges. The date is then combined in a manner equivalent to

     *  creating a date on the first day of the requested year, then adding

     *  the amount in weeks and days to reach their values. If the mode is strict,

     *  the date is additionally validated to check that the day and week adjustment

     *  did not change the year.

     * <li>{@code YEAR}, {@code ALIGNED_WEEK_OF_YEAR} and {@code DAY_OF_WEEK} -

     *  If all three are present, then they are combined to form a {@code LocalDate}.

     *  The approach is the same as described above for years and weeks in

     *  {@code ALIGNED_DAY_OF_WEEK_IN_YEAR}. The day-of-week is adjusted as the

     *  next or same matching day-of-week once the years and weeks have been handled.

     * </ul>

     *

     * @param fieldValues  the map of fields to values, which can be updated, not null

     * @param resolverStyle  the requested type of resolve, not null

     * @return the resolved date, null if insufficient information to create a date

     * @throws DateTimeException if the date cannot be resolved, typically

     *  because of a conflict in the input data

     */

    @Override  // override for performance

    public LocalDate resolveDate(Map<TemporalField, Long> fieldValues, ResolverStyle resolverStyle) {

        // check epoch-day before inventing era

        if (fieldValues.containsKey(EPOCH_DAY)) {

            return LocalDate.ofEpochDay(fieldValues.remove(EPOCH_DAY));

        }

        // fix proleptic month before inventing era

        resolveProlepticMonth(fieldValues, resolverStyle);

        // invent era if necessary to resolve year-of-era

        resolveYearOfEra(fieldValues, resolverStyle);

        // build date

        if (fieldValues.containsKey(YEAR)) {

            if (fieldValues.containsKey(MONTH_OF_YEAR)) {

                if (fieldValues.containsKey(DAY_OF_MONTH)) {

                    return resolveYMD(fieldValues, resolverStyle);

                }

                if (fieldValues.containsKey(ALIGNED_WEEK_OF_MONTH)) {

                    if (fieldValues.containsKey(ALIGNED_DAY_OF_WEEK_IN_MONTH)) {

                        return resolveYMAA(fieldValues, resolverStyle);