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/*
 *  Copyright 2001-2013 Stephen Colebourne
 *
 *  Licensed 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 CONDITIONS OF ANY KIND, either express or implied.
 *  See the License for the specific language governing permissions and
 *  limitations under the License.
 */
package org.joda.time;

import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.util.Calendar;
import java.util.Date;
import java.util.GregorianCalendar;
import java.util.HashSet;
import java.util.Locale;
import java.util.Set;
import java.util.TimeZone;

import org.joda.convert.FromString;
import org.joda.convert.ToString;
import org.joda.time.base.BaseLocal;
import org.joda.time.chrono.ISOChronology;
import org.joda.time.convert.ConverterManager;
import org.joda.time.convert.PartialConverter;
import org.joda.time.field.AbstractReadableInstantFieldProperty;
import org.joda.time.field.FieldUtils;
import org.joda.time.format.DateTimeFormat;
import org.joda.time.format.DateTimeFormatter;
import org.joda.time.format.ISODateTimeFormat;

/**
 * LocalDate is an immutable datetime class representing a date
 * without a time zone.
 * 

* LocalDate implements the {@link ReadablePartial} interface. * To do this, the interface methods focus on the key fields - * Year, MonthOfYear and DayOfMonth. * However, all date fields may in fact be queried. *

* LocalDate differs from DateMidnight in that this class does not * have a time zone and does not represent a single instant in time. *

* Calculations on LocalDate are performed using a {@link Chronology}. * This chronology will be set internally to be in the UTC time zone * for all calculations. * *

Each individual field can be queried in two ways: *

    *
  • getMonthOfYear() *
  • monthOfYear().get() *
* The second technique also provides access to other useful methods on the * field: *
    *
  • numeric value *
  • text value *
  • short text value *
  • maximum/minimum values *
  • add/subtract *
  • set *
  • rounding *
* *

* LocalDate is thread-safe and immutable, provided that the Chronology is as well. * All standard Chronology classes supplied are thread-safe and immutable. * * @author Stephen Colebourne * @since 1.3 */ public final class LocalDate extends BaseLocal implements ReadablePartial, Serializable { /** Serialization lock */ private static final long serialVersionUID = -8775358157899L; /** The index of the year field in the field array */ private static final int YEAR = 0; /** The index of the monthOfYear field in the field array */ private static final int MONTH_OF_YEAR = 1; /** The index of the dayOfMonth field in the field array */ private static final int DAY_OF_MONTH = 2; /** Set of known duration types. */ private static final Set DATE_DURATION_TYPES = new HashSet(); static { DATE_DURATION_TYPES.add(DurationFieldType.days()); DATE_DURATION_TYPES.add(DurationFieldType.weeks()); DATE_DURATION_TYPES.add(DurationFieldType.months()); DATE_DURATION_TYPES.add(DurationFieldType.weekyears()); DATE_DURATION_TYPES.add(DurationFieldType.years()); DATE_DURATION_TYPES.add(DurationFieldType.centuries()); // eras are supported, although the DurationField generally isn't DATE_DURATION_TYPES.add(DurationFieldType.eras()); } /** The local millis from 1970-01-01T00:00:00 */ private final long iLocalMillis; /** The chronology to use in UTC. */ private final Chronology iChronology; /** The cached hash code. */ private transient volatile int iHash; //----------------------------------------------------------------------- /** * Obtains a {@code LocalDate} set to the current system millisecond time * using ISOChronology in the default time zone. * * @return the current date-time, not null * @since 2.0 */ public static LocalDate now() { return new LocalDate(); } /** * Obtains a {@code LocalDate} set to the current system millisecond time * using ISOChronology in the specified time zone. * * @param zone the time zone, not null * @return the current date-time, not null * @since 2.0 */ public static LocalDate now(DateTimeZone zone) { if (zone == null) { throw new NullPointerException("Zone must not be null"); } return new LocalDate(zone); } /** * Obtains a {@code LocalDate} set to the current system millisecond time * using the specified chronology. * * @param chronology the chronology, not null * @return the current date-time, not null * @since 2.0 */ public static LocalDate now(Chronology chronology) { if (chronology == null) { throw new NullPointerException("Chronology must not be null"); } return new LocalDate(chronology); } //----------------------------------------------------------------------- /** * Parses a {@code LocalDate} from the specified string. *

* This uses {@link ISODateTimeFormat#localDateParser()}. * * @param str the string to parse, not null * @since 2.0 */ @FromString public static LocalDate parse(String str) { return parse(str, ISODateTimeFormat.localDateParser()); } /** * Parses a {@code LocalDate} from the specified string using a formatter. * * @param str the string to parse, not null * @param formatter the formatter to use, not null * @since 2.0 */ public static LocalDate parse(String str, DateTimeFormatter formatter) { return formatter.parseLocalDate(str); } //----------------------------------------------------------------------- /** * Constructs a LocalDate from a java.util.Calendar * using exactly the same field values. *

* Each field is queried from the Calendar and assigned to the LocalDate. * This is useful if you have been using the Calendar as a local date, * ignoring the zone. *

* One advantage of this method is that this method is unaffected if the * version of the time zone data differs between the JDK and Joda-Time. * That is because the local field values are transferred, calculated using * the JDK time zone data and without using the Joda-Time time zone data. *

* This factory method ignores the type of the calendar and always * creates a LocalDate with ISO chronology. It is expected that you * will only pass in instances of GregorianCalendar however * this is not validated. * * @param calendar the Calendar to extract fields from, not null * @return the created local date, not null * @throws IllegalArgumentException if the calendar is null * @throws IllegalArgumentException if the date is invalid for the ISO chronology */ public static LocalDate fromCalendarFields(Calendar calendar) { if (calendar == null) { throw new IllegalArgumentException("The calendar must not be null"); } int era = calendar.get(Calendar.ERA); int yearOfEra = calendar.get(Calendar.YEAR); return new LocalDate( (era == GregorianCalendar.AD ? yearOfEra : 1 - yearOfEra), calendar.get(Calendar.MONTH) + 1, calendar.get(Calendar.DAY_OF_MONTH) ); } /** * Constructs a LocalDate from a java.util.Date * using exactly the same field values. *

* Each field is queried from the Date and assigned to the LocalDate. * This is useful if you have been using the Date as a local date, * ignoring the zone. *

* One advantage of this method is that this method is unaffected if the * version of the time zone data differs between the JDK and Joda-Time. * That is because the local field values are transferred, calculated using * the JDK time zone data and without using the Joda-Time time zone data. *

* This factory method always creates a LocalDate with ISO chronology. * * @param date the Date to extract fields from, not null * @return the created local date, not null * @throws IllegalArgumentException if the calendar is null * @throws IllegalArgumentException if the date is invalid for the ISO chronology */ @SuppressWarnings("deprecation") public static LocalDate fromDateFields(Date date) { if (date == null) { throw new IllegalArgumentException("The date must not be null"); } if (date.getTime() < 0) { // handle years in era BC GregorianCalendar cal = new GregorianCalendar(); cal.setTime(date); return fromCalendarFields(cal); } return new LocalDate( date.getYear() + 1900, date.getMonth() + 1, date.getDate() ); } //----------------------------------------------------------------------- /** * Constructs an instance set to the current local time evaluated using * ISO chronology in the default zone. *

* Once the constructor is completed, the zone is no longer used. * * @see #now() */ public LocalDate() { this(DateTimeUtils.currentTimeMillis(), ISOChronology.getInstance()); } /** * Constructs an instance set to the current local time evaluated using * ISO chronology in the specified zone. *

* If the specified time zone is null, the default zone is used. * Once the constructor is completed, the zone is no longer used. * * @param zone the time zone, null means default zone * @see #now(DateTimeZone) */ public LocalDate(DateTimeZone zone) { this(DateTimeUtils.currentTimeMillis(), ISOChronology.getInstance(zone)); } /** * Constructs an instance set to the current local time evaluated using * specified chronology. *

* If the chronology is null, ISO chronology in the default time zone is used. * Once the constructor is completed, the zone is no longer used. * * @param chronology the chronology, null means ISOChronology in default zone * @see #now(Chronology) */ public LocalDate(Chronology chronology) { this(DateTimeUtils.currentTimeMillis(), chronology); } //----------------------------------------------------------------------- /** * Constructs an instance set to the local time defined by the specified * instant evaluated using ISO chronology in the default zone. *

* Once the constructor is completed, the zone is no longer used. * * @param instant the milliseconds from 1970-01-01T00:00:00Z */ public LocalDate(long instant) { this(instant, ISOChronology.getInstance()); } /** * Constructs an instance set to the local time defined by the specified * instant evaluated using ISO chronology in the specified zone. *

* If the specified time zone is null, the default zone is used. * Once the constructor is completed, the zone is no longer used. * * @param instant the milliseconds from 1970-01-01T00:00:00Z * @param zone the time zone, null means default zone */ public LocalDate(long instant, DateTimeZone zone) { this(instant, ISOChronology.getInstance(zone)); } /** * Constructs an instance set to the local time defined by the specified * instant evaluated using the specified chronology. *

* If the chronology is null, ISO chronology in the default zone is used. * Once the constructor is completed, the zone is no longer used. * * @param instant the milliseconds from 1970-01-01T00:00:00Z * @param chronology the chronology, null means ISOChronology in default zone */ public LocalDate(long instant, Chronology chronology) { chronology = DateTimeUtils.getChronology(chronology); long localMillis = chronology.getZone().getMillisKeepLocal(DateTimeZone.UTC, instant); chronology = chronology.withUTC(); iLocalMillis = chronology.dayOfMonth().roundFloor(localMillis); iChronology = chronology; } //----------------------------------------------------------------------- /** * Constructs an instance from an Object that represents a datetime. * The time zone will be retrieved from the object if possible, * otherwise the default time zone will be used. *

* If the object contains no chronology, ISOChronology is used. * Once the constructor is completed, the zone is no longer used. *

* The recognised object types are defined in * {@link org.joda.time.convert.ConverterManager ConverterManager} and * include ReadablePartial, ReadableInstant, String, Calendar and Date. * The String formats are described by {@link ISODateTimeFormat#localDateParser()}. * The default String converter ignores the zone and only parses the field values. * * @param instant the datetime object * @throws IllegalArgumentException if the instant is invalid */ public LocalDate(Object instant) { this(instant, (Chronology) null); } /** * Constructs an instance from an Object that represents a datetime, * forcing the time zone to that specified. *

* If the object contains no chronology, ISOChronology is used. * If the specified time zone is null, the default zone is used. * Once the constructor is completed, the zone is no longer used. *

* The recognised object types are defined in * {@link org.joda.time.convert.ConverterManager ConverterManager} and * include ReadablePartial, ReadableInstant, String, Calendar and Date. * The String formats are described by {@link ISODateTimeFormat#localDateParser()}. * The default String converter ignores the zone and only parses the field values. * * @param instant the datetime object * @param zone the time zone * @throws IllegalArgumentException if the instant is invalid */ public LocalDate(Object instant, DateTimeZone zone) { PartialConverter converter = ConverterManager.getInstance().getPartialConverter(instant); Chronology chronology = converter.getChronology(instant, zone); chronology = DateTimeUtils.getChronology(chronology); iChronology = chronology.withUTC(); int[] values = converter.getPartialValues(this, instant, chronology, ISODateTimeFormat.localDateParser()); iLocalMillis = iChronology.getDateTimeMillis(values[0], values[1], values[2], 0); } /** * Constructs an instance from an Object that represents a datetime, * using the specified chronology. *

* If the chronology is null, ISO in the default time zone is used. * Once the constructor is completed, the zone is no longer used. * If the instant contains a chronology, it will be ignored. * For example, passing a {@code LocalDate} and a different chronology * will return a date with the year/month/day from the date applied * unaltered to the specified chronology. *

* The recognised object types are defined in * {@link org.joda.time.convert.ConverterManager ConverterManager} and * include ReadablePartial, ReadableInstant, String, Calendar and Date. * The String formats are described by {@link ISODateTimeFormat#localDateParser()}. * The default String converter ignores the zone and only parses the field values. * * @param instant the datetime object * @param chronology the chronology * @throws IllegalArgumentException if the instant is invalid */ public LocalDate(Object instant, Chronology chronology) { PartialConverter converter = ConverterManager.getInstance().getPartialConverter(instant); chronology = converter.getChronology(instant, chronology); chronology = DateTimeUtils.getChronology(chronology); iChronology = chronology.withUTC(); int[] values = converter.getPartialValues(this, instant, chronology, ISODateTimeFormat.localDateParser()); iLocalMillis = iChronology.getDateTimeMillis(values[0], values[1], values[2], 0); } //----------------------------------------------------------------------- /** * Constructs an instance set to the specified date and time * using ISOChronology. * * @param year the year * @param monthOfYear the month of the year, from 1 to 12 * @param dayOfMonth the day of the month, from 1 to 31 */ public LocalDate( int year, int monthOfYear, int dayOfMonth) { this(year, monthOfYear, dayOfMonth, ISOChronology.getInstanceUTC()); } /** * Constructs an instance set to the specified date and time * using the specified chronology, whose zone is ignored. *

* If the chronology is null, ISOChronology is used. * * @param year the year, valid values defined by the chronology * @param monthOfYear the month of the year, valid values defined by the chronology * @param dayOfMonth the day of the month, valid values defined by the chronology * @param chronology the chronology, null means ISOChronology in default zone */ public LocalDate( int year, int monthOfYear, int dayOfMonth, Chronology chronology) { super(); chronology = DateTimeUtils.getChronology(chronology).withUTC(); long instant = chronology.getDateTimeMillis(year, monthOfYear, dayOfMonth, 0); iChronology = chronology; iLocalMillis = instant; } /** * Handle broken serialization from other tools. * @return the resolved object, not null */ private Object readResolve() { if (iChronology == null) { return new LocalDate(iLocalMillis, ISOChronology.getInstanceUTC()); } if (DateTimeZone.UTC.equals(iChronology.getZone()) == false) { return new LocalDate(iLocalMillis, iChronology.withUTC()); } return this; } //----------------------------------------------------------------------- /** * Gets the number of fields in this partial, which is three. * The supported fields are Year, MonthOfYear and DayOfMonth. * Note that all fields from day and above may in fact be queried via * other methods. * * @return the field count, three */ public int size() { return 3; } /** * Gets the field for a specific index in the chronology specified. *

* This method must not use any instance variables. * * @param index the index to retrieve * @param chrono the chronology to use * @return the field */ protected DateTimeField getField(int index, Chronology chrono) { switch (index) { case YEAR: return chrono.year(); case MONTH_OF_YEAR: return chrono.monthOfYear(); case DAY_OF_MONTH: return chrono.dayOfMonth(); default: throw new IndexOutOfBoundsException("Invalid index: " + index); } } /** * Gets the value of the field at the specifed index. *

* This method is required to support the ReadablePartial * interface. The supported fields are Year, MonthOfYear and DayOfMonth. * Note that all fields from day and above may in fact be queried via * other methods. * * @param index the index, zero to two * @return the value * @throws IndexOutOfBoundsException if the index is invalid */ public int getValue(int index) { switch (index) { case YEAR: return getChronology().year().get(getLocalMillis()); case MONTH_OF_YEAR: return getChronology().monthOfYear().get(getLocalMillis()); case DAY_OF_MONTH: return getChronology().dayOfMonth().get(getLocalMillis()); default: throw new IndexOutOfBoundsException("Invalid index: " + index); } } //----------------------------------------------------------------------- /** * Get the value of one of the fields of a datetime. *

* This method gets the value of the specified field. * For example: *

     * LocalDate dt = LocalDate.nowDefaultZone();
     * int year = dt.get(DateTimeFieldType.year());
     * 
* * @param fieldType a field type, usually obtained from DateTimeFieldType, not null * @return the value of that field * @throws IllegalArgumentException if the field type is null or unsupported */ public int get(DateTimeFieldType fieldType) { if (fieldType == null) { throw new IllegalArgumentException("The DateTimeFieldType must not be null"); } if (isSupported(fieldType) == false) { throw new IllegalArgumentException("Field '" + fieldType + "' is not supported"); } return fieldType.getField(getChronology()).get(getLocalMillis()); } /** * Checks if the field type specified is supported by this * local date and chronology. * This can be used to avoid exceptions in {@link #get(DateTimeFieldType)}. * * @param type a field type, usually obtained from DateTimeFieldType * @return true if the field type is supported */ public boolean isSupported(DateTimeFieldType type) { if (type == null) { return false; } DurationFieldType durType = type.getDurationType(); if (DATE_DURATION_TYPES.contains(durType) || durType.getField(getChronology()).getUnitMillis() >= getChronology().days().getUnitMillis()) { return type.getField(getChronology()).isSupported(); } return false; } /** * Checks if the duration type specified is supported by this * local date and chronology. * * @param type a duration type, usually obtained from DurationFieldType * @return true if the field type is supported */ public boolean isSupported(DurationFieldType type) { if (type == null) { return false; } DurationField field = type.getField(getChronology()); if (DATE_DURATION_TYPES.contains(type) || field.getUnitMillis() >= getChronology().days().getUnitMillis()) { return field.isSupported(); } return false; } //----------------------------------------------------------------------- /** * Gets the local milliseconds from the Java epoch * of 1970-01-01T00:00:00 (not fixed to any specific time zone). * * @return the number of milliseconds since 1970-01-01T00:00:00 * @since 1.5 (previously private) */ protected long getLocalMillis() { return iLocalMillis; } /** * Gets the chronology of the date. * * @return the Chronology that the date is using */ public Chronology getChronology() { return iChronology; } //----------------------------------------------------------------------- /** * Compares this ReadablePartial with another returning true if the chronology, * field types and values are equal. * * @param partial an object to check against * @return true if fields and values are equal */ public boolean equals(Object partial) { // override to perform faster if (this == partial) { return true; } if (partial instanceof LocalDate) { LocalDate other = (LocalDate) partial; if (iChronology.equals(other.iChronology)) { return iLocalMillis == other.iLocalMillis; } } return super.equals(partial); } /** * Gets a hash code for the instant as defined in ReadablePartial. * * @return a suitable hash code */ public int hashCode() { // override for performance int hash = iHash; if (hash == 0) { hash = iHash = super.hashCode(); } return hash; } /** * Compares this partial with another returning an integer * indicating the order. *

* The fields are compared in order, from largest to smallest. * The first field that is non-equal is used to determine the result. *

* The specified object must be a partial instance whose field types * match those of this partial. * * @param partial an object to check against * @return negative if this is less, zero if equal, positive if greater * @throws ClassCastException if the partial is the wrong class * or if it has field types that don't match * @throws NullPointerException if the partial is null */ public int compareTo(ReadablePartial partial) { // override to perform faster if (this == partial) { return 0; } if (partial instanceof LocalDate) { LocalDate other = (LocalDate) partial; if (iChronology.equals(other.iChronology)) { return (iLocalMillis < other.iLocalMillis ? -1 : (iLocalMillis == other.iLocalMillis ? 0 : 1)); } } return super.compareTo(partial); } //----------------------------------------------------------------------- /** * Converts this LocalDate to a full datetime at the earliest valid time * for the date using the default time zone. *

* The time will normally be midnight, as that is the earliest time on * any given day. However, in some time zones when Daylight Savings Time * starts, there is no midnight because time jumps from 11:59 to 01:00. * This method handles that situation by returning 01:00 on that date. *

* This instance is immutable and unaffected by this method call. * * @return this date as a datetime at the start of the day * @since 1.5 */ public DateTime toDateTimeAtStartOfDay() { return toDateTimeAtStartOfDay(null); } /** * Converts this LocalDate to a full datetime at the earliest valid time * for the date using the specified time zone. *

* The time will normally be midnight, as that is the earliest time on * any given day. However, in some time zones when Daylight Savings Time * starts, there is no midnight because time jumps from 11:59 to 01:00. * This method handles that situation by returning 01:00 on that date. *

* This method uses the chronology from this instance plus the time zone * specified. *

* This instance is immutable and unaffected by this method call. * * @param zone the zone to use, null means default zone * @return this date as a datetime at the start of the day * @since 1.5 */ public DateTime toDateTimeAtStartOfDay(DateTimeZone zone) { zone = DateTimeUtils.getZone(zone); Chronology chrono = getChronology().withZone(zone); long localMillis = getLocalMillis() + 6L * DateTimeConstants.MILLIS_PER_HOUR; long instant = zone.convertLocalToUTC(localMillis, false); instant = chrono.dayOfMonth().roundFloor(instant); return new DateTime(instant, chrono); } //----------------------------------------------------------------------- /** * Converts this LocalDate to a full datetime at midnight using the default * time zone. *

* This method will throw an exception if the default time zone switches * to Daylight Savings Time at midnight and this LocalDate represents * that switchover date. The problem is that there is no such time as * midnight on the required date, and as such an exception is thrown. *

* This instance is immutable and unaffected by this method call. * * @return this date as a datetime at midnight * @deprecated Use {@link #toDateTimeAtStartOfDay()} which won't throw an exception */ @Deprecated public DateTime toDateTimeAtMidnight() { return toDateTimeAtMidnight(null); } /** * Converts this LocalDate to a full datetime at midnight using the * specified time zone. *

* This method will throw an exception if the time zone switches * to Daylight Savings Time at midnight and this LocalDate represents * that switchover date. The problem is that there is no such time as * midnight on the required date, and as such an exception is thrown. *

* This method uses the chronology from this instance plus the time zone * specified. *

* This instance is immutable and unaffected by this method call. * * @param zone the zone to use, null means default zone * @return this date as a datetime at midnight * @deprecated Use {@link #toDateTimeAtStartOfDay(DateTimeZone)} which won't throw an exception */ @Deprecated public DateTime toDateTimeAtMidnight(DateTimeZone zone) { zone = DateTimeUtils.getZone(zone); Chronology chrono = getChronology().withZone(zone); return new DateTime(getYear(), getMonthOfYear(), getDayOfMonth(), 0, 0, 0, 0, chrono); } //----------------------------------------------------------------------- /** * Converts this LocalDate to a full datetime using the default time zone * setting the date fields from this instance and the time fields from * the current time. *

* This method will throw an exception if the datetime that would be * created does not exist when the time zone is taken into account. *

* This instance is immutable and unaffected by this method call. * * @return this date as a datetime with the time as the current time */ public DateTime toDateTimeAtCurrentTime() { return toDateTimeAtCurrentTime(null); } /** * Converts this LocalDate to a full datetime using the specified time zone * setting the date fields from this instance and the time fields from * the current time. *

* This method uses the chronology from this instance plus the time zone * specified. *

* This method will throw an exception if the datetime that would be * created does not exist when the time zone is taken into account. *

* This instance is immutable and unaffected by this method call. * * @param zone the zone to use, null means default zone * @return this date as a datetime with the time as the current time */ public DateTime toDateTimeAtCurrentTime(DateTimeZone zone) { zone = DateTimeUtils.getZone(zone); Chronology chrono = getChronology().withZone(zone); long instantMillis = DateTimeUtils.currentTimeMillis(); long resolved = chrono.set(this, instantMillis); return new DateTime(resolved, chrono); } //----------------------------------------------------------------------- /** * Converts this LocalDate to a DateMidnight in the default time zone. *

* As from v1.5, you are recommended to avoid DateMidnight and use * {@link #toDateTimeAtStartOfDay()} instead because of the exception * detailed below. *

* This method will throw an exception if the default time zone switches * to Daylight Savings Time at midnight and this LocalDate represents * that switchover date. The problem is that there is no such time as * midnight on the required date, and as such an exception is thrown. *

* This instance is immutable and unaffected by this method call. * * @return the DateMidnight instance in the default zone */ public DateMidnight toDateMidnight() { return toDateMidnight(null); } /** * Converts this LocalDate to a DateMidnight. *

* As from v1.5, you are recommended to avoid DateMidnight and use * {@link #toDateTimeAtStartOfDay()} instead because of the exception * detailed below. *

* This method will throw an exception if the time zone switches * to Daylight Savings Time at midnight and this LocalDate represents * that switchover date. The problem is that there is no such time as * midnight on the required date, and as such an exception is thrown. *

* This instance is immutable and unaffected by this method call. * * @param zone the zone to get the DateMidnight in, null means default zone * @return the DateMidnight instance */ public DateMidnight toDateMidnight(DateTimeZone zone) { zone = DateTimeUtils.getZone(zone); Chronology chrono = getChronology().withZone(zone); return new DateMidnight(getYear(), getMonthOfYear(), getDayOfMonth(), chrono); } //----------------------------------------------------------------------- /** * Converts this object to a LocalDateTime using a LocalTime to fill in * the missing fields. *

* The resulting chronology is determined by the chronology of this * LocalDate. The chronology of the time must also match. * If the time is null an exception is thrown. *

* This instance is immutable and unaffected by this method call. * * @param time the time of day to use, must not be null * @return the LocalDateTime instance * @throws IllegalArgumentException if the time is null * @throws IllegalArgumentException if the chronology of the time does not match * @since 1.5 */ public LocalDateTime toLocalDateTime(LocalTime time) { if (time == null) { throw new IllegalArgumentException("The time must not be null"); } if (getChronology() != time.getChronology()) { throw new IllegalArgumentException("The chronology of the time does not match"); } long localMillis = getLocalMillis() + time.getLocalMillis(); return new LocalDateTime(localMillis, getChronology()); } //----------------------------------------------------------------------- /** * Converts this object to a DateTime using a LocalTime to fill in the * missing fields and using the default time zone. *

* The resulting chronology is determined by the chronology of this * LocalDate. The chronology of the time must match. * If the time is null, the current time in the date's chronology is used. *

* This method will throw an exception if the datetime that would be * created does not exist when the time zone is taken into account. *

* This instance is immutable and unaffected by this method call. * * @param time the time of day to use, null means current time * @return the DateTime instance * @throws IllegalArgumentException if the chronology of the time does not match */ public DateTime toDateTime(LocalTime time) { return toDateTime(time, null); } /** * Converts this object to a DateTime using a LocalTime to fill in the * missing fields. *

* The resulting chronology is determined by the chronology of this * LocalDate plus the time zone. The chronology of the time must match. * If the time is null, the current time in the date's chronology is used. *

* This method will throw an exception if the datetime that would be * created does not exist when the time zone is taken into account. *

* This instance is immutable and unaffected by this method call. * * @param time the time of day to use, null means current time * @param zone the zone to get the DateTime in, null means default * @return the DateTime instance * @throws IllegalArgumentException if the chronology of the time does not match */ public DateTime toDateTime(LocalTime time, DateTimeZone zone) { if (time != null && getChronology() != time.getChronology()) { throw new IllegalArgumentException("The chronology of the time does not match"); } Chronology chrono = getChronology().withZone(zone); long instant = DateTimeUtils.currentTimeMillis(); instant = chrono.set(this, instant); if (time != null) { instant = chrono.set(time, instant); } return new DateTime(instant, chrono); } //----------------------------------------------------------------------- /** * Converts this object to an Interval representing the whole day * in the default time zone. *

* The interval may have more or less than 24 hours if this is a daylight * savings cutover date. *

* This instance is immutable and unaffected by this method call. * * @return a interval over the day */ public Interval toInterval() { return toInterval(null); } /** * Converts this object to an Interval representing the whole day. *

* The interval may have more or less than 24 hours if this is a daylight * savings cutover date. *

* This instance is immutable and unaffected by this method call. * * @param zone the zone to get the Interval in, null means default * @return a interval over the day */ public Interval toInterval(DateTimeZone zone) { zone = DateTimeUtils.getZone(zone); DateTime start = toDateTimeAtStartOfDay(zone); DateTime end = plusDays(1).toDateTimeAtStartOfDay(zone); return new Interval(start, end); } //----------------------------------------------------------------------- /** * Get the date time as a java.util.Date. *

* The Date object created has exactly the same year, month and day * as this date. The time will be set to the earliest valid time for that date. *

* Converting to a JDK Date is full of complications as the JDK Date constructor * doesn't behave as you might expect around DST transitions. This method works * by taking a first guess and then adjusting the JDK date until it has the * earliest valid instant. This also handles the situation where the JDK time * zone data differs from the Joda-Time time zone data. * * @return a Date initialised with this date, never null * @since 2.0 */ @SuppressWarnings("deprecation") public Date toDate() { int dom = getDayOfMonth(); Date date = new Date(getYear() - 1900, getMonthOfYear() - 1, dom); LocalDate check = LocalDate.fromDateFields(date); if (check.isBefore(this)) { // DST gap (no midnight) // move forward in units of one hour until date correct while (check.equals(this) == false) { date.setTime(date.getTime() + 3600000); check = LocalDate.fromDateFields(date); } // move back in units of one second until date wrong while (date.getDate() == dom) { date.setTime(date.getTime() - 1000); } // fix result date.setTime(date.getTime() + 1000); } else if (check.equals(this)) { // check for DST overlap (two midnights) Date earlier = new Date(date.getTime() - TimeZone.getDefault().getDSTSavings()); if (earlier.getDate() == dom) { date = earlier; } } return date; } //----------------------------------------------------------------------- /** * Returns a copy of this date with different local millis. *

* The returned object will be a new instance of the same type. * Only the millis will change, the chronology is kept. * The returned object will be either be a new instance or this. * * @param newMillis the new millis, from 1970-01-01T00:00:00 * @return a copy of this date with different millis */ LocalDate withLocalMillis(long newMillis) { newMillis = iChronology.dayOfMonth().roundFloor(newMillis); return (newMillis == getLocalMillis() ? this : new LocalDate(newMillis, getChronology())); } //----------------------------------------------------------------------- /** * Returns a copy of this date with the partial set of fields replacing * those from this instance. *

* For example, if the partial contains a year and a month then those two * fields will be changed in the returned instance. * Unsupported fields are ignored. * If the partial is null, then this is returned. * * @param partial the partial set of fields to apply to this date, null ignored * @return a copy of this date with a different set of fields * @throws IllegalArgumentException if any value is invalid */ public LocalDate withFields(ReadablePartial partial) { if (partial == null) { return this; } return withLocalMillis(getChronology().set(partial, getLocalMillis())); } /** * Returns a copy of this date with the specified field set to a new value. *

* For example, if the field type is monthOfYear then the * month of year field will be changed in the returned instance. * If the field type is null, then this is returned. *

* These two lines are equivalent: *

     * LocalDate updated = dt.withDayOfMonth(6);
     * LocalDate updated = dt.withField(DateTimeFieldType.dayOfMonth(), 6);
     * 
* * @param fieldType the field type to set, not null * @param value the value to set * @return a copy of this date with the field set * @throws IllegalArgumentException if the field is null or unsupported */ public LocalDate withField(DateTimeFieldType fieldType, int value) { if (fieldType == null) { throw new IllegalArgumentException("Field must not be null"); } if (isSupported(fieldType) == false) { throw new IllegalArgumentException("Field '" + fieldType + "' is not supported"); } long instant = fieldType.getField(getChronology()).set(getLocalMillis(), value); return withLocalMillis(instant); } /** * Returns a copy of this date with the value of the specified field increased. *

* If the addition is zero or the field is null, then this is returned. *

* These three lines are equivalent: *

     * LocalDate added = dt.withFieldAdded(DurationFieldType.years(), 6);
     * LocalDate added = dt.plusYears(6);
     * LocalDate added = dt.plus(Period.years(6));
     * 
* * @param fieldType the field type to add to, not null * @param amount the amount to add * @return a copy of this date with the field updated * @throws IllegalArgumentException if the field is null or unsupported * @throws ArithmeticException if the result exceeds the internal capacity */ public LocalDate withFieldAdded(DurationFieldType fieldType, int amount) { if (fieldType == null) { throw new IllegalArgumentException("Field must not be null"); } if (isSupported(fieldType) == false) { throw new IllegalArgumentException("Field '" + fieldType + "' is not supported"); } if (amount == 0) { return this; } long instant = fieldType.getField(getChronology()).add(getLocalMillis(), amount); return withLocalMillis(instant); } //----------------------------------------------------------------------- /** * Returns a copy of this date with the specified period added. *

* If the addition is zero, then this is returned. *

* This method is typically used to add multiple copies of complex * period instances. Adding one field is best achieved using methods * like {@link #withFieldAdded(DurationFieldType, int)} * or {@link #plusYears(int)}. *

* Unsupported time fields are ignored, thus adding a period of 24 hours * will not have any effect. * * @param period the period to add to this one, null means zero * @param scalar the amount of times to add, such as -1 to subtract once * @return a copy of this date with the period added * @throws ArithmeticException if the result exceeds the internal capacity */ public LocalDate withPeriodAdded(ReadablePeriod period, int scalar) { if (period == null || scalar == 0) { return this; } long instant = getLocalMillis(); Chronology chrono = getChronology(); for (int i = 0; i < period.size(); i++) { long value = FieldUtils.safeMultiply(period.getValue(i), scalar); DurationFieldType type = period.getFieldType(i); if (isSupported(type)) { instant = type.getField(chrono).add(instant, value); } } return withLocalMillis(instant); } //----------------------------------------------------------------------- /** * Returns a copy of this date with the specified period added. *

* If the amount is zero or null, then this is returned. *

* This method is typically used to add complex period instances. * Adding one field is best achieved using methods * like {@link #plusYears(int)}. *

* Unsupported time fields are ignored, thus adding a period of 24 hours * will not have any effect. * * @param period the period to add to this one, null means zero * @return a copy of this date with the period added * @throws ArithmeticException if the result exceeds the internal capacity */ public LocalDate plus(ReadablePeriod period) { return withPeriodAdded(period, 1); } //----------------------------------------------------------------------- /** * Returns a copy of this date plus the specified number of years. *

* This adds the specified number of years to the date. * If adding years makes the day-of-month invalid, it is adjusted to the last valid day in the month. * This LocalDate instance is immutable and unaffected by this method call. *

* The following three lines are identical in effect: *

     * LocalDate added = dt.plusYears(6);
     * LocalDate added = dt.plus(Period.years(6));
     * LocalDate added = dt.withFieldAdded(DurationFieldType.years(), 6);
     * 
* * @param years the amount of years to add, may be negative * @return the new LocalDate plus the increased years */ public LocalDate plusYears(int years) { if (years == 0) { return this; } long instant = getChronology().years().add(getLocalMillis(), years); return withLocalMillis(instant); } /** * Returns a copy of this date plus the specified number of months. *

* This adds the specified number of months to the date. * The addition may change the year, but the day-of-month is normally unchanged. * If adding months makes the day-of-month invalid, it is adjusted to the last valid day in the month. * This LocalDate instance is immutable and unaffected by this method call. *

* The following three lines are identical in effect: *

     * LocalDate added = dt.plusMonths(6);
     * LocalDate added = dt.plus(Period.months(6));
     * LocalDate added = dt.withFieldAdded(DurationFieldType.months(), 6);
     * 
* * @param months the amount of months to add, may be negative * @return the new LocalDate plus the increased months */ public LocalDate plusMonths(int months) { if (months == 0) { return this; } long instant = getChronology().months().add(getLocalMillis(), months); return withLocalMillis(instant); } /** * Returns a copy of this date plus the specified number of weeks. *

* This LocalDate instance is immutable and unaffected by this method call. *

* The following three lines are identical in effect: *

     * LocalDate added = dt.plusWeeks(6);
     * LocalDate added = dt.plus(Period.weeks(6));
     * LocalDate added = dt.withFieldAdded(DurationFieldType.weeks(), 6);
     * 
* * @param weeks the amount of weeks to add, may be negative * @return the new LocalDate plus the increased weeks */ public LocalDate plusWeeks(int weeks) { if (weeks == 0) { return this; } long instant = getChronology().weeks().add(getLocalMillis(), weeks); return withLocalMillis(instant); } /** * Returns a copy of this date plus the specified number of days. *

* This LocalDate instance is immutable and unaffected by this method call. *

* The following three lines are identical in effect: *

     * LocalDate added = dt.plusDays(6);
     * LocalDate added = dt.plus(Period.days(6));
     * LocalDate added = dt.withFieldAdded(DurationFieldType.days(), 6);
     * 
* * @param days the amount of days to add, may be negative * @return the new LocalDate plus the increased days */ public LocalDate plusDays(int days) { if (days == 0) { return this; } long instant = getChronology().days().add(getLocalMillis(), days); return withLocalMillis(instant); } //----------------------------------------------------------------------- /** * Returns a copy of this date with the specified period taken away. *

* If the amount is zero or null, then this is returned. *

* This method is typically used to subtract complex period instances. * Subtracting one field is best achieved using methods * like {@link #minusYears(int)}. *

* Unsupported time fields are ignored, thus subtracting a period of 24 hours * will not have any effect. * * @param period the period to reduce this instant by * @return a copy of this LocalDate with the period taken away * @throws ArithmeticException if the result exceeds the internal capacity */ public LocalDate minus(ReadablePeriod period) { return withPeriodAdded(period, -1); } //----------------------------------------------------------------------- /** * Returns a copy of this date minus the specified number of years. *

* This subtracts the specified number of years from the date. * If subtracting years makes the day-of-month invalid, it is adjusted to the last valid day in the month. * This LocalDate instance is immutable and unaffected by this method call. *

* The following three lines are identical in effect: *

     * LocalDate subtracted = dt.minusYears(6);
     * LocalDate subtracted = dt.minus(Period.years(6));
     * LocalDate subtracted = dt.withFieldAdded(DurationFieldType.years(), -6);
     * 
* * @param years the amount of years to subtract, may be negative * @return the new LocalDate minus the increased years */ public LocalDate minusYears(int years) { if (years == 0) { return this; } long instant = getChronology().years().subtract(getLocalMillis(), years); return withLocalMillis(instant); } /** * Returns a copy of this date minus the specified number of months. *

* This subtracts the specified number of months from the date. * The subtraction may change the year, but the day-of-month is normally unchanged. * If subtracting months makes the day-of-month invalid, it is adjusted to the last valid day in the month. * This LocalDate instance is immutable and unaffected by this method call. *

* The following three lines are identical in effect: *

     * LocalDate subtracted = dt.minusMonths(6);
     * LocalDate subtracted = dt.minus(Period.months(6));
     * LocalDate subtracted = dt.withFieldAdded(DurationFieldType.months(), -6);
     * 
* * @param months the amount of months to subtract, may be negative * @return the new LocalDate minus the increased months */ public LocalDate minusMonths(int months) { if (months == 0) { return this; } long instant = getChronology().months().subtract(getLocalMillis(), months); return withLocalMillis(instant); } /** * Returns a copy of this date minus the specified number of weeks. *

* This LocalDate instance is immutable and unaffected by this method call. *

* The following three lines are identical in effect: *

     * LocalDate subtracted = dt.minusWeeks(6);
     * LocalDate subtracted = dt.minus(Period.weeks(6));
     * LocalDate subtracted = dt.withFieldAdded(DurationFieldType.weeks(), -6);
     * 
* * @param weeks the amount of weeks to subtract, may be negative * @return the new LocalDate minus the increased weeks */ public LocalDate minusWeeks(int weeks) { if (weeks == 0) { return this; } long instant = getChronology().weeks().subtract(getLocalMillis(), weeks); return withLocalMillis(instant); } /** * Returns a copy of this date minus the specified number of days. *

* This LocalDate instance is immutable and unaffected by this method call. *

* The following three lines are identical in effect: *

     * LocalDate subtracted = dt.minusDays(6);
     * LocalDate subtracted = dt.minus(Period.days(6));
     * LocalDate subtracted = dt.withFieldAdded(DurationFieldType.days(), -6);
     * 
* * @param days the amount of days to subtract, may be negative * @return the new LocalDate minus the increased days */ public LocalDate minusDays(int days) { if (days == 0) { return this; } long instant = getChronology().days().subtract(getLocalMillis(), days); return withLocalMillis(instant); } //----------------------------------------------------------------------- /** * Gets the property object for the specified type, which contains many * useful methods. * * @param fieldType the field type to get the chronology for * @return the property object * @throws IllegalArgumentException if the field is null or unsupported */ public Property property(DateTimeFieldType fieldType) { if (fieldType == null) { throw new IllegalArgumentException("The DateTimeFieldType must not be null"); } if (isSupported(fieldType) == false) { throw new IllegalArgumentException("Field '" + fieldType + "' is not supported"); } return new Property(this, fieldType.getField(getChronology())); } //----------------------------------------------------------------------- /** * Get the era field value. * * @return the era */ public int getEra() { return getChronology().era().get(getLocalMillis()); } /** * Get the year of era field value. * * @return the year of era */ public int getCenturyOfEra() { return getChronology().centuryOfEra().get(getLocalMillis()); } /** * Get the year of era field value. * * @return the year of era */ public int getYearOfEra() { return getChronology().yearOfEra().get(getLocalMillis()); } /** * Get the year of century field value. * * @return the year of century */ public int getYearOfCentury() { return getChronology().yearOfCentury().get(getLocalMillis()); } /** * Get the year field value. * * @return the year */ public int getYear() { return getChronology().year().get(getLocalMillis()); } /** * Get the weekyear field value. *

* The weekyear is the year that matches with the weekOfWeekyear field. * In the standard ISO8601 week algorithm, the first week of the year * is that in which at least 4 days are in the year. As a result of this * definition, day 1 of the first week may be in the previous year. * The weekyear allows you to query the effective year for that day. * * @return the weekyear */ public int getWeekyear() { return getChronology().weekyear().get(getLocalMillis()); } /** * Get the month of year field value. * * @return the month of year */ public int getMonthOfYear() { return getChronology().monthOfYear().get(getLocalMillis()); } /** * Get the week of weekyear field value. *

* This field is associated with the "weekyear" via {@link #getWeekyear()}. * In the standard ISO8601 week algorithm, the first week of the year * is that in which at least 4 days are in the year. As a result of this * definition, day 1 of the first week may be in the previous year. * * @return the week of a week based year */ public int getWeekOfWeekyear() { return getChronology().weekOfWeekyear().get(getLocalMillis()); } /** * Get the day of year field value. * * @return the day of year */ public int getDayOfYear() { return getChronology().dayOfYear().get(getLocalMillis()); } /** * Get the day of month field value. *

* The values for the day of month are defined in {@link org.joda.time.DateTimeConstants}. * * @return the day of month */ public int getDayOfMonth() { return getChronology().dayOfMonth().get(getLocalMillis()); } /** * Get the day of week field value. *

* The values for the day of week are defined in {@link org.joda.time.DateTimeConstants}. * * @return the day of week */ public int getDayOfWeek() { return getChronology().dayOfWeek().get(getLocalMillis()); } //----------------------------------------------------------------------- /** * Returns a copy of this date with the era field updated. *

* LocalDate is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * era changed. * * @param era the era to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid */ public LocalDate withEra(int era) { return withLocalMillis(getChronology().era().set(getLocalMillis(), era)); } /** * Returns a copy of this date with the century of era field updated. *

* LocalDate is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * century of era changed. * * @param centuryOfEra the centurey of era to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid */ public LocalDate withCenturyOfEra(int centuryOfEra) { return withLocalMillis(getChronology().centuryOfEra().set(getLocalMillis(), centuryOfEra)); } /** * Returns a copy of this date with the year of era field updated. *

* LocalDate is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * year of era changed. * * @param yearOfEra the year of era to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid */ public LocalDate withYearOfEra(int yearOfEra) { return withLocalMillis(getChronology().yearOfEra().set(getLocalMillis(), yearOfEra)); } /** * Returns a copy of this date with the year of century field updated. *

* LocalDate is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * year of century changed. * * @param yearOfCentury the year of century to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid */ public LocalDate withYearOfCentury(int yearOfCentury) { return withLocalMillis(getChronology().yearOfCentury().set(getLocalMillis(), yearOfCentury)); } /** * Returns a copy of this date with the year field updated. *

* LocalDate is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * year changed. * * @param year the year to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid */ public LocalDate withYear(int year) { return withLocalMillis(getChronology().year().set(getLocalMillis(), year)); } /** * Returns a copy of this date with the weekyear field updated. *

* The weekyear is the year that matches with the weekOfWeekyear field. * In the standard ISO8601 week algorithm, the first week of the year * is that in which at least 4 days are in the year. As a result of this * definition, day 1 of the first week may be in the previous year. * The weekyear allows you to query the effective year for that day. *

* LocalDate is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * weekyear changed. * * @param weekyear the weekyear to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid */ public LocalDate withWeekyear(int weekyear) { return withLocalMillis(getChronology().weekyear().set(getLocalMillis(), weekyear)); } /** * Returns a copy of this date with the month of year field updated. *

* LocalDate is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * month of year changed. * * @param monthOfYear the month of year to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid */ public LocalDate withMonthOfYear(int monthOfYear) { return withLocalMillis(getChronology().monthOfYear().set(getLocalMillis(), monthOfYear)); } /** * Returns a copy of this date with the week of weekyear field updated. *

* This field is associated with the "weekyear" via {@link #withWeekyear(int)}. * In the standard ISO8601 week algorithm, the first week of the year * is that in which at least 4 days are in the year. As a result of this * definition, day 1 of the first week may be in the previous year. *

* LocalDate is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * week of weekyear changed. * * @param weekOfWeekyear the week of weekyear to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid */ public LocalDate withWeekOfWeekyear(int weekOfWeekyear) { return withLocalMillis(getChronology().weekOfWeekyear().set(getLocalMillis(), weekOfWeekyear)); } /** * Returns a copy of this date with the day of year field updated. *

* LocalDate is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * day of year changed. * * @param dayOfYear the day of year to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid */ public LocalDate withDayOfYear(int dayOfYear) { return withLocalMillis(getChronology().dayOfYear().set(getLocalMillis(), dayOfYear)); } /** * Returns a copy of this date with the day of month field updated. *

* LocalDate is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * day of month changed. * * @param dayOfMonth the day of month to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid */ public LocalDate withDayOfMonth(int dayOfMonth) { return withLocalMillis(getChronology().dayOfMonth().set(getLocalMillis(), dayOfMonth)); } /** * Returns a copy of this date with the day of week field updated. *

* LocalDate is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * day of week changed. * * @param dayOfWeek the day of week to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid */ public LocalDate withDayOfWeek(int dayOfWeek) { return withLocalMillis(getChronology().dayOfWeek().set(getLocalMillis(), dayOfWeek)); } //----------------------------------------------------------------------- /** * Get the era property which provides access to advanced functionality. * * @return the era property */ public Property era() { return new Property(this, getChronology().era()); } /** * Get the century of era property which provides access to advanced functionality. * * @return the year of era property */ public Property centuryOfEra() { return new Property(this, getChronology().centuryOfEra()); } /** * Get the year of century property which provides access to advanced functionality. * * @return the year of era property */ public Property yearOfCentury() { return new Property(this, getChronology().yearOfCentury()); } /** * Get the year of era property which provides access to advanced functionality. * * @return the year of era property */ public Property yearOfEra() { return new Property(this, getChronology().yearOfEra()); } /** * Get the year property which provides access to advanced functionality. * * @return the year property */ public Property year() { return new Property(this, getChronology().year()); } /** * Get the weekyear property which provides access to advanced functionality. * * @return the weekyear property */ public Property weekyear() { return new Property(this, getChronology().weekyear()); } /** * Get the month of year property which provides access to advanced functionality. * * @return the month of year property */ public Property monthOfYear() { return new Property(this, getChronology().monthOfYear()); } /** * Get the week of a week based year property which provides access to advanced functionality. * * @return the week of a week based year property */ public Property weekOfWeekyear() { return new Property(this, getChronology().weekOfWeekyear()); } /** * Get the day of year property which provides access to advanced functionality. * * @return the day of year property */ public Property dayOfYear() { return new Property(this, getChronology().dayOfYear()); } /** * Get the day of month property which provides access to advanced functionality. * * @return the day of month property */ public Property dayOfMonth() { return new Property(this, getChronology().dayOfMonth()); } /** * Get the day of week property which provides access to advanced functionality. * * @return the day of week property */ public Property dayOfWeek() { return new Property(this, getChronology().dayOfWeek()); } //----------------------------------------------------------------------- /** * Output the date time in ISO8601 format (yyyy-MM-dd). * * @return ISO8601 time formatted string. */ @ToString public String toString() { return ISODateTimeFormat.date().print(this); } /** * Output the date using the specified format pattern. * * @param pattern the pattern specification, null means use toString * @see org.joda.time.format.DateTimeFormat */ public String toString(String pattern) { if (pattern == null) { return toString(); } return DateTimeFormat.forPattern(pattern).print(this); } /** * Output the date using the specified format pattern. * * @param pattern the pattern specification, null means use toString * @param locale Locale to use, null means default * @see org.joda.time.format.DateTimeFormat */ public String toString(String pattern, Locale locale) throws IllegalArgumentException { if (pattern == null) { return toString(); } return DateTimeFormat.forPattern(pattern).withLocale(locale).print(this); } //----------------------------------------------------------------------- /** * LocalDate.Property binds a LocalDate to a DateTimeField allowing * powerful datetime functionality to be easily accessed. *

* The simplest use of this class is as an alternative get method, here used to * get the year '1972' (as an int) and the month 'December' (as a String). *

     * LocalDate dt = new LocalDate(1972, 12, 3, 0, 0);
     * int year = dt.year().get();
     * String monthStr = dt.month().getAsText();
     * 
*

* Methods are also provided that allow date modification. These return * new instances of LocalDate - they do not modify the original. The example * below yields two independent immutable date objects 20 years apart. *

     * LocalDate dt = new LocalDate(1972, 12, 3);
     * LocalDate dt1920 = dt.year().setCopy(1920);
     * 
*

* LocalDate.Property itself is thread-safe and immutable, as well as the * LocalDate being operated on. * * @author Stephen Colebourne * @author Brian S O'Neill * @since 1.3 */ public static final class Property extends AbstractReadableInstantFieldProperty { /** Serialization version */ private static final long serialVersionUID = -3193829732634L; /** The instant this property is working against */ private transient LocalDate iInstant; /** The field this property is working against */ private transient DateTimeField iField; /** * Constructor. * * @param instant the instant to set * @param field the field to use */ Property(LocalDate instant, DateTimeField field) { super(); iInstant = instant; iField = field; } /** * Writes the property in a safe serialization format. */ private void writeObject(ObjectOutputStream oos) throws IOException { oos.writeObject(iInstant); oos.writeObject(iField.getType()); } /** * Reads the property from a safe serialization format. */ private void readObject(ObjectInputStream oos) throws IOException, ClassNotFoundException { iInstant = (LocalDate) oos.readObject(); DateTimeFieldType type = (DateTimeFieldType) oos.readObject(); iField = type.getField(iInstant.getChronology()); } //----------------------------------------------------------------------- /** * Gets the field being used. * * @return the field */ public DateTimeField getField() { return iField; } /** * Gets the milliseconds of the date that this property is linked to. * * @return the milliseconds */ protected long getMillis() { return iInstant.getLocalMillis(); } /** * Gets the chronology of the datetime that this property is linked to. * * @return the chronology * @since 1.4 */ protected Chronology getChronology() { return iInstant.getChronology(); } /** * Gets the LocalDate object linked to this property. * * @return the linked LocalDate */ public LocalDate getLocalDate() { return iInstant; } //----------------------------------------------------------------------- /** * Adds to this field in a copy of this LocalDate. *

* The LocalDate attached to this property is unchanged by this call. * * @param value the value to add to the field in the copy * @return a copy of the LocalDate with the field value changed * @throws IllegalArgumentException if the value isn't valid */ public LocalDate addToCopy(int value) { return iInstant.withLocalMillis(iField.add(iInstant.getLocalMillis(), value)); } /** * Adds to this field, possibly wrapped, in a copy of this LocalDate. * A field wrapped operation only changes this field. * Thus 31st January addWrapField one day goes to the 1st January. *

* The LocalDate attached to this property is unchanged by this call. * * @param value the value to add to the field in the copy * @return a copy of the LocalDate with the field value changed * @throws IllegalArgumentException if the value isn't valid */ public LocalDate addWrapFieldToCopy(int value) { return iInstant.withLocalMillis(iField.addWrapField(iInstant.getLocalMillis(), value)); } //----------------------------------------------------------------------- /** * Sets this field in a copy of the LocalDate. *

* The LocalDate attached to this property is unchanged by this call. * * @param value the value to set the field in the copy to * @return a copy of the LocalDate with the field value changed * @throws IllegalArgumentException if the value isn't valid */ public LocalDate setCopy(int value) { return iInstant.withLocalMillis(iField.set(iInstant.getLocalMillis(), value)); } /** * Sets this field in a copy of the LocalDate to a parsed text value. *

* The LocalDate attached to this property is unchanged by this call. * * @param text the text value to set * @param locale optional locale to use for selecting a text symbol * @return a copy of the LocalDate with the field value changed * @throws IllegalArgumentException if the text value isn't valid */ public LocalDate setCopy(String text, Locale locale) { return iInstant.withLocalMillis(iField.set(iInstant.getLocalMillis(), text, locale)); } /** * Sets this field in a copy of the LocalDate to a parsed text value. *

* The LocalDate attached to this property is unchanged by this call. * * @param text the text value to set * @return a copy of the LocalDate with the field value changed * @throws IllegalArgumentException if the text value isn't valid */ public LocalDate setCopy(String text) { return setCopy(text, null); } //----------------------------------------------------------------------- /** * Returns a new LocalDate with this field set to the maximum value * for this field. *

* This operation is useful for obtaining a LocalDate on the last day * of the month, as month lengths vary. *

         * LocalDate lastDayOfMonth = dt.dayOfMonth().withMaximumValue();
         * 
*

* The LocalDate attached to this property is unchanged by this call. * * @return a copy of the LocalDate with this field set to its maximum */ public LocalDate withMaximumValue() { return setCopy(getMaximumValue()); } /** * Returns a new LocalDate with this field set to the minimum value * for this field. *

* The LocalDate attached to this property is unchanged by this call. * * @return a copy of the LocalDate with this field set to its minimum */ public LocalDate withMinimumValue() { return setCopy(getMinimumValue()); } //----------------------------------------------------------------------- /** * Rounds to the lowest whole unit of this field on a copy of this * LocalDate. *

* For example, rounding floor on the hourOfDay field of a LocalDate * where the time is 10:30 would result in new LocalDate with the * time of 10:00. * * @return a copy of the LocalDate with the field value changed */ public LocalDate roundFloorCopy() { return iInstant.withLocalMillis(iField.roundFloor(iInstant.getLocalMillis())); } /** * Rounds to the highest whole unit of this field on a copy of this * LocalDate. *

* For example, rounding floor on the hourOfDay field of a LocalDate * where the time is 10:30 would result in new LocalDate with the * time of 11:00. * * @return a copy of the LocalDate with the field value changed */ public LocalDate roundCeilingCopy() { return iInstant.withLocalMillis(iField.roundCeiling(iInstant.getLocalMillis())); } /** * Rounds to the nearest whole unit of this field on a copy of this * LocalDate, favoring the floor if halfway. * * @return a copy of the LocalDate with the field value changed */ public LocalDate roundHalfFloorCopy() { return iInstant.withLocalMillis(iField.roundHalfFloor(iInstant.getLocalMillis())); } /** * Rounds to the nearest whole unit of this field on a copy of this * LocalDate, favoring the ceiling if halfway. * * @return a copy of the LocalDate with the field value changed */ public LocalDate roundHalfCeilingCopy() { return iInstant.withLocalMillis(iField.roundHalfCeiling(iInstant.getLocalMillis())); } /** * Rounds to the nearest whole unit of this field on a copy of this * LocalDate. If halfway, the ceiling is favored over the floor * only if it makes this field's value even. * * @return a copy of the LocalDate with the field value changed */ public LocalDate roundHalfEvenCopy() { return iInstant.withLocalMillis(iField.roundHalfEven(iInstant.getLocalMillis())); } } }





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