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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.Locale;

import org.joda.convert.FromString;
import org.joda.time.base.BaseDateTime;
import org.joda.time.chrono.ISOChronology;
import org.joda.time.field.AbstractReadableInstantFieldProperty;
import org.joda.time.format.DateTimeFormatter;
import org.joda.time.format.ISODateTimeFormat;

/**
 * DateTime is the standard implementation of an unmodifiable datetime class.
 * 

* DateTime is the most widely used implementation of * {@link ReadableInstant}. As with all instants, it represents an exact * point on the time-line, but limited to the precision of milliseconds. * A DateTime calculates its fields with respect to a * {@link DateTimeZone time zone}. *

* Internally, the class holds two pieces of data. Firstly, it holds the * datetime as milliseconds from the Java epoch of 1970-01-01T00:00:00Z. * Secondly, it holds a {@link Chronology} which determines how the * millisecond instant value is converted into the date time fields. * The default Chronology is {@link ISOChronology} which is the agreed * international standard and compatible with the modern Gregorian calendar. *

* Each individual field can be queried in two ways: *

    *
  • getHourOfDay() *
  • hourOfDay().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 *
*

* DateTime 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 * @author Kandarp Shah * @author Brian S O'Neill * @since 1.0 * @see MutableDateTime */ public final class DateTime extends BaseDateTime implements ReadableDateTime, Serializable { /** Serialization lock */ private static final long serialVersionUID = -5171125899451703815L; //----------------------------------------------------------------------- /** * Obtains a {@code DateTime} 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 DateTime now() { return new DateTime(); } /** * Obtains a {@code DateTime} 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 DateTime now(DateTimeZone zone) { if (zone == null) { throw new NullPointerException("Zone must not be null"); } return new DateTime(zone); } /** * Obtains a {@code DateTime} 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 DateTime now(Chronology chronology) { if (chronology == null) { throw new NullPointerException("Chronology must not be null"); } return new DateTime(chronology); } //----------------------------------------------------------------------- /** * Parses a {@code DateTime} from the specified string. *

* This uses {@link ISODateTimeFormat#dateTimeParser()}. * * @param str the string to parse, not null * @since 2.0 */ @FromString public static DateTime parse(String str) { return parse(str, ISODateTimeFormat.dateTimeParser().withOffsetParsed()); } /** * Parses a {@code DateTime} 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 DateTime parse(String str, DateTimeFormatter formatter) { return formatter.parseDateTime(str); } //----------------------------------------------------------------------- /** * Constructs an instance set to the current system millisecond time * using ISOChronology in the default time zone. * * @see #now() */ public DateTime() { super(); } /** * Constructs an instance set to the current system millisecond time * using ISOChronology in the specified time zone. *

* If the specified time zone is null, the default zone is used. * * @param zone the time zone, null means default zone * @see #now(DateTimeZone) */ public DateTime(DateTimeZone zone) { super(zone); } /** * Constructs an instance set to the current system millisecond time * using the specified chronology. *

* If the chronology is null, ISOChronology * in the default time zone is used. * * @param chronology the chronology, null means ISOChronology in default zone * @see #now(Chronology) */ public DateTime(Chronology chronology) { super(chronology); } //----------------------------------------------------------------------- /** * Constructs an instance set to the milliseconds from 1970-01-01T00:00:00Z * using ISOChronology in the default time zone. * * @param instant the milliseconds from 1970-01-01T00:00:00Z */ public DateTime(long instant) { super(instant); } /** * Constructs an instance set to the milliseconds from 1970-01-01T00:00:00Z * using ISOChronology in the specified time zone. *

* If the specified time zone is null, the default zone is used. * * @param instant the milliseconds from 1970-01-01T00:00:00Z * @param zone the time zone, null means default zone */ public DateTime(long instant, DateTimeZone zone) { super(instant, zone); } /** * Constructs an instance set to the milliseconds from 1970-01-01T00:00:00Z * using the specified chronology. *

* If the chronology is null, ISOChronology * in the default time zone is used. * * @param instant the milliseconds from 1970-01-01T00:00:00Z * @param chronology the chronology, null means ISOChronology in default zone */ public DateTime(long instant, Chronology chronology) { super(instant, chronology); } //----------------------------------------------------------------------- /** * Constructs an instance from an Object that represents a datetime. *

* If the object implies a chronology (such as GregorianCalendar does), * then that chronology will be used. Otherwise, ISO default is used. * Thus if a GregorianCalendar is passed in, the chronology used will * be GJ, but if a Date is passed in the chronology will be ISO. *

* The recognised object types are defined in * {@link org.joda.time.convert.ConverterManager ConverterManager} and * include ReadableInstant, String, Calendar and Date. * The String formats are described by {@link ISODateTimeFormat#dateTimeParser()}. * * @param instant the datetime object, null means now * @throws IllegalArgumentException if the instant is invalid */ public DateTime(Object instant) { super(instant, (Chronology) null); } /** * Constructs an instance from an Object that represents a datetime, * forcing the time zone to that specified. *

* If the object implies a chronology (such as GregorianCalendar does), * then that chronology will be used, but with the time zone adjusted. * Otherwise, ISO is used in the specified time zone. * If the specified time zone is null, the default zone is used. * Thus if a GregorianCalendar is passed in, the chronology used will * be GJ, but if a Date is passed in the chronology will be ISO. *

* The recognised object types are defined in * {@link org.joda.time.convert.ConverterManager ConverterManager} and * include ReadableInstant, String, Calendar and Date. * The String formats are described by {@link ISODateTimeFormat#dateTimeParser()}. * * @param instant the datetime object, null means now * @param zone the time zone, null means default time zone * @throws IllegalArgumentException if the instant is invalid */ public DateTime(Object instant, DateTimeZone zone) { super(instant, zone); } /** * 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. * Any chronology implied by the object (such as GregorianCalendar does) * is ignored. *

* The recognised object types are defined in * {@link org.joda.time.convert.ConverterManager ConverterManager} and * include ReadableInstant, String, Calendar and Date. * The String formats are described by {@link ISODateTimeFormat#dateTimeParser()}. * * @param instant the datetime object, null means now * @param chronology the chronology, null means ISO in default zone * @throws IllegalArgumentException if the instant is invalid */ public DateTime(Object instant, Chronology chronology) { super(instant, DateTimeUtils.getChronology(chronology)); } //----------------------------------------------------------------------- /** * Constructs an instance from datetime field values * using ISOChronology in the default time zone. * * @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 * @param hourOfDay the hour of the day, from 0 to 23 * @param minuteOfHour the minute of the hour, from 0 to 59 * @since 2.0 */ public DateTime( int year, int monthOfYear, int dayOfMonth, int hourOfDay, int minuteOfHour) { super(year, monthOfYear, dayOfMonth, hourOfDay, minuteOfHour, 0, 0); } /** * Constructs an instance from datetime field values * using ISOChronology in the specified time zone. *

* If the specified time zone is null, the default zone is used. * * @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 * @param hourOfDay the hour of the day, from 0 to 23 * @param minuteOfHour the minute of the hour, from 0 to 59 * @param zone the time zone, null means default time zone * @since 2.0 */ public DateTime( int year, int monthOfYear, int dayOfMonth, int hourOfDay, int minuteOfHour, DateTimeZone zone) { super(year, monthOfYear, dayOfMonth, hourOfDay, minuteOfHour, 0, 0, zone); } /** * Constructs an instance from datetime field values * using the specified chronology. *

* If the chronology is null, ISOChronology * in the default time zone 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 hourOfDay the hour of the day, valid values defined by the chronology * @param minuteOfHour the minute of the hour, valid values defined by the chronology * @param chronology the chronology, null means ISOChronology in default zone * @since 2.0 */ public DateTime( int year, int monthOfYear, int dayOfMonth, int hourOfDay, int minuteOfHour, Chronology chronology) { super(year, monthOfYear, dayOfMonth, hourOfDay, minuteOfHour, 0, 0, chronology); } //----------------------------------------------------------------------- /** * Constructs an instance from datetime field values * using ISOChronology in the default time zone. * * @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 * @param hourOfDay the hour of the day, from 0 to 23 * @param minuteOfHour the minute of the hour, from 0 to 59 * @param secondOfMinute the second of the minute, from 0 to 59 * @since 2.0 */ public DateTime( int year, int monthOfYear, int dayOfMonth, int hourOfDay, int minuteOfHour, int secondOfMinute) { super(year, monthOfYear, dayOfMonth, hourOfDay, minuteOfHour, secondOfMinute, 0); } /** * Constructs an instance from datetime field values * using ISOChronology in the specified time zone. *

* If the specified time zone is null, the default zone is used. * * @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 * @param hourOfDay the hour of the day, from 0 to 23 * @param minuteOfHour the minute of the hour, from 0 to 59 * @param secondOfMinute the second of the minute, from 0 to 59 * @param zone the time zone, null means default time zone * @since 2.0 */ public DateTime( int year, int monthOfYear, int dayOfMonth, int hourOfDay, int minuteOfHour, int secondOfMinute, DateTimeZone zone) { super(year, monthOfYear, dayOfMonth, hourOfDay, minuteOfHour, secondOfMinute, 0, zone); } /** * Constructs an instance from datetime field values * using the specified chronology. *

* If the chronology is null, ISOChronology * in the default time zone 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 hourOfDay the hour of the day, valid values defined by the chronology * @param minuteOfHour the minute of the hour, valid values defined by the chronology * @param secondOfMinute the second of the minute, valid values defined by the chronology * @param chronology the chronology, null means ISOChronology in default zone * @since 2.0 */ public DateTime( int year, int monthOfYear, int dayOfMonth, int hourOfDay, int minuteOfHour, int secondOfMinute, Chronology chronology) { super(year, monthOfYear, dayOfMonth, hourOfDay, minuteOfHour, secondOfMinute, 0, chronology); } //----------------------------------------------------------------------- /** * Constructs an instance from datetime field values * using ISOChronology in the default time zone. * * @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 * @param hourOfDay the hour of the day, from 0 to 23 * @param minuteOfHour the minute of the hour, from 0 to 59 * @param secondOfMinute the second of the minute, from 0 to 59 * @param millisOfSecond the millisecond of the second, from 0 to 999 */ public DateTime( int year, int monthOfYear, int dayOfMonth, int hourOfDay, int minuteOfHour, int secondOfMinute, int millisOfSecond) { super(year, monthOfYear, dayOfMonth, hourOfDay, minuteOfHour, secondOfMinute, millisOfSecond); } /** * Constructs an instance from datetime field values * using ISOChronology in the specified time zone. *

* If the specified time zone is null, the default zone is used. * * @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 * @param hourOfDay the hour of the day, from 0 to 23 * @param minuteOfHour the minute of the hour, from 0 to 59 * @param secondOfMinute the second of the minute, from 0 to 59 * @param millisOfSecond the millisecond of the second, from 0 to 999 * @param zone the time zone, null means default time zone */ public DateTime( int year, int monthOfYear, int dayOfMonth, int hourOfDay, int minuteOfHour, int secondOfMinute, int millisOfSecond, DateTimeZone zone) { super(year, monthOfYear, dayOfMonth, hourOfDay, minuteOfHour, secondOfMinute, millisOfSecond, zone); } /** * Constructs an instance from datetime field values * using the specified chronology. *

* If the chronology is null, ISOChronology * in the default time zone 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 hourOfDay the hour of the day, valid values defined by the chronology * @param minuteOfHour the minute of the hour, valid values defined by the chronology * @param secondOfMinute the second of the minute, valid values defined by the chronology * @param millisOfSecond the millisecond of the second, valid values defined by the chronology * @param chronology the chronology, null means ISOChronology in default zone */ public DateTime( int year, int monthOfYear, int dayOfMonth, int hourOfDay, int minuteOfHour, int secondOfMinute, int millisOfSecond, Chronology chronology) { super(year, monthOfYear, dayOfMonth, hourOfDay, minuteOfHour, secondOfMinute, millisOfSecond, chronology); } //----------------------------------------------------------------------- /** * Get this object as a DateTime by returning this. * * @return this */ public DateTime toDateTime() { return this; } /** * Get this object as a DateTime using ISOChronology in the default zone, * returning this if possible. * * @return a DateTime using the same millis */ public DateTime toDateTimeISO() { if (getChronology() == ISOChronology.getInstance()) { return this; } return super.toDateTimeISO(); } /** * Get this object as a DateTime, returning this if possible. * * @param zone time zone to apply, or default if null * @return a DateTime using the same millis */ public DateTime toDateTime(DateTimeZone zone) { zone = DateTimeUtils.getZone(zone); if (getZone() == zone) { return this; } return super.toDateTime(zone); } /** * Get this object as a DateTime, returning this if possible. * * @param chronology chronology to apply, or ISOChronology if null * @return a DateTime using the same millis */ public DateTime toDateTime(Chronology chronology) { chronology = DateTimeUtils.getChronology(chronology); if (getChronology() == chronology) { return this; } return super.toDateTime(chronology); } //----------------------------------------------------------------------- /** * Returns a copy of this datetime with different millis. *

* The returned object will be either be a new instance or this. * Only the millis will change, the chronology and time zone are kept. * * @param newMillis the new millis, from 1970-01-01T00:00:00Z * @return a copy of this datetime with different millis */ public DateTime withMillis(long newMillis) { return (newMillis == getMillis() ? this : new DateTime(newMillis, getChronology())); } /** * Returns a copy of this datetime with a different chronology. *

* The returned object will be either be a new instance or this. * Only the chronology will change, the millis are kept. * * @param newChronology the new chronology, null means ISO default * @return a copy of this datetime with a different chronology */ public DateTime withChronology(Chronology newChronology) { newChronology = DateTimeUtils.getChronology(newChronology); return (newChronology == getChronology() ? this : new DateTime(getMillis(), newChronology)); } //----------------------------------------------------------------------- /** * Returns a copy of this datetime with a different time zone, preserving the * millisecond instant. *

* This method is useful for finding the local time in another timezone. * For example, if this instant holds 12:30 in Europe/London, the result * from this method with Europe/Paris would be 13:30. *

* The returned object will be a new instance of the same implementation type. * This method changes the time zone, and does not change the * millisecond instant, with the effect that the field values usually change. * The returned object will be either be a new instance or this. * * @param newZone the new time zone * @return a copy of this datetime with a different time zone * @see #withZoneRetainFields */ public DateTime withZone(DateTimeZone newZone) { return withChronology(getChronology().withZone(newZone)); } /** * Returns a copy of this datetime with a different time zone, preserving the * field values. *

* This method is useful for finding the millisecond time in another timezone. * For example, if this instant holds 12:30 in Europe/London (ie. 12:30Z), * the result from this method with Europe/Paris would be 12:30 (ie. 11:30Z). *

* The returned object will be a new instance of the same implementation type. * This method changes the time zone and the millisecond instant to keep * the field values the same. * The returned object will be either be a new instance or this. * * @param newZone the new time zone, null means default * @return a copy of this datetime with a different time zone * @see #withZone */ public DateTime withZoneRetainFields(DateTimeZone newZone) { newZone = DateTimeUtils.getZone(newZone); DateTimeZone originalZone = DateTimeUtils.getZone(getZone()); if (newZone == originalZone) { return this; } long millis = originalZone.getMillisKeepLocal(newZone, getMillis()); return new DateTime(millis, getChronology().withZone(newZone)); } /** * Returns a copy of this ZonedDateTime changing the zone offset to the earlier * of the two valid offsets at a local time-line overlap. *

* This method only has any effect when the local time-line overlaps, such as at * an autumn daylight savings cutover. In this scenario, there are two valid offsets * for the local date-time. Calling this method will return a date-time with the * earlier of the two selected. *

* If this method is called when it is not an overlap, this is returned. *

* This instance is immutable and unaffected by this method call. * * @return a copy of this datetime with the earliest valid offset for the local datetime */ public DateTime withEarlierOffsetAtOverlap() { long newMillis = getZone().adjustOffset(getMillis(), false); return withMillis(newMillis); } /** * Returns a copy of this ZonedDateTime changing the zone offset to the later * of the two valid offsets at a local time-line overlap. *

* This method only has any effect when the local time-line overlaps, such as at * an autumn daylight savings cutover. In this scenario, there are two valid offsets * for the local date-time. Calling this method will return a date-time with the * later of the two selected. *

* If this method is called when it is not an overlap, this is returned. *

* This instance is immutable and unaffected by this method call. * * @return a copy of this datetime with the latest valid offset for the local datetime */ public DateTime withLaterOffsetAtOverlap() { long newMillis = getZone().adjustOffset(getMillis(), true); return withMillis(newMillis); } //----------------------------------------------------------------------- /** * Returns a copy of this datetime with the specified date, retaining the time fields. *

* If the date is already the date passed in, then this is returned. *

* To set a single field use the properties, for example: *

     * DateTime set = monthOfYear().setCopy(6);
     * 
*

* This instance is immutable and unaffected by this method call. * * @param year the new year value * @param monthOfYear the new monthOfYear value * @param dayOfMonth the new dayOfMonth value * @return a copy of this datetime with a different date * @throws IllegalArgumentException if any value if invalid */ public DateTime withDate(int year, int monthOfYear, int dayOfMonth) { Chronology chrono = getChronology(); long instant = getMillis(); instant = chrono.year().set(instant, year); instant = chrono.monthOfYear().set(instant, monthOfYear); instant = chrono.dayOfMonth().set(instant, dayOfMonth); return withMillis(instant); } /** * Returns a copy of this datetime with the specified time, retaining the date fields. *

* If the time is already the time passed in, then this is returned. *

* To set a single field use the properties, for example: *

     * DateTime set = dt.hourOfDay().setCopy(6);
     * 
*

* This instance is immutable and unaffected by this method call. * * @param hourOfDay the hour of the day * @param minuteOfHour the minute of the hour * @param secondOfMinute the second of the minute * @param millisOfSecond the millisecond of the second * @return a copy of this datetime with a different time * @throws IllegalArgumentException if any value if invalid */ public DateTime withTime(int hourOfDay, int minuteOfHour, int secondOfMinute, int millisOfSecond) { Chronology chrono = getChronology(); long instant = getMillis(); instant = chrono.hourOfDay().set(instant, hourOfDay); instant = chrono.minuteOfHour().set(instant, minuteOfHour); instant = chrono.secondOfMinute().set(instant, secondOfMinute); instant = chrono.millisOfSecond().set(instant, millisOfSecond); return withMillis(instant); } /** * Returns a copy of this datetime with the time set to the start of the day. *

* 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 a copy of this datetime with the time set to the start of the day, not null */ public DateTime withTimeAtStartOfDay() { return toLocalDate().toDateTimeAtStartOfDay(getZone()); } //----------------------------------------------------------------------- /** * Returns a copy of this datetime with the partial set of fields replacing those * from this instance. *

* For example, if the partial is a TimeOfDay then the time fields * would be changed in the returned instance. * If the partial is null, then this is returned. * * @param partial the partial set of fields to apply to this datetime, null ignored * @return a copy of this datetime with a different set of fields * @throws IllegalArgumentException if any value is invalid */ public DateTime withFields(ReadablePartial partial) { if (partial == null) { return this; } return withMillis(getChronology().set(partial, getMillis())); } /** * Returns a copy of this datetime with the specified field set to a new value. *

* For example, if the field type is hourOfDay then the hour of day * field would be changed in the returned instance. * If the field type is null, then this is returned. *

* These three lines are equivalent: *

     * DateTime updated = dt.withField(DateTimeFieldType.dayOfMonth(), 6);
     * DateTime updated = dt.dayOfMonth().setCopy(6);
     * DateTime updated = dt.property(DateTimeFieldType.dayOfMonth()).setCopy(6);
     * 
* * @param fieldType the field type to set, not null * @param value the value to set * @return a copy of this datetime with the field set * @throws IllegalArgumentException if the value is null or invalid */ public DateTime withField(DateTimeFieldType fieldType, int value) { if (fieldType == null) { throw new IllegalArgumentException("Field must not be null"); } long instant = fieldType.getField(getChronology()).set(getMillis(), value); return withMillis(instant); } /** * Returns a copy of this datetime 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: *

     * DateTime added = dt.withFieldAdded(DurationFieldType.years(), 6);
     * DateTime added = dt.plusYears(6);
     * DateTime 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 datetime with the field updated * @throws IllegalArgumentException if the value is null or invalid * @throws ArithmeticException if the new datetime exceeds the capacity of a long */ public DateTime withFieldAdded(DurationFieldType fieldType, int amount) { if (fieldType == null) { throw new IllegalArgumentException("Field must not be null"); } if (amount == 0) { return this; } long instant = fieldType.getField(getChronology()).add(getMillis(), amount); return withMillis(instant); } //----------------------------------------------------------------------- /** * Returns a copy of this datetime with the specified duration added. *

* If the addition is zero, then this is returned. * * @param durationToAdd the duration to add to this one * @param scalar the amount of times to add, such as -1 to subtract once * @return a copy of this datetime with the duration added * @throws ArithmeticException if the new datetime exceeds the capacity of a long */ public DateTime withDurationAdded(long durationToAdd, int scalar) { if (durationToAdd == 0 || scalar == 0) { return this; } long instant = getChronology().add(getMillis(), durationToAdd, scalar); return withMillis(instant); } /** * Returns a copy of this datetime with the specified duration added. *

* If the addition is zero, then this is returned. * * @param durationToAdd the duration 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 datetime with the duration added * @throws ArithmeticException if the new datetime exceeds the capacity of a long */ public DateTime withDurationAdded(ReadableDuration durationToAdd, int scalar) { if (durationToAdd == null || scalar == 0) { return this; } return withDurationAdded(durationToAdd.getMillis(), scalar); } /** * Returns a copy of this datetime 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)}. * * @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 datetime with the period added * @throws ArithmeticException if the new datetime exceeds the capacity of a long */ public DateTime withPeriodAdded(ReadablePeriod period, int scalar) { if (period == null || scalar == 0) { return this; } long instant = getChronology().add(period, getMillis(), scalar); return withMillis(instant); } //----------------------------------------------------------------------- /** * Returns a copy of this datetime with the specified duration added. *

* If the amount is zero or null, then this is returned. * This datetime instance is immutable and unaffected by this method call. * * @param duration the duration, in millis, to add to this one * @return a copy of this datetime with the duration added * @throws ArithmeticException if the new datetime exceeds the capacity of a long */ public DateTime plus(long duration) { return withDurationAdded(duration, 1); } /** * Returns a copy of this datetime with the specified duration added. *

* If the amount is zero or null, then this is returned. * This datetime instance is immutable and unaffected by this method call. * * @param duration the duration to add to this one, null means zero * @return a copy of this datetime with the duration added * @throws ArithmeticException if the new datetime exceeds the capacity of a long */ public DateTime plus(ReadableDuration duration) { return withDurationAdded(duration, 1); } /** * Returns a copy of this datetime with the specified period added. *

* This method will add each element of the period one by one, from largest * to smallest, adjusting the datetime to be accurate between each. *

* Thus, adding a period of one month and one day to 2007-03-31 will * work as follows: * First add one month and adjust, resulting in 2007-04-30 * Then add one day and adjust, resulting in 2007-05-01. *

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

* If the amount is zero or null, then this is returned. * This datetime instance is immutable and unaffected by this method call. * * @param period the duration to add to this one, null means zero * @return a copy of this datetime with the period added * @throws ArithmeticException if the new datetime exceeds the capacity of a long */ public DateTime plus(ReadablePeriod period) { return withPeriodAdded(period, 1); } //----------------------------------------------------------------------- /** * Returns a copy of this datetime plus the specified number of years. *

* The calculation will do its best to only change the year field * retaining the same month of year. * However, in certain circumstances, it may be necessary to alter * smaller fields. For example, 2008-02-29 plus one year cannot result * in 2009-02-29, so the day of month is adjusted to 2009-02-28. *

* The following three lines are identical in effect: *

     * DateTime added = dt.plusYears(6);
     * DateTime added = dt.plus(Period.years(6));
     * DateTime added = dt.withFieldAdded(DurationFieldType.years(), 6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param years the amount of years to add, may be negative * @return the new datetime plus the increased years * @since 1.1 */ public DateTime plusYears(int years) { if (years == 0) { return this; } long instant = getChronology().years().add(getMillis(), years); return withMillis(instant); } /** * Returns a copy of this datetime plus the specified number of months. *

* The calculation will do its best to only change the month field * retaining the same day of month. * However, in certain circumstances, it may be necessary to alter * smaller fields. For example, 2007-03-31 plus one month cannot result * in 2007-04-31, so the day of month is adjusted to 2007-04-30. *

* The following three lines are identical in effect: *

     * DateTime added = dt.plusMonths(6);
     * DateTime added = dt.plus(Period.months(6));
     * DateTime added = dt.withFieldAdded(DurationFieldType.months(), 6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param months the amount of months to add, may be negative * @return the new datetime plus the increased months * @since 1.1 */ public DateTime plusMonths(int months) { if (months == 0) { return this; } long instant = getChronology().months().add(getMillis(), months); return withMillis(instant); } /** * Returns a copy of this datetime plus the specified number of weeks. *

* The calculation operates as if it were adding the equivalent in days. *

* The following three lines are identical in effect: *

     * DateTime added = dt.plusWeeks(6);
     * DateTime added = dt.plus(Period.weeks(6));
     * DateTime added = dt.withFieldAdded(DurationFieldType.weeks(), 6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param weeks the amount of weeks to add, may be negative * @return the new datetime plus the increased weeks * @since 1.1 */ public DateTime plusWeeks(int weeks) { if (weeks == 0) { return this; } long instant = getChronology().weeks().add(getMillis(), weeks); return withMillis(instant); } /** * Returns a copy of this datetime plus the specified number of days. *

* The calculation will do its best to only change the day field * retaining the same time of day. * However, in certain circumstances, typically daylight savings cutover, * it may be necessary to alter the time fields. *

* In spring an hour is typically removed. If adding one day results in * the time being within the cutover then the time is adjusted to be * within summer time. For example, if the cutover is from 01:59 to 03:00 * and the result of this method would have been 02:30, then the result * will be adjusted to 03:30. *

* The following three lines are identical in effect: *

     * DateTime added = dt.plusDays(6);
     * DateTime added = dt.plus(Period.days(6));
     * DateTime added = dt.withFieldAdded(DurationFieldType.days(), 6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param days the amount of days to add, may be negative * @return the new datetime plus the increased days * @since 1.1 */ public DateTime plusDays(int days) { if (days == 0) { return this; } long instant = getChronology().days().add(getMillis(), days); return withMillis(instant); } /** * Returns a copy of this datetime plus the specified number of hours. *

* The calculation will add a duration equivalent to the number of hours * expressed in milliseconds. *

* For example, if a spring daylight savings cutover is from 01:59 to 03:00 * then adding one hour to 01:30 will result in 03:30. This is a duration * of one hour later, even though the hour field value changed from 1 to 3. *

* The following three lines are identical in effect: *

     * DateTime added = dt.plusHours(6);
     * DateTime added = dt.plus(Period.hours(6));
     * DateTime added = dt.withFieldAdded(DurationFieldType.hours(), 6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param hours the amount of hours to add, may be negative * @return the new datetime plus the increased hours * @since 1.1 */ public DateTime plusHours(int hours) { if (hours == 0) { return this; } long instant = getChronology().hours().add(getMillis(), hours); return withMillis(instant); } /** * Returns a copy of this datetime plus the specified number of minutes. *

* The calculation will add a duration equivalent to the number of minutes * expressed in milliseconds. *

* The following three lines are identical in effect: *

     * DateTime added = dt.plusMinutes(6);
     * DateTime added = dt.plus(Period.minutes(6));
     * DateTime added = dt.withFieldAdded(DurationFieldType.minutes(), 6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param minutes the amount of minutes to add, may be negative * @return the new datetime plus the increased minutes * @since 1.1 */ public DateTime plusMinutes(int minutes) { if (minutes == 0) { return this; } long instant = getChronology().minutes().add(getMillis(), minutes); return withMillis(instant); } /** * Returns a copy of this datetime plus the specified number of seconds. *

* The calculation will add a duration equivalent to the number of seconds * expressed in milliseconds. *

* The following three lines are identical in effect: *

     * DateTime added = dt.plusSeconds(6);
     * DateTime added = dt.plus(Period.seconds(6));
     * DateTime added = dt.withFieldAdded(DurationFieldType.seconds(), 6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param seconds the amount of seconds to add, may be negative * @return the new datetime plus the increased seconds * @since 1.1 */ public DateTime plusSeconds(int seconds) { if (seconds == 0) { return this; } long instant = getChronology().seconds().add(getMillis(), seconds); return withMillis(instant); } /** * Returns a copy of this datetime plus the specified number of millis. *

* The calculation will add a duration equivalent to the number of milliseconds. *

* The following three lines are identical in effect: *

     * DateTime added = dt.plusMillis(6);
     * DateTime added = dt.plus(Period.millis(6));
     * DateTime added = dt.withFieldAdded(DurationFieldType.millis(), 6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param millis the amount of millis to add, may be negative * @return the new datetime plus the increased millis * @since 1.1 */ public DateTime plusMillis(int millis) { if (millis == 0) { return this; } long instant = getChronology().millis().add(getMillis(), millis); return withMillis(instant); } //----------------------------------------------------------------------- /** * Returns a copy of this datetime with the specified duration taken away. *

* If the amount is zero or null, then this is returned. * This datetime instance is immutable and unaffected by this method call. * * @param duration the duration, in millis, to reduce this instant by * @return a copy of this datetime with the duration taken away * @throws ArithmeticException if the new datetime exceeds the capacity of a long */ public DateTime minus(long duration) { return withDurationAdded(duration, -1); } /** * Returns a copy of this datetime with the specified duration taken away. *

* If the amount is zero or null, then this is returned. * This datetime instance is immutable and unaffected by this method call. * * @param duration the duration to reduce this instant by * @return a copy of this datetime with the duration taken away * @throws ArithmeticException if the new datetime exceeds the capacity of a long */ public DateTime minus(ReadableDuration duration) { return withDurationAdded(duration, -1); } /** * Returns a copy of this datetime with the specified period taken away. *

* This method will subtract each element of the period one by one, from * largest to smallest, adjusting the datetime to be accurate between each. *

* Thus, subtracting a period of one month and one day from 2007-05-31 will * work as follows: * First subtract one month and adjust, resulting in 2007-04-30 * Then subtract one day and adjust, resulting in 2007-04-29. * Note that the day has been adjusted by two. *

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

* If the amount is zero or null, then this is returned. * This datetime instance is immutable and unaffected by this method call. * * @param period the period to reduce this instant by * @return a copy of this datetime with the period taken away * @throws ArithmeticException if the new datetime exceeds the capacity of a long */ public DateTime minus(ReadablePeriod period) { return withPeriodAdded(period, -1); } //----------------------------------------------------------------------- /** * Returns a copy of this datetime minus the specified number of years. *

* The calculation will do its best to only change the year field * retaining the same month of year. * However, in certain circumstances, it may be necessary to alter * smaller fields. For example, 2008-02-29 minus one year cannot result * in 2007-02-29, so the day of month is adjusted to 2007-02-28. *

* The following three lines are identical in effect: *

     * DateTime subtracted = dt.minusYears(6);
     * DateTime subtracted = dt.minus(Period.years(6));
     * DateTime subtracted = dt.withFieldAdded(DurationFieldType.years(), -6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param years the amount of years to subtract, may be negative * @return the new datetime minus the increased years * @since 1.1 */ public DateTime minusYears(int years) { if (years == 0) { return this; } long instant = getChronology().years().subtract(getMillis(), years); return withMillis(instant); } /** * Returns a copy of this datetime minus the specified number of months. *

* The calculation will do its best to only change the month field * retaining the same day of month. * However, in certain circumstances, it may be necessary to alter * smaller fields. For example, 2007-05-31 minus one month cannot result * in 2007-04-31, so the day of month is adjusted to 2007-04-30. *

* The following three lines are identical in effect: *

     * DateTime subtracted = dt.minusMonths(6);
     * DateTime subtracted = dt.minus(Period.months(6));
     * DateTime subtracted = dt.withFieldAdded(DurationFieldType.months(), -6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param months the amount of months to subtract, may be negative * @return the new datetime minus the increased months * @since 1.1 */ public DateTime minusMonths(int months) { if (months == 0) { return this; } long instant = getChronology().months().subtract(getMillis(), months); return withMillis(instant); } /** * Returns a copy of this datetime minus the specified number of weeks. *

* The calculation operates as if it were subtracting the equivalent in days. *

* The following three lines are identical in effect: *

     * DateTime subtracted = dt.minusWeeks(6);
     * DateTime subtracted = dt.minus(Period.weeks(6));
     * DateTime subtracted = dt.withFieldAdded(DurationFieldType.weeks(), -6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param weeks the amount of weeks to subtract, may be negative * @return the new datetime minus the increased weeks * @since 1.1 */ public DateTime minusWeeks(int weeks) { if (weeks == 0) { return this; } long instant = getChronology().weeks().subtract(getMillis(), weeks); return withMillis(instant); } /** * Returns a copy of this datetime minus the specified number of days. *

* The calculation will do its best to only change the day field * retaining the same time of day. * However, in certain circumstances, typically daylight savings cutover, * it may be necessary to alter the time fields. *

* In spring an hour is typically removed. If subtracting one day results * in the time being within the cutover then the time is adjusted to be * within summer time. For example, if the cutover is from 01:59 to 03:00 * and the result of this method would have been 02:30, then the result * will be adjusted to 03:30. *

* The following three lines are identical in effect: *

     * DateTime subtracted = dt.minusDays(6);
     * DateTime subtracted = dt.minus(Period.days(6));
     * DateTime subtracted = dt.withFieldAdded(DurationFieldType.days(), -6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param days the amount of days to subtract, may be negative * @return the new datetime minus the increased days * @since 1.1 */ public DateTime minusDays(int days) { if (days == 0) { return this; } long instant = getChronology().days().subtract(getMillis(), days); return withMillis(instant); } /** * Returns a copy of this datetime minus the specified number of hours. *

* The calculation will subtract a duration equivalent to the number of * hours expressed in milliseconds. *

* For example, if a spring daylight savings cutover is from 01:59 to 03:00 * then subtracting one hour from 03:30 will result in 01:30. This is a * duration of one hour earlier, even though the hour field value changed * from 3 to 1. *

* The following three lines are identical in effect: *

     * DateTime subtracted = dt.minusHours(6);
     * DateTime subtracted = dt.minus(Period.hours(6));
     * DateTime subtracted = dt.withFieldAdded(DurationFieldType.hours(), -6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param hours the amount of hours to subtract, may be negative * @return the new datetime minus the increased hours * @since 1.1 */ public DateTime minusHours(int hours) { if (hours == 0) { return this; } long instant = getChronology().hours().subtract(getMillis(), hours); return withMillis(instant); } /** * Returns a copy of this datetime minus the specified number of minutes. *

* The calculation will subtract a duration equivalent to the number of * minutes expressed in milliseconds. *

* The following three lines are identical in effect: *

     * DateTime subtracted = dt.minusMinutes(6);
     * DateTime subtracted = dt.minus(Period.minutes(6));
     * DateTime subtracted = dt.withFieldAdded(DurationFieldType.minutes(), -6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param minutes the amount of minutes to subtract, may be negative * @return the new datetime minus the increased minutes * @since 1.1 */ public DateTime minusMinutes(int minutes) { if (minutes == 0) { return this; } long instant = getChronology().minutes().subtract(getMillis(), minutes); return withMillis(instant); } /** * Returns a copy of this datetime minus the specified number of seconds. *

* The calculation will subtract a duration equivalent to the number of * seconds expressed in milliseconds. *

* The following three lines are identical in effect: *

     * DateTime subtracted = dt.minusSeconds(6);
     * DateTime subtracted = dt.minus(Period.seconds(6));
     * DateTime subtracted = dt.withFieldAdded(DurationFieldType.seconds(), -6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param seconds the amount of seconds to subtract, may be negative * @return the new datetime minus the increased seconds * @since 1.1 */ public DateTime minusSeconds(int seconds) { if (seconds == 0) { return this; } long instant = getChronology().seconds().subtract(getMillis(), seconds); return withMillis(instant); } /** * Returns a copy of this datetime minus the specified number of millis. *

* The calculation will subtract a duration equivalent to the number of * milliseconds. *

* The following three lines are identical in effect: *

     * DateTime subtracted = dt.minusMillis(6);
     * DateTime subtracted = dt.minus(Period.millis(6));
     * DateTime subtracted = dt.withFieldAdded(DurationFieldType.millis(), -6);
     * 
*

* This datetime instance is immutable and unaffected by this method call. * * @param millis the amount of millis to subtract, may be negative * @return the new datetime minus the increased millis * @since 1.1 */ public DateTime minusMillis(int millis) { if (millis == 0) { return this; } long instant = getChronology().millis().subtract(getMillis(), millis); return withMillis(instant); } //----------------------------------------------------------------------- /** * Gets the property object for the specified type, which contains many useful methods. * * @param type 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 type) { if (type == null) { throw new IllegalArgumentException("The DateTimeFieldType must not be null"); } DateTimeField field = type.getField(getChronology()); if (field.isSupported() == false) { throw new IllegalArgumentException("Field '" + type + "' is not supported"); } return new Property(this, field); } //----------------------------------------------------------------------- /** * Converts this object to a DateMidnight using the * same millis and chronology. * * @return a DateMidnight using the same millis and chronology * @deprecated DateMidnight is deprecated */ @Deprecated public DateMidnight toDateMidnight() { return new DateMidnight(getMillis(), getChronology()); } /** * Converts this object to a YearMonthDay using the * same millis and chronology. * * @return a YearMonthDay using the same millis and chronology * @deprecated Use LocalDate instead of YearMonthDay */ @Deprecated public YearMonthDay toYearMonthDay() { return new YearMonthDay(getMillis(), getChronology()); } /** * Converts this object to a TimeOfDay using the * same millis and chronology. * * @return a TimeOfDay using the same millis and chronology * @deprecated Use LocalTime instead of TimeOfDay */ @Deprecated public TimeOfDay toTimeOfDay() { return new TimeOfDay(getMillis(), getChronology()); } /** * Converts this object to a LocalDateTime with * the same datetime and chronology. * * @return a LocalDateTime with the same datetime and chronology * @since 1.3 */ public LocalDateTime toLocalDateTime() { return new LocalDateTime(getMillis(), getChronology()); } /** * Converts this object to a LocalDate with the * same date and chronology. * * @return a LocalDate with the same date and chronology * @since 1.3 */ public LocalDate toLocalDate() { return new LocalDate(getMillis(), getChronology()); } /** * Converts this object to a LocalTime with the * same time and chronology. * * @return a LocalTime with the same time and chronology * @since 1.3 */ public LocalTime toLocalTime() { return new LocalTime(getMillis(), getChronology()); } //----------------------------------------------------------------------- /** * Returns a copy of this datetime with the era field updated. *

* DateTime 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 * @since 1.3 */ public DateTime withEra(int era) { return withMillis(getChronology().era().set(getMillis(), era)); } /** * Returns a copy of this datetime with the century of era field updated. *

* DateTime 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 * @since 1.3 */ public DateTime withCenturyOfEra(int centuryOfEra) { return withMillis(getChronology().centuryOfEra().set(getMillis(), centuryOfEra)); } /** * Returns a copy of this datetime with the year of era field updated. *

* DateTime 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 * @since 1.3 */ public DateTime withYearOfEra(int yearOfEra) { return withMillis(getChronology().yearOfEra().set(getMillis(), yearOfEra)); } /** * Returns a copy of this datetime with the year of century field updated. *

* DateTime 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 * @since 1.3 */ public DateTime withYearOfCentury(int yearOfCentury) { return withMillis(getChronology().yearOfCentury().set(getMillis(), yearOfCentury)); } /** * Returns a copy of this datetime with the year field updated. *

* DateTime 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 * @since 1.3 */ public DateTime withYear(int year) { return withMillis(getChronology().year().set(getMillis(), year)); } /** * Returns a copy of this datetime 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. *

* DateTime 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 * @since 1.3 */ public DateTime withWeekyear(int weekyear) { return withMillis(getChronology().weekyear().set(getMillis(), weekyear)); } /** * Returns a copy of this datetime with the month of year field updated. *

* DateTime 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 * @since 1.3 */ public DateTime withMonthOfYear(int monthOfYear) { return withMillis(getChronology().monthOfYear().set(getMillis(), monthOfYear)); } /** * Returns a copy of this datetime 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. *

* DateTime 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 * @since 1.3 */ public DateTime withWeekOfWeekyear(int weekOfWeekyear) { return withMillis(getChronology().weekOfWeekyear().set(getMillis(), weekOfWeekyear)); } /** * Returns a copy of this datetime with the day of year field updated. *

* DateTime 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 * @since 1.3 */ public DateTime withDayOfYear(int dayOfYear) { return withMillis(getChronology().dayOfYear().set(getMillis(), dayOfYear)); } /** * Returns a copy of this datetime with the day of month field updated. *

* DateTime 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 * @since 1.3 */ public DateTime withDayOfMonth(int dayOfMonth) { return withMillis(getChronology().dayOfMonth().set(getMillis(), dayOfMonth)); } /** * Returns a copy of this datetime with the day of week field updated. *

* DateTime 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 * @since 1.3 */ public DateTime withDayOfWeek(int dayOfWeek) { return withMillis(getChronology().dayOfWeek().set(getMillis(), dayOfWeek)); } //----------------------------------------------------------------------- /** * Returns a copy of this datetime with the hour of day field updated. *

* DateTime is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * hour of day changed. * * @param hour the hour of day to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid * @since 1.3 */ public DateTime withHourOfDay(int hour) { return withMillis(getChronology().hourOfDay().set(getMillis(), hour)); } /** * Returns a copy of this datetime with the minute of hour updated. *

* DateTime is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * minute of hour changed. * * @param minute the minute of hour to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid * @since 1.3 */ public DateTime withMinuteOfHour(int minute) { return withMillis(getChronology().minuteOfHour().set(getMillis(), minute)); } /** * Returns a copy of this datetime with the second of minute field updated. *

* DateTime is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * second of minute changed. * * @param second the second of minute to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid * @since 1.3 */ public DateTime withSecondOfMinute(int second) { return withMillis(getChronology().secondOfMinute().set(getMillis(), second)); } /** * Returns a copy of this datetime with the millis of second field updated. *

* DateTime is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * millis of second changed. * * @param millis the millis of second to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid * @since 1.3 */ public DateTime withMillisOfSecond(int millis) { return withMillis(getChronology().millisOfSecond().set(getMillis(), millis)); } /** * Returns a copy of this datetime with the millis of day field updated. *

* DateTime is immutable, so there are no set methods. * Instead, this method returns a new instance with the value of * millis of day changed. * * @param millis the millis of day to set * @return a copy of this object with the field set * @throws IllegalArgumentException if the value is invalid * @since 1.3 */ public DateTime withMillisOfDay(int millis) { return withMillis(getChronology().millisOfDay().set(getMillis(), millis)); } // Date properties //----------------------------------------------------------------------- /** * 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 year of a week based year property which provides access to advanced functionality. * * @return the year of a week based year 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()); } // Time properties //----------------------------------------------------------------------- /** * Get the hour of day field property which provides access to advanced functionality. * * @return the hour of day property */ public Property hourOfDay() { return new Property(this, getChronology().hourOfDay()); } /** * Get the minute of day property which provides access to advanced functionality. * * @return the minute of day property */ public Property minuteOfDay() { return new Property(this, getChronology().minuteOfDay()); } /** * Get the minute of hour field property which provides access to advanced functionality. * * @return the minute of hour property */ public Property minuteOfHour() { return new Property(this, getChronology().minuteOfHour()); } /** * Get the second of day property which provides access to advanced functionality. * * @return the second of day property */ public Property secondOfDay() { return new Property(this, getChronology().secondOfDay()); } /** * Get the second of minute field property which provides access to advanced functionality. * * @return the second of minute property */ public Property secondOfMinute() { return new Property(this, getChronology().secondOfMinute()); } /** * Get the millis of day property which provides access to advanced functionality. * * @return the millis of day property */ public Property millisOfDay() { return new Property(this, getChronology().millisOfDay()); } /** * Get the millis of second property which provides access to advanced functionality. * * @return the millis of second property */ public Property millisOfSecond() { return new Property(this, getChronology().millisOfSecond()); } //----------------------------------------------------------------------- /** * DateTime.Property binds a DateTime 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). *

     * DateTime dt = new DateTime(1972, 12, 3, 0, 0, 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 DateTime - they do not modify the original. The example below yields two * independent immutable date objects 20 years apart. *

     * DateTime dt = new DateTime(1972, 12, 3, 0, 0, 0, 0);
     * DateTime dt20 = dt.year().addToCopy(20);
     * 
* Serious modification of dates (ie. more than just changing one or two fields) * should use the {@link org.joda.time.MutableDateTime MutableDateTime} class. *

* DateTime.Propery itself is thread-safe and immutable, as well as the * DateTime being operated on. * * @author Stephen Colebourne * @author Brian S O'Neill * @since 1.0 */ public static final class Property extends AbstractReadableInstantFieldProperty { /** Serialization version */ private static final long serialVersionUID = -6983323811635733510L; /** The instant this property is working against */ private DateTime iInstant; /** The field this property is working against */ private DateTimeField iField; /** * Constructor. * * @param instant the instant to set * @param field the field to use */ Property(DateTime 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 = (DateTime) 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 datetime that this property is linked to. * * @return the milliseconds */ protected long getMillis() { return iInstant.getMillis(); } /** * 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 datetime being used. * * @return the datetime */ public DateTime getDateTime() { return iInstant; } //----------------------------------------------------------------------- /** * Adds to this field in a copy of this DateTime. *

* The DateTime attached to this property is unchanged by this call. * This operation is faster than converting a DateTime to a MutableDateTime * and back again when setting one field. When setting multiple fields, * it is generally quicker to make the conversion to MutableDateTime. * * @param value the value to add to the field in the copy * @return a copy of the DateTime with the field value changed * @throws IllegalArgumentException if the value isn't valid */ public DateTime addToCopy(int value) { return iInstant.withMillis(iField.add(iInstant.getMillis(), value)); } /** * Adds to this field in a copy of this DateTime. *

* The DateTime attached to this property is unchanged by this call. * This operation is faster than converting a DateTime to a MutableDateTime * and back again when setting one field. When setting multiple fields, * it is generally quicker to make the conversion to MutableDateTime. * * @param value the value to add to the field in the copy * @return a copy of the DateTime with the field value changed * @throws IllegalArgumentException if the value isn't valid */ public DateTime addToCopy(long value) { return iInstant.withMillis(iField.add(iInstant.getMillis(), value)); } /** * Adds to this field, possibly wrapped, in a copy of this DateTime. * A wrapped operation only changes this field. * Thus 31st January addWrapField one day goes to the 1st January. *

* The DateTime attached to this property is unchanged by this call. * This operation is faster than converting a DateTime to a MutableDateTime * and back again when setting one field. When setting multiple fields, * it is generally quicker to make the conversion to MutableDateTime. * * @param value the value to add to the field in the copy * @return a copy of the DateTime with the field value changed * @throws IllegalArgumentException if the value isn't valid */ public DateTime addWrapFieldToCopy(int value) { return iInstant.withMillis(iField.addWrapField(iInstant.getMillis(), value)); } //----------------------------------------------------------------------- /** * Sets this field in a copy of the DateTime. *

* The DateTime attached to this property is unchanged by this call. * This operation is faster than converting a DateTime to a MutableDateTime * and back again when setting one field. When setting multiple fields, * it is generally quicker to make the conversion to MutableDateTime. * * @param value the value to set the field in the copy to * @return a copy of the DateTime with the field value changed * @throws IllegalArgumentException if the value isn't valid */ public DateTime setCopy(int value) { return iInstant.withMillis(iField.set(iInstant.getMillis(), value)); } /** * Sets this field in a copy of the DateTime to a parsed text value. *

* The DateTime attached to this property is unchanged by this call. * This operation is faster than converting a DateTime to a MutableDateTime * and back again when setting one field. When setting multiple fields, * it is generally quicker to make the conversion to MutableDateTime. * * @param text the text value to set * @param locale optional locale to use for selecting a text symbol * @return a copy of the DateTime with the field value changed * @throws IllegalArgumentException if the text value isn't valid */ public DateTime setCopy(String text, Locale locale) { return iInstant.withMillis(iField.set(iInstant.getMillis(), text, locale)); } /** * Sets this field in a copy of the DateTime to a parsed text value. *

* The DateTime attached to this property is unchanged by this call. * This operation is faster than converting a DateTime to a MutableDateTime * and back again when setting one field. When setting multiple fields, * it is generally quicker to make the conversion to MutableDateTime. * * @param text the text value to set * @return a copy of the DateTime with the field value changed * @throws IllegalArgumentException if the text value isn't valid */ public DateTime setCopy(String text) { return setCopy(text, null); } //----------------------------------------------------------------------- /** * Returns a new DateTime with this field set to the maximum value * for this field. *

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

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

* Where possible, the offset from UTC will be retained, thus applications * may need to call {@link DateTime#withLaterOffsetAtOverlap()} on the result * to force the later time during a DST overlap if desired. *

* From v2.2, this method handles a daylight svaings time gap, setting the * time to the last instant before the gap. *

* The DateTime attached to this property is unchanged by this call. * * @return a copy of the DateTime with this field set to its maximum * @since 1.2 */ public DateTime withMaximumValue() { try { return setCopy(getMaximumValue()); } catch (RuntimeException ex) { if (IllegalInstantException.isIllegalInstant(ex)) { // adding MILLIS_PER_DAY is not perfect, but will work in almost all situations long beforeGap = getChronology().getZone().previousTransition(getMillis() + DateTimeConstants.MILLIS_PER_DAY); return new DateTime(beforeGap, getChronology()); } throw ex; } } /** * Returns a new DateTime with this field set to the minimum value * for this field. *

* Where possible, the offset from UTC will be retained, thus applications * may need to call {@link DateTime#withEarlierOffsetAtOverlap()} on the result * to force the earlier time during a DST overlap if desired. *

* From v2.2, this method handles a daylight svaings time gap, setting the * time to the first instant after the gap. *

* The DateTime attached to this property is unchanged by this call. * * @return a copy of the DateTime with this field set to its minimum * @since 1.2 */ public DateTime withMinimumValue() { try { return setCopy(getMinimumValue()); } catch (RuntimeException ex) { if (IllegalInstantException.isIllegalInstant(ex)) { // subtracting MILLIS_PER_DAY is not perfect, but will work in almost all situations long afterGap = getChronology().getZone().nextTransition(getMillis() - DateTimeConstants.MILLIS_PER_DAY); return new DateTime(afterGap, getChronology()); } throw ex; } } //----------------------------------------------------------------------- /** * Rounds to the lowest whole unit of this field on a copy of this DateTime. * * @return a copy of the DateTime with the field value changed */ public DateTime roundFloorCopy() { return iInstant.withMillis(iField.roundFloor(iInstant.getMillis())); } /** * Rounds to the highest whole unit of this field on a copy of this DateTime. * * @return a copy of the DateTime with the field value changed */ public DateTime roundCeilingCopy() { return iInstant.withMillis(iField.roundCeiling(iInstant.getMillis())); } /** * Rounds to the nearest whole unit of this field on a copy of this DateTime, * favoring the floor if halfway. * * @return a copy of the DateTime with the field value changed */ public DateTime roundHalfFloorCopy() { return iInstant.withMillis(iField.roundHalfFloor(iInstant.getMillis())); } /** * Rounds to the nearest whole unit of this field on a copy of this DateTime, * favoring the ceiling if halfway. * * @return a copy of the DateTime with the field value changed */ public DateTime roundHalfCeilingCopy() { return iInstant.withMillis(iField.roundHalfCeiling(iInstant.getMillis())); } /** * Rounds to the nearest whole unit of this field on a copy of this * DateTime. If halfway, the ceiling is favored over the floor only if * it makes this field's value even. * * @return a copy of the DateTime with the field value changed */ public DateTime roundHalfEvenCopy() { return iInstant.withMillis(iField.roundHalfEven(iInstant.getMillis())); } } }





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