/* * Copyright 2001-2006 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.Serializable; import org.joda.time.base.AbstractInstant; import org.joda.time.chrono.ISOChronology; import org.joda.time.convert.ConverterManager; import org.joda.time.convert.InstantConverter; /** * Instant is the standard implementation of a fully immutable instant in time. *

* Instant is an implementation of {@link ReadableInstant}. * As with all instants, it represents an exact point on the time-line, * but limited to the precision of milliseconds. An Instant * should be used to represent a point in time irrespective of any other * factor, such as chronology or time zone. *

* Internally, the class holds one piece of data, the instant as milliseconds * from the Java epoch of 1970-01-01T00:00:00Z. *

* For example, an Instant can be used to compare two DateTime * objects irrespective of chronology or time zone. * 

 * boolean sameInstant = dt1.toInstant().equals(dt2.toInstant());
 *
* Note that the following code will also perform the same check: * 
 * boolean sameInstant = dt1.isEqual(dt2);
 *
*

* Instant is thread-safe and immutable. * * @author Stephen Colebourne * @since 1.0 */ public final class Instant extends AbstractInstant implements ReadableInstant, Serializable { /** Serialization lock */ private static final long serialVersionUID = 3299096530934209741L; /** The millis from 1970-01-01T00:00:00Z */ private final long iMillis; //----------------------------------------------------------------------- /** * Constructs an instance set to the current system millisecond time. */ public Instant() { super(); iMillis = DateTimeUtils.currentTimeMillis(); } /** * Constructs an instance set to the milliseconds from 1970-01-01T00:00:00Z. * * @param instant the milliseconds from 1970-01-01T00:00:00Z */ public Instant(long instant) { super(); iMillis = instant; } /** * Constructs an instance from an Object that represents a datetime. *

* The recognised object types are defined in {@link ConverterManager} and * include String, Calendar and Date. * * @param instant the datetime object, null means now * @throws IllegalArgumentException if the instant is invalid */ public Instant(Object instant) { super(); InstantConverter converter = ConverterManager.getInstance().getInstantConverter(instant); iMillis = converter.getInstantMillis(instant, ISOChronology.getInstanceUTC()); } //----------------------------------------------------------------------- /** * Get this object as an Instant by returning this. * * @return this */ public Instant toInstant() { return this; } //----------------------------------------------------------------------- /** * Gets a copy of this instant with different millis. *

* The returned object will be either be a new Instant or this. * * @param newMillis the new millis, from 1970-01-01T00:00:00Z * @return a copy of this instant with different millis */ public Instant withMillis(long newMillis) { return (newMillis == iMillis ? this : new Instant(newMillis)); } /** * Gets a copy of this instant 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 instant with the duration added * @throws ArithmeticException if the new instant exceeds the capacity of a long */ public Instant withDurationAdded(long durationToAdd, int scalar) { if (durationToAdd == 0 || scalar == 0) { return this; } long instant = getChronology().add(getMillis(), durationToAdd, scalar); return withMillis(instant); } /** * Gets a copy of this instant 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 instant with the duration added * @throws ArithmeticException if the new instant exceeds the capacity of a long */ public Instant withDurationAdded(ReadableDuration durationToAdd, int scalar) { if (durationToAdd == null || scalar == 0) { return this; } return withDurationAdded(durationToAdd.getMillis(), scalar); } //----------------------------------------------------------------------- /** * Gets a copy of this instant with the specified duration added. *

* If the amount is zero or null, then this is returned. * * @param duration the duration to add to this one * @return a copy of this instant with the duration added * @throws ArithmeticException if the new instant exceeds the capacity of a long */ public Instant plus(long duration) { return withDurationAdded(duration, 1); } /** * Gets a copy of this instant with the specified duration added. *

* If the amount is zero or null, then this is returned. * * @param duration the duration to add to this one, null means zero * @return a copy of this instant with the duration added * @throws ArithmeticException if the new instant exceeds the capacity of a long */ public Instant plus(ReadableDuration duration) { return withDurationAdded(duration, 1); } //----------------------------------------------------------------------- /** * Gets a copy of this instant with the specified duration taken away. *

* If the amount is zero or null, then this is returned. * * @param duration the duration to reduce this instant by * @return a copy of this instant with the duration taken away * @throws ArithmeticException if the new instant exceeds the capacity of a long */ public Instant minus(long duration) { return withDurationAdded(duration, -1); } /** * Gets a copy of this instant with the specified duration taken away. *

* If the amount is zero or null, then this is returned. * * @param duration the duration to reduce this instant by * @return a copy of this instant with the duration taken away * @throws ArithmeticException if the new instant exceeds the capacity of a long */ public Instant minus(ReadableDuration duration) { return withDurationAdded(duration, -1); } //----------------------------------------------------------------------- /** * Gets the milliseconds of the instant. * * @return the number of milliseconds since 1970-01-01T00:00:00Z */ public long getMillis() { return iMillis; } /** * Gets the chronology of the instant, which is ISO in the UTC zone. *

* This method returns {@link ISOChronology#getInstanceUTC()} which * corresponds to the definition of the Java epoch 1970-01-01T00:00:00Z. * * @return ISO in the UTC zone */ public Chronology getChronology() { return ISOChronology.getInstanceUTC(); } //----------------------------------------------------------------------- /** * Get this object as a DateTime using ISOChronology in the default zone. *

* This method returns a DateTime object in the default zone. * This differs from the similarly named method on DateTime, DateMidnight * or MutableDateTime which retains the time zone. The difference is * because Instant really represents a time without a zone, * thus calling this method we really have no zone to 'retain' and * hence expect to switch to the default zone. *

* This method definition preserves compatability with earlier versions * of Joda-Time. * * @return a DateTime using the same millis */ public DateTime toDateTime() { return new DateTime(getMillis(), ISOChronology.getInstance()); } /** * Get this object as a DateTime using ISOChronology in the default zone. * This method is identical to toDateTime(). *

* This method returns a DateTime object in the default zone. * This differs from the similarly named method on DateTime, DateMidnight * or MutableDateTime which retains the time zone. The difference is * because Instant really represents a time without a zone, * thus calling this method we really have no zone to 'retain' and * hence expect to switch to the default zone. *

* This method definition preserves compatability with earlier versions * of Joda-Time. * * @return a DateTime using the same millis with ISOChronology * @deprecated Use toDateTime() as it is identical */ public DateTime toDateTimeISO() { return toDateTime(); } /** * Get this object as a MutableDateTime using ISOChronology in the default zone. *

* This method returns a MutableDateTime object in the default zone. * This differs from the similarly named method on DateTime, DateMidnight * or MutableDateTime which retains the time zone. The difference is * because Instant really represents a time without a zone, * thus calling this method we really have no zone to 'retain' and * hence expect to switch to the default zone. *

* This method definition preserves compatability with earlier versions * of Joda-Time. * * @return a MutableDateTime using the same millis */ public MutableDateTime toMutableDateTime() { return new MutableDateTime(getMillis(), ISOChronology.getInstance()); } /** * Get this object as a MutableDateTime using ISOChronology in the default zone. * This method is identical to toMutableDateTime(). *

* This method returns a MutableDateTime object in the default zone. * This differs from the similarly named method on DateTime, DateMidnight * or MutableDateTime which retains the time zone. The difference is * because Instant really represents a time without a zone, * thus calling this method we really have no zone to 'retain' and * hence expect to switch to the default zone. *

* This method definition preserves compatability with earlier versions * of Joda-Time. * * @return a MutableDateTime using the same millis with ISOChronology * @deprecated Use toMutableDateTime() as it is identical */ public MutableDateTime toMutableDateTimeISO() { return toMutableDateTime(); } }