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/*
* Copyright 2001-2014 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 nl.topicus.jdbc.shaded.org.joda.time;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.util.Locale;
import nl.topicus.jdbc.shaded.org.joda.convert.FromString;
import nl.topicus.jdbc.shaded.org.joda.time.base.BaseDateTime;
import nl.topicus.jdbc.shaded.org.joda.time.chrono.ISOChronology;
import nl.topicus.jdbc.shaded.org.joda.time.field.AbstractReadableInstantFieldProperty;
import nl.topicus.jdbc.shaded.org.joda.time.field.FieldUtils;
import nl.topicus.jdbc.shaded.org.joda.time.format.DateTimeFormatter;
import nl.topicus.jdbc.shaded.org.joda.time.format.ISODateTimeFormat;
/**
* MutableDateTime is the standard implementation of a modifiable datetime class.
* It holds the datetime as milliseconds from the Java epoch of 1970-01-01T00:00:00Z.
*
* This class uses a Chronology internally. The Chronology determines how the
* millisecond instant value is converted into the date time fields.
* The default Chronology is ISOChronology
which is the agreed
* international standard and compatible with the modern Gregorian calendar.
*
* Each individual field can be accessed in two ways:
*
* getHourOfDay()
* hourOfDay().get()
*
* The second technique also provides access to other useful methods on the
* field:
*
* - get numeric value
*
- set numeric value
*
- add to numeric value
*
- add to numeric value wrapping with the field
*
- get text value
*
- get short text value
*
- set text value
*
- field maximum value
*
- field minimum value
*
*
*
* MutableDateTime is mutable and not thread-safe, unless concurrent threads
* are not invoking mutator methods.
*
* @author Guy Allard
* @author Brian S O'Neill
* @author Stephen Colebourne
* @author Mike Schrag
* @since 1.0
* @see DateTime
*/
public class MutableDateTime
extends BaseDateTime
implements ReadWritableDateTime, Cloneable, Serializable {
/** Serialization version */
private static final long serialVersionUID = 2852608688135209575L;
/** Rounding is disabled */
public static final int ROUND_NONE = 0;
/** Rounding mode as described by {@link DateTimeField#roundFloor} */
public static final int ROUND_FLOOR = 1;
/** Rounding mode as described by {@link DateTimeField#roundCeiling} */
public static final int ROUND_CEILING = 2;
/** Rounding mode as described by {@link DateTimeField#roundHalfFloor} */
public static final int ROUND_HALF_FLOOR = 3;
/** Rounding mode as described by {@link DateTimeField#roundHalfCeiling} */
public static final int ROUND_HALF_CEILING = 4;
/** Rounding mode as described by {@link DateTimeField#roundHalfEven} */
public static final int ROUND_HALF_EVEN = 5;
/** The field to round on */
private DateTimeField iRoundingField;
/** The mode of rounding */
private int iRoundingMode;
//-----------------------------------------------------------------------
/**
* Obtains a {@code MutableDateTime} 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 MutableDateTime now() {
return new MutableDateTime();
}
/**
* Obtains a {@code MutableDateTime} 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 MutableDateTime now(DateTimeZone zone) {
if (zone == null) {
throw new NullPointerException("Zone must not be null");
}
return new MutableDateTime(zone);
}
/**
* Obtains a {@code MutableDateTime} 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 MutableDateTime now(Chronology chronology) {
if (chronology == null) {
throw new NullPointerException("Chronology must not be null");
}
return new MutableDateTime(chronology);
}
//-----------------------------------------------------------------------
/**
* Parses a {@code MutableDateTime} from the specified string.
*
* This uses {@link ISODateTimeFormat#dateTimeParser()}.
*
* @param str the string to parse, not null
* @since 2.0
*/
@FromString
public static MutableDateTime parse(String str) {
return parse(str, ISODateTimeFormat.dateTimeParser().withOffsetParsed());
}
/**
* Parses a {@code MutableDateTime} 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 MutableDateTime parse(String str, DateTimeFormatter formatter) {
return formatter.parseDateTime(str).toMutableDateTime();
}
//-----------------------------------------------------------------------
/**
* Constructs an instance set to the current system millisecond time
* using ISOChronology
in the default time zone.
*
* @see #now()
*/
public MutableDateTime() {
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 MutableDateTime(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 MutableDateTime(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 MutableDateTime(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 MutableDateTime(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 MutableDateTime(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 nl.topicus.jdbc.shaded.org.joda.time.convert.ConverterManager ConverterManager} and
* include ReadableInstant, String, Calendar and Date.
*
* @param instant the datetime object, null means now
* @throws IllegalArgumentException if the instant is invalid
*/
public MutableDateTime(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 nl.topicus.jdbc.shaded.org.joda.time.convert.ConverterManager ConverterManager} and
* include ReadableInstant, String, Calendar and Date.
*
* @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 MutableDateTime(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 nl.topicus.jdbc.shaded.org.joda.time.convert.ConverterManager ConverterManager} and
* include ReadableInstant, String, Calendar and Date.
*
* @param instant the datetime object, null means now
* @param chronology the chronology, null means ISOChronology in default zone
* @throws IllegalArgumentException if the instant is invalid
*/
public MutableDateTime(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
* @param dayOfMonth the day of the month
* @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
*/
public MutableDateTime(
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
* @param dayOfMonth the day of the month
* @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
* @param zone the time zone, null means default time zone
*/
public MutableDateTime(
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
* @param monthOfYear the month of the year
* @param dayOfMonth the day of the month
* @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
* @param chronology the chronology, null means ISOChronology in default zone
*/
public MutableDateTime(
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);
}
//-----------------------------------------------------------------------
/**
* Gets the field used for rounding this instant, returning null if rounding
* is not enabled.
*
* @return the rounding field
*/
public DateTimeField getRoundingField() {
return iRoundingField;
}
/**
* Gets the rounding mode for this instant, returning ROUND_NONE if rounding
* is not enabled.
*
* @return the rounding mode constant
*/
public int getRoundingMode() {
return iRoundingMode;
}
/**
* Sets the status of rounding to use the specified field and ROUND_FLOOR mode.
* A null field will disable rounding.
* Once set, the instant is then rounded using the new field and mode.
*
* Enabling rounding will cause all subsequent calls to {@link #setMillis(long)}
* to be rounded. This can be used to control the precision of the instant,
* for example by setting a rounding field of minuteOfDay, the seconds and
* milliseconds will always be zero.
*
* @param field rounding field or null to disable
*/
public void setRounding(DateTimeField field) {
setRounding(field, MutableDateTime.ROUND_FLOOR);
}
/**
* Sets the status of rounding to use the specified field and mode.
* A null field or mode of ROUND_NONE will disable rounding.
* Once set, the instant is then rounded using the new field and mode.
*
* Enabling rounding will cause all subsequent calls to {@link #setMillis(long)}
* to be rounded. This can be used to control the precision of the instant,
* for example by setting a rounding field of minuteOfDay, the seconds and
* milliseconds will always be zero.
*
* @param field rounding field or null to disable
* @param mode rounding mode or ROUND_NONE to disable
* @throws IllegalArgumentException if mode is unknown, no exception if field is null
*/
public void setRounding(DateTimeField field, int mode) {
if (field != null && (mode < ROUND_NONE || mode > ROUND_HALF_EVEN)) {
throw new IllegalArgumentException("Illegal rounding mode: " + mode);
}
iRoundingField = (mode == ROUND_NONE ? null : field);
iRoundingMode = (field == null ? ROUND_NONE : mode);
setMillis(getMillis());
}
//-----------------------------------------------------------------------
/**
* Set the milliseconds of the datetime.
*
* All changes to the millisecond field occurs via this method.
*
* @param instant the milliseconds since 1970-01-01T00:00:00Z to set the
* datetime to
*/
public void setMillis(long instant) {
switch (iRoundingMode) {
case ROUND_NONE:
break;
case ROUND_FLOOR:
instant = iRoundingField.roundFloor(instant);
break;
case ROUND_CEILING:
instant = iRoundingField.roundCeiling(instant);
break;
case ROUND_HALF_FLOOR:
instant = iRoundingField.roundHalfFloor(instant);
break;
case ROUND_HALF_CEILING:
instant = iRoundingField.roundHalfCeiling(instant);
break;
case ROUND_HALF_EVEN:
instant = iRoundingField.roundHalfEven(instant);
break;
}
super.setMillis(instant);
}
/**
* Sets the millisecond instant of this instant from another.
*
* This method does not change the chronology of this instant, just the
* millisecond instant.
*
* @param instant the instant to use, null means now
*/
public void setMillis(ReadableInstant instant) {
long instantMillis = DateTimeUtils.getInstantMillis(instant);
setMillis(instantMillis); // set via this class not super
}
//-----------------------------------------------------------------------
/**
* Add an amount of time to the datetime.
*
* @param duration the millis to add
* @throws ArithmeticException if the result exceeds the capacity of the instant
*/
public void add(long duration) {
setMillis(FieldUtils.safeAdd(getMillis(), duration)); // set via this class not super
}
/**
* Adds a duration to this instant.
*
* This will typically change the value of most fields.
*
* @param duration the duration to add, null means add zero
* @throws ArithmeticException if the result exceeds the capacity of the instant
*/
public void add(ReadableDuration duration) {
add(duration, 1);
}
/**
* Adds a duration to this instant specifying how many times to add.
*
* This will typically change the value of most fields.
*
* @param duration the duration to add, null means add zero
* @param scalar direction and amount to add, which may be negative
* @throws ArithmeticException if the result exceeds the capacity of the instant
*/
public void add(ReadableDuration duration, int scalar) {
if (duration != null) {
add(FieldUtils.safeMultiply(duration.getMillis(), scalar));
}
}
/**
* Adds a period to this instant.
*
* This will typically change the value of most fields.
*
* @param period the period to add, null means add zero
* @throws ArithmeticException if the result exceeds the capacity of the instant
*/
public void add(ReadablePeriod period) {
add(period, 1);
}
/**
* Adds a period to this instant specifying how many times to add.
*
* This will typically change the value of most fields.
*
* @param period the period to add, null means add zero
* @param scalar direction and amount to add, which may be negative
* @throws ArithmeticException if the result exceeds the capacity of the instant
*/
public void add(ReadablePeriod period, int scalar) {
if (period != null) {
setMillis(getChronology().add(period, getMillis(), scalar)); // set via this class not super
}
}
//-----------------------------------------------------------------------
/**
* Set the chronology of the datetime.
*
* All changes to the chronology occur via this method.
*
* @param chronology the chronology to use, null means ISOChronology in default zone
*/
public void setChronology(Chronology chronology) {
super.setChronology(chronology);
}
//-----------------------------------------------------------------------
/**
* Sets the time zone of the datetime, changing the chronology and field values.
*
* Changing the zone using this method retains the millisecond instant.
* The millisecond instant is adjusted in the new zone to compensate.
*
* chronology. Setting the time zone does not affect the millisecond value
* of this instant.
*
* If the chronology already has this time zone, no change occurs.
*
* @param newZone the time zone to use, null means default zone
* @see #setZoneRetainFields
*/
public void setZone(DateTimeZone newZone) {
newZone = DateTimeUtils.getZone(newZone);
Chronology chrono = getChronology();
if (chrono.getZone() != newZone) {
setChronology(chrono.withZone(newZone)); // set via this class not super
}
}
/**
* Sets the time zone of the datetime, changing the chronology and millisecond.
*
* Changing the zone using this method retains the field values.
* The millisecond instant is adjusted in the new zone to compensate.
*
* If the chronology already has this time zone, no change occurs.
*
* @param newZone the time zone to use, null means default zone
* @see #setZone
*/
public void setZoneRetainFields(DateTimeZone newZone) {
newZone = DateTimeUtils.getZone(newZone);
DateTimeZone originalZone = DateTimeUtils.getZone(getZone());
if (newZone == originalZone) {
return;
}
long millis = originalZone.getMillisKeepLocal(newZone, getMillis());
setChronology(getChronology().withZone(newZone)); // set via this class not super
setMillis(millis);
}
//-----------------------------------------------------------------------
/**
* Sets the value of one of the fields of the instant, such as hourOfDay.
*
* @param type a field type, usually obtained from DateTimeFieldType, not null
* @param value the value to set the field to
* @throws IllegalArgumentException if the value is null or invalid
*/
public void set(DateTimeFieldType type, int value) {
if (type == null) {
throw new IllegalArgumentException("Field must not be null");
}
setMillis(type.getField(getChronology()).set(getMillis(), value));
}
/**
* Adds to the instant specifying the duration and multiple to add.
*
* @param type a field type, usually obtained from DateTimeFieldType, not null
* @param amount the amount to add of this duration
* @throws IllegalArgumentException if the value is null or invalid
* @throws ArithmeticException if the result exceeds the capacity of the instant
*/
public void add(DurationFieldType type, int amount) {
if (type == null) {
throw new IllegalArgumentException("Field must not be null");
}
if (amount != 0) {
setMillis(type.getField(getChronology()).add(getMillis(), amount));
}
}
//-----------------------------------------------------------------------
/**
* Set the year to the specified value.
*
* @param year the year
* @throws IllegalArgumentException if the value is invalid
*/
public void setYear(final int year) {
setMillis(getChronology().year().set(getMillis(), year));
}
/**
* Add a number of years to the date.
*
* @param years the years to add
* @throws IllegalArgumentException if the value is invalid
*/
public void addYears(final int years) {
if (years != 0) {
setMillis(getChronology().years().add(getMillis(), years));
}
}
//-----------------------------------------------------------------------
/**
* Set the weekyear to the specified value.
*
* @param weekyear the weekyear
* @throws IllegalArgumentException if the value is invalid
*/
public void setWeekyear(final int weekyear) {
setMillis(getChronology().weekyear().set(getMillis(), weekyear));
}
/**
* Add a number of weekyears to the date.
*
* @param weekyears the weekyears to add
* @throws IllegalArgumentException if the value is invalid
*/
public void addWeekyears(final int weekyears) {
if (weekyears != 0) {
setMillis(getChronology().weekyears().add(getMillis(), weekyears));
}
}
//-----------------------------------------------------------------------
/**
* Set the month of the year to the specified value.
*
* @param monthOfYear the month of the year
* @throws IllegalArgumentException if the value is invalid
*/
public void setMonthOfYear(final int monthOfYear) {
setMillis(getChronology().monthOfYear().set(getMillis(), monthOfYear));
}
/**
* Add a number of months to the date.
*
* @param months the months to add
* @throws IllegalArgumentException if the value is invalid
*/
public void addMonths(final int months) {
if (months != 0) {
setMillis(getChronology().months().add(getMillis(), months));
}
}
//-----------------------------------------------------------------------
/**
* Set the week of weekyear to the specified value.
*
* @param weekOfWeekyear the week of the weekyear
* @throws IllegalArgumentException if the value is invalid
*/
public void setWeekOfWeekyear(final int weekOfWeekyear) {
setMillis(getChronology().weekOfWeekyear().set(getMillis(), weekOfWeekyear));
}
/**
* Add a number of weeks to the date.
*
* @param weeks the weeks to add
* @throws IllegalArgumentException if the value is invalid
*/
public void addWeeks(final int weeks) {
if (weeks != 0) {
setMillis(getChronology().weeks().add(getMillis(), weeks));
}
}
//-----------------------------------------------------------------------
/**
* Set the day of year to the specified value.
*
* @param dayOfYear the day of the year
* @throws IllegalArgumentException if the value is invalid
*/
public void setDayOfYear(final int dayOfYear) {
setMillis(getChronology().dayOfYear().set(getMillis(), dayOfYear));
}
/**
* Set the day of the month to the specified value.
*
* @param dayOfMonth the day of the month
* @throws IllegalArgumentException if the value is invalid
*/
public void setDayOfMonth(final int dayOfMonth) {
setMillis(getChronology().dayOfMonth().set(getMillis(), dayOfMonth));
}
/**
* Set the day of week to the specified value.
*
* @param dayOfWeek the day of the week
* @throws IllegalArgumentException if the value is invalid
*/
public void setDayOfWeek(final int dayOfWeek) {
setMillis(getChronology().dayOfWeek().set(getMillis(), dayOfWeek));
}
/**
* Add a number of days to the date.
*
* @param days the days to add
* @throws IllegalArgumentException if the value is invalid
*/
public void addDays(final int days) {
if (days != 0) {
setMillis(getChronology().days().add(getMillis(), days));
}
}
//-----------------------------------------------------------------------
/**
* Set the hour of the day to the specified value.
*
* @param hourOfDay the hour of day
* @throws IllegalArgumentException if the value is invalid
*/
public void setHourOfDay(final int hourOfDay) {
setMillis(getChronology().hourOfDay().set(getMillis(), hourOfDay));
}
/**
* Add a number of hours to the date.
*
* @param hours the hours to add
* @throws IllegalArgumentException if the value is invalid
*/
public void addHours(final int hours) {
if (hours != 0) {
setMillis(getChronology().hours().add(getMillis(), hours));
}
}
//-----------------------------------------------------------------------
/**
* Set the minute of the day to the specified value.
*
* @param minuteOfDay the minute of day
* @throws IllegalArgumentException if the value is invalid
*/
public void setMinuteOfDay(final int minuteOfDay) {
setMillis(getChronology().minuteOfDay().set(getMillis(), minuteOfDay));
}
/**
* Set the minute of the hour to the specified value.
*
* @param minuteOfHour the minute of hour
* @throws IllegalArgumentException if the value is invalid
*/
public void setMinuteOfHour(final int minuteOfHour) {
setMillis(getChronology().minuteOfHour().set(getMillis(), minuteOfHour));
}
/**
* Add a number of minutes to the date.
*
* @param minutes the minutes to add
* @throws IllegalArgumentException if the value is invalid
*/
public void addMinutes(final int minutes) {
if (minutes != 0) {
setMillis(getChronology().minutes().add(getMillis(), minutes));
}
}
//-----------------------------------------------------------------------
/**
* Set the second of the day to the specified value.
*
* @param secondOfDay the second of day
* @throws IllegalArgumentException if the value is invalid
*/
public void setSecondOfDay(final int secondOfDay) {
setMillis(getChronology().secondOfDay().set(getMillis(), secondOfDay));
}
/**
* Set the second of the minute to the specified value.
*
* @param secondOfMinute the second of minute
* @throws IllegalArgumentException if the value is invalid
*/
public void setSecondOfMinute(final int secondOfMinute) {
setMillis(getChronology().secondOfMinute().set(getMillis(), secondOfMinute));
}
/**
* Add a number of seconds to the date.
*
* @param seconds the seconds to add
* @throws IllegalArgumentException if the value is invalid
*/
public void addSeconds(final int seconds) {
if (seconds != 0) {
setMillis(getChronology().seconds().add(getMillis(), seconds));
}
}
//-----------------------------------------------------------------------
/**
* Set the millis of the day to the specified value.
*
* @param millisOfDay the millis of day
* @throws IllegalArgumentException if the value is invalid
*/
public void setMillisOfDay(final int millisOfDay) {
setMillis(getChronology().millisOfDay().set(getMillis(), millisOfDay));
}
/**
* Set the millis of the second to the specified value.
*
* @param millisOfSecond the millis of second
* @throws IllegalArgumentException if the value is invalid
*/
public void setMillisOfSecond(final int millisOfSecond) {
setMillis(getChronology().millisOfSecond().set(getMillis(), millisOfSecond));
}
/**
* Add a number of milliseconds to the date. The implementation of this
* method differs from the {@link #add(long)} method in that a
* DateTimeField performs the addition.
*
* @param millis the milliseconds to add
* @throws IllegalArgumentException if the value is invalid
*/
public void addMillis(final int millis) {
if (millis != 0) {
setMillis(getChronology().millis().add(getMillis(), millis));
}
}
//-----------------------------------------------------------------------
/**
* Set the date from milliseconds.
* The time part of this object will be unaffected.
*
* @param instant an instant to copy the date from, time part ignored
* @throws IllegalArgumentException if the value is invalid
*/
public void setDate(final long instant) {
setMillis(getChronology().millisOfDay().set(instant, getMillisOfDay()));
}
/**
* Set the date from another instant.
* The time part of this object will be unaffected.
*
* If the input is a {@code ReadableDateTime} then it is converted to the
* same time-zone as this object before using the instant millis.
*
* @param instant an instant to copy the date from, time part ignored
* @throws IllegalArgumentException if the object is invalid
*/
public void setDate(final ReadableInstant instant) {
long instantMillis = DateTimeUtils.getInstantMillis(instant);
if (instant instanceof ReadableDateTime) {
ReadableDateTime rdt = (ReadableDateTime) instant;
Chronology instantChrono = DateTimeUtils.getChronology(rdt.getChronology());
DateTimeZone zone = instantChrono.getZone();
if (zone != null) {
instantMillis = zone.getMillisKeepLocal(getZone(), instantMillis);
}
}
setDate(instantMillis);
}
/**
* Set the date from fields.
* The time part of this object will be unaffected.
*
* @param year the year
* @param monthOfYear the month of the year
* @param dayOfMonth the day of the month
* @throws IllegalArgumentException if the value is invalid
*/
public void setDate(
final int year,
final int monthOfYear,
final int dayOfMonth) {
Chronology c = getChronology();
long instantMidnight = c.getDateTimeMillis(year, monthOfYear, dayOfMonth, 0);
setDate(instantMidnight);
}
//-----------------------------------------------------------------------
/**
* Set the time from milliseconds.
* The date part of this object will be unaffected.
*
* @param millis an instant to copy the time from, date part ignored
* @throws IllegalArgumentException if the value is invalid
*/
public void setTime(final long millis) {
int millisOfDay = ISOChronology.getInstanceUTC().millisOfDay().get(millis);
setMillis(getChronology().millisOfDay().set(getMillis(), millisOfDay));
}
/**
* Set the time from another instant.
* The date part of this object will be unaffected.
*
* @param instant an instant to copy the time from, date part ignored
* @throws IllegalArgumentException if the object is invalid
*/
public void setTime(final ReadableInstant instant) {
long instantMillis = DateTimeUtils.getInstantMillis(instant);
Chronology instantChrono = DateTimeUtils.getInstantChronology(instant);
DateTimeZone zone = instantChrono.getZone();
if (zone != null) {
instantMillis = zone.getMillisKeepLocal(DateTimeZone.UTC, instantMillis);
}
setTime(instantMillis);
}
/**
* Set the time from fields.
* The date part of this object will be unaffected.
*
* @param hour the hour
* @param minuteOfHour the minute of the hour
* @param secondOfMinute the second of the minute
* @param millisOfSecond the millisecond of the second
* @throws IllegalArgumentException if the value is invalid
*/
public void setTime(
final int hour,
final int minuteOfHour,
final int secondOfMinute,
final int millisOfSecond) {
long instant = getChronology().getDateTimeMillis(
getMillis(), hour, minuteOfHour, secondOfMinute, millisOfSecond);
setMillis(instant);
}
/**
* Set the date and time from fields.
*
* @param year the year
* @param monthOfYear the month of the year
* @param dayOfMonth the day of the month
* @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
* @throws IllegalArgumentException if the value is invalid
*/
public void setDateTime(
final int year,
final int monthOfYear,
final int dayOfMonth,
final int hourOfDay,
final int minuteOfHour,
final int secondOfMinute,
final int millisOfSecond) {
long instant = getChronology().getDateTimeMillis(
year, monthOfYear, dayOfMonth, hourOfDay, minuteOfHour, secondOfMinute, millisOfSecond);
setMillis(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
* @since 1.2
*/
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);
}
/**
* Get the era property.
*
* @return the era property
*/
public Property era() {
return new Property(this, getChronology().era());
}
/**
* Get the century of era property.
*
* @return the year of era property
*/
public Property centuryOfEra() {
return new Property(this, getChronology().centuryOfEra());
}
/**
* Get the year of century property.
*
* @return the year of era property
*/
public Property yearOfCentury() {
return new Property(this, getChronology().yearOfCentury());
}
/**
* Get the year of era property.
*
* @return the year of era property
*/
public Property yearOfEra() {
return new Property(this, getChronology().yearOfEra());
}
/**
* Get the year property.
*
* @return the year property
*/
public Property year() {
return new Property(this, getChronology().year());
}
/**
* Get the year of a week based year property.
*
* @return the year of a week based year property
*/
public Property weekyear() {
return new Property(this, getChronology().weekyear());
}
/**
* Get the month of year property.
*
* @return the month of year property
*/
public Property monthOfYear() {
return new Property(this, getChronology().monthOfYear());
}
/**
* Get the week of a week based year property.
*
* @return the week of a week based year property
*/
public Property weekOfWeekyear() {
return new Property(this, getChronology().weekOfWeekyear());
}
/**
* Get the day of year property.
*
* @return the day of year property
*/
public Property dayOfYear() {
return new Property(this, getChronology().dayOfYear());
}
/**
* Get the day of month property.
*
* The values for day of month are defined in {@link DateTimeConstants}.
*
* @return the day of month property
*/
public Property dayOfMonth() {
return new Property(this, getChronology().dayOfMonth());
}
/**
* Get the day of week property.
*
* The values for day of week are defined in {@link DateTimeConstants}.
*
* @return the day of week property
*/
public Property dayOfWeek() {
return new Property(this, getChronology().dayOfWeek());
}
//-----------------------------------------------------------------------
/**
* Get the hour of day field property
*
* @return the hour of day property
*/
public Property hourOfDay() {
return new Property(this, getChronology().hourOfDay());
}
/**
* Get the minute of day property
*
* @return the minute of day property
*/
public Property minuteOfDay() {
return new Property(this, getChronology().minuteOfDay());
}
/**
* Get the minute of hour field property
*
* @return the minute of hour property
*/
public Property minuteOfHour() {
return new Property(this, getChronology().minuteOfHour());
}
/**
* Get the second of day property
*
* @return the second of day property
*/
public Property secondOfDay() {
return new Property(this, getChronology().secondOfDay());
}
/**
* Get the second of minute field property
*
* @return the second of minute property
*/
public Property secondOfMinute() {
return new Property(this, getChronology().secondOfMinute());
}
/**
* Get the millis of day property
*
* @return the millis of day property
*/
public Property millisOfDay() {
return new Property(this, getChronology().millisOfDay());
}
/**
* Get the millis of second property
*
* @return the millis of second property
*/
public Property millisOfSecond() {
return new Property(this, getChronology().millisOfSecond());
}
//-----------------------------------------------------------------------
/**
* Clone this object without having to cast the returned object.
*
* @return a clone of the this object.
*/
public MutableDateTime copy() {
return (MutableDateTime) clone();
}
//-----------------------------------------------------------------------
/**
* Clone this object.
*
* @return a clone of this object.
*/
public Object clone() {
try {
return super.clone();
} catch (CloneNotSupportedException ex) {
throw new InternalError("Clone error");
}
}
/**
* MutableDateTime.Property binds a MutableDateTime to a
* DateTimeField allowing powerful datetime functionality to be easily
* accessed.
*
* The example below shows how to use the property to change the value of a
* MutableDateTime object.
*
* MutableDateTime dt = new MutableDateTime(1972, 12, 3, 13, 32, 19, 123);
* dt.year().add(20);
* dt.second().roundFloor().minute().set(10);
*
*
* MutableDateTime.Propery itself is thread-safe and immutable, but the
* MutableDateTime being operated on is not.
*
* @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 = -4481126543819298617L;
/** The instant this property is working against */
private MutableDateTime 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(MutableDateTime 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 = (MutableDateTime) 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 mutable datetime being used.
*
* @return the mutable datetime
*/
public MutableDateTime getMutableDateTime() {
return iInstant;
}
//-----------------------------------------------------------------------
/**
* Adds a value to the millis value.
*
* @param value the value to add
* @return the mutable datetime being used, so calls can be chained
* @see DateTimeField#add(long,int)
*/
public MutableDateTime add(int value) {
iInstant.setMillis(getField().add(iInstant.getMillis(), value));
return iInstant;
}
/**
* Adds a value to the millis value.
*
* @param value the value to add
* @return the mutable datetime being used, so calls can be chained
* @see DateTimeField#add(long,long)
*/
public MutableDateTime add(long value) {
iInstant.setMillis(getField().add(iInstant.getMillis(), value));
return iInstant;
}
/**
* Adds a value, possibly wrapped, to the millis value.
*
* @param value the value to add
* @return the mutable datetime being used, so calls can be chained
* @see DateTimeField#addWrapField
*/
public MutableDateTime addWrapField(int value) {
iInstant.setMillis(getField().addWrapField(iInstant.getMillis(), value));
return iInstant;
}
//-----------------------------------------------------------------------
/**
* Sets a value.
*
* @param value the value to set.
* @return the mutable datetime being used, so calls can be chained
* @see DateTimeField#set(long,int)
*/
public MutableDateTime set(int value) {
iInstant.setMillis(getField().set(iInstant.getMillis(), value));
return iInstant;
}
/**
* Sets a text value.
*
* @param text the text value to set
* @param locale optional locale to use for selecting a text symbol
* @return the mutable datetime being used, so calls can be chained
* @throws IllegalArgumentException if the text value isn't valid
* @see DateTimeField#set(long,java.lang.String,java.util.Locale)
*/
public MutableDateTime set(String text, Locale locale) {
iInstant.setMillis(getField().set(iInstant.getMillis(), text, locale));
return iInstant;
}
/**
* Sets a text value.
*
* @param text the text value to set
* @return the mutable datetime being used, so calls can be chained
* @throws IllegalArgumentException if the text value isn't valid
* @see DateTimeField#set(long,java.lang.String)
*/
public MutableDateTime set(String text) {
set(text, null);
return iInstant;
}
//-----------------------------------------------------------------------
/**
* Round to the lowest whole unit of this field.
*
* @return the mutable datetime being used, so calls can be chained
* @see DateTimeField#roundFloor
*/
public MutableDateTime roundFloor() {
iInstant.setMillis(getField().roundFloor(iInstant.getMillis()));
return iInstant;
}
/**
* Round to the highest whole unit of this field.
*
* @return the mutable datetime being used, so calls can be chained
* @see DateTimeField#roundCeiling
*/
public MutableDateTime roundCeiling() {
iInstant.setMillis(getField().roundCeiling(iInstant.getMillis()));
return iInstant;
}
/**
* Round to the nearest whole unit of this field, favoring the floor if
* halfway.
*
* @return the mutable datetime being used, so calls can be chained
* @see DateTimeField#roundHalfFloor
*/
public MutableDateTime roundHalfFloor() {
iInstant.setMillis(getField().roundHalfFloor(iInstant.getMillis()));
return iInstant;
}
/**
* Round to the nearest whole unit of this field, favoring the ceiling if
* halfway.
*
* @return the mutable datetime being used, so calls can be chained
* @see DateTimeField#roundHalfCeiling
*/
public MutableDateTime roundHalfCeiling() {
iInstant.setMillis(getField().roundHalfCeiling(iInstant.getMillis()));
return iInstant;
}
/**
* Round to the nearest whole unit of this field. If halfway, the ceiling
* is favored over the floor only if it makes this field's value even.
*
* @return the mutable datetime being used, so calls can be chained
* @see DateTimeField#roundHalfEven
*/
public MutableDateTime roundHalfEven() {
iInstant.setMillis(getField().roundHalfEven(iInstant.getMillis()));
return iInstant;
}
}
}