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/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You 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.apache.commons.lang3.time;
import java.text.ParseException;
import java.text.ParsePosition;
import java.util.Calendar;
import java.util.Date;
import java.util.Iterator;
import java.util.Locale;
import java.util.NoSuchElementException;
import java.util.Objects;
import java.util.TimeZone;
import java.util.concurrent.TimeUnit;
import org.apache.commons.lang3.LocaleUtils;
/**
* A suite of utilities surrounding the use of the
* {@link java.util.Calendar} and {@link java.util.Date} object.
*
* DateUtils contains a lot of common methods considering manipulations
* of Dates or Calendars. Some methods require some extra explanation.
* The truncate, ceiling and round methods could be considered the Math.floor(),
* Math.ceil() or Math.round versions for dates
* This way date-fields will be ignored in bottom-up order.
* As a complement to these methods we've introduced some fragment-methods.
* With these methods the Date-fields will be ignored in top-down order.
* Since a date without a year is not a valid date, you have to decide in what
* kind of date-field you want your result, for instance milliseconds or days.
*
*
* Several methods are provided for adding to {@link Date} objects, of the form
* {@code addXXX(Date date, int amount)}. It is important to note these methods
* use a {@link Calendar} internally (with default time zone and locale) and may
* be affected by changes to daylight saving time (DST).
*
*
* @since 2.0
*/
public class DateUtils {
/**
* Date iterator.
*/
static class DateIterator implements Iterator {
private final Calendar endFinal;
private final Calendar spot;
/**
* Constructs a DateIterator that ranges from one date to another.
*
* @param startFinal start date (inclusive)
* @param endFinal end date (inclusive)
*/
DateIterator(final Calendar startFinal, final Calendar endFinal) {
this.endFinal = endFinal;
spot = startFinal;
spot.add(Calendar.DATE, -1);
}
/**
* Has the iterator not reached the end date yet?
*
* @return {@code true} if the iterator has yet to reach the end date
*/
@Override
public boolean hasNext() {
return spot.before(endFinal);
}
/**
* Returns the next calendar in the iteration
*
* @return Object calendar for the next date
*/
@Override
public Calendar next() {
if (spot.equals(endFinal)) {
throw new NoSuchElementException();
}
spot.add(Calendar.DATE, 1);
return (Calendar) spot.clone();
}
/**
* Always throws UnsupportedOperationException.
*
* @throws UnsupportedOperationException Always thrown.
* @see java.util.Iterator#remove()
*/
@Override
public void remove() {
throw new UnsupportedOperationException();
}
}
/**
* Calendar modification types.
*/
private enum ModifyType {
/**
* Truncation.
*/
TRUNCATE,
/**
* Rounding.
*/
ROUND,
/**
* Ceiling.
*/
CEILING
}
/**
* Number of milliseconds in a standard second.
* @since 2.1
*/
public static final long MILLIS_PER_SECOND = 1000;
/**
* Number of milliseconds in a standard minute.
* @since 2.1
*/
public static final long MILLIS_PER_MINUTE = 60 * MILLIS_PER_SECOND;
/**
* Number of milliseconds in a standard hour.
* @since 2.1
*/
public static final long MILLIS_PER_HOUR = 60 * MILLIS_PER_MINUTE;
/**
* Number of milliseconds in a standard day.
* @since 2.1
*/
public static final long MILLIS_PER_DAY = 24 * MILLIS_PER_HOUR;
/**
* This is half a month, so this represents whether a date is in the top
* or bottom half of the month.
*/
public static final int SEMI_MONTH = 1001;
private static final int[][] fields = {
{Calendar.MILLISECOND},
{Calendar.SECOND},
{Calendar.MINUTE},
{Calendar.HOUR_OF_DAY, Calendar.HOUR},
{Calendar.DATE, Calendar.DAY_OF_MONTH, Calendar.AM_PM
/* Calendar.DAY_OF_YEAR, Calendar.DAY_OF_WEEK, Calendar.DAY_OF_WEEK_IN_MONTH */
},
{Calendar.MONTH, SEMI_MONTH},
{Calendar.YEAR},
{Calendar.ERA}};
/**
* A week range, starting on Sunday.
*/
public static final int RANGE_WEEK_SUNDAY = 1;
/**
* A week range, starting on Monday.
*/
public static final int RANGE_WEEK_MONDAY = 2;
/**
* A week range, starting on the day focused.
*/
public static final int RANGE_WEEK_RELATIVE = 3;
/**
* A week range, centered around the day focused.
*/
public static final int RANGE_WEEK_CENTER = 4;
/**
* A month range, the week starting on Sunday.
*/
public static final int RANGE_MONTH_SUNDAY = 5;
/**
* A month range, the week starting on Monday.
*/
public static final int RANGE_MONTH_MONDAY = 6;
/**
* Adds to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param calendarField the calendar field to add to
* @param amount the amount to add, may be negative
* @return the new {@link Date} with the amount added
* @throws NullPointerException if the date is null
*/
private static Date add(final Date date, final int calendarField, final int amount) {
validateDateNotNull(date);
final Calendar c = Calendar.getInstance();
c.setTime(date);
c.add(calendarField, amount);
return c.getTime();
}
/**
* Adds a number of days to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to add, may be negative
* @return the new {@link Date} with the amount added
* @throws NullPointerException if the date is null
*/
public static Date addDays(final Date date, final int amount) {
return add(date, Calendar.DAY_OF_MONTH, amount);
}
/**
* Adds a number of hours to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to add, may be negative
* @return the new {@link Date} with the amount added
* @throws NullPointerException if the date is null
*/
public static Date addHours(final Date date, final int amount) {
return add(date, Calendar.HOUR_OF_DAY, amount);
}
/**
* Adds a number of milliseconds to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to add, may be negative
* @return the new {@link Date} with the amount added
* @throws NullPointerException if the date is null
*/
public static Date addMilliseconds(final Date date, final int amount) {
return add(date, Calendar.MILLISECOND, amount);
}
/**
* Adds a number of minutes to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to add, may be negative
* @return the new {@link Date} with the amount added
* @throws NullPointerException if the date is null
*/
public static Date addMinutes(final Date date, final int amount) {
return add(date, Calendar.MINUTE, amount);
}
/**
* Adds a number of months to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to add, may be negative
* @return the new {@link Date} with the amount added
* @throws NullPointerException if the date is null
*/
public static Date addMonths(final Date date, final int amount) {
return add(date, Calendar.MONTH, amount);
}
/**
* Adds a number of seconds to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to add, may be negative
* @return the new {@link Date} with the amount added
* @throws NullPointerException if the date is null
*/
public static Date addSeconds(final Date date, final int amount) {
return add(date, Calendar.SECOND, amount);
}
/**
* Adds a number of weeks to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to add, may be negative
* @return the new {@link Date} with the amount added
* @throws NullPointerException if the date is null
*/
public static Date addWeeks(final Date date, final int amount) {
return add(date, Calendar.WEEK_OF_YEAR, amount);
}
/**
* Adds a number of years to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to add, may be negative
* @return the new {@link Date} with the amount added
* @throws NullPointerException if the date is null
*/
public static Date addYears(final Date date, final int amount) {
return add(date, Calendar.YEAR, amount);
}
/**
* Gets a date ceiling, leaving the field specified as the most
* significant field.
*
* For example, if you had the date-time of 28 Mar 2002
* 13:45:01.231, if you passed with HOUR, it would return 28 Mar
* 2002 14:00:00.000. If this was passed with MONTH, it would
* return 1 Apr 2002 0:00:00.000.
*
* @param calendar the date to work with, not null
* @param field the field from {@link Calendar} or {@code SEMI_MONTH}
* @return the different ceil date, not null
* @throws NullPointerException if the date is {@code null}
* @throws ArithmeticException if the year is over 280 million
* @since 2.5
*/
public static Calendar ceiling(final Calendar calendar, final int field) {
Objects.requireNonNull(calendar, "calendar");
return modify((Calendar) calendar.clone(), field, ModifyType.CEILING);
}
/**
* Gets a date ceiling, leaving the field specified as the most
* significant field.
*
* For example, if you had the date-time of 28 Mar 2002
* 13:45:01.231, if you passed with HOUR, it would return 28 Mar
* 2002 14:00:00.000. If this was passed with MONTH, it would
* return 1 Apr 2002 0:00:00.000.
*
* @param date the date to work with, not null
* @param field the field from {@link Calendar} or {@code SEMI_MONTH}
* @return the different ceil date, not null
* @throws NullPointerException if the date is {@code null}
* @throws ArithmeticException if the year is over 280 million
* @since 2.5
*/
public static Date ceiling(final Date date, final int field) {
return modify(toCalendar(date), field, ModifyType.CEILING).getTime();
}
/**
* Gets a date ceiling, leaving the field specified as the most
* significant field.
*
* For example, if you had the date-time of 28 Mar 2002
* 13:45:01.231, if you passed with HOUR, it would return 28 Mar
* 2002 14:00:00.000. If this was passed with MONTH, it would
* return 1 Apr 2002 0:00:00.000.
*
* @param date the date to work with, either {@link Date} or {@link Calendar}, not null
* @param field the field from {@link Calendar} or {@code SEMI_MONTH}
* @return the different ceil date, not null
* @throws NullPointerException if the date is {@code null}
* @throws ClassCastException if the object type is not a {@link Date} or {@link Calendar}
* @throws ArithmeticException if the year is over 280 million
* @since 2.5
*/
public static Date ceiling(final Object date, final int field) {
Objects.requireNonNull(date, "date");
if (date instanceof Date) {
return ceiling((Date) date, field);
}
if (date instanceof Calendar) {
return ceiling((Calendar) date, field).getTime();
}
throw new ClassCastException("Could not find ceiling of for type: " + date.getClass());
}
/**
* Gets a Calendar fragment for any unit.
*
* @param calendar the calendar to work with, not null
* @param fragment the Calendar field part of calendar to calculate
* @param unit the time unit
* @return number of units within the fragment of the calendar
* @throws NullPointerException if the date is {@code null} or
* fragment is not supported
* @since 2.4
*/
private static long getFragment(final Calendar calendar, final int fragment, final TimeUnit unit) {
Objects.requireNonNull(calendar, "calendar");
long result = 0;
final int offset = (unit == TimeUnit.DAYS) ? 0 : 1;
// Fragments bigger than a day require a breakdown to days
switch (fragment) {
case Calendar.YEAR:
result += unit.convert(calendar.get(Calendar.DAY_OF_YEAR) - offset, TimeUnit.DAYS);
break;
case Calendar.MONTH:
result += unit.convert(calendar.get(Calendar.DAY_OF_MONTH) - offset, TimeUnit.DAYS);
break;
default:
break;
}
switch (fragment) {
// Number of days already calculated for these cases
case Calendar.YEAR:
case Calendar.MONTH:
// The rest of the valid cases
case Calendar.DAY_OF_YEAR:
case Calendar.DATE:
result += unit.convert(calendar.get(Calendar.HOUR_OF_DAY), TimeUnit.HOURS);
//$FALL-THROUGH$
case Calendar.HOUR_OF_DAY:
result += unit.convert(calendar.get(Calendar.MINUTE), TimeUnit.MINUTES);
//$FALL-THROUGH$
case Calendar.MINUTE:
result += unit.convert(calendar.get(Calendar.SECOND), TimeUnit.SECONDS);
//$FALL-THROUGH$
case Calendar.SECOND:
result += unit.convert(calendar.get(Calendar.MILLISECOND), TimeUnit.MILLISECONDS);
break;
case Calendar.MILLISECOND: break; //never useful
default: throw new IllegalArgumentException("The fragment " + fragment + " is not supported");
}
return result;
}
/**
* Gets a Date fragment for any unit.
*
* @param date the date to work with, not null
* @param fragment the Calendar field part of date to calculate
* @param unit the time unit
* @return number of units within the fragment of the date
* @throws NullPointerException if the date is {@code null}
* @throws IllegalArgumentException if fragment is not supported
* @since 2.4
*/
private static long getFragment(final Date date, final int fragment, final TimeUnit unit) {
validateDateNotNull(date);
final Calendar calendar = Calendar.getInstance();
calendar.setTime(date);
return getFragment(calendar, fragment, unit);
}
/**
* Returns the number of days within the
* fragment. All datefields greater than the fragment will be ignored.
*
* Asking the days of any date will only return the number of days
* of the current month (resulting in a number between 1 and 31). This
* method will retrieve the number of days for any fragment.
* For example, if you want to calculate the number of days past this year,
* your fragment is Calendar.YEAR. The result will be all days of the
* past month(s).
*
* Valid fragments are: Calendar.YEAR, Calendar.MONTH, both
* Calendar.DAY_OF_YEAR and Calendar.DATE, Calendar.HOUR_OF_DAY,
* Calendar.MINUTE, Calendar.SECOND and Calendar.MILLISECOND
* A fragment less than or equal to a DAY field will return 0.
*
*
* - January 28, 2008 with Calendar.MONTH as fragment will return 28
* (equivalent to calendar.get(Calendar.DAY_OF_MONTH))
* - February 28, 2008 with Calendar.MONTH as fragment will return 28
* (equivalent to calendar.get(Calendar.DAY_OF_MONTH))
* - January 28, 2008 with Calendar.YEAR as fragment will return 28
* (equivalent to calendar.get(Calendar.DAY_OF_YEAR))
* - February 28, 2008 with Calendar.YEAR as fragment will return 59
* (equivalent to calendar.get(Calendar.DAY_OF_YEAR))
* - January 28, 2008 with Calendar.MILLISECOND as fragment will return 0
* (a millisecond cannot be split in days)
*
*
* @param calendar the calendar to work with, not null
* @param fragment the {@link Calendar} field part of calendar to calculate
* @return number of days within the fragment of date
* @throws NullPointerException if the date is {@code null} or
* fragment is not supported
* @since 2.4
*/
public static long getFragmentInDays(final Calendar calendar, final int fragment) {
return getFragment(calendar, fragment, TimeUnit.DAYS);
}
/**
* Returns the number of days within the
* fragment. All date fields greater than the fragment will be ignored.
*
* Asking the days of any date will only return the number of days
* of the current month (resulting in a number between 1 and 31). This
* method will retrieve the number of days for any fragment.
* For example, if you want to calculate the number of days past this year,
* your fragment is Calendar.YEAR. The result will be all days of the
* past month(s).
*
* Valid fragments are: Calendar.YEAR, Calendar.MONTH, both
* Calendar.DAY_OF_YEAR and Calendar.DATE, Calendar.HOUR_OF_DAY,
* Calendar.MINUTE, Calendar.SECOND and Calendar.MILLISECOND
* A fragment less than or equal to a DAY field will return 0.
*
*
* - January 28, 2008 with Calendar.MONTH as fragment will return 28
* (equivalent to deprecated date.getDay())
* - February 28, 2008 with Calendar.MONTH as fragment will return 28
* (equivalent to deprecated date.getDay())
* - January 28, 2008 with Calendar.YEAR as fragment will return 28
* - February 28, 2008 with Calendar.YEAR as fragment will return 59
* - January 28, 2008 with Calendar.MILLISECOND as fragment will return 0
* (a millisecond cannot be split in days)
*
*
* @param date the date to work with, not null
* @param fragment the {@link Calendar} field part of date to calculate
* @return number of days within the fragment of date
* @throws NullPointerException if the date is {@code null}
* @throws IllegalArgumentException if the fragment is not supported
* @since 2.4
*/
public static long getFragmentInDays(final Date date, final int fragment) {
return getFragment(date, fragment, TimeUnit.DAYS);
}
/**
* Returns the number of hours within the
* fragment. All date fields greater than the fragment will be ignored.
*
* Asking the hours of any date will only return the number of hours
* of the current day (resulting in a number between 0 and 23). This
* method will retrieve the number of hours for any fragment.
* For example, if you want to calculate the number of hours past this month,
* your fragment is Calendar.MONTH. The result will be all hours of the
* past day(s).
*
* Valid fragments are: Calendar.YEAR, Calendar.MONTH, both
* Calendar.DAY_OF_YEAR and Calendar.DATE, Calendar.HOUR_OF_DAY,
* Calendar.MINUTE, Calendar.SECOND and Calendar.MILLISECOND
* A fragment less than or equal to a HOUR field will return 0.
*
*
* - January 1, 2008 7:15:10.538 with Calendar.DAY_OF_YEAR as fragment will return 7
* (equivalent to calendar.get(Calendar.HOUR_OF_DAY))
* - January 6, 2008 7:15:10.538 with Calendar.DAY_OF_YEAR as fragment will return 7
* (equivalent to calendar.get(Calendar.HOUR_OF_DAY))
* - January 1, 2008 7:15:10.538 with Calendar.MONTH as fragment will return 7
* - January 6, 2008 7:15:10.538 with Calendar.MONTH as fragment will return 127 (5*24 + 7)
* - January 16, 2008 7:15:10.538 with Calendar.MILLISECOND as fragment will return 0
* (a millisecond cannot be split in hours)
*
*
* @param calendar the calendar to work with, not null
* @param fragment the {@link Calendar} field part of calendar to calculate
* @return number of hours within the fragment of date
* @throws NullPointerException if the date is {@code null} or
* fragment is not supported
* @since 2.4
*/
public static long getFragmentInHours(final Calendar calendar, final int fragment) {
return getFragment(calendar, fragment, TimeUnit.HOURS);
}
/**
* Returns the number of hours within the
* fragment. All date fields greater than the fragment will be ignored.
*
* Asking the hours of any date will only return the number of hours
* of the current day (resulting in a number between 0 and 23). This
* method will retrieve the number of hours for any fragment.
* For example, if you want to calculate the number of hours past this month,
* your fragment is Calendar.MONTH. The result will be all hours of the
* past day(s).
*
* Valid fragments are: Calendar.YEAR, Calendar.MONTH, both
* Calendar.DAY_OF_YEAR and Calendar.DATE, Calendar.HOUR_OF_DAY,
* Calendar.MINUTE, Calendar.SECOND and Calendar.MILLISECOND
* A fragment less than or equal to a HOUR field will return 0.
*
*
* - January 1, 2008 7:15:10.538 with Calendar.DAY_OF_YEAR as fragment will return 7
* (equivalent to deprecated date.getHours())
* - January 6, 2008 7:15:10.538 with Calendar.DAY_OF_YEAR as fragment will return 7
* (equivalent to deprecated date.getHours())
* - January 1, 2008 7:15:10.538 with Calendar.MONTH as fragment will return 7
* - January 6, 2008 7:15:10.538 with Calendar.MONTH as fragment will return 127 (5*24 + 7)
* - January 16, 2008 7:15:10.538 with Calendar.MILLISECOND as fragment will return 0
* (a millisecond cannot be split in hours)
*
*
* @param date the date to work with, not null
* @param fragment the {@link Calendar} field part of date to calculate
* @return number of hours within the fragment of date
* @throws NullPointerException if the date is {@code null}
* @throws IllegalArgumentException if the fragment is not supported
* @since 2.4
*/
public static long getFragmentInHours(final Date date, final int fragment) {
return getFragment(date, fragment, TimeUnit.HOURS);
}
/**
* Returns the number of milliseconds within the
* fragment. All date fields greater than the fragment will be ignored.
*
* Asking the milliseconds of any date will only return the number of milliseconds
* of the current second (resulting in a number between 0 and 999). This
* method will retrieve the number of milliseconds for any fragment.
* For example, if you want to calculate the number of seconds past today,
* your fragment is Calendar.DATE or Calendar.DAY_OF_YEAR. The result will
* be all seconds of the past hour(s), minutes(s) and second(s).
*
* Valid fragments are: Calendar.YEAR, Calendar.MONTH, both
* Calendar.DAY_OF_YEAR and Calendar.DATE, Calendar.HOUR_OF_DAY,
* Calendar.MINUTE, Calendar.SECOND and Calendar.MILLISECOND
* A fragment less than or equal to a MILLISECOND field will return 0.
*
*
* - January 1, 2008 7:15:10.538 with Calendar.SECOND as fragment will return 538
* (equivalent to calendar.get(Calendar.MILLISECOND))
* - January 6, 2008 7:15:10.538 with Calendar.SECOND as fragment will return 538
* (equivalent to calendar.get(Calendar.MILLISECOND))
* - January 6, 2008 7:15:10.538 with Calendar.MINUTE as fragment will return 10538
* (10*1000 + 538)
* - January 16, 2008 7:15:10.538 with Calendar.MILLISECOND as fragment will return 0
* (a millisecond cannot be split in milliseconds)
*
*
* @param calendar the calendar to work with, not null
* @param fragment the {@link Calendar} field part of calendar to calculate
* @return number of milliseconds within the fragment of date
* @throws NullPointerException if the date is {@code null} or
* fragment is not supported
* @since 2.4
*/
public static long getFragmentInMilliseconds(final Calendar calendar, final int fragment) {
return getFragment(calendar, fragment, TimeUnit.MILLISECONDS);
}
/**
* Returns the number of milliseconds within the
* fragment. All date fields greater than the fragment will be ignored.
*
* Asking the milliseconds of any date will only return the number of milliseconds
* of the current second (resulting in a number between 0 and 999). This
* method will retrieve the number of milliseconds for any fragment.
* For example, if you want to calculate the number of milliseconds past today,
* your fragment is Calendar.DATE or Calendar.DAY_OF_YEAR. The result will
* be all milliseconds of the past hour(s), minutes(s) and second(s).
*
* Valid fragments are: Calendar.YEAR, Calendar.MONTH, both
* Calendar.DAY_OF_YEAR and Calendar.DATE, Calendar.HOUR_OF_DAY,
* Calendar.MINUTE, Calendar.SECOND and Calendar.MILLISECOND
* A fragment less than or equal to a SECOND field will return 0.
*
*
* - January 1, 2008 7:15:10.538 with Calendar.SECOND as fragment will return 538
* - January 6, 2008 7:15:10.538 with Calendar.SECOND as fragment will return 538
* - January 6, 2008 7:15:10.538 with Calendar.MINUTE as fragment will return 10538 (10*1000 + 538)
* - January 16, 2008 7:15:10.538 with Calendar.MILLISECOND as fragment will return 0
* (a millisecond cannot be split in milliseconds)
*
*
* @param date the date to work with, not null
* @param fragment the {@link Calendar} field part of date to calculate
* @return number of milliseconds within the fragment of date
* @throws NullPointerException if the date is {@code null}
* @throws IllegalArgumentException if the fragment is not supported
* @since 2.4
*/
public static long getFragmentInMilliseconds(final Date date, final int fragment) {
return getFragment(date, fragment, TimeUnit.MILLISECONDS);
}
/**
* Returns the number of minutes within the
* fragment. All date fields greater than the fragment will be ignored.
*
* Asking the minutes of any date will only return the number of minutes
* of the current hour (resulting in a number between 0 and 59). This
* method will retrieve the number of minutes for any fragment.
* For example, if you want to calculate the number of minutes past this month,
* your fragment is Calendar.MONTH. The result will be all minutes of the
* past day(s) and hour(s).
*
* Valid fragments are: Calendar.YEAR, Calendar.MONTH, both
* Calendar.DAY_OF_YEAR and Calendar.DATE, Calendar.HOUR_OF_DAY,
* Calendar.MINUTE, Calendar.SECOND and Calendar.MILLISECOND
* A fragment less than or equal to a MINUTE field will return 0.
*
*
* - January 1, 2008 7:15:10.538 with Calendar.HOUR_OF_DAY as fragment will return 15
* (equivalent to calendar.get(Calendar.MINUTES))
* - January 6, 2008 7:15:10.538 with Calendar.HOUR_OF_DAY as fragment will return 15
* (equivalent to calendar.get(Calendar.MINUTES))
* - January 1, 2008 7:15:10.538 with Calendar.MONTH as fragment will return 15
* - January 6, 2008 7:15:10.538 with Calendar.MONTH as fragment will return 435 (7*60 + 15)
* - January 16, 2008 7:15:10.538 with Calendar.MILLISECOND as fragment will return 0
* (a millisecond cannot be split in minutes)
*
*
* @param calendar the calendar to work with, not null
* @param fragment the {@link Calendar} field part of calendar to calculate
* @return number of minutes within the fragment of date
* @throws NullPointerException if the date is {@code null} or
* fragment is not supported
* @since 2.4
*/
public static long getFragmentInMinutes(final Calendar calendar, final int fragment) {
return getFragment(calendar, fragment, TimeUnit.MINUTES);
}
/**
* Returns the number of minutes within the
* fragment. All date fields greater than the fragment will be ignored.
*
* Asking the minutes of any date will only return the number of minutes
* of the current hour (resulting in a number between 0 and 59). This
* method will retrieve the number of minutes for any fragment.
* For example, if you want to calculate the number of minutes past this month,
* your fragment is Calendar.MONTH. The result will be all minutes of the
* past day(s) and hour(s).
*
* Valid fragments are: Calendar.YEAR, Calendar.MONTH, both
* Calendar.DAY_OF_YEAR and Calendar.DATE, Calendar.HOUR_OF_DAY,
* Calendar.MINUTE, Calendar.SECOND and Calendar.MILLISECOND
* A fragment less than or equal to a MINUTE field will return 0.
*
*
* - January 1, 2008 7:15:10.538 with Calendar.HOUR_OF_DAY as fragment will return 15
* (equivalent to deprecated date.getMinutes())
* - January 6, 2008 7:15:10.538 with Calendar.HOUR_OF_DAY as fragment will return 15
* (equivalent to deprecated date.getMinutes())
* - January 1, 2008 7:15:10.538 with Calendar.MONTH as fragment will return 15
* - January 6, 2008 7:15:10.538 with Calendar.MONTH as fragment will return 435 (7*60 + 15)
* - January 16, 2008 7:15:10.538 with Calendar.MILLISECOND as fragment will return 0
* (a millisecond cannot be split in minutes)
*
*
* @param date the date to work with, not null
* @param fragment the {@link Calendar} field part of date to calculate
* @return number of minutes within the fragment of date
* @throws NullPointerException if the date is {@code null}
* @throws IllegalArgumentException if the fragment is not supported
* @since 2.4
*/
public static long getFragmentInMinutes(final Date date, final int fragment) {
return getFragment(date, fragment, TimeUnit.MINUTES);
}
/**
* Returns the number of seconds within the
* fragment. All date fields greater than the fragment will be ignored.
*
* Asking the seconds of any date will only return the number of seconds
* of the current minute (resulting in a number between 0 and 59). This
* method will retrieve the number of seconds for any fragment.
* For example, if you want to calculate the number of seconds past today,
* your fragment is Calendar.DATE or Calendar.DAY_OF_YEAR. The result will
* be all seconds of the past hour(s) and minutes(s).
*
* Valid fragments are: Calendar.YEAR, Calendar.MONTH, both
* Calendar.DAY_OF_YEAR and Calendar.DATE, Calendar.HOUR_OF_DAY,
* Calendar.MINUTE, Calendar.SECOND and Calendar.MILLISECOND
* A fragment less than or equal to a SECOND field will return 0.
*
*
* - January 1, 2008 7:15:10.538 with Calendar.MINUTE as fragment will return 10
* (equivalent to calendar.get(Calendar.SECOND))
* - January 6, 2008 7:15:10.538 with Calendar.MINUTE as fragment will return 10
* (equivalent to calendar.get(Calendar.SECOND))
* - January 6, 2008 7:15:10.538 with Calendar.DAY_OF_YEAR as fragment will return 26110
* (7*3600 + 15*60 + 10)
* - January 16, 2008 7:15:10.538 with Calendar.MILLISECOND as fragment will return 0
* (a millisecond cannot be split in seconds)
*
*
* @param calendar the calendar to work with, not null
* @param fragment the {@link Calendar} field part of calendar to calculate
* @return number of seconds within the fragment of date
* @throws NullPointerException if the date is {@code null} or
* fragment is not supported
* @since 2.4
*/
public static long getFragmentInSeconds(final Calendar calendar, final int fragment) {
return getFragment(calendar, fragment, TimeUnit.SECONDS);
}
/**
* Returns the number of seconds within the
* fragment. All date fields greater than the fragment will be ignored.
*
* Asking the seconds of any date will only return the number of seconds
* of the current minute (resulting in a number between 0 and 59). This
* method will retrieve the number of seconds for any fragment.
* For example, if you want to calculate the number of seconds past today,
* your fragment is Calendar.DATE or Calendar.DAY_OF_YEAR. The result will
* be all seconds of the past hour(s) and minutes(s).
*
* Valid fragments are: Calendar.YEAR, Calendar.MONTH, both
* Calendar.DAY_OF_YEAR and Calendar.DATE, Calendar.HOUR_OF_DAY,
* Calendar.MINUTE, Calendar.SECOND and Calendar.MILLISECOND
* A fragment less than or equal to a SECOND field will return 0.
*
*
* - January 1, 2008 7:15:10.538 with Calendar.MINUTE as fragment will return 10
* (equivalent to deprecated date.getSeconds())
* - January 6, 2008 7:15:10.538 with Calendar.MINUTE as fragment will return 10
* (equivalent to deprecated date.getSeconds())
* - January 6, 2008 7:15:10.538 with Calendar.DAY_OF_YEAR as fragment will return 26110
* (7*3600 + 15*60 + 10)
* - January 16, 2008 7:15:10.538 with Calendar.MILLISECOND as fragment will return 0
* (a millisecond cannot be split in seconds)
*
*
* @param date the date to work with, not null
* @param fragment the {@link Calendar} field part of date to calculate
* @return number of seconds within the fragment of date
* @throws NullPointerException if the date is {@code null}
* @throws IllegalArgumentException if the fragment is not supported
* @since 2.4
*/
public static long getFragmentInSeconds(final Date date, final int fragment) {
return getFragment(date, fragment, TimeUnit.SECONDS);
}
/**
* Checks if two calendar objects are on the same day ignoring time.
*
* 28 Mar 2002 13:45 and 28 Mar 2002 06:01 would return true.
* 28 Mar 2002 13:45 and 12 Mar 2002 13:45 would return false.
*
*
* @param cal1 the first calendar, not altered, not null
* @param cal2 the second calendar, not altered, not null
* @return true if they represent the same day
* @throws NullPointerException if either calendar is {@code null}
* @since 2.1
*/
public static boolean isSameDay(final Calendar cal1, final Calendar cal2) {
Objects.requireNonNull(cal1, "cal1");
Objects.requireNonNull(cal2, "cal2");
return cal1.get(Calendar.ERA) == cal2.get(Calendar.ERA) &&
cal1.get(Calendar.YEAR) == cal2.get(Calendar.YEAR) &&
cal1.get(Calendar.DAY_OF_YEAR) == cal2.get(Calendar.DAY_OF_YEAR);
}
/**
* Checks if two date objects are on the same day ignoring time.
*
* 28 Mar 2002 13:45 and 28 Mar 2002 06:01 would return true.
* 28 Mar 2002 13:45 and 12 Mar 2002 13:45 would return false.
*
*
* @param date1 the first date, not altered, not null
* @param date2 the second date, not altered, not null
* @return true if they represent the same day
* @throws NullPointerException if either date is {@code null}
* @since 2.1
*/
public static boolean isSameDay(final Date date1, final Date date2) {
return isSameDay(toCalendar(date1), toCalendar(date2));
}
/**
* Checks if two calendar objects represent the same instant in time.
*
* This method compares the long millisecond time of the two objects.
*
* @param cal1 the first calendar, not altered, not null
* @param cal2 the second calendar, not altered, not null
* @return true if they represent the same millisecond instant
* @throws NullPointerException if either date is {@code null}
* @since 2.1
*/
public static boolean isSameInstant(final Calendar cal1, final Calendar cal2) {
Objects.requireNonNull(cal1, "cal1");
Objects.requireNonNull(cal2, "cal2");
return cal1.getTime().getTime() == cal2.getTime().getTime();
}
/**
* Checks if two date objects represent the same instant in time.
*
* This method compares the long millisecond time of the two objects.
*
* @param date1 the first date, not altered, not null
* @param date2 the second date, not altered, not null
* @return true if they represent the same millisecond instant
* @throws NullPointerException if either date is {@code null}
* @since 2.1
*/
public static boolean isSameInstant(final Date date1, final Date date2) {
Objects.requireNonNull(date1, "date1");
Objects.requireNonNull(date2, "date2");
return date1.getTime() == date2.getTime();
}
/**
* Checks if two calendar objects represent the same local time.
*
* This method compares the values of the fields of the two objects.
* In addition, both calendars must be the same of the same type.
*
* @param cal1 the first calendar, not altered, not null
* @param cal2 the second calendar, not altered, not null
* @return true if they represent the same millisecond instant
* @throws NullPointerException if either date is {@code null}
* @since 2.1
*/
public static boolean isSameLocalTime(final Calendar cal1, final Calendar cal2) {
Objects.requireNonNull(cal1, "cal1");
Objects.requireNonNull(cal2, "cal2");
return cal1.get(Calendar.MILLISECOND) == cal2.get(Calendar.MILLISECOND) &&
cal1.get(Calendar.SECOND) == cal2.get(Calendar.SECOND) &&
cal1.get(Calendar.MINUTE) == cal2.get(Calendar.MINUTE) &&
cal1.get(Calendar.HOUR_OF_DAY) == cal2.get(Calendar.HOUR_OF_DAY) &&
cal1.get(Calendar.DAY_OF_YEAR) == cal2.get(Calendar.DAY_OF_YEAR) &&
cal1.get(Calendar.YEAR) == cal2.get(Calendar.YEAR) &&
cal1.get(Calendar.ERA) == cal2.get(Calendar.ERA) &&
cal1.getClass() == cal2.getClass();
}
/**
* Constructs an {@link Iterator} over each day in a date
* range defined by a focus date and range style.
*
* For instance, passing Thursday, July 4, 2002 and a
* {@code RANGE_MONTH_SUNDAY} will return an {@link Iterator}
* that starts with Sunday, June 30, 2002 and ends with Saturday, August 3,
* 2002, returning a Calendar instance for each intermediate day.
*
* This method provides an iterator that returns Calendar objects.
* The days are progressed using {@link Calendar#add(int, int)}.
*
* @param calendar the date to work with, not null
* @param rangeStyle the style constant to use. Must be one of
* {@link DateUtils#RANGE_MONTH_SUNDAY},
* {@link DateUtils#RANGE_MONTH_MONDAY},
* {@link DateUtils#RANGE_WEEK_SUNDAY},
* {@link DateUtils#RANGE_WEEK_MONDAY},
* {@link DateUtils#RANGE_WEEK_RELATIVE},
* {@link DateUtils#RANGE_WEEK_CENTER}
* @return the date iterator, not null
* @throws NullPointerException if calendar is {@code null}
* @throws IllegalArgumentException if the rangeStyle is invalid
*/
public static Iterator iterator(final Calendar calendar, final int rangeStyle) {
Objects.requireNonNull(calendar, "calendar");
final Calendar start;
final Calendar end;
int startCutoff = Calendar.SUNDAY;
int endCutoff = Calendar.SATURDAY;
switch (rangeStyle) {
case RANGE_MONTH_SUNDAY:
case RANGE_MONTH_MONDAY:
//Set start to the first of the month
start = truncate(calendar, Calendar.MONTH);
//Set end to the last of the month
end = (Calendar) start.clone();
end.add(Calendar.MONTH, 1);
end.add(Calendar.DATE, -1);
//Loop start back to the previous sunday or monday
if (rangeStyle == RANGE_MONTH_MONDAY) {
startCutoff = Calendar.MONDAY;
endCutoff = Calendar.SUNDAY;
}
break;
case RANGE_WEEK_SUNDAY:
case RANGE_WEEK_MONDAY:
case RANGE_WEEK_RELATIVE:
case RANGE_WEEK_CENTER:
//Set start and end to the current date
start = truncate(calendar, Calendar.DATE);
end = truncate(calendar, Calendar.DATE);
switch (rangeStyle) {
case RANGE_WEEK_SUNDAY:
//already set by default
break;
case RANGE_WEEK_MONDAY:
startCutoff = Calendar.MONDAY;
endCutoff = Calendar.SUNDAY;
break;
case RANGE_WEEK_RELATIVE:
startCutoff = calendar.get(Calendar.DAY_OF_WEEK);
endCutoff = startCutoff - 1;
break;
case RANGE_WEEK_CENTER:
startCutoff = calendar.get(Calendar.DAY_OF_WEEK) - 3;
endCutoff = calendar.get(Calendar.DAY_OF_WEEK) + 3;
break;
default:
break;
}
break;
default:
throw new IllegalArgumentException("The range style " + rangeStyle + " is not valid.");
}
if (startCutoff < Calendar.SUNDAY) {
startCutoff += 7;
}
if (startCutoff > Calendar.SATURDAY) {
startCutoff -= 7;
}
if (endCutoff < Calendar.SUNDAY) {
endCutoff += 7;
}
if (endCutoff > Calendar.SATURDAY) {
endCutoff -= 7;
}
while (start.get(Calendar.DAY_OF_WEEK) != startCutoff) {
start.add(Calendar.DATE, -1);
}
while (end.get(Calendar.DAY_OF_WEEK) != endCutoff) {
end.add(Calendar.DATE, 1);
}
return new DateIterator(start, end);
}
/**
* Constructs an {@link Iterator} over each day in a date
* range defined by a focus date and range style.
*
* For instance, passing Thursday, July 4, 2002 and a
* {@code RANGE_MONTH_SUNDAY} will return an {@link Iterator}
* that starts with Sunday, June 30, 2002 and ends with Saturday, August 3,
* 2002, returning a Calendar instance for each intermediate day.
*
* This method provides an iterator that returns Calendar objects.
* The days are progressed using {@link Calendar#add(int, int)}.
*
* @param focus the date to work with, not null
* @param rangeStyle the style constant to use. Must be one of
* {@link DateUtils#RANGE_MONTH_SUNDAY},
* {@link DateUtils#RANGE_MONTH_MONDAY},
* {@link DateUtils#RANGE_WEEK_SUNDAY},
* {@link DateUtils#RANGE_WEEK_MONDAY},
* {@link DateUtils#RANGE_WEEK_RELATIVE},
* {@link DateUtils#RANGE_WEEK_CENTER}
* @return the date iterator, not null, not null
* @throws NullPointerException if the date is {@code null}
* @throws IllegalArgumentException if the rangeStyle is invalid
*/
public static Iterator iterator(final Date focus, final int rangeStyle) {
return iterator(toCalendar(focus), rangeStyle);
}
/**
* Constructs an {@link Iterator} over each day in a date
* range defined by a focus date and range style.
*
* For instance, passing Thursday, July 4, 2002 and a
* {@code RANGE_MONTH_SUNDAY} will return an {@link Iterator}
* that starts with Sunday, June 30, 2002 and ends with Saturday, August 3,
* 2002, returning a Calendar instance for each intermediate day.
*
* @param calendar the date to work with, either {@link Date} or {@link Calendar}, not null
* @param rangeStyle the style constant to use. Must be one of the range
* styles listed for the {@link #iterator(Calendar, int)} method.
* @return the date iterator, not null
* @throws NullPointerException if the date is {@code null}
* @throws ClassCastException if the object type is not a {@link Date} or {@link Calendar}
*/
public static Iterator> iterator(final Object calendar, final int rangeStyle) {
Objects.requireNonNull(calendar, "calendar");
if (calendar instanceof Date) {
return iterator((Date) calendar, rangeStyle);
}
if (calendar instanceof Calendar) {
return iterator((Calendar) calendar, rangeStyle);
}
throw new ClassCastException("Could not iterate based on " + calendar);
}
/**
* Internal calculation method.
*
* @param val the calendar, not null
* @param field the field constant
* @param modType type to truncate, round or ceiling
* @return the given calendar
* @throws ArithmeticException if the year is over 280 million
*/
private static Calendar modify(final Calendar val, final int field, final ModifyType modType) {
if (val.get(Calendar.YEAR) > 280000000) {
throw new ArithmeticException("Calendar value too large for accurate calculations");
}
if (field == Calendar.MILLISECOND) {
return val;
}
// Fix for LANG-59 START
// see https://issues.apache.org/jira/browse/LANG-59
//
// Manually truncate milliseconds, seconds and minutes, rather than using
// Calendar methods.
final Date date = val.getTime();
long time = date.getTime();
boolean done = false;
// truncate milliseconds
final int millisecs = val.get(Calendar.MILLISECOND);
if (ModifyType.TRUNCATE == modType || millisecs < 500) {
time = time - millisecs;
}
if (field == Calendar.SECOND) {
done = true;
}
// truncate seconds
final int seconds = val.get(Calendar.SECOND);
if (!done && (ModifyType.TRUNCATE == modType || seconds < 30)) {
time = time - (seconds * 1000L);
}
if (field == Calendar.MINUTE) {
done = true;
}
// truncate minutes
final int minutes = val.get(Calendar.MINUTE);
if (!done && (ModifyType.TRUNCATE == modType || minutes < 30)) {
time = time - (minutes * 60000L);
}
// reset time
if (date.getTime() != time) {
date.setTime(time);
val.setTime(date);
}
// Fix for LANG-59 END
boolean roundUp = false;
for (final int[] aField : fields) {
for (final int element : aField) {
if (element == field) {
//This is our field... we stop looping
if (modType == ModifyType.CEILING || modType == ModifyType.ROUND && roundUp) {
if (field == SEMI_MONTH) {
//This is a special case that's hard to generalize
//If the date is 1, we round up to 16, otherwise
// we subtract 15 days and add 1 month
if (val.get(Calendar.DATE) == 1) {
val.add(Calendar.DATE, 15);
} else {
val.add(Calendar.DATE, -15);
val.add(Calendar.MONTH, 1);
}
// Fix for LANG-440 START
} else if (field == Calendar.AM_PM) {
// This is a special case
// If the time is 0, we round up to 12, otherwise
// we subtract 12 hours and add 1 day
if (val.get(Calendar.HOUR_OF_DAY) == 0) {
val.add(Calendar.HOUR_OF_DAY, 12);
} else {
val.add(Calendar.HOUR_OF_DAY, -12);
val.add(Calendar.DATE, 1);
}
// Fix for LANG-440 END
} else {
//We need at add one to this field since the
// last number causes us to round up
val.add(aField[0], 1);
}
}
return val;
}
}
//We have various fields that are not easy roundings
int offset = 0;
boolean offsetSet = false;
//These are special types of fields that require different rounding rules
switch (field) {
case SEMI_MONTH:
if (aField[0] == Calendar.DATE) {
//If we're going to drop the DATE field's value,
// we want to do this our own way.
//We need to subtract 1 since the date has a minimum of 1
offset = val.get(Calendar.DATE) - 1;
//If we're above 15 days adjustment, that means we're in the
// bottom half of the month and should stay accordingly.
if (offset >= 15) {
offset -= 15;
}
//Record whether we're in the top or bottom half of that range
roundUp = offset > 7;
offsetSet = true;
}
break;
case Calendar.AM_PM:
if (aField[0] == Calendar.HOUR_OF_DAY) {
//If we're going to drop the HOUR field's value,
// we want to do this our own way.
offset = val.get(Calendar.HOUR_OF_DAY);
if (offset >= 12) {
offset -= 12;
}
roundUp = offset >= 6;
offsetSet = true;
}
break;
default:
break;
}
if (!offsetSet) {
final int min = val.getActualMinimum(aField[0]);
final int max = val.getActualMaximum(aField[0]);
//Calculate the offset from the minimum allowed value
offset = val.get(aField[0]) - min;
//Set roundUp if this is more than half way between the minimum and maximum
roundUp = offset > ((max - min) / 2);
}
//We need to remove this field
if (offset != 0) {
val.set(aField[0], val.get(aField[0]) - offset);
}
}
throw new IllegalArgumentException("The field " + field + " is not supported");
}
/**
* Parses a string representing a date by trying a variety of different parsers,
* using the default date format symbols for the given locale.
*
* The parse will try each parse pattern in turn.
* A parse is only deemed successful if it parses the whole of the input string.
* If no parse patterns match, a ParseException is thrown.
* The parser will be lenient toward the parsed date.
*
* @param str the date to parse, not null
* @param locale the locale whose date format symbols should be used. If {@code null},
* the system locale is used (as per {@link #parseDate(String, String...)}).
* @param parsePatterns the date format patterns to use, see SimpleDateFormat, not null
* @return the parsed date
* @throws NullPointerException if the date string or pattern array is null
* @throws ParseException if none of the date patterns were suitable (or there were none)
* @since 3.2
*/
public static Date parseDate(final String str, final Locale locale, final String... parsePatterns) throws ParseException {
return parseDateWithLeniency(str, locale, parsePatterns, true);
}
/**
* Parses a string representing a date by trying a variety of different parsers.
*
* The parse will try each parse pattern in turn.
* A parse is only deemed successful if it parses the whole of the input string.
* If no parse patterns match, a ParseException is thrown.
* The parser will be lenient toward the parsed date.
*
* @param str the date to parse, not null
* @param parsePatterns the date format patterns to use, see SimpleDateFormat, not null
* @return the parsed date
* @throws NullPointerException if the date string or pattern array is null
* @throws ParseException if none of the date patterns were suitable (or there were none)
*/
public static Date parseDate(final String str, final String... parsePatterns) throws ParseException {
return parseDate(str, null, parsePatterns);
}
/**
* Parses a string representing a date by trying a variety of different parsers,
* using the default date format symbols for the given locale..
*
* The parse will try each parse pattern in turn.
* A parse is only deemed successful if it parses the whole of the input string.
* If no parse patterns match, a ParseException is thrown.
* The parser parses strictly - it does not allow for dates such as "February 942, 1996".
*
* @param str the date to parse, not null
* @param locale the locale whose date format symbols should be used. If {@code null},
* the system locale is used (as per {@link #parseDateStrictly(String, String...)}).
* @param parsePatterns the date format patterns to use, see SimpleDateFormat, not null
* @return the parsed date
* @throws NullPointerException if the date string or pattern array is null
* @throws ParseException if none of the date patterns were suitable
* @since 3.2
*/
public static Date parseDateStrictly(final String str, final Locale locale, final String... parsePatterns) throws ParseException {
return parseDateWithLeniency(str, locale, parsePatterns, false);
}
/**
* Parses a string representing a date by trying a variety of different parsers.
*
* The parse will try each parse pattern in turn.
* A parse is only deemed successful if it parses the whole of the input string.
* If no parse patterns match, a ParseException is thrown.
* The parser parses strictly - it does not allow for dates such as "February 942, 1996".
*
* @param str the date to parse, not null
* @param parsePatterns the date format patterns to use, see SimpleDateFormat, not null
* @return the parsed date
* @throws NullPointerException if the date string or pattern array is null
* @throws ParseException if none of the date patterns were suitable
* @since 2.5
*/
public static Date parseDateStrictly(final String str, final String... parsePatterns) throws ParseException {
return parseDateStrictly(str, null, parsePatterns);
}
/**
* Parses a string representing a date by trying a variety of different parsers.
*
* The parse will try each parse pattern in turn.
* A parse is only deemed successful if it parses the whole of the input string.
* If no parse patterns match, a ParseException is thrown.
*
* @param dateStr the date to parse, not null
* @param locale the locale to use when interpreting the pattern, can be null in which
* case the default system locale is used
* @param parsePatterns the date format patterns to use, see SimpleDateFormat, not null
* @param lenient Specify whether or not date/time parsing is to be lenient.
* @return the parsed date
* @throws NullPointerException if the date string or pattern array is null
* @throws ParseException if none of the date patterns were suitable
* @see java.util.Calendar#isLenient()
*/
private static Date parseDateWithLeniency(final String dateStr, final Locale locale, final String[] parsePatterns,
final boolean lenient) throws ParseException {
Objects.requireNonNull(dateStr, "str");
Objects.requireNonNull(parsePatterns, "parsePatterns");
final TimeZone tz = TimeZone.getDefault();
final Locale lcl = LocaleUtils.toLocale(locale);
final ParsePosition pos = new ParsePosition(0);
final Calendar calendar = Calendar.getInstance(tz, lcl);
calendar.setLenient(lenient);
for (final String parsePattern : parsePatterns) {
final FastDateParser fdp = new FastDateParser(parsePattern, tz, lcl);
calendar.clear();
try {
if (fdp.parse(dateStr, pos, calendar) && pos.getIndex() == dateStr.length()) {
return calendar.getTime();
}
} catch (final IllegalArgumentException ignored) {
// leniency is preventing calendar from being set
}
pos.setIndex(0);
}
throw new ParseException("Unable to parse the date: " + dateStr, -1);
}
/**
* Rounds a date, leaving the field specified as the most
* significant field.
*
* For example, if you had the date-time of 28 Mar 2002
* 13:45:01.231, if this was passed with HOUR, it would return
* 28 Mar 2002 14:00:00.000. If this was passed with MONTH, it
* would return 1 April 2002 0:00:00.000.
*
* For a date in a time zone that handles the change to daylight
* saving time, rounding to Calendar.HOUR_OF_DAY will behave as follows.
* Suppose daylight saving time begins at 02:00 on March 30. Rounding a
* date that crosses this time would produce the following values:
*
*
* - March 30, 2003 01:10 rounds to March 30, 2003 01:00
* - March 30, 2003 01:40 rounds to March 30, 2003 03:00
* - March 30, 2003 02:10 rounds to March 30, 2003 03:00
* - March 30, 2003 02:40 rounds to March 30, 2003 04:00
*
*
* @param calendar the date to work with, not null
* @param field the field from {@link Calendar} or {@code SEMI_MONTH}
* @return the different rounded date, not null
* @throws NullPointerException if the date is {@code null}
* @throws ArithmeticException if the year is over 280 million
*/
public static Calendar round(final Calendar calendar, final int field) {
Objects.requireNonNull(calendar, "calendar");
return modify((Calendar) calendar.clone(), field, ModifyType.ROUND);
}
/**
* Rounds a date, leaving the field specified as the most
* significant field.
*
* For example, if you had the date-time of 28 Mar 2002
* 13:45:01.231, if this was passed with HOUR, it would return
* 28 Mar 2002 14:00:00.000. If this was passed with MONTH, it
* would return 1 April 2002 0:00:00.000.
*
* For a date in a time zone that handles the change to daylight
* saving time, rounding to Calendar.HOUR_OF_DAY will behave as follows.
* Suppose daylight saving time begins at 02:00 on March 30. Rounding a
* date that crosses this time would produce the following values:
*
*
* - March 30, 2003 01:10 rounds to March 30, 2003 01:00
* - March 30, 2003 01:40 rounds to March 30, 2003 03:00
* - March 30, 2003 02:10 rounds to March 30, 2003 03:00
* - March 30, 2003 02:40 rounds to March 30, 2003 04:00
*
*
* @param date the date to work with, not null
* @param field the field from {@link Calendar} or {@code SEMI_MONTH}
* @return the different rounded date, not null
* @throws NullPointerException if the date is null
* @throws ArithmeticException if the year is over 280 million
*/
public static Date round(final Date date, final int field) {
return modify(toCalendar(date), field, ModifyType.ROUND).getTime();
}
/**
* Rounds a date, leaving the field specified as the most
* significant field.
*
* For example, if you had the date-time of 28 Mar 2002
* 13:45:01.231, if this was passed with HOUR, it would return
* 28 Mar 2002 14:00:00.000. If this was passed with MONTH, it
* would return 1 April 2002 0:00:00.000.
*
* For a date in a time zone that handles the change to daylight
* saving time, rounding to Calendar.HOUR_OF_DAY will behave as follows.
* Suppose daylight saving time begins at 02:00 on March 30. Rounding a
* date that crosses this time would produce the following values:
*
*
* - March 30, 2003 01:10 rounds to March 30, 2003 01:00
* - March 30, 2003 01:40 rounds to March 30, 2003 03:00
* - March 30, 2003 02:10 rounds to March 30, 2003 03:00
* - March 30, 2003 02:40 rounds to March 30, 2003 04:00
*
*
* @param date the date to work with, either {@link Date} or {@link Calendar}, not null
* @param field the field from {@link Calendar} or {@code SEMI_MONTH}
* @return the different rounded date, not null
* @throws NullPointerException if the date is {@code null}
* @throws ClassCastException if the object type is not a {@link Date} or {@link Calendar}
* @throws ArithmeticException if the year is over 280 million
*/
public static Date round(final Object date, final int field) {
Objects.requireNonNull(date, "date");
if (date instanceof Date) {
return round((Date) date, field);
}
if (date instanceof Calendar) {
return round((Calendar) date, field).getTime();
}
throw new ClassCastException("Could not round " + date);
}
/**
* Sets the specified field to a date returning a new object.
* This does not use a lenient calendar.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param calendarField the {@link Calendar} field to set the amount to
* @param amount the amount to set
* @return a new {@link Date} set with the specified value
* @throws NullPointerException if the date is null
* @since 2.4
*/
private static Date set(final Date date, final int calendarField, final int amount) {
validateDateNotNull(date);
// getInstance() returns a new object, so this method is thread safe.
final Calendar c = Calendar.getInstance();
c.setLenient(false);
c.setTime(date);
c.set(calendarField, amount);
return c.getTime();
}
/**
* Sets the day of month field to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to set
* @return a new {@link Date} set with the specified value
* @throws NullPointerException if the date is null
* @throws IllegalArgumentException if {@code amount} is not in the range
* {@code 1 <= amount <= 31}
* @since 2.4
*/
public static Date setDays(final Date date, final int amount) {
return set(date, Calendar.DAY_OF_MONTH, amount);
}
/**
* Sets the hours field to a date returning a new object. Hours range
* from 0-23.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to set
* @return a new {@link Date} set with the specified value
* @throws NullPointerException if the date is null
* @throws IllegalArgumentException if {@code amount} is not in the range
* {@code 0 <= amount <= 23}
* @since 2.4
*/
public static Date setHours(final Date date, final int amount) {
return set(date, Calendar.HOUR_OF_DAY, amount);
}
/**
* Sets the milliseconds field to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to set
* @return a new {@link Date} set with the specified value
* @throws NullPointerException if the date is null
* @throws IllegalArgumentException if {@code amount} is not in the range
* {@code 0 <= amount <= 999}
* @since 2.4
*/
public static Date setMilliseconds(final Date date, final int amount) {
return set(date, Calendar.MILLISECOND, amount);
}
/**
* Sets the minute field to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to set
* @return a new {@link Date} set with the specified value
* @throws NullPointerException if the date is null
* @throws IllegalArgumentException if {@code amount} is not in the range
* {@code 0 <= amount <= 59}
* @since 2.4
*/
public static Date setMinutes(final Date date, final int amount) {
return set(date, Calendar.MINUTE, amount);
}
/**
* Sets the months field to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to set
* @return a new {@link Date} set with the specified value
* @throws NullPointerException if the date is null
* @throws IllegalArgumentException if {@code amount} is not in the range
* {@code 0 <= amount <= 11}
* @since 2.4
*/
public static Date setMonths(final Date date, final int amount) {
return set(date, Calendar.MONTH, amount);
}
/**
* Sets the seconds field to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to set
* @return a new {@link Date} set with the specified value
* @throws NullPointerException if the date is null
* @throws IllegalArgumentException if {@code amount} is not in the range
* {@code 0 <= amount <= 59}
* @since 2.4
*/
public static Date setSeconds(final Date date, final int amount) {
return set(date, Calendar.SECOND, amount);
}
/**
* Sets the years field to a date returning a new object.
* The original {@link Date} is unchanged.
*
* @param date the date, not null
* @param amount the amount to set
* @return a new {@link Date} set with the specified value
* @throws NullPointerException if the date is null
* @since 2.4
*/
public static Date setYears(final Date date, final int amount) {
return set(date, Calendar.YEAR, amount);
}
/**
* Converts a {@link Date} into a {@link Calendar}.
*
* @param date the date to convert to a Calendar
* @return the created Calendar
* @throws NullPointerException if null is passed in
* @since 3.0
*/
public static Calendar toCalendar(final Date date) {
final Calendar c = Calendar.getInstance();
c.setTime(Objects.requireNonNull(date, "date"));
return c;
}
/**
* Converts a {@link Date} of a given {@link TimeZone} into a {@link Calendar}
* @param date the date to convert to a Calendar
* @param tz the time zone of the {@code date}
* @return the created Calendar
* @throws NullPointerException if {@code date} or {@code tz} is null
*/
public static Calendar toCalendar(final Date date, final TimeZone tz) {
final Calendar c = Calendar.getInstance(tz);
c.setTime(Objects.requireNonNull(date, "date"));
return c;
}
/**
* Truncates a date, leaving the field specified as the most
* significant field.
*
* For example, if you had the date-time of 28 Mar 2002
* 13:45:01.231, if you passed with HOUR, it would return 28 Mar
* 2002 13:00:00.000. If this was passed with MONTH, it would
* return 1 Mar 2002 0:00:00.000.
*
* @param date the date to work with, not null
* @param field the field from {@link Calendar} or {@code SEMI_MONTH}
* @return the different truncated date, not null
* @throws NullPointerException if the date is {@code null}
* @throws ArithmeticException if the year is over 280 million
*/
public static Calendar truncate(final Calendar date, final int field) {
Objects.requireNonNull(date, "date");
return modify((Calendar) date.clone(), field, ModifyType.TRUNCATE);
}
/**
* Truncates a date, leaving the field specified as the most
* significant field.
*
* For example, if you had the date-time of 28 Mar 2002
* 13:45:01.231, if you passed with HOUR, it would return 28 Mar
* 2002 13:00:00.000. If this was passed with MONTH, it would
* return 1 Mar 2002 0:00:00.000.
*
* @param date the date to work with, not null
* @param field the field from {@link Calendar} or {@code SEMI_MONTH}
* @return the different truncated date, not null
* @throws NullPointerException if the date is {@code null}
* @throws ArithmeticException if the year is over 280 million
*/
public static Date truncate(final Date date, final int field) {
return modify(toCalendar(date), field, ModifyType.TRUNCATE).getTime();
}
/**
* Truncates a date, leaving the field specified as the most
* significant field.
*
* For example, if you had the date-time of 28 Mar 2002
* 13:45:01.231, if you passed with HOUR, it would return 28 Mar
* 2002 13:00:00.000. If this was passed with MONTH, it would
* return 1 Mar 2002 0:00:00.000.
*
* @param date the date to work with, either {@link Date} or {@link Calendar}, not null
* @param field the field from {@link Calendar} or {@code SEMI_MONTH}
* @return the different truncated date, not null
* @throws NullPointerException if the date is {@code null}
* @throws ClassCastException if the object type is not a {@link Date} or {@link Calendar}
* @throws ArithmeticException if the year is over 280 million
*/
public static Date truncate(final Object date, final int field) {
Objects.requireNonNull(date, "date");
if (date instanceof Date) {
return truncate((Date) date, field);
}
if (date instanceof Calendar) {
return truncate((Calendar) date, field).getTime();
}
throw new ClassCastException("Could not truncate " + date);
}
/**
* Determines how two calendars compare up to no more than the specified
* most significant field.
*
* @param cal1 the first calendar, not {@code null}
* @param cal2 the second calendar, not {@code null}
* @param field the field from {@link Calendar}
* @return a negative integer, zero, or a positive integer as the first
* calendar is less than, equal to, or greater than the second.
* @throws NullPointerException if any argument is {@code null}
* @see #truncate(Calendar, int)
* @see #truncatedCompareTo(Date, Date, int)
* @since 3.0
*/
public static int truncatedCompareTo(final Calendar cal1, final Calendar cal2, final int field) {
final Calendar truncatedCal1 = truncate(cal1, field);
final Calendar truncatedCal2 = truncate(cal2, field);
return truncatedCal1.compareTo(truncatedCal2);
}
/**
* Determines how two dates compare up to no more than the specified
* most significant field.
*
* @param date1 the first date, not {@code null}
* @param date2 the second date, not {@code null}
* @param field the field from {@link Calendar}
* @return a negative integer, zero, or a positive integer as the first
* date is less than, equal to, or greater than the second.
* @throws NullPointerException if any argument is {@code null}
* @see #truncate(Calendar, int)
* @see #truncatedCompareTo(Date, Date, int)
* @since 3.0
*/
public static int truncatedCompareTo(final Date date1, final Date date2, final int field) {
final Date truncatedDate1 = truncate(date1, field);
final Date truncatedDate2 = truncate(date2, field);
return truncatedDate1.compareTo(truncatedDate2);
}
/**
* Determines if two calendars are equal up to no more than the specified
* most significant field.
*
* @param cal1 the first calendar, not {@code null}
* @param cal2 the second calendar, not {@code null}
* @param field the field from {@link Calendar}
* @return {@code true} if equal; otherwise {@code false}
* @throws NullPointerException if any argument is {@code null}
* @see #truncate(Calendar, int)
* @see #truncatedEquals(Date, Date, int)
* @since 3.0
*/
public static boolean truncatedEquals(final Calendar cal1, final Calendar cal2, final int field) {
return truncatedCompareTo(cal1, cal2, field) == 0;
}
/**
* Determines if two dates are equal up to no more than the specified
* most significant field.
*
* @param date1 the first date, not {@code null}
* @param date2 the second date, not {@code null}
* @param field the field from {@link Calendar}
* @return {@code true} if equal; otherwise {@code false}
* @throws NullPointerException if any argument is {@code null}
* @see #truncate(Date, int)
* @see #truncatedEquals(Calendar, Calendar, int)
* @since 3.0
*/
public static boolean truncatedEquals(final Date date1, final Date date2, final int field) {
return truncatedCompareTo(date1, date2, field) == 0;
}
/**
* @param date Date to validate.
* @throws NullPointerException if {@code date == null}
*/
private static void validateDateNotNull(final Date date) {
Objects.requireNonNull(date, "date");
}
/**
* {@link DateUtils} instances should NOT be constructed in
* standard programming. Instead, the static methods on the class should
* be used, such as {@code DateUtils.parseDate(str);}.
*
* This constructor is public to permit tools that require a JavaBean
* instance to operate.
*/
public DateUtils() {
}
}