author | martin |
Thu, 16 Mar 2017 13:10:43 -0700 | |
changeset 44270 | 46f8d5c5a6e5 |
parent 43102 | 02f12903b22c |
permissions | -rw-r--r-- |
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/* |
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* Copyright (c) 1994, 2016, Oracle and/or its affiliates. All rights reserved. |
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
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* |
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* This code is free software; you can redistribute it and/or modify it |
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* under the terms of the GNU General Public License version 2 only, as |
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* published by the Free Software Foundation. Oracle designates this |
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* particular file as subject to the "Classpath" exception as provided |
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* by Oracle in the LICENSE file that accompanied this code. |
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* |
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* This code is distributed in the hope that it will be useful, but WITHOUT |
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
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* version 2 for more details (a copy is included in the LICENSE file that |
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* accompanied this code). |
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* |
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* You should have received a copy of the GNU General Public License version |
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* 2 along with this work; if not, write to the Free Software Foundation, |
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* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
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* |
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* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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* or visit www.oracle.com if you need additional information or have any |
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* questions. |
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*/ |
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package java.util; |
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import java.text.DateFormat; |
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import java.time.LocalDate; |
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import java.io.IOException; |
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import java.io.ObjectOutputStream; |
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import java.io.ObjectInputStream; |
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import java.lang.ref.SoftReference; |
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import java.time.Instant; |
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import sun.util.calendar.BaseCalendar; |
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import sun.util.calendar.CalendarDate; |
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import sun.util.calendar.CalendarSystem; |
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import sun.util.calendar.CalendarUtils; |
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import sun.util.calendar.Era; |
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import sun.util.calendar.Gregorian; |
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import sun.util.calendar.ZoneInfo; |
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/** |
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* The class {@code Date} represents a specific instant |
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* in time, with millisecond precision. |
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* <p> |
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* Prior to JDK 1.1, the class {@code Date} had two additional |
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* functions. It allowed the interpretation of dates as year, month, day, hour, |
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* minute, and second values. It also allowed the formatting and parsing |
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* of date strings. Unfortunately, the API for these functions was not |
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* amenable to internationalization. As of JDK 1.1, the |
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* {@code Calendar} class should be used to convert between dates and time |
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* fields and the {@code DateFormat} class should be used to format and |
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* parse date strings. |
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* The corresponding methods in {@code Date} are deprecated. |
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* <p> |
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* Although the {@code Date} class is intended to reflect |
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* coordinated universal time (UTC), it may not do so exactly, |
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* depending on the host environment of the Java Virtual Machine. |
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* Nearly all modern operating systems assume that 1 day = |
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* 24 × 60 × 60 = 86400 seconds |
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* in all cases. In UTC, however, about once every year or two there |
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* is an extra second, called a "leap second." The leap |
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* second is always added as the last second of the day, and always |
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* on December 31 or June 30. For example, the last minute of the |
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* year 1995 was 61 seconds long, thanks to an added leap second. |
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* Most computer clocks are not accurate enough to be able to reflect |
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* the leap-second distinction. |
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* <p> |
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* Some computer standards are defined in terms of Greenwich mean |
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* time (GMT), which is equivalent to universal time (UT). GMT is |
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* the "civil" name for the standard; UT is the |
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* "scientific" name for the same standard. The |
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* distinction between UTC and UT is that UTC is based on an atomic |
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* clock and UT is based on astronomical observations, which for all |
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* practical purposes is an invisibly fine hair to split. Because the |
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* earth's rotation is not uniform (it slows down and speeds up |
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* in complicated ways), UT does not always flow uniformly. Leap |
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* seconds are introduced as needed into UTC so as to keep UTC within |
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* 0.9 seconds of UT1, which is a version of UT with certain |
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* corrections applied. There are other time and date systems as |
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* well; for example, the time scale used by the satellite-based |
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* global positioning system (GPS) is synchronized to UTC but is |
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* <i>not</i> adjusted for leap seconds. An interesting source of |
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* further information is the United States Naval Observatory (USNO): |
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* <blockquote><pre> |
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* <a href="http://www.usno.navy.mil/USNO">http://www.usno.navy.mil/USNO</a> |
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* </pre></blockquote> |
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* <p> |
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* and the material regarding "Systems of Time" at: |
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* <blockquote><pre> |
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* <a href="http://www.usno.navy.mil/USNO/time/master-clock/systems-of-time">http://www.usno.navy.mil/USNO/time/master-clock/systems-of-time</a> |
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* </pre></blockquote> |
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* <p> |
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* which has descriptions of various different time systems including |
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* UT, UT1, and UTC. |
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* <p> |
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* In all methods of class {@code Date} that accept or return |
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* year, month, date, hours, minutes, and seconds values, the |
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* following representations are used: |
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* <ul> |
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* <li>A year <i>y</i> is represented by the integer |
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* <i>y</i> {@code - 1900}. |
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* <li>A month is represented by an integer from 0 to 11; 0 is January, |
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* 1 is February, and so forth; thus 11 is December. |
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* <li>A date (day of month) is represented by an integer from 1 to 31 |
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* in the usual manner. |
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* <li>An hour is represented by an integer from 0 to 23. Thus, the hour |
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* from midnight to 1 a.m. is hour 0, and the hour from noon to 1 |
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* p.m. is hour 12. |
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* <li>A minute is represented by an integer from 0 to 59 in the usual manner. |
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* <li>A second is represented by an integer from 0 to 61; the values 60 and |
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* 61 occur only for leap seconds and even then only in Java |
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* implementations that actually track leap seconds correctly. Because |
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* of the manner in which leap seconds are currently introduced, it is |
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* extremely unlikely that two leap seconds will occur in the same |
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* minute, but this specification follows the date and time conventions |
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* for ISO C. |
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* </ul> |
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* <p> |
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* In all cases, arguments given to methods for these purposes need |
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* not fall within the indicated ranges; for example, a date may be |
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* specified as January 32 and is interpreted as meaning February 1. |
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* |
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* @author James Gosling |
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* @author Arthur van Hoff |
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* @author Alan Liu |
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* @see java.text.DateFormat |
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* @see java.util.Calendar |
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* @see java.util.TimeZone |
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* @since 1.0 |
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*/ |
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public class Date |
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implements java.io.Serializable, Cloneable, Comparable<Date> |
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{ |
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private static final BaseCalendar gcal = |
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CalendarSystem.getGregorianCalendar(); |
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private static BaseCalendar jcal; |
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private transient long fastTime; |
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/* |
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* If cdate is null, then fastTime indicates the time in millis. |
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* If cdate.isNormalized() is true, then fastTime and cdate are in |
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* synch. Otherwise, fastTime is ignored, and cdate indicates the |
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* time. |
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*/ |
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private transient BaseCalendar.Date cdate; |
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// Initialized just before the value is used. See parse(). |
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private static int defaultCenturyStart; |
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/* use serialVersionUID from modified java.util.Date for |
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* interoperability with JDK1.1. The Date was modified to write |
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* and read only the UTC time. |
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*/ |
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private static final long serialVersionUID = 7523967970034938905L; |
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/** |
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* Allocates a {@code Date} object and initializes it so that |
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* it represents the time at which it was allocated, measured to the |
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* nearest millisecond. |
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* |
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* @see java.lang.System#currentTimeMillis() |
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*/ |
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public Date() { |
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this(System.currentTimeMillis()); |
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} |
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/** |
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* Allocates a {@code Date} object and initializes it to |
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* represent the specified number of milliseconds since the |
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* standard base time known as "the epoch", namely January 1, |
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* 1970, 00:00:00 GMT. |
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* |
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* @param date the milliseconds since January 1, 1970, 00:00:00 GMT. |
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* @see java.lang.System#currentTimeMillis() |
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*/ |
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public Date(long date) { |
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fastTime = date; |
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} |
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/** |
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* Allocates a {@code Date} object and initializes it so that |
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* it represents midnight, local time, at the beginning of the day |
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* specified by the {@code year}, {@code month}, and |
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* {@code date} arguments. |
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* |
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* @param year the year minus 1900. |
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* @param month the month between 0-11. |
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* @param date the day of the month between 1-31. |
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* @see java.util.Calendar |
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* @deprecated As of JDK version 1.1, |
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* replaced by {@code Calendar.set(year + 1900, month, date)} |
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* or {@code GregorianCalendar(year + 1900, month, date)}. |
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*/ |
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@Deprecated |
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public Date(int year, int month, int date) { |
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this(year, month, date, 0, 0, 0); |
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} |
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/** |
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* Allocates a {@code Date} object and initializes it so that |
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* it represents the instant at the start of the minute specified by |
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* the {@code year}, {@code month}, {@code date}, |
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* {@code hrs}, and {@code min} arguments, in the local |
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* time zone. |
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* |
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* @param year the year minus 1900. |
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* @param month the month between 0-11. |
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* @param date the day of the month between 1-31. |
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* @param hrs the hours between 0-23. |
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* @param min the minutes between 0-59. |
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* @see java.util.Calendar |
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* @deprecated As of JDK version 1.1, |
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* replaced by {@code Calendar.set(year + 1900, month, date, hrs, min)} |
217 |
* or {@code GregorianCalendar(year + 1900, month, date, hrs, min)}. |
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*/ |
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@Deprecated |
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public Date(int year, int month, int date, int hrs, int min) { |
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this(year, month, date, hrs, min, 0); |
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} |
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/** |
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* Allocates a {@code Date} object and initializes it so that |
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* it represents the instant at the start of the second specified |
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* by the {@code year}, {@code month}, {@code date}, |
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* {@code hrs}, {@code min}, and {@code sec} arguments, |
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* in the local time zone. |
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* |
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* @param year the year minus 1900. |
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* @param month the month between 0-11. |
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* @param date the day of the month between 1-31. |
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* @param hrs the hours between 0-23. |
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* @param min the minutes between 0-59. |
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* @param sec the seconds between 0-59. |
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* @see java.util.Calendar |
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* @deprecated As of JDK version 1.1, |
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* replaced by {@code Calendar.set(year + 1900, month, date, hrs, min, sec)} |
240 |
* or {@code GregorianCalendar(year + 1900, month, date, hrs, min, sec)}. |
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*/ |
242 |
@Deprecated |
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public Date(int year, int month, int date, int hrs, int min, int sec) { |
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int y = year + 1900; |
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// month is 0-based. So we have to normalize month to support Long.MAX_VALUE. |
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if (month >= 12) { |
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y += month / 12; |
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month %= 12; |
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} else if (month < 0) { |
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y += CalendarUtils.floorDivide(month, 12); |
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month = CalendarUtils.mod(month, 12); |
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} |
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BaseCalendar cal = getCalendarSystem(y); |
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cdate = (BaseCalendar.Date) cal.newCalendarDate(TimeZone.getDefaultRef()); |
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cdate.setNormalizedDate(y, month + 1, date).setTimeOfDay(hrs, min, sec, 0); |
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getTimeImpl(); |
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cdate = null; |
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} |
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/** |
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* Allocates a {@code Date} object and initializes it so that |
2 | 262 |
* it represents the date and time indicated by the string |
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* {@code s}, which is interpreted as if by the |
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* {@link Date#parse} method. |
265 |
* |
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* @param s a string representation of the date. |
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* @see java.text.DateFormat |
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* @see java.util.Date#parse(java.lang.String) |
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* @deprecated As of JDK version 1.1, |
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* replaced by {@code DateFormat.parse(String s)}. |
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*/ |
272 |
@Deprecated |
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public Date(String s) { |
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this(parse(s)); |
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} |
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277 |
/** |
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* Return a copy of this object. |
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*/ |
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public Object clone() { |
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Date d = null; |
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try { |
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d = (Date)super.clone(); |
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if (cdate != null) { |
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d.cdate = (BaseCalendar.Date) cdate.clone(); |
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} |
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} catch (CloneNotSupportedException e) {} // Won't happen |
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return d; |
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} |
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290 |
||
291 |
/** |
|
292 |
* Determines the date and time based on the arguments. The |
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* arguments are interpreted as a year, month, day of the month, |
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* hour of the day, minute within the hour, and second within the |
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* minute, exactly as for the {@code Date} constructor with six |
2 | 296 |
* arguments, except that the arguments are interpreted relative |
297 |
* to UTC rather than to the local time zone. The time indicated is |
|
298 |
* returned represented as the distance, measured in milliseconds, |
|
299 |
* of that time from the epoch (00:00:00 GMT on January 1, 1970). |
|
300 |
* |
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301 |
* @param year the year minus 1900. |
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* @param month the month between 0-11. |
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303 |
* @param date the day of the month between 1-31. |
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* @param hrs the hours between 0-23. |
|
305 |
* @param min the minutes between 0-59. |
|
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* @param sec the seconds between 0-59. |
|
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* @return the number of milliseconds since January 1, 1970, 00:00:00 GMT for |
|
308 |
* the date and time specified by the arguments. |
|
309 |
* @see java.util.Calendar |
|
310 |
* @deprecated As of JDK version 1.1, |
|
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* replaced by {@code Calendar.set(year + 1900, month, date, hrs, min, sec)} |
312 |
* or {@code GregorianCalendar(year + 1900, month, date, hrs, min, sec)}, using a UTC |
|
313 |
* {@code TimeZone}, followed by {@code Calendar.getTime().getTime()}. |
|
2 | 314 |
*/ |
315 |
@Deprecated |
|
316 |
public static long UTC(int year, int month, int date, |
|
317 |
int hrs, int min, int sec) { |
|
318 |
int y = year + 1900; |
|
319 |
// month is 0-based. So we have to normalize month to support Long.MAX_VALUE. |
|
320 |
if (month >= 12) { |
|
321 |
y += month / 12; |
|
322 |
month %= 12; |
|
323 |
} else if (month < 0) { |
|
324 |
y += CalendarUtils.floorDivide(month, 12); |
|
325 |
month = CalendarUtils.mod(month, 12); |
|
326 |
} |
|
327 |
int m = month + 1; |
|
328 |
BaseCalendar cal = getCalendarSystem(y); |
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329 |
BaseCalendar.Date udate = (BaseCalendar.Date) cal.newCalendarDate(null); |
|
330 |
udate.setNormalizedDate(y, m, date).setTimeOfDay(hrs, min, sec, 0); |
|
331 |
||
332 |
// Use a Date instance to perform normalization. Its fastTime |
|
333 |
// is the UTC value after the normalization. |
|
334 |
Date d = new Date(0); |
|
335 |
d.normalize(udate); |
|
336 |
return d.fastTime; |
|
337 |
} |
|
338 |
||
339 |
/** |
|
22629 | 340 |
* Attempts to interpret the string {@code s} as a representation |
2 | 341 |
* of a date and time. If the attempt is successful, the time |
342 |
* indicated is returned represented as the distance, measured in |
|
343 |
* milliseconds, of that time from the epoch (00:00:00 GMT on |
|
344 |
* January 1, 1970). If the attempt fails, an |
|
22629 | 345 |
* {@code IllegalArgumentException} is thrown. |
2 | 346 |
* <p> |
347 |
* It accepts many syntaxes; in particular, it recognizes the IETF |
|
348 |
* standard date syntax: "Sat, 12 Aug 1995 13:30:00 GMT". It also |
|
349 |
* understands the continental U.S. time-zone abbreviations, but for |
|
350 |
* general use, a time-zone offset should be used: "Sat, 12 Aug 1995 |
|
351 |
* 13:30:00 GMT+0430" (4 hours, 30 minutes west of the Greenwich |
|
352 |
* meridian). If no time zone is specified, the local time zone is |
|
353 |
* assumed. GMT and UTC are considered equivalent. |
|
354 |
* <p> |
|
22629 | 355 |
* The string {@code s} is processed from left to right, looking for |
356 |
* data of interest. Any material in {@code s} that is within the |
|
357 |
* ASCII parenthesis characters {@code (} and {@code )} is ignored. |
|
2 | 358 |
* Parentheses may be nested. Otherwise, the only characters permitted |
22629 | 359 |
* within {@code s} are these ASCII characters: |
2 | 360 |
* <blockquote><pre> |
361 |
* abcdefghijklmnopqrstuvwxyz |
|
362 |
* ABCDEFGHIJKLMNOPQRSTUVWXYZ |
|
363 |
* 0123456789,+-:/</pre></blockquote> |
|
364 |
* and whitespace characters.<p> |
|
365 |
* A consecutive sequence of decimal digits is treated as a decimal |
|
366 |
* number:<ul> |
|
22629 | 367 |
* <li>If a number is preceded by {@code +} or {@code -} and a year |
2 | 368 |
* has already been recognized, then the number is a time-zone |
369 |
* offset. If the number is less than 24, it is an offset measured |
|
370 |
* in hours. Otherwise, it is regarded as an offset in minutes, |
|
371 |
* expressed in 24-hour time format without punctuation. A |
|
22629 | 372 |
* preceding {@code -} means a westward offset. Time zone offsets |
2 | 373 |
* are always relative to UTC (Greenwich). Thus, for example, |
22629 | 374 |
* {@code -5} occurring in the string would mean "five hours west |
375 |
* of Greenwich" and {@code +0430} would mean "four hours and |
|
2 | 376 |
* thirty minutes east of Greenwich." It is permitted for the |
22629 | 377 |
* string to specify {@code GMT}, {@code UT}, or {@code UTC} |
378 |
* redundantly-for example, {@code GMT-5} or {@code utc+0430}. |
|
2 | 379 |
* <li>The number is regarded as a year number if one of the |
380 |
* following conditions is true: |
|
381 |
* <ul> |
|
382 |
* <li>The number is equal to or greater than 70 and followed by a |
|
383 |
* space, comma, slash, or end of string |
|
384 |
* <li>The number is less than 70, and both a month and a day of |
|
385 |
* the month have already been recognized</li> |
|
386 |
* </ul> |
|
387 |
* If the recognized year number is less than 100, it is |
|
388 |
* interpreted as an abbreviated year relative to a century of |
|
389 |
* which dates are within 80 years before and 19 years after |
|
390 |
* the time when the Date class is initialized. |
|
391 |
* After adjusting the year number, 1900 is subtracted from |
|
392 |
* it. For example, if the current year is 1999 then years in |
|
393 |
* the range 19 to 99 are assumed to mean 1919 to 1999, while |
|
394 |
* years from 0 to 18 are assumed to mean 2000 to 2018. Note |
|
395 |
* that this is slightly different from the interpretation of |
|
396 |
* years less than 100 that is used in {@link java.text.SimpleDateFormat}. |
|
397 |
* <li>If the number is followed by a colon, it is regarded as an hour, |
|
398 |
* unless an hour has already been recognized, in which case it is |
|
399 |
* regarded as a minute. |
|
400 |
* <li>If the number is followed by a slash, it is regarded as a month |
|
22629 | 401 |
* (it is decreased by 1 to produce a number in the range {@code 0} |
402 |
* to {@code 11}), unless a month has already been recognized, in |
|
2 | 403 |
* which case it is regarded as a day of the month. |
404 |
* <li>If the number is followed by whitespace, a comma, a hyphen, or |
|
405 |
* end of string, then if an hour has been recognized but not a |
|
406 |
* minute, it is regarded as a minute; otherwise, if a minute has |
|
407 |
* been recognized but not a second, it is regarded as a second; |
|
408 |
* otherwise, it is regarded as a day of the month. </ul><p> |
|
409 |
* A consecutive sequence of letters is regarded as a word and treated |
|
410 |
* as follows:<ul> |
|
22629 | 411 |
* <li>A word that matches {@code AM}, ignoring case, is ignored (but |
2 | 412 |
* the parse fails if an hour has not been recognized or is less |
22629 | 413 |
* than {@code 1} or greater than {@code 12}). |
414 |
* <li>A word that matches {@code PM}, ignoring case, adds {@code 12} |
|
2 | 415 |
* to the hour (but the parse fails if an hour has not been |
22629 | 416 |
* recognized or is less than {@code 1} or greater than {@code 12}). |
417 |
* <li>Any word that matches any prefix of {@code SUNDAY, MONDAY, TUESDAY, |
|
418 |
* WEDNESDAY, THURSDAY, FRIDAY}, or {@code SATURDAY}, ignoring |
|
419 |
* case, is ignored. For example, {@code sat, Friday, TUE}, and |
|
420 |
* {@code Thurs} are ignored. |
|
421 |
* <li>Otherwise, any word that matches any prefix of {@code JANUARY, |
|
2 | 422 |
* FEBRUARY, MARCH, APRIL, MAY, JUNE, JULY, AUGUST, SEPTEMBER, |
22629 | 423 |
* OCTOBER, NOVEMBER}, or {@code DECEMBER}, ignoring case, and |
2 | 424 |
* considering them in the order given here, is recognized as |
22629 | 425 |
* specifying a month and is converted to a number ({@code 0} to |
426 |
* {@code 11}). For example, {@code aug, Sept, april}, and |
|
427 |
* {@code NOV} are recognized as months. So is {@code Ma}, which |
|
428 |
* is recognized as {@code MARCH}, not {@code MAY}. |
|
429 |
* <li>Any word that matches {@code GMT, UT}, or {@code UTC}, ignoring |
|
2 | 430 |
* case, is treated as referring to UTC. |
22629 | 431 |
* <li>Any word that matches {@code EST, CST, MST}, or {@code PST}, |
2 | 432 |
* ignoring case, is recognized as referring to the time zone in |
433 |
* North America that is five, six, seven, or eight hours west of |
|
22629 | 434 |
* Greenwich, respectively. Any word that matches {@code EDT, CDT, |
435 |
* MDT}, or {@code PDT}, ignoring case, is recognized as |
|
2 | 436 |
* referring to the same time zone, respectively, during daylight |
437 |
* saving time.</ul><p> |
|
438 |
* Once the entire string s has been scanned, it is converted to a time |
|
439 |
* result in one of two ways. If a time zone or time-zone offset has been |
|
440 |
* recognized, then the year, month, day of month, hour, minute, and |
|
441 |
* second are interpreted in UTC and then the time-zone offset is |
|
442 |
* applied. Otherwise, the year, month, day of month, hour, minute, and |
|
443 |
* second are interpreted in the local time zone. |
|
444 |
* |
|
445 |
* @param s a string to be parsed as a date. |
|
446 |
* @return the number of milliseconds since January 1, 1970, 00:00:00 GMT |
|
447 |
* represented by the string argument. |
|
448 |
* @see java.text.DateFormat |
|
449 |
* @deprecated As of JDK version 1.1, |
|
22629 | 450 |
* replaced by {@code DateFormat.parse(String s)}. |
2 | 451 |
*/ |
452 |
@Deprecated |
|
453 |
public static long parse(String s) { |
|
454 |
int year = Integer.MIN_VALUE; |
|
455 |
int mon = -1; |
|
456 |
int mday = -1; |
|
457 |
int hour = -1; |
|
458 |
int min = -1; |
|
459 |
int sec = -1; |
|
460 |
int millis = -1; |
|
461 |
int c = -1; |
|
462 |
int i = 0; |
|
463 |
int n = -1; |
|
464 |
int wst = -1; |
|
465 |
int tzoffset = -1; |
|
466 |
int prevc = 0; |
|
467 |
syntax: |
|
468 |
{ |
|
469 |
if (s == null) |
|
470 |
break syntax; |
|
471 |
int limit = s.length(); |
|
472 |
while (i < limit) { |
|
473 |
c = s.charAt(i); |
|
474 |
i++; |
|
475 |
if (c <= ' ' || c == ',') |
|
476 |
continue; |
|
477 |
if (c == '(') { // skip comments |
|
478 |
int depth = 1; |
|
479 |
while (i < limit) { |
|
480 |
c = s.charAt(i); |
|
481 |
i++; |
|
482 |
if (c == '(') depth++; |
|
483 |
else if (c == ')') |
|
484 |
if (--depth <= 0) |
|
485 |
break; |
|
486 |
} |
|
487 |
continue; |
|
488 |
} |
|
489 |
if ('0' <= c && c <= '9') { |
|
490 |
n = c - '0'; |
|
491 |
while (i < limit && '0' <= (c = s.charAt(i)) && c <= '9') { |
|
492 |
n = n * 10 + c - '0'; |
|
493 |
i++; |
|
494 |
} |
|
495 |
if (prevc == '+' || prevc == '-' && year != Integer.MIN_VALUE) { |
|
496 |
// timezone offset |
|
497 |
if (n < 24) |
|
498 |
n = n * 60; // EG. "GMT-3" |
|
499 |
else |
|
500 |
n = n % 100 + n / 100 * 60; // eg "GMT-0430" |
|
501 |
if (prevc == '+') // plus means east of GMT |
|
502 |
n = -n; |
|
503 |
if (tzoffset != 0 && tzoffset != -1) |
|
504 |
break syntax; |
|
505 |
tzoffset = n; |
|
506 |
} else if (n >= 70) |
|
507 |
if (year != Integer.MIN_VALUE) |
|
508 |
break syntax; |
|
509 |
else if (c <= ' ' || c == ',' || c == '/' || i >= limit) |
|
510 |
// year = n < 1900 ? n : n - 1900; |
|
511 |
year = n; |
|
512 |
else |
|
513 |
break syntax; |
|
514 |
else if (c == ':') |
|
515 |
if (hour < 0) |
|
516 |
hour = (byte) n; |
|
517 |
else if (min < 0) |
|
518 |
min = (byte) n; |
|
519 |
else |
|
520 |
break syntax; |
|
521 |
else if (c == '/') |
|
522 |
if (mon < 0) |
|
523 |
mon = (byte) (n - 1); |
|
524 |
else if (mday < 0) |
|
525 |
mday = (byte) n; |
|
526 |
else |
|
527 |
break syntax; |
|
528 |
else if (i < limit && c != ',' && c > ' ' && c != '-') |
|
529 |
break syntax; |
|
530 |
else if (hour >= 0 && min < 0) |
|
531 |
min = (byte) n; |
|
532 |
else if (min >= 0 && sec < 0) |
|
533 |
sec = (byte) n; |
|
534 |
else if (mday < 0) |
|
535 |
mday = (byte) n; |
|
536 |
// Handle two-digit years < 70 (70-99 handled above). |
|
537 |
else if (year == Integer.MIN_VALUE && mon >= 0 && mday >= 0) |
|
538 |
year = n; |
|
539 |
else |
|
540 |
break syntax; |
|
541 |
prevc = 0; |
|
542 |
} else if (c == '/' || c == ':' || c == '+' || c == '-') |
|
543 |
prevc = c; |
|
544 |
else { |
|
545 |
int st = i - 1; |
|
546 |
while (i < limit) { |
|
547 |
c = s.charAt(i); |
|
548 |
if (!('A' <= c && c <= 'Z' || 'a' <= c && c <= 'z')) |
|
549 |
break; |
|
550 |
i++; |
|
551 |
} |
|
552 |
if (i <= st + 1) |
|
553 |
break syntax; |
|
554 |
int k; |
|
555 |
for (k = wtb.length; --k >= 0;) |
|
556 |
if (wtb[k].regionMatches(true, 0, s, st, i - st)) { |
|
557 |
int action = ttb[k]; |
|
558 |
if (action != 0) { |
|
559 |
if (action == 1) { // pm |
|
560 |
if (hour > 12 || hour < 1) |
|
561 |
break syntax; |
|
562 |
else if (hour < 12) |
|
563 |
hour += 12; |
|
564 |
} else if (action == 14) { // am |
|
565 |
if (hour > 12 || hour < 1) |
|
566 |
break syntax; |
|
567 |
else if (hour == 12) |
|
568 |
hour = 0; |
|
569 |
} else if (action <= 13) { // month! |
|
570 |
if (mon < 0) |
|
571 |
mon = (byte) (action - 2); |
|
572 |
else |
|
573 |
break syntax; |
|
574 |
} else { |
|
575 |
tzoffset = action - 10000; |
|
576 |
} |
|
577 |
} |
|
578 |
break; |
|
579 |
} |
|
580 |
if (k < 0) |
|
581 |
break syntax; |
|
582 |
prevc = 0; |
|
583 |
} |
|
584 |
} |
|
585 |
if (year == Integer.MIN_VALUE || mon < 0 || mday < 0) |
|
586 |
break syntax; |
|
587 |
// Parse 2-digit years within the correct default century. |
|
588 |
if (year < 100) { |
|
589 |
synchronized (Date.class) { |
|
590 |
if (defaultCenturyStart == 0) { |
|
591 |
defaultCenturyStart = gcal.getCalendarDate().getYear() - 80; |
|
592 |
} |
|
593 |
} |
|
594 |
year += (defaultCenturyStart / 100) * 100; |
|
595 |
if (year < defaultCenturyStart) year += 100; |
|
596 |
} |
|
597 |
if (sec < 0) |
|
598 |
sec = 0; |
|
599 |
if (min < 0) |
|
600 |
min = 0; |
|
601 |
if (hour < 0) |
|
602 |
hour = 0; |
|
603 |
BaseCalendar cal = getCalendarSystem(year); |
|
604 |
if (tzoffset == -1) { // no time zone specified, have to use local |
|
605 |
BaseCalendar.Date ldate = (BaseCalendar.Date) cal.newCalendarDate(TimeZone.getDefaultRef()); |
|
606 |
ldate.setDate(year, mon + 1, mday); |
|
607 |
ldate.setTimeOfDay(hour, min, sec, 0); |
|
608 |
return cal.getTime(ldate); |
|
609 |
} |
|
610 |
BaseCalendar.Date udate = (BaseCalendar.Date) cal.newCalendarDate(null); // no time zone |
|
611 |
udate.setDate(year, mon + 1, mday); |
|
612 |
udate.setTimeOfDay(hour, min, sec, 0); |
|
613 |
return cal.getTime(udate) + tzoffset * (60 * 1000); |
|
614 |
} |
|
615 |
// syntax error |
|
616 |
throw new IllegalArgumentException(); |
|
617 |
} |
|
32649
2ee9017c7597
8136583: Core libraries should use blessed modifier order
martin
parents:
29614
diff
changeset
|
618 |
private static final String wtb[] = { |
2 | 619 |
"am", "pm", |
620 |
"monday", "tuesday", "wednesday", "thursday", "friday", |
|
621 |
"saturday", "sunday", |
|
622 |
"january", "february", "march", "april", "may", "june", |
|
623 |
"july", "august", "september", "october", "november", "december", |
|
624 |
"gmt", "ut", "utc", "est", "edt", "cst", "cdt", |
|
625 |
"mst", "mdt", "pst", "pdt" |
|
626 |
}; |
|
32649
2ee9017c7597
8136583: Core libraries should use blessed modifier order
martin
parents:
29614
diff
changeset
|
627 |
private static final int ttb[] = { |
2 | 628 |
14, 1, 0, 0, 0, 0, 0, 0, 0, |
629 |
2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, |
|
630 |
10000 + 0, 10000 + 0, 10000 + 0, // GMT/UT/UTC |
|
631 |
10000 + 5 * 60, 10000 + 4 * 60, // EST/EDT |
|
632 |
10000 + 6 * 60, 10000 + 5 * 60, // CST/CDT |
|
633 |
10000 + 7 * 60, 10000 + 6 * 60, // MST/MDT |
|
634 |
10000 + 8 * 60, 10000 + 7 * 60 // PST/PDT |
|
635 |
}; |
|
636 |
||
637 |
/** |
|
638 |
* Returns a value that is the result of subtracting 1900 from the |
|
639 |
* year that contains or begins with the instant in time represented |
|
22629 | 640 |
* by this {@code Date} object, as interpreted in the local |
2 | 641 |
* time zone. |
642 |
* |
|
643 |
* @return the year represented by this date, minus 1900. |
|
644 |
* @see java.util.Calendar |
|
645 |
* @deprecated As of JDK version 1.1, |
|
22629 | 646 |
* replaced by {@code Calendar.get(Calendar.YEAR) - 1900}. |
2 | 647 |
*/ |
648 |
@Deprecated |
|
649 |
public int getYear() { |
|
650 |
return normalize().getYear() - 1900; |
|
651 |
} |
|
652 |
||
653 |
/** |
|
22629 | 654 |
* Sets the year of this {@code Date} object to be the specified |
655 |
* value plus 1900. This {@code Date} object is modified so |
|
2 | 656 |
* that it represents a point in time within the specified year, |
657 |
* with the month, date, hour, minute, and second the same as |
|
658 |
* before, as interpreted in the local time zone. (Of course, if |
|
659 |
* the date was February 29, for example, and the year is set to a |
|
660 |
* non-leap year, then the new date will be treated as if it were |
|
661 |
* on March 1.) |
|
662 |
* |
|
663 |
* @param year the year value. |
|
664 |
* @see java.util.Calendar |
|
665 |
* @deprecated As of JDK version 1.1, |
|
22629 | 666 |
* replaced by {@code Calendar.set(Calendar.YEAR, year + 1900)}. |
2 | 667 |
*/ |
668 |
@Deprecated |
|
669 |
public void setYear(int year) { |
|
670 |
getCalendarDate().setNormalizedYear(year + 1900); |
|
671 |
} |
|
672 |
||
673 |
/** |
|
674 |
* Returns a number representing the month that contains or begins |
|
22629 | 675 |
* with the instant in time represented by this {@code Date} object. |
676 |
* The value returned is between {@code 0} and {@code 11}, |
|
677 |
* with the value {@code 0} representing January. |
|
2 | 678 |
* |
679 |
* @return the month represented by this date. |
|
680 |
* @see java.util.Calendar |
|
681 |
* @deprecated As of JDK version 1.1, |
|
22629 | 682 |
* replaced by {@code Calendar.get(Calendar.MONTH)}. |
2 | 683 |
*/ |
684 |
@Deprecated |
|
685 |
public int getMonth() { |
|
686 |
return normalize().getMonth() - 1; // adjust 1-based to 0-based |
|
687 |
} |
|
688 |
||
689 |
/** |
|
690 |
* Sets the month of this date to the specified value. This |
|
22629 | 691 |
* {@code Date} object is modified so that it represents a point |
2 | 692 |
* in time within the specified month, with the year, date, hour, |
693 |
* minute, and second the same as before, as interpreted in the |
|
694 |
* local time zone. If the date was October 31, for example, and |
|
695 |
* the month is set to June, then the new date will be treated as |
|
696 |
* if it were on July 1, because June has only 30 days. |
|
697 |
* |
|
698 |
* @param month the month value between 0-11. |
|
699 |
* @see java.util.Calendar |
|
700 |
* @deprecated As of JDK version 1.1, |
|
22629 | 701 |
* replaced by {@code Calendar.set(Calendar.MONTH, int month)}. |
2 | 702 |
*/ |
703 |
@Deprecated |
|
704 |
public void setMonth(int month) { |
|
705 |
int y = 0; |
|
706 |
if (month >= 12) { |
|
707 |
y = month / 12; |
|
708 |
month %= 12; |
|
709 |
} else if (month < 0) { |
|
710 |
y = CalendarUtils.floorDivide(month, 12); |
|
711 |
month = CalendarUtils.mod(month, 12); |
|
712 |
} |
|
713 |
BaseCalendar.Date d = getCalendarDate(); |
|
714 |
if (y != 0) { |
|
715 |
d.setNormalizedYear(d.getNormalizedYear() + y); |
|
716 |
} |
|
717 |
d.setMonth(month + 1); // adjust 0-based to 1-based month numbering |
|
718 |
} |
|
719 |
||
720 |
/** |
|
22629 | 721 |
* Returns the day of the month represented by this {@code Date} object. |
722 |
* The value returned is between {@code 1} and {@code 31} |
|
2 | 723 |
* representing the day of the month that contains or begins with the |
22629 | 724 |
* instant in time represented by this {@code Date} object, as |
2 | 725 |
* interpreted in the local time zone. |
726 |
* |
|
727 |
* @return the day of the month represented by this date. |
|
728 |
* @see java.util.Calendar |
|
729 |
* @deprecated As of JDK version 1.1, |
|
22629 | 730 |
* replaced by {@code Calendar.get(Calendar.DAY_OF_MONTH)}. |
2 | 731 |
*/ |
732 |
@Deprecated |
|
733 |
public int getDate() { |
|
734 |
return normalize().getDayOfMonth(); |
|
735 |
} |
|
736 |
||
737 |
/** |
|
22629 | 738 |
* Sets the day of the month of this {@code Date} object to the |
739 |
* specified value. This {@code Date} object is modified so that |
|
2 | 740 |
* it represents a point in time within the specified day of the |
741 |
* month, with the year, month, hour, minute, and second the same |
|
742 |
* as before, as interpreted in the local time zone. If the date |
|
743 |
* was April 30, for example, and the date is set to 31, then it |
|
744 |
* will be treated as if it were on May 1, because April has only |
|
745 |
* 30 days. |
|
746 |
* |
|
747 |
* @param date the day of the month value between 1-31. |
|
748 |
* @see java.util.Calendar |
|
749 |
* @deprecated As of JDK version 1.1, |
|
22629 | 750 |
* replaced by {@code Calendar.set(Calendar.DAY_OF_MONTH, int date)}. |
2 | 751 |
*/ |
752 |
@Deprecated |
|
753 |
public void setDate(int date) { |
|
754 |
getCalendarDate().setDayOfMonth(date); |
|
755 |
} |
|
756 |
||
757 |
/** |
|
758 |
* Returns the day of the week represented by this date. The |
|
22629 | 759 |
* returned value ({@code 0} = Sunday, {@code 1} = Monday, |
760 |
* {@code 2} = Tuesday, {@code 3} = Wednesday, {@code 4} = |
|
761 |
* Thursday, {@code 5} = Friday, {@code 6} = Saturday) |
|
2 | 762 |
* represents the day of the week that contains or begins with |
22629 | 763 |
* the instant in time represented by this {@code Date} object, |
2 | 764 |
* as interpreted in the local time zone. |
765 |
* |
|
766 |
* @return the day of the week represented by this date. |
|
767 |
* @see java.util.Calendar |
|
768 |
* @deprecated As of JDK version 1.1, |
|
22629 | 769 |
* replaced by {@code Calendar.get(Calendar.DAY_OF_WEEK)}. |
2 | 770 |
*/ |
771 |
@Deprecated |
|
772 |
public int getDay() { |
|
11130
c7093e306a34
7117487: Warnings Cleanup: some i18n classes in java.util and sun.util
okutsu
parents:
7668
diff
changeset
|
773 |
return normalize().getDayOfWeek() - BaseCalendar.SUNDAY; |
2 | 774 |
} |
775 |
||
776 |
/** |
|
22629 | 777 |
* Returns the hour represented by this {@code Date} object. The |
778 |
* returned value is a number ({@code 0} through {@code 23}) |
|
2 | 779 |
* representing the hour within the day that contains or begins |
22629 | 780 |
* with the instant in time represented by this {@code Date} |
2 | 781 |
* object, as interpreted in the local time zone. |
782 |
* |
|
783 |
* @return the hour represented by this date. |
|
784 |
* @see java.util.Calendar |
|
785 |
* @deprecated As of JDK version 1.1, |
|
22629 | 786 |
* replaced by {@code Calendar.get(Calendar.HOUR_OF_DAY)}. |
2 | 787 |
*/ |
788 |
@Deprecated |
|
789 |
public int getHours() { |
|
790 |
return normalize().getHours(); |
|
791 |
} |
|
792 |
||
793 |
/** |
|
22629 | 794 |
* Sets the hour of this {@code Date} object to the specified value. |
795 |
* This {@code Date} object is modified so that it represents a point |
|
2 | 796 |
* in time within the specified hour of the day, with the year, month, |
797 |
* date, minute, and second the same as before, as interpreted in the |
|
798 |
* local time zone. |
|
799 |
* |
|
800 |
* @param hours the hour value. |
|
801 |
* @see java.util.Calendar |
|
802 |
* @deprecated As of JDK version 1.1, |
|
22629 | 803 |
* replaced by {@code Calendar.set(Calendar.HOUR_OF_DAY, int hours)}. |
2 | 804 |
*/ |
805 |
@Deprecated |
|
806 |
public void setHours(int hours) { |
|
807 |
getCalendarDate().setHours(hours); |
|
808 |
} |
|
809 |
||
810 |
/** |
|
811 |
* Returns the number of minutes past the hour represented by this date, |
|
812 |
* as interpreted in the local time zone. |
|
22629 | 813 |
* The value returned is between {@code 0} and {@code 59}. |
2 | 814 |
* |
815 |
* @return the number of minutes past the hour represented by this date. |
|
816 |
* @see java.util.Calendar |
|
817 |
* @deprecated As of JDK version 1.1, |
|
22629 | 818 |
* replaced by {@code Calendar.get(Calendar.MINUTE)}. |
2 | 819 |
*/ |
820 |
@Deprecated |
|
821 |
public int getMinutes() { |
|
822 |
return normalize().getMinutes(); |
|
823 |
} |
|
824 |
||
825 |
/** |
|
22629 | 826 |
* Sets the minutes of this {@code Date} object to the specified value. |
827 |
* This {@code Date} object is modified so that it represents a point |
|
2 | 828 |
* in time within the specified minute of the hour, with the year, month, |
829 |
* date, hour, and second the same as before, as interpreted in the |
|
830 |
* local time zone. |
|
831 |
* |
|
832 |
* @param minutes the value of the minutes. |
|
833 |
* @see java.util.Calendar |
|
834 |
* @deprecated As of JDK version 1.1, |
|
22629 | 835 |
* replaced by {@code Calendar.set(Calendar.MINUTE, int minutes)}. |
2 | 836 |
*/ |
837 |
@Deprecated |
|
838 |
public void setMinutes(int minutes) { |
|
839 |
getCalendarDate().setMinutes(minutes); |
|
840 |
} |
|
841 |
||
842 |
/** |
|
843 |
* Returns the number of seconds past the minute represented by this date. |
|
22629 | 844 |
* The value returned is between {@code 0} and {@code 61}. The |
845 |
* values {@code 60} and {@code 61} can only occur on those |
|
2 | 846 |
* Java Virtual Machines that take leap seconds into account. |
847 |
* |
|
848 |
* @return the number of seconds past the minute represented by this date. |
|
849 |
* @see java.util.Calendar |
|
850 |
* @deprecated As of JDK version 1.1, |
|
22629 | 851 |
* replaced by {@code Calendar.get(Calendar.SECOND)}. |
2 | 852 |
*/ |
853 |
@Deprecated |
|
854 |
public int getSeconds() { |
|
855 |
return normalize().getSeconds(); |
|
856 |
} |
|
857 |
||
858 |
/** |
|
22629 | 859 |
* Sets the seconds of this {@code Date} to the specified value. |
860 |
* This {@code Date} object is modified so that it represents a |
|
2 | 861 |
* point in time within the specified second of the minute, with |
862 |
* the year, month, date, hour, and minute the same as before, as |
|
863 |
* interpreted in the local time zone. |
|
864 |
* |
|
865 |
* @param seconds the seconds value. |
|
866 |
* @see java.util.Calendar |
|
867 |
* @deprecated As of JDK version 1.1, |
|
22629 | 868 |
* replaced by {@code Calendar.set(Calendar.SECOND, int seconds)}. |
2 | 869 |
*/ |
870 |
@Deprecated |
|
871 |
public void setSeconds(int seconds) { |
|
872 |
getCalendarDate().setSeconds(seconds); |
|
873 |
} |
|
874 |
||
875 |
/** |
|
876 |
* Returns the number of milliseconds since January 1, 1970, 00:00:00 GMT |
|
22629 | 877 |
* represented by this {@code Date} object. |
2 | 878 |
* |
879 |
* @return the number of milliseconds since January 1, 1970, 00:00:00 GMT |
|
880 |
* represented by this date. |
|
881 |
*/ |
|
882 |
public long getTime() { |
|
883 |
return getTimeImpl(); |
|
884 |
} |
|
885 |
||
886 |
private final long getTimeImpl() { |
|
887 |
if (cdate != null && !cdate.isNormalized()) { |
|
888 |
normalize(); |
|
889 |
} |
|
890 |
return fastTime; |
|
891 |
} |
|
892 |
||
893 |
/** |
|
22629 | 894 |
* Sets this {@code Date} object to represent a point in time that is |
895 |
* {@code time} milliseconds after January 1, 1970 00:00:00 GMT. |
|
2 | 896 |
* |
897 |
* @param time the number of milliseconds. |
|
898 |
*/ |
|
899 |
public void setTime(long time) { |
|
900 |
fastTime = time; |
|
901 |
cdate = null; |
|
902 |
} |
|
903 |
||
904 |
/** |
|
905 |
* Tests if this date is before the specified date. |
|
906 |
* |
|
907 |
* @param when a date. |
|
22629 | 908 |
* @return {@code true} if and only if the instant of time |
909 |
* represented by this {@code Date} object is strictly |
|
910 |
* earlier than the instant represented by {@code when}; |
|
911 |
* {@code false} otherwise. |
|
912 |
* @exception NullPointerException if {@code when} is null. |
|
2 | 913 |
*/ |
914 |
public boolean before(Date when) { |
|
915 |
return getMillisOf(this) < getMillisOf(when); |
|
916 |
} |
|
917 |
||
918 |
/** |
|
919 |
* Tests if this date is after the specified date. |
|
920 |
* |
|
921 |
* @param when a date. |
|
22629 | 922 |
* @return {@code true} if and only if the instant represented |
923 |
* by this {@code Date} object is strictly later than the |
|
924 |
* instant represented by {@code when}; |
|
925 |
* {@code false} otherwise. |
|
926 |
* @exception NullPointerException if {@code when} is null. |
|
2 | 927 |
*/ |
928 |
public boolean after(Date when) { |
|
929 |
return getMillisOf(this) > getMillisOf(when); |
|
930 |
} |
|
931 |
||
932 |
/** |
|
933 |
* Compares two dates for equality. |
|
22629 | 934 |
* The result is {@code true} if and only if the argument is |
935 |
* not {@code null} and is a {@code Date} object that |
|
2 | 936 |
* represents the same point in time, to the millisecond, as this object. |
937 |
* <p> |
|
22629 | 938 |
* Thus, two {@code Date} objects are equal if and only if the |
939 |
* {@code getTime} method returns the same {@code long} |
|
2 | 940 |
* value for both. |
941 |
* |
|
942 |
* @param obj the object to compare with. |
|
22629 | 943 |
* @return {@code true} if the objects are the same; |
944 |
* {@code false} otherwise. |
|
2 | 945 |
* @see java.util.Date#getTime() |
946 |
*/ |
|
947 |
public boolean equals(Object obj) { |
|
948 |
return obj instanceof Date && getTime() == ((Date) obj).getTime(); |
|
949 |
} |
|
950 |
||
951 |
/** |
|
22629 | 952 |
* Returns the millisecond value of this {@code Date} object |
2 | 953 |
* without affecting its internal state. |
954 |
*/ |
|
955 |
static final long getMillisOf(Date date) { |
|
40457
21ae06f40614
8135055: java.util.Date.after(java.sql.Timestamp ) does not return correct results
rgoel
parents:
32649
diff
changeset
|
956 |
if (date.getClass() != Date.class) { |
21ae06f40614
8135055: java.util.Date.after(java.sql.Timestamp ) does not return correct results
rgoel
parents:
32649
diff
changeset
|
957 |
return date.getTime(); |
21ae06f40614
8135055: java.util.Date.after(java.sql.Timestamp ) does not return correct results
rgoel
parents:
32649
diff
changeset
|
958 |
} |
4847
22fbbcbcab1d
6912866: (date) java.util.Date.before / after may be expensive
okutsu
parents:
2
diff
changeset
|
959 |
if (date.cdate == null || date.cdate.isNormalized()) { |
2 | 960 |
return date.fastTime; |
961 |
} |
|
962 |
BaseCalendar.Date d = (BaseCalendar.Date) date.cdate.clone(); |
|
963 |
return gcal.getTime(d); |
|
964 |
} |
|
965 |
||
966 |
/** |
|
967 |
* Compares two Dates for ordering. |
|
968 |
* |
|
22629 | 969 |
* @param anotherDate the {@code Date} to be compared. |
970 |
* @return the value {@code 0} if the argument Date is equal to |
|
971 |
* this Date; a value less than {@code 0} if this Date |
|
2 | 972 |
* is before the Date argument; and a value greater than |
22629 | 973 |
* {@code 0} if this Date is after the Date argument. |
2 | 974 |
* @since 1.2 |
22629 | 975 |
* @exception NullPointerException if {@code anotherDate} is null. |
2 | 976 |
*/ |
977 |
public int compareTo(Date anotherDate) { |
|
978 |
long thisTime = getMillisOf(this); |
|
979 |
long anotherTime = getMillisOf(anotherDate); |
|
980 |
return (thisTime<anotherTime ? -1 : (thisTime==anotherTime ? 0 : 1)); |
|
981 |
} |
|
982 |
||
983 |
/** |
|
984 |
* Returns a hash code value for this object. The result is the |
|
22629 | 985 |
* exclusive OR of the two halves of the primitive {@code long} |
2 | 986 |
* value returned by the {@link Date#getTime} |
987 |
* method. That is, the hash code is the value of the expression: |
|
18156 | 988 |
* <blockquote><pre>{@code |
989 |
* (int)(this.getTime()^(this.getTime() >>> 32)) |
|
990 |
* }</pre></blockquote> |
|
2 | 991 |
* |
992 |
* @return a hash code value for this object. |
|
993 |
*/ |
|
994 |
public int hashCode() { |
|
995 |
long ht = this.getTime(); |
|
996 |
return (int) ht ^ (int) (ht >> 32); |
|
997 |
} |
|
998 |
||
999 |
/** |
|
22629 | 1000 |
* Converts this {@code Date} object to a {@code String} |
2 | 1001 |
* of the form: |
1002 |
* <blockquote><pre> |
|
1003 |
* dow mon dd hh:mm:ss zzz yyyy</pre></blockquote> |
|
1004 |
* where:<ul> |
|
22629 | 1005 |
* <li>{@code dow} is the day of the week ({@code Sun, Mon, Tue, Wed, |
1006 |
* Thu, Fri, Sat}). |
|
1007 |
* <li>{@code mon} is the month ({@code Jan, Feb, Mar, Apr, May, Jun, |
|
1008 |
* Jul, Aug, Sep, Oct, Nov, Dec}). |
|
1009 |
* <li>{@code dd} is the day of the month ({@code 01} through |
|
1010 |
* {@code 31}), as two decimal digits. |
|
1011 |
* <li>{@code hh} is the hour of the day ({@code 00} through |
|
1012 |
* {@code 23}), as two decimal digits. |
|
1013 |
* <li>{@code mm} is the minute within the hour ({@code 00} through |
|
1014 |
* {@code 59}), as two decimal digits. |
|
1015 |
* <li>{@code ss} is the second within the minute ({@code 00} through |
|
1016 |
* {@code 61}, as two decimal digits. |
|
1017 |
* <li>{@code zzz} is the time zone (and may reflect daylight saving |
|
2 | 1018 |
* time). Standard time zone abbreviations include those |
22629 | 1019 |
* recognized by the method {@code parse}. If time zone |
1020 |
* information is not available, then {@code zzz} is empty - |
|
2 | 1021 |
* that is, it consists of no characters at all. |
22629 | 1022 |
* <li>{@code yyyy} is the year, as four decimal digits. |
2 | 1023 |
* </ul> |
1024 |
* |
|
1025 |
* @return a string representation of this date. |
|
1026 |
* @see java.util.Date#toLocaleString() |
|
1027 |
* @see java.util.Date#toGMTString() |
|
1028 |
*/ |
|
1029 |
public String toString() { |
|
1030 |
// "EEE MMM dd HH:mm:ss zzz yyyy"; |
|
1031 |
BaseCalendar.Date date = normalize(); |
|
1032 |
StringBuilder sb = new StringBuilder(28); |
|
1033 |
int index = date.getDayOfWeek(); |
|
11130
c7093e306a34
7117487: Warnings Cleanup: some i18n classes in java.util and sun.util
okutsu
parents:
7668
diff
changeset
|
1034 |
if (index == BaseCalendar.SUNDAY) { |
2 | 1035 |
index = 8; |
1036 |
} |
|
1037 |
convertToAbbr(sb, wtb[index]).append(' '); // EEE |
|
1038 |
convertToAbbr(sb, wtb[date.getMonth() - 1 + 2 + 7]).append(' '); // MMM |
|
1039 |
CalendarUtils.sprintf0d(sb, date.getDayOfMonth(), 2).append(' '); // dd |
|
1040 |
||
1041 |
CalendarUtils.sprintf0d(sb, date.getHours(), 2).append(':'); // HH |
|
1042 |
CalendarUtils.sprintf0d(sb, date.getMinutes(), 2).append(':'); // mm |
|
1043 |
CalendarUtils.sprintf0d(sb, date.getSeconds(), 2).append(' '); // ss |
|
1044 |
TimeZone zi = date.getZone(); |
|
1045 |
if (zi != null) { |
|
11130
c7093e306a34
7117487: Warnings Cleanup: some i18n classes in java.util and sun.util
okutsu
parents:
7668
diff
changeset
|
1046 |
sb.append(zi.getDisplayName(date.isDaylightTime(), TimeZone.SHORT, Locale.US)); // zzz |
2 | 1047 |
} else { |
1048 |
sb.append("GMT"); |
|
1049 |
} |
|
1050 |
sb.append(' ').append(date.getYear()); // yyyy |
|
1051 |
return sb.toString(); |
|
1052 |
} |
|
1053 |
||
1054 |
/** |
|
1055 |
* Converts the given name to its 3-letter abbreviation (e.g., |
|
1056 |
* "monday" -> "Mon") and stored the abbreviation in the given |
|
22629 | 1057 |
* {@code StringBuilder}. |
2 | 1058 |
*/ |
1059 |
private static final StringBuilder convertToAbbr(StringBuilder sb, String name) { |
|
1060 |
sb.append(Character.toUpperCase(name.charAt(0))); |
|
1061 |
sb.append(name.charAt(1)).append(name.charAt(2)); |
|
1062 |
return sb; |
|
1063 |
} |
|
1064 |
||
1065 |
/** |
|
22629 | 1066 |
* Creates a string representation of this {@code Date} object in an |
2 | 1067 |
* implementation-dependent form. The intent is that the form should |
1068 |
* be familiar to the user of the Java application, wherever it may |
|
1069 |
* happen to be running. The intent is comparable to that of the |
|
22629 | 1070 |
* "{@code %c}" format supported by the {@code strftime()} |
2 | 1071 |
* function of ISO C. |
1072 |
* |
|
1073 |
* @return a string representation of this date, using the locale |
|
1074 |
* conventions. |
|
1075 |
* @see java.text.DateFormat |
|
1076 |
* @see java.util.Date#toString() |
|
1077 |
* @see java.util.Date#toGMTString() |
|
1078 |
* @deprecated As of JDK version 1.1, |
|
22629 | 1079 |
* replaced by {@code DateFormat.format(Date date)}. |
2 | 1080 |
*/ |
1081 |
@Deprecated |
|
1082 |
public String toLocaleString() { |
|
1083 |
DateFormat formatter = DateFormat.getDateTimeInstance(); |
|
1084 |
return formatter.format(this); |
|
1085 |
} |
|
1086 |
||
1087 |
/** |
|
22629 | 1088 |
* Creates a string representation of this {@code Date} object of |
2 | 1089 |
* the form: |
18156 | 1090 |
* <blockquote><pre> |
2 | 1091 |
* d mon yyyy hh:mm:ss GMT</pre></blockquote> |
1092 |
* where:<ul> |
|
22629 | 1093 |
* <li><i>d</i> is the day of the month ({@code 1} through {@code 31}), |
2 | 1094 |
* as one or two decimal digits. |
22629 | 1095 |
* <li><i>mon</i> is the month ({@code Jan, Feb, Mar, Apr, May, Jun, Jul, |
1096 |
* Aug, Sep, Oct, Nov, Dec}). |
|
2 | 1097 |
* <li><i>yyyy</i> is the year, as four decimal digits. |
22629 | 1098 |
* <li><i>hh</i> is the hour of the day ({@code 00} through {@code 23}), |
2 | 1099 |
* as two decimal digits. |
22629 | 1100 |
* <li><i>mm</i> is the minute within the hour ({@code 00} through |
1101 |
* {@code 59}), as two decimal digits. |
|
1102 |
* <li><i>ss</i> is the second within the minute ({@code 00} through |
|
1103 |
* {@code 61}), as two decimal digits. |
|
1104 |
* <li><i>GMT</i> is exactly the ASCII letters "{@code GMT}" to indicate |
|
2 | 1105 |
* Greenwich Mean Time. |
1106 |
* </ul><p> |
|
1107 |
* The result does not depend on the local time zone. |
|
1108 |
* |
|
1109 |
* @return a string representation of this date, using the Internet GMT |
|
1110 |
* conventions. |
|
1111 |
* @see java.text.DateFormat |
|
1112 |
* @see java.util.Date#toString() |
|
1113 |
* @see java.util.Date#toLocaleString() |
|
1114 |
* @deprecated As of JDK version 1.1, |
|
22629 | 1115 |
* replaced by {@code DateFormat.format(Date date)}, using a |
1116 |
* GMT {@code TimeZone}. |
|
2 | 1117 |
*/ |
1118 |
@Deprecated |
|
1119 |
public String toGMTString() { |
|
1120 |
// d MMM yyyy HH:mm:ss 'GMT' |
|
1121 |
long t = getTime(); |
|
1122 |
BaseCalendar cal = getCalendarSystem(t); |
|
1123 |
BaseCalendar.Date date = |
|
1124 |
(BaseCalendar.Date) cal.getCalendarDate(getTime(), (TimeZone)null); |
|
1125 |
StringBuilder sb = new StringBuilder(32); |
|
1126 |
CalendarUtils.sprintf0d(sb, date.getDayOfMonth(), 1).append(' '); // d |
|
1127 |
convertToAbbr(sb, wtb[date.getMonth() - 1 + 2 + 7]).append(' '); // MMM |
|
1128 |
sb.append(date.getYear()).append(' '); // yyyy |
|
1129 |
CalendarUtils.sprintf0d(sb, date.getHours(), 2).append(':'); // HH |
|
1130 |
CalendarUtils.sprintf0d(sb, date.getMinutes(), 2).append(':'); // mm |
|
1131 |
CalendarUtils.sprintf0d(sb, date.getSeconds(), 2); // ss |
|
1132 |
sb.append(" GMT"); // ' GMT' |
|
1133 |
return sb.toString(); |
|
1134 |
} |
|
1135 |
||
1136 |
/** |
|
1137 |
* Returns the offset, measured in minutes, for the local time zone |
|
1138 |
* relative to UTC that is appropriate for the time represented by |
|
22629 | 1139 |
* this {@code Date} object. |
2 | 1140 |
* <p> |
1141 |
* For example, in Massachusetts, five time zones west of Greenwich: |
|
1142 |
* <blockquote><pre> |
|
1143 |
* new Date(96, 1, 14).getTimezoneOffset() returns 300</pre></blockquote> |
|
1144 |
* because on February 14, 1996, standard time (Eastern Standard Time) |
|
1145 |
* is in use, which is offset five hours from UTC; but: |
|
1146 |
* <blockquote><pre> |
|
1147 |
* new Date(96, 5, 1).getTimezoneOffset() returns 240</pre></blockquote> |
|
1148 |
* because on June 1, 1996, daylight saving time (Eastern Daylight Time) |
|
1149 |
* is in use, which is offset only four hours from UTC.<p> |
|
1150 |
* This method produces the same result as if it computed: |
|
1151 |
* <blockquote><pre> |
|
1152 |
* (this.getTime() - UTC(this.getYear(), |
|
1153 |
* this.getMonth(), |
|
1154 |
* this.getDate(), |
|
1155 |
* this.getHours(), |
|
1156 |
* this.getMinutes(), |
|
1157 |
* this.getSeconds())) / (60 * 1000) |
|
1158 |
* </pre></blockquote> |
|
1159 |
* |
|
1160 |
* @return the time-zone offset, in minutes, for the current time zone. |
|
1161 |
* @see java.util.Calendar#ZONE_OFFSET |
|
1162 |
* @see java.util.Calendar#DST_OFFSET |
|
1163 |
* @see java.util.TimeZone#getDefault |
|
1164 |
* @deprecated As of JDK version 1.1, |
|
22629 | 1165 |
* replaced by {@code -(Calendar.get(Calendar.ZONE_OFFSET) + |
1166 |
* Calendar.get(Calendar.DST_OFFSET)) / (60 * 1000)}. |
|
2 | 1167 |
*/ |
1168 |
@Deprecated |
|
1169 |
public int getTimezoneOffset() { |
|
1170 |
int zoneOffset; |
|
1171 |
if (cdate == null) { |
|
1172 |
TimeZone tz = TimeZone.getDefaultRef(); |
|
1173 |
if (tz instanceof ZoneInfo) { |
|
1174 |
zoneOffset = ((ZoneInfo)tz).getOffsets(fastTime, null); |
|
1175 |
} else { |
|
1176 |
zoneOffset = tz.getOffset(fastTime); |
|
1177 |
} |
|
1178 |
} else { |
|
1179 |
normalize(); |
|
1180 |
zoneOffset = cdate.getZoneOffset(); |
|
1181 |
} |
|
1182 |
return -zoneOffset/60000; // convert to minutes |
|
1183 |
} |
|
1184 |
||
1185 |
private final BaseCalendar.Date getCalendarDate() { |
|
1186 |
if (cdate == null) { |
|
1187 |
BaseCalendar cal = getCalendarSystem(fastTime); |
|
1188 |
cdate = (BaseCalendar.Date) cal.getCalendarDate(fastTime, |
|
1189 |
TimeZone.getDefaultRef()); |
|
1190 |
} |
|
1191 |
return cdate; |
|
1192 |
} |
|
1193 |
||
1194 |
private final BaseCalendar.Date normalize() { |
|
1195 |
if (cdate == null) { |
|
1196 |
BaseCalendar cal = getCalendarSystem(fastTime); |
|
1197 |
cdate = (BaseCalendar.Date) cal.getCalendarDate(fastTime, |
|
1198 |
TimeZone.getDefaultRef()); |
|
1199 |
return cdate; |
|
1200 |
} |
|
1201 |
||
1202 |
// Normalize cdate with the TimeZone in cdate first. This is |
|
1203 |
// required for the compatible behavior. |
|
1204 |
if (!cdate.isNormalized()) { |
|
1205 |
cdate = normalize(cdate); |
|
1206 |
} |
|
1207 |
||
1208 |
// If the default TimeZone has changed, then recalculate the |
|
1209 |
// fields with the new TimeZone. |
|
1210 |
TimeZone tz = TimeZone.getDefaultRef(); |
|
1211 |
if (tz != cdate.getZone()) { |
|
1212 |
cdate.setZone(tz); |
|
1213 |
CalendarSystem cal = getCalendarSystem(cdate); |
|
1214 |
cal.getCalendarDate(fastTime, cdate); |
|
1215 |
} |
|
1216 |
return cdate; |
|
1217 |
} |
|
1218 |
||
1219 |
// fastTime and the returned data are in sync upon return. |
|
1220 |
private final BaseCalendar.Date normalize(BaseCalendar.Date date) { |
|
1221 |
int y = date.getNormalizedYear(); |
|
1222 |
int m = date.getMonth(); |
|
1223 |
int d = date.getDayOfMonth(); |
|
1224 |
int hh = date.getHours(); |
|
1225 |
int mm = date.getMinutes(); |
|
1226 |
int ss = date.getSeconds(); |
|
1227 |
int ms = date.getMillis(); |
|
1228 |
TimeZone tz = date.getZone(); |
|
1229 |
||
1230 |
// If the specified year can't be handled using a long value |
|
1231 |
// in milliseconds, GregorianCalendar is used for full |
|
1232 |
// compatibility with underflow and overflow. This is required |
|
1233 |
// by some JCK tests. The limits are based max year values - |
|
1234 |
// years that can be represented by max values of d, hh, mm, |
|
1235 |
// ss and ms. Also, let GregorianCalendar handle the default |
|
1236 |
// cutover year so that we don't need to worry about the |
|
1237 |
// transition here. |
|
1238 |
if (y == 1582 || y > 280000000 || y < -280000000) { |
|
1239 |
if (tz == null) { |
|
1240 |
tz = TimeZone.getTimeZone("GMT"); |
|
1241 |
} |
|
1242 |
GregorianCalendar gc = new GregorianCalendar(tz); |
|
1243 |
gc.clear(); |
|
11130
c7093e306a34
7117487: Warnings Cleanup: some i18n classes in java.util and sun.util
okutsu
parents:
7668
diff
changeset
|
1244 |
gc.set(GregorianCalendar.MILLISECOND, ms); |
2 | 1245 |
gc.set(y, m-1, d, hh, mm, ss); |
1246 |
fastTime = gc.getTimeInMillis(); |
|
1247 |
BaseCalendar cal = getCalendarSystem(fastTime); |
|
1248 |
date = (BaseCalendar.Date) cal.getCalendarDate(fastTime, tz); |
|
1249 |
return date; |
|
1250 |
} |
|
1251 |
||
1252 |
BaseCalendar cal = getCalendarSystem(y); |
|
1253 |
if (cal != getCalendarSystem(date)) { |
|
1254 |
date = (BaseCalendar.Date) cal.newCalendarDate(tz); |
|
1255 |
date.setNormalizedDate(y, m, d).setTimeOfDay(hh, mm, ss, ms); |
|
1256 |
} |
|
1257 |
// Perform the GregorianCalendar-style normalization. |
|
1258 |
fastTime = cal.getTime(date); |
|
1259 |
||
1260 |
// In case the normalized date requires the other calendar |
|
1261 |
// system, we need to recalculate it using the other one. |
|
1262 |
BaseCalendar ncal = getCalendarSystem(fastTime); |
|
1263 |
if (ncal != cal) { |
|
1264 |
date = (BaseCalendar.Date) ncal.newCalendarDate(tz); |
|
1265 |
date.setNormalizedDate(y, m, d).setTimeOfDay(hh, mm, ss, ms); |
|
1266 |
fastTime = ncal.getTime(date); |
|
1267 |
} |
|
1268 |
return date; |
|
1269 |
} |
|
1270 |
||
1271 |
/** |
|
1272 |
* Returns the Gregorian or Julian calendar system to use with the |
|
1273 |
* given date. Use Gregorian from October 15, 1582. |
|
1274 |
* |
|
1275 |
* @param year normalized calendar year (not -1900) |
|
1276 |
* @return the CalendarSystem to use for the specified date |
|
1277 |
*/ |
|
1278 |
private static final BaseCalendar getCalendarSystem(int year) { |
|
1279 |
if (year >= 1582) { |
|
1280 |
return gcal; |
|
1281 |
} |
|
1282 |
return getJulianCalendar(); |
|
1283 |
} |
|
1284 |
||
1285 |
private static final BaseCalendar getCalendarSystem(long utc) { |
|
1286 |
// Quickly check if the time stamp given by `utc' is the Epoch |
|
1287 |
// or later. If it's before 1970, we convert the cutover to |
|
1288 |
// local time to compare. |
|
1289 |
if (utc >= 0 |
|
1290 |
|| utc >= GregorianCalendar.DEFAULT_GREGORIAN_CUTOVER |
|
1291 |
- TimeZone.getDefaultRef().getOffset(utc)) { |
|
1292 |
return gcal; |
|
1293 |
} |
|
1294 |
return getJulianCalendar(); |
|
1295 |
} |
|
1296 |
||
1297 |
private static final BaseCalendar getCalendarSystem(BaseCalendar.Date cdate) { |
|
1298 |
if (jcal == null) { |
|
1299 |
return gcal; |
|
1300 |
} |
|
1301 |
if (cdate.getEra() != null) { |
|
1302 |
return jcal; |
|
1303 |
} |
|
1304 |
return gcal; |
|
1305 |
} |
|
1306 |
||
32649
2ee9017c7597
8136583: Core libraries should use blessed modifier order
martin
parents:
29614
diff
changeset
|
1307 |
private static final synchronized BaseCalendar getJulianCalendar() { |
2 | 1308 |
if (jcal == null) { |
1309 |
jcal = (BaseCalendar) CalendarSystem.forName("julian"); |
|
1310 |
} |
|
1311 |
return jcal; |
|
1312 |
} |
|
1313 |
||
1314 |
/** |
|
1315 |
* Save the state of this object to a stream (i.e., serialize it). |
|
1316 |
* |
|
22629 | 1317 |
* @serialData The value returned by {@code getTime()} |
2 | 1318 |
* is emitted (long). This represents the offset from |
1319 |
* January 1, 1970, 00:00:00 GMT in milliseconds. |
|
1320 |
*/ |
|
1321 |
private void writeObject(ObjectOutputStream s) |
|
1322 |
throws IOException |
|
1323 |
{ |
|
29614
c95b4a5f89d6
8075824: Add default[Read|Write]Object to java.util.Date
chegar
parents:
25859
diff
changeset
|
1324 |
s.defaultWriteObject(); |
2 | 1325 |
s.writeLong(getTimeImpl()); |
1326 |
} |
|
1327 |
||
1328 |
/** |
|
1329 |
* Reconstitute this object from a stream (i.e., deserialize it). |
|
1330 |
*/ |
|
1331 |
private void readObject(ObjectInputStream s) |
|
1332 |
throws IOException, ClassNotFoundException |
|
1333 |
{ |
|
29614
c95b4a5f89d6
8075824: Add default[Read|Write]Object to java.util.Date
chegar
parents:
25859
diff
changeset
|
1334 |
s.defaultReadObject(); |
2 | 1335 |
fastTime = s.readLong(); |
1336 |
} |
|
15658 | 1337 |
|
1338 |
/** |
|
1339 |
* Obtains an instance of {@code Date} from an {@code Instant} object. |
|
1340 |
* <p> |
|
1341 |
* {@code Instant} uses a precision of nanoseconds, whereas {@code Date} |
|
22629 | 1342 |
* uses a precision of milliseconds. The conversion will truncate any |
15658 | 1343 |
* excess precision information as though the amount in nanoseconds was |
1344 |
* subject to integer division by one million. |
|
1345 |
* <p> |
|
1346 |
* {@code Instant} can store points on the time-line further in the future |
|
1347 |
* and further in the past than {@code Date}. In this scenario, this method |
|
1348 |
* will throw an exception. |
|
1349 |
* |
|
1350 |
* @param instant the instant to convert |
|
1351 |
* @return a {@code Date} representing the same point on the time-line as |
|
1352 |
* the provided instant |
|
1353 |
* @exception NullPointerException if {@code instant} is null. |
|
1354 |
* @exception IllegalArgumentException if the instant is too large to |
|
1355 |
* represent as a {@code Date} |
|
1356 |
* @since 1.8 |
|
1357 |
*/ |
|
1358 |
public static Date from(Instant instant) { |
|
1359 |
try { |
|
1360 |
return new Date(instant.toEpochMilli()); |
|
1361 |
} catch (ArithmeticException ex) { |
|
1362 |
throw new IllegalArgumentException(ex); |
|
1363 |
} |
|
1364 |
} |
|
1365 |
||
1366 |
/** |
|
1367 |
* Converts this {@code Date} object to an {@code Instant}. |
|
1368 |
* <p> |
|
1369 |
* The conversion creates an {@code Instant} that represents the same |
|
1370 |
* point on the time-line as this {@code Date}. |
|
1371 |
* |
|
1372 |
* @return an instant representing the same point on the time-line as |
|
1373 |
* this {@code Date} object |
|
1374 |
* @since 1.8 |
|
1375 |
*/ |
|
1376 |
public Instant toInstant() { |
|
1377 |
return Instant.ofEpochMilli(getTime()); |
|
1378 |
} |
|
2 | 1379 |
} |