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Java example source code file (ZoneInfoOld.java)

This example Java source code file (ZoneInfoOld.java) is included in the alvinalexander.com "Java Source Code Warehouse" project. The intent of this project is to help you "Learn Java by Example" TM.

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Java - Java tags/keywords

calendar, date, dst_nshift, illegalargumentexception, list, map, offset_mask, simpletimezone, softreference, standard_time, string, transition_nshift, use_oldmapping, utc_time, util, zoneinfoold

The ZoneInfoOld.java Java example source code

/*
 * Copyright (c) 2000, 2013, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 */

import java.io.IOException;
import java.io.ObjectInputStream;
import java.lang.ref.SoftReference;
import java.time.ZoneOffset;
import java.time.LocalDateTime;
import java.util.Arrays;
import java.util.ArrayList;
import java.util.Date;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.SimpleTimeZone;
import java.util.TimeZone;

import sun.util.calendar.CalendarSystem;
import sun.util.calendar.CalendarDate;

/**
 * <code>ZoneInfoOld is an implementation subclass of {@link
 * java.util.TimeZone TimeZone} that represents GMT offsets and
 * daylight saving time transitions of a time zone.
 * <p>
 * The daylight saving time transitions are described in the {@link
 * #transitions transitions} table consisting of a chronological
 * sequence of transitions of GMT offset and/or daylight saving time
 * changes. Since all transitions are represented in UTC, in theory,
 * <code>ZoneInfoOld can be used with any calendar systems except
 * for the {@link #getOffset(int,int,int,int,int,int) getOffset}
 * method that takes Gregorian calendar date fields.
 * <p>
 * This table covers transitions from 1900 until 2037 (as of version
 * 1.4), Before 1900, it assumes that there was no daylight saving
 * time and the <code>getOffset methods always return the
 * {@link #getRawOffset} value. No Local Mean Time is supported. If a
 * specified date is beyond the transition table and this time zone is
 * supposed to observe daylight saving time in 2037, it delegates
 * operations to a {@link java.util.SimpleTimeZone SimpleTimeZone}
 * object created using the daylight saving time schedule as of 2037.
 * <p>
 * The date items, transitions, GMT offset(s), etc. are read from a database
 * file. See {@link ZoneInfoFile} for details.
 * @see java.util.SimpleTimeZone
 * @since 1.4
 */

public class ZoneInfoOld extends TimeZone {

    // The constants assume no leap seconds support.
    static final int SECOND_IN_MILLIS = 1000;
    static final int MINUTE_IN_MILLIS = SECOND_IN_MILLIS * 60;
    static final int HOUR_IN_MILLIS = MINUTE_IN_MILLIS * 60;
    static final int DAY_IN_MILLIS = HOUR_IN_MILLIS * 24;

    private static final int UTC_TIME = 0;
    private static final int STANDARD_TIME = 1;
    private static final int WALL_TIME = 2;

    private static final long OFFSET_MASK = 0x0fL;
    private static final long DST_MASK = 0xf0L;
    private static final int DST_NSHIFT = 4;
    // this bit field is reserved for abbreviation support
    private static final long ABBR_MASK = 0xf00L;
    private static final int TRANSITION_NSHIFT = 12;

    // Flag for supporting JDK backward compatible IDs, such as "EST".
    static final boolean USE_OLDMAPPING;
    static {
      String oldmapping = System.getProperty("sun.timezone.ids.oldmapping", "false").toLowerCase(Locale.ROOT);
      USE_OLDMAPPING = (oldmapping.equals("yes") || oldmapping.equals("true"));
    }

    // IDs having conflicting data between Olson and JDK 1.1
    static final String[] conflictingIDs = {
        "EST", "MST", "HST"
    };

    private static final CalendarSystem gcal = CalendarSystem.getGregorianCalendar();

    /**
     * The raw GMT offset in milliseconds between this zone and GMT.
     * Negative offsets are to the west of Greenwich.  To obtain local
     * <em>standard time, add the offset to GMT time.
     * @serial
     */
    int rawOffset;

    /**
     * Difference in milliseconds from the original GMT offset in case
     * the raw offset value has been modified by calling {@link
     * #setRawOffset}. The initial value is 0.
     * @serial
     */
    int rawOffsetDiff = 0;

    /**
     * A CRC32 value of all pairs of transition time (in milliseconds
     * in <code>long) in local time and its GMT offset (in
     * seconds in <code>int) in the chronological order. Byte
     * values of each <code>long and int are taken
     * in the big endian order (i.e., MSB to LSB).
     * @serial
     */
    int checksum;

    /**
     * The amount of time in milliseconds saved during daylight saving
     * time. If <code>useDaylight is false, this value is 0.
     * @serial
     */
    int dstSavings;

    /**
     * This array describes transitions of GMT offsets of this time
     * zone, including both raw offset changes and daylight saving
     * time changes.
     * A long integer consists of four bit fields.
     * <ul>
     * <li>The most significant 52-bit field represents transition
     * time in milliseconds from Gregorian January 1 1970, 00:00:00
     * GMT.</li>
     * <li>The next 4-bit field is reserved and must be 0.
     * <li>The next 4-bit field is an index value to {@link #offsets
     * offsets[]} for the amount of daylight saving at the
     * transition. If this value is zero, it means that no daylight
     * saving, not the index value zero.</li>
     * <li>The least significant 4-bit field is an index value to
     * {@link #offsets offsets[]} for <em>total GMT offset at the
     * transition.</li>
     * </ul>
     * If this time zone doesn't observe daylight saving time and has
     * never changed any GMT offsets in the past, this value is null.
     * @serial
     */
    long[] transitions;

    /**
     * This array holds all unique offset values in
     * milliseconds. Index values to this array are stored in the
     * transitions array elements.
     * @serial
     */
    int[] offsets;

    /**
     * SimpleTimeZone parameter values. It has to have either 8 for
     * {@link java.util.SimpleTimeZone#SimpleTimeZone(int, String,
     * int, int , int , int , int , int , int , int , int) the
     * 11-argument SimpleTimeZone constructor} or 10 for {@link
     * java.util.SimpleTimeZone#SimpleTimeZone(int, String, int, int,
     * int , int , int , int , int , int , int, int, int) the
     * 13-argument SimpleTimeZone constructor} parameters.
     * @serial
     */
    int[] simpleTimeZoneParams;

    /**
     * True if the raw GMT offset value would change after the time
     * zone data has been generated; false, otherwise. The default
     * value is false.
     * @serial
     */
    boolean willGMTOffsetChange = false;

    /**
     * True if the object has been modified after its instantiation.
     */
    transient private boolean dirty = false;

    private static final long serialVersionUID = 2653134537216586139L;

    /**
     * A constructor.
     */
    public ZoneInfoOld() {
    }

    /**
     * A Constructor for CustomID.
     */
    public ZoneInfoOld(String ID, int rawOffset) {
        this(ID, rawOffset, 0, 0, null, null, null, false);
    }

    /**
     * Constructs a ZoneInfoOld instance.
     *
     * @param ID time zone name
     * @param rawOffset GMT offset in milliseconds
     * @param dstSavings daylight saving value in milliseconds or 0
     * (zero) if this time zone doesn't observe Daylight Saving Time.
     * @param checksum CRC32 value with all transitions table entry
     * values
     * @param transitions transition table
     * @param offsets offset value table
     * @param simpleTimeZoneParams parameter values for constructing
     * SimpleTimeZone
     * @param willGMTOffsetChange the value of willGMTOffsetChange
     */
    ZoneInfoOld(String ID,
             int rawOffset,
             int dstSavings,
             int checksum,
             long[] transitions,
             int[] offsets,
             int[] simpleTimeZoneParams,
             boolean willGMTOffsetChange) {
        setID(ID);
        this.rawOffset = rawOffset;
        this.dstSavings = dstSavings;
        this.checksum = checksum;
        this.transitions = transitions;
        this.offsets = offsets;
        this.simpleTimeZoneParams = simpleTimeZoneParams;
        this.willGMTOffsetChange = willGMTOffsetChange;
    }

    /**
     * Returns the difference in milliseconds between local time and UTC
     * of given time, taking into account both the raw offset and the
     * effect of daylight savings.
     *
     * @param date the milliseconds in UTC
     * @return the milliseconds to add to UTC to get local wall time
     */
    public int getOffset(long date) {
        return getOffsets(date, null, UTC_TIME);
    }

    public int getOffsets(long utc, int[] offsets) {
        return getOffsets(utc, offsets, UTC_TIME);
    }

    public int getOffsetsByStandard(long standard, int[] offsets) {
        return getOffsets(standard, offsets, STANDARD_TIME);
    }

    public int getOffsetsByWall(long wall, int[] offsets) {
        return getOffsets(wall, offsets, WALL_TIME);
    }

    private int getOffsets(long date, int[] offsets, int type) {
        // if dst is never observed, there is no transition.
        if (transitions == null) {
            int offset = getLastRawOffset();
            if (offsets != null) {
                offsets[0] = offset;
                offsets[1] = 0;
            }
            return offset;
        }

        date -= rawOffsetDiff;
        int index = getTransitionIndex(date, type);

        // prior to the transition table, returns the raw offset.
        // FIXME: should support LMT.
        if (index < 0) {
            int offset = getLastRawOffset();
            if (offsets != null) {
                offsets[0] = offset;
                offsets[1] = 0;
            }
            return offset;
        }

        if (index < transitions.length) {
            long val = transitions[index];
            int offset = this.offsets[(int)(val & OFFSET_MASK)] + rawOffsetDiff;
            if (offsets != null) {
                int dst = (int)((val >>> DST_NSHIFT) & 0xfL);
                int save = (dst == 0) ? 0 : this.offsets[dst];
                offsets[0] = offset - save;
                offsets[1] = save;
            }
            return offset;
        }

        // beyond the transitions, delegate to SimpleTimeZone if there
        // is a rule; otherwise, return rawOffset.
        SimpleTimeZone tz = getLastRule();
        if (tz != null) {
            int rawoffset = tz.getRawOffset();
            long msec = date;
            if (type != UTC_TIME) {
                msec -= rawOffset;
            }
            int dstoffset = tz.getOffset(msec) - rawOffset;

            // Check if it's in a standard-to-daylight transition.
            if (dstoffset > 0 && tz.getOffset(msec - dstoffset) == rawoffset) {
                dstoffset = 0;
            }

            if (offsets != null) {
                offsets[0] = rawoffset;
                offsets[1] = dstoffset;
            }
            return rawoffset + dstoffset;
        }
        int offset = getLastRawOffset();
        if (offsets != null) {
            offsets[0] = offset;
            offsets[1] = 0;
        }
        return offset;
    }

    private int getTransitionIndex(long date, int type) {
        int low = 0;
        int high = transitions.length - 1;

        while (low <= high) {
            int mid = (low + high) / 2;
            long val = transitions[mid];
            long midVal = val >> TRANSITION_NSHIFT; // sign extended
            if (type != UTC_TIME) {
                midVal += offsets[(int)(val & OFFSET_MASK)]; // wall time
            }
            if (type == STANDARD_TIME) {
                int dstIndex = (int)((val >>> DST_NSHIFT) & 0xfL);
                if (dstIndex != 0) {
                    midVal -= offsets[dstIndex]; // make it standard time
                }
            }

            if (midVal < date) {
                low = mid + 1;
            } else if (midVal > date) {
                high = mid - 1;
            } else {
                return mid;
            }
        }

        // if beyond the transitions, returns that index.
        if (low >= transitions.length) {
            return low;
        }
        return low - 1;
    }

   /**
     * Returns the difference in milliseconds between local time and
     * UTC, taking into account both the raw offset and the effect of
     * daylight savings, for the specified date and time.  This method
     * assumes that the start and end month are distinct.  This method
     * assumes a Gregorian calendar for calculations.
     * <p>
     * <em>Note: In general, clients should use
     * {@link Calendar#ZONE_OFFSET Calendar.get(ZONE_OFFSET)} +
     * {@link Calendar#DST_OFFSET Calendar.get(DST_OFFSET)}
     * instead of calling this method.</em>
     *
     * @param era       The era of the given date. The value must be either
     *                  GregorianCalendar.AD or GregorianCalendar.BC.
     * @param year      The year in the given date.
     * @param month     The month in the given date. Month is 0-based. e.g.,
     *                  0 for January.
     * @param day       The day-in-month of the given date.
     * @param dayOfWeek The day-of-week of the given date.
     * @param millis    The milliseconds in day in <em>standard local time.
     * @return The milliseconds to add to UTC to get local time.
     */
    public int getOffset(int era, int year, int month, int day,
                         int dayOfWeek, int milliseconds) {
        if (milliseconds < 0 || milliseconds >= DAY_IN_MILLIS) {
            throw new IllegalArgumentException();
        }

        if (era == java.util.GregorianCalendar.BC) { // BC
            year = 1 - year;
        } else if (era != java.util.GregorianCalendar.AD) {
            throw new IllegalArgumentException();
        }

        CalendarDate date = gcal.newCalendarDate(null);
        date.setDate(year, month + 1, day);
        if (gcal.validate(date) == false) {
            throw new IllegalArgumentException();
        }

        // bug-for-bug compatible argument checking
        if (dayOfWeek < java.util.GregorianCalendar.SUNDAY
            || dayOfWeek > java.util.GregorianCalendar.SATURDAY) {
            throw new IllegalArgumentException();
        }

        if (transitions == null) {
            return getLastRawOffset();
        }

        long dateInMillis = gcal.getTime(date) + milliseconds;
        dateInMillis -= (long) rawOffset; // make it UTC
        return getOffsets(dateInMillis, null, UTC_TIME);
    }

    /**
     * Sets the base time zone offset from GMT. This operation
     * modifies all the transitions of this ZoneInfoOld object, including
     * historical ones, if applicable.
     *
     * @param offsetMillis the base time zone offset to GMT.
     * @see getRawOffset
     */
    public synchronized void setRawOffset(int offsetMillis) {
        if (offsetMillis == rawOffset + rawOffsetDiff) {
            return;
        }
        rawOffsetDiff = offsetMillis - rawOffset;
        if (lastRule != null) {
            lastRule.setRawOffset(offsetMillis);
        }
        dirty = true;
    }

    /**
     * Returns the GMT offset of the current date. This GMT offset
     * value is not modified during Daylight Saving Time.
     *
     * @return the GMT offset value in milliseconds to add to UTC time
     * to get local standard time
     */
    public int getRawOffset() {
        if (!willGMTOffsetChange) {
            return rawOffset + rawOffsetDiff;
        }

        int[] offsets = new int[2];
        getOffsets(System.currentTimeMillis(), offsets, UTC_TIME);
        return offsets[0];
    }

    public boolean isDirty() {
        return dirty;
    }

    int getLastRawOffset() {
        return rawOffset + rawOffsetDiff;
    }

    /**
     * Queries if this time zone uses Daylight Saving Time in the last known rule.
     */
    public boolean useDaylightTime() {
        return (simpleTimeZoneParams != null);
    }

    @Override
    public boolean observesDaylightTime() {
        if (simpleTimeZoneParams != null) {
            return true;
        }
        if (transitions == null) {
            return false;
        }

        // Look up the transition table to see if it's in DST right
        // now or if there's any standard-to-daylight transition at
        // any future.
        long utc = System.currentTimeMillis() - rawOffsetDiff;
        int index = getTransitionIndex(utc, UTC_TIME);

        // before transitions in the transition table
        if (index < 0) {
            return false;
        }

        // the time is in the table range.
        for (int i = index; i < transitions.length; i++) {
            if ((transitions[i] & DST_MASK) != 0) {
                return true;
            }
        }
        // No further DST is observed.
        return false;
    }

    /**
     * Queries if the specified date is in Daylight Saving Time.
     */
    public boolean inDaylightTime(Date date) {
        if (date == null) {
            throw new NullPointerException();
        }

        if (transitions == null) {
            return false;
        }

        long utc = date.getTime() - rawOffsetDiff;
        int index = getTransitionIndex(utc, UTC_TIME);

        // before transitions in the transition table
        if (index < 0) {
            return false;
        }

        // the time is in the table range.
        if (index < transitions.length) {
            return (transitions[index] & DST_MASK) != 0;
        }

        // beyond the transition table
        SimpleTimeZone tz = getLastRule();
        if (tz != null) {
            return tz.inDaylightTime(date);
        }
        return false;
    }

    /**
     * Returns the amount of time in milliseconds that the clock is advanced
     * during daylight saving time is in effect in its last daylight saving time rule.
     *
     * @return the number of milliseconds the time is advanced with respect to
     * standard time when daylight saving time is in effect.
     */
    public int getDSTSavings() {
        return dstSavings;
    }

//    /**
//     * @return the last year in the transition table or -1 if this
//     * time zone doesn't observe any daylight saving time.
//     */
//    public int getMaxTransitionYear() {
//      if (transitions == null) {
//          return -1;
//      }
//      long val = transitions[transitions.length - 1];
//      int offset = this.offsets[(int)(val & OFFSET_MASK)] + rawOffsetDiff;
//      val = (val >> TRANSITION_NSHIFT) + offset;
//      CalendarDate lastDate = Gregorian.getCalendarDate(val);
//      return lastDate.getYear();
//    }

    /**
     * Returns a string representation of this time zone.
     * @return the string
     */
    public String toString() {
        return getClass().getName() +
            "[id=\"" + getID() + "\"" +
            ",offset=" + getLastRawOffset() +
            ",dstSavings=" + dstSavings +
            ",useDaylight=" + useDaylightTime() +
            ",transitions=" + ((transitions != null) ? transitions.length : 0) +
            ",lastRule=" + (lastRule == null ? getLastRuleInstance() : lastRule) +
            "]";
    }

    /**
     * Gets all available IDs supported in the Java run-time.
     *
     * @return an array of time zone IDs.
     */
    public static String[] getAvailableIDs() {
        List<String> idList = ZoneInfoFile.getZoneIDs();
        List<String> excluded = ZoneInfoFile.getExcludedZones();
        if (excluded != null) {
            // List all zones from the idList and excluded lists
            List<String> list = new ArrayList<>(idList.size() + excluded.size());
            list.addAll(idList);
            list.addAll(excluded);
            idList = list;
        }
        String[] ids = new String[idList.size()];
        return idList.toArray(ids);
    }

    /**
     * Gets all available IDs that have the same value as the
     * specified raw GMT offset.
     *
     * @param rawOffset the GMT offset in milliseconds. This
     * value should not include any daylight saving time.
     *
     * @return an array of time zone IDs.
     */
    public static String[] getAvailableIDs(int rawOffset) {
        String[] result;
        List<String> matched = new ArrayList<>();
        List<String> IDs = ZoneInfoFile.getZoneIDs();
        int[] rawOffsets = ZoneInfoFile.getRawOffsets();

    loop:
        for (int index = 0; index < rawOffsets.length; index++) {
            if (rawOffsets[index] == rawOffset) {
                byte[] indices = ZoneInfoFile.getRawOffsetIndices();
                for (int i = 0; i < indices.length; i++) {
                    if (indices[i] == index) {
                        matched.add(IDs.get(i++));
                        while (i < indices.length && indices[i] == index) {
                            matched.add(IDs.get(i++));
                        }
                        break loop;
                    }
                }
            }
        }

        // We need to add any zones from the excluded zone list that
        // currently have the same GMT offset as the specified
        // rawOffset. The zones returned by this method may not be
        // correct as of return to the caller if any GMT offset
        // transition is happening during this GMT offset checking...
        List<String> excluded = ZoneInfoFile.getExcludedZones();
        if (excluded != null) {
            for (String id : excluded) {
                TimeZone zi = getTimeZone(id);
                if (zi != null && zi.getRawOffset() == rawOffset) {
                    matched.add(id);
                }
            }
        }

        result = new String[matched.size()];
        matched.toArray(result);
        return result;
    }

    /**
     * Gets the ZoneInfoOld for the given ID.
     *
     * @param ID the ID for a ZoneInfoOld. See TimeZone for detail.
     *
     * @return the specified ZoneInfoOld object, or null if there is no
     * time zone of the ID.
     */
    public static TimeZone getTimeZone(String ID) {
        String givenID = null;

        /*
         * If old JDK compatibility is specified, get the old alias
         * name.
         */
        if (USE_OLDMAPPING) {
            String compatibleID = TzIDOldMapping.MAP.get(ID);
            if (compatibleID != null) {
                givenID = ID;
                ID = compatibleID;
            }
        }

        ZoneInfoOld zi = ZoneInfoFile.getZoneInfoOld(ID);
        if (zi == null) {
            // if we can't create an object for the ID, try aliases.
            try {
                Map<String, String> map = getAliasTable();
                String alias = ID;
                while ((alias = map.get(alias)) != null) {
                    zi = ZoneInfoFile.getZoneInfoOld(alias);
                    if (zi != null) {
                        zi.setID(ID);
                        zi = ZoneInfoFile.addToCache(ID, zi);
                        zi = (ZoneInfoOld) zi.clone();
                        break;
                    }
                }
            } catch (Exception e) {
                // ignore exceptions
            }
        }

        if (givenID != null && zi != null) {
            zi.setID(givenID);
        }
        return zi;
    }

    private transient SimpleTimeZone lastRule;

    /**
     * Returns a SimpleTimeZone object representing the last GMT
     * offset and DST schedule or null if this time zone doesn't
     * observe DST.
     */
    synchronized SimpleTimeZone getLastRule() {
        if (lastRule == null) {
            lastRule = getLastRuleInstance();
        }
        return lastRule;
    }

    /**
     * Returns a SimpleTimeZone object that represents the last
     * known daylight saving time rules.
     *
     * @return a SimpleTimeZone object or null if this time zone
     * doesn't observe DST.
     */
    public SimpleTimeZone getLastRuleInstance() {
        if (simpleTimeZoneParams == null) {
            return null;
        }
        if (simpleTimeZoneParams.length == 10) {
            return new SimpleTimeZone(getLastRawOffset(), getID(),
                                      simpleTimeZoneParams[0],
                                      simpleTimeZoneParams[1],
                                      simpleTimeZoneParams[2],
                                      simpleTimeZoneParams[3],
                                      simpleTimeZoneParams[4],
                                      simpleTimeZoneParams[5],
                                      simpleTimeZoneParams[6],
                                      simpleTimeZoneParams[7],
                                      simpleTimeZoneParams[8],
                                      simpleTimeZoneParams[9],
                                      dstSavings);
        }
        return new SimpleTimeZone(getLastRawOffset(), getID(),
                                  simpleTimeZoneParams[0],
                                  simpleTimeZoneParams[1],
                                  simpleTimeZoneParams[2],
                                  simpleTimeZoneParams[3],
                                  simpleTimeZoneParams[4],
                                  simpleTimeZoneParams[5],
                                  simpleTimeZoneParams[6],
                                  simpleTimeZoneParams[7],
                                  dstSavings);
    }

    /**
     * Returns a copy of this <code>ZoneInfoOld.
     */
    public Object clone() {
        ZoneInfoOld zi = (ZoneInfoOld) super.clone();
        zi.lastRule = null;
        return zi;
    }

    /**
     * Returns a hash code value calculated from the GMT offset and
     * transitions.
     * @return a hash code of this time zone
     */
    public int hashCode() {
        return getLastRawOffset() ^ checksum;
    }

    /**
     * Compares the equity of two ZoneInfoOld objects.
     *
     * @param obj the object to be compared with
     * @return true if given object is same as this ZoneInfoOld object,
     * false otherwise.
     */
    public boolean equals(Object obj) {
        if (this == obj) {
            return true;
        }
        if (!(obj instanceof ZoneInfoOld)) {
            return false;
        }
        ZoneInfoOld that = (ZoneInfoOld) obj;
        return (getID().equals(that.getID())
                && (getLastRawOffset() == that.getLastRawOffset())
                && (checksum == that.checksum));
    }

    /**
     * Returns true if this zone has the same raw GMT offset value and
     * transition table as another zone info. If the specified
     * TimeZone object is not a ZoneInfoOld instance, this method returns
     * true if the specified TimeZone object has the same raw GMT
     * offset value with no daylight saving time.
     *
     * @param other the ZoneInfoOld object to be compared with
     * @return true if the given <code>TimeZone has the same
     * GMT offset and transition information; false, otherwise.
     */
    public boolean hasSameRules(TimeZone other) {
        if (this == other) {
            return true;
        }
        if (other == null) {
            return false;
        }
        if (!(other instanceof ZoneInfoOld)) {
            if (getRawOffset() != other.getRawOffset()) {
                return false;
            }
            // if both have the same raw offset and neither observes
            // DST, they have the same rule.
            if ((transitions == null)
                && (useDaylightTime() == false)
                && (other.useDaylightTime() == false)) {
                return true;
            }
            return false;
        }
        if (getLastRawOffset() != ((ZoneInfoOld)other).getLastRawOffset()) {
            return false;
        }
        return (checksum == ((ZoneInfoOld)other).checksum);
    }

    private static SoftReference<Map aliasTable;

    static Map<String, String> getCachedAliasTable() {
        Map<String, String> aliases = null;

        SoftReference<Map cache = aliasTable;
        if (cache != null) {
            aliases = cache.get();
        }
        return aliases;
    }

    /**
     * Returns a Map from alias time zone IDs to their standard
     * time zone IDs.
     *
     * @return the Map that holds the mappings from alias time zone IDs
     *    to their standard time zone IDs, or null if
     *    <code>ZoneInfoOldMappings file is not available.
     */
     public synchronized static Map<String, String> getAliasTable() {
         Map<String, String> aliases = getCachedAliasTable();
         if (aliases == null) {
             aliases = ZoneInfoFile.getZoneAliases();
             if (aliases != null) {
                 if (!USE_OLDMAPPING) {
                     // Remove the conflicting IDs from the alias table.
                     for (String key : conflictingIDs) {
                         aliases.remove(key);
                     }
                 }
                 aliasTable = new SoftReference<Map(aliases);
             }
         }
         return aliases;
     }

    private void readObject(ObjectInputStream stream)
            throws IOException, ClassNotFoundException {
        stream.defaultReadObject();
        // We don't know how this object from 1.4.x or earlier has
        // been mutated. So it should always be marked as `dirty'.
        dirty = true;
    }

    //////////////////////////////////////////////////////////////
    public boolean equalsTo(ZoneInfoOld other) {
        return (getID().equals(other.getID())
                && (getLastRawOffset() == other.getLastRawOffset())
                && (dstSavings == other.dstSavings)
                && (willGMTOffsetChange == other.willGMTOffsetChange)
                && (checksum == other.checksum)
                && equalsTransOffsets(other)
                && (Arrays.equals(simpleTimeZoneParams, other.simpleTimeZoneParams) ||
                    getLastRule().equals(other.getLastRule())));
    }

    private boolean equalsTransOffsets(ZoneInfoOld other) {
        if (transitions == null) {
            return (other.transitions == null &&
                    Arrays.equals(offsets, other.offsets));
        }
        if (other.transitions == null ||
            transitions.length != other.transitions.length) {
            return false;
        }
        // if offsets and other.offsets have different order
        // the last 4-bit in trans are different.
        for (int i = 0; i < transitions.length; i++) {
            long val = transitions[i];
            int dst = (int)((val >>> DST_NSHIFT) & 0xfL);
            int save = (dst == 0) ? 0 : offsets[dst] / 1000;
            int off = offsets[(int)(val & OFFSET_MASK)]/1000;
            long second = (val >> TRANSITION_NSHIFT)/1000;

            val = other.transitions[i];
            int dstO = (int)((val >>> DST_NSHIFT) & 0xfL);
            int saveO = (dstO == 0) ? 0 : other.offsets[dstO] / 1000;
            int offO = other.offsets[(int)(val & OFFSET_MASK)]/1000;
            long secondO = (val >> TRANSITION_NSHIFT)/1000;
            if ((dst == 0) != (dstO == 0) || save != saveO || off != offO || second != secondO)
                return false;
        }
        return true;
    }

    private int transToString(long val, int off_old, int[] offsets, StringBuilder sb) {
        int dst = (int)((val >>> DST_NSHIFT) & 0xfL);
        int save = (dst == 0) ? 0 : offsets[dst] / 1000;
        int off = offsets[(int)(val & OFFSET_MASK)]/1000;
        long second = (val >> TRANSITION_NSHIFT)/1000;
        ZoneOffset offset_old = ZoneOffset.ofTotalSeconds(off_old);
        ZoneOffset offset = ZoneOffset.ofTotalSeconds(off);
        sb.append("          " + LocalDateTime.ofEpochSecond(second, 0, offset_old));

        sb.append("  [utc=" + second +
                  "   raw=" + Long.toHexString(val >> TRANSITION_NSHIFT) +
                  ", offset=" + off + "/" + offset + ", saving=" + save + "]");
        return off;
    }

    public String diffsTo(ZoneInfoOld other) {

        int rawOffset0                = other.rawOffset;
        int checksum0                 = other.checksum;
        int dstSavings0               = other.dstSavings;
        long[] transitions0           = other.transitions;
        int[] offsets0                = other.offsets;
        int[] simpleTimeZoneParams0   = other.simpleTimeZoneParams;
        boolean willGMTOffsetChange0  = other.willGMTOffsetChange;


        //return getClass().getName() +
        StringBuilder sb = new StringBuilder();
        sb.append("******************************\n" +
                  getID() + " : " + other.getID());
        // ROC is excluded by ZoneInfoOld
        if ("ROC".equals(getID())) {
            return sb.toString();
        }
        if (rawOffset != rawOffset0 ||
            dstSavings != dstSavings0 ||
            checksum != checksum0 ||
            willGMTOffsetChange != willGMTOffsetChange0 ||
            (simpleTimeZoneParams != null ) != (simpleTimeZoneParams0 != null) ||
            (transitions != null && transitions0 != null &&
            transitions.length != transitions0.length))
        {
            sb.append("\n    offset=" + getLastRawOffset() +
                  ",dstSavings=" + dstSavings +
                  ",useDaylight=" + useDaylightTime() +
                  ",transitions=" + ((transitions != null) ? transitions.length : 0) +
                  ",offsets=" + ((offsets != null) ? offsets.length : 0) +
                  ",checksum=" + checksum +
                  ",gmtChanged=" + willGMTOffsetChange)
              .append("\n[NG]offset=" + rawOffset0 +
                      ",dstSavings=" + dstSavings0 +
                      ",useDaylight=" + (simpleTimeZoneParams != null) +
                      ",transitions=" + ((transitions0 != null) ? transitions0.length : 0) +
                      ",offsets=" + ((offsets0 != null) ? offsets0.length : 0) +
                      ",checksum=" + checksum0 +
                      ",gmtChanged=" + willGMTOffsetChange0 +
                      "");
        }
        // offsets
        if (!Arrays.equals(offsets, offsets0)) {
            sb.append("\n    offset.len=" + ((offsets != null)? offsets.length : "null") +
                      "    " + ((offsets0 != null)? offsets0.length : "null"));
            if (offsets != null && offsets0.length != 0) {
                int len = Math.min(offsets.length, offsets0.length);
                int i = 0;
                for (i = 0; i < len; i++) {
                    sb.append("\n        " +
                              ZoneOffset.ofTotalSeconds(offsets[i]/1000) + "    " +
                              ZoneOffset.ofTotalSeconds(offsets0[i]/1000));
                }
                for (; i < offsets0.length; i++) {
                    sb.append("\n                  " + ZoneOffset.ofTotalSeconds(offsets0[i]/1000));
                }
            }
        }
        // trans
        int offset = 0;
        int offset0 = 0;
        if (!equalsTransOffsets(other)) {
            sb.append("\n    -------------");
            if ((transitions == null) != (transitions0 == null)) {
                sb.append("\n     (NG) Different trans(null) :" +
                transitions + ", " + transitions0);
                if (transitions != null) {
                    for (int i = 0; i < transitions.length; i++) {
                        sb.append("\n    (NG)");
                        offset = transToString(transitions[i], offset, offsets, sb);
                    }
                }
            } else {
                if (transitions.length != transitions0.length) {
                    sb.append("\n    (NG) Different trans size :" +
                              transitions.length + ", " + transitions0.length);
                }
                int length = Math.min(transitions.length, transitions0.length);
                for (int i = 0; i < length; i++) {
                    // sb.append("\n[" + i + "]    ");
                    // offset = transToString(transitions[i], offset, offsets, sb);
                    long val = transitions[i];
                    int dst = (int)((val >>> DST_NSHIFT) & 0xfL);
                    int save = (dst == 0) ? 0 : offsets[dst] / 1000;
                    int off = offsets[(int)(val & OFFSET_MASK)]/1000;
                    long second = (val >> TRANSITION_NSHIFT)/1000;
                    sb.append("\n        ");
                    offset = transToString(transitions[i], offset, offsets, sb);
                    if (transitions0 == null || i >= transitions0.length) {
                        sb.append("\n    ");
                        offset = transToString(transitions[i], offset, offsets, sb);
                        sb.append("\n     (NG) trans0 is null or < trans.length");
                    } else {
                        long val0 = transitions0[i];
                        int dst0 = (int)((val0 >>> DST_NSHIFT) & 0xfL);
                        int save0 = (dst0 == 0) ? 0 : offsets0[dst0] / 1000;
                        int off0 = offsets0[(int)(val0 & OFFSET_MASK)]/1000;
                        long second0 = (val0 >> TRANSITION_NSHIFT)/1000;
                        if (save != save0 || off != off0 || second != second0) {
                            sb.append("\n    (NG)");
                        } else {
                            sb.append("\n    (OK)");
                        }
                        offset0 = transToString(transitions0[i], offset0, offsets0, sb);
                        sb.append("\n            -----");
                    }
                }
            }
        }
        SimpleTimeZone stz = getLastRuleInstance();
        if (stz != null) {
            SimpleTimeZone stz0 = other.getLastRule();
            if (!stz.hasSameRules(stz0)) {
                sb.append("\n    -------------")
                  .append("\n    SimpleTimeZone (NG)")
                  .append("\n       stz=" + stz)
                  .append("\n      stz0=" + stz0);
            }
        }
        sb.append("\n    -------------");
        return sb.toString();
    }
}

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