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/*
* This file is available under and governed by the GNU General Public
* License version 2 only, as published by the Free Software Foundation.
* However, the following notice accompanied the original version of this
* file:
*
* Copyright (c) 2011-2012, Stephen Colebourne & Michael Nascimento Santos
*
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
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package build.tools.tzdb;
import java.io.DataOutput;
import java.io.IOException;
import java.io.ObjectOutput;
import java.time.LocalDateTime;
import java.time.LocalTime;
import java.time.ZoneOffset;
import java.time.zone.ZoneOffsetTransition;
import java.time.zone.ZoneOffsetTransitionRule;
import java.time.zone.ZoneOffsetTransitionRule.TimeDefinition;
import java.util.Arrays;
import java.util.ArrayList;
import java.util.List;
/**
* Duplicated code of javax.time.zone.ZoneRules, ZoneOffsetTransitionRule
* and Ser to generate the serialization form output of ZoneRules for
* tzdb.jar.
*
* Implementation here is the copy/paste of ZoneRules, ZoneOffsetTransitionRule
* and Ser in javax.time.zone package. Make sure the code here is synchrionozed
* with the serialization implementation there.
*
* @since 1.8
*/
final class ZoneRules {
/**
* The transitions between standard offsets (epoch seconds), sorted.
*/
private final long[] standardTransitions;
/**
* The standard offsets.
*/
private final ZoneOffset[] standardOffsets;
/**
* The transitions between instants (epoch seconds), sorted.
*/
private final long[] savingsInstantTransitions;
/**
* The wall offsets.
*/
private final ZoneOffset[] wallOffsets;
/**
* The last rule.
*/
private final ZoneOffsetTransitionRule[] lastRules;
/**
* Creates an instance.
*
* @param baseStandardOffset the standard offset to use before legal rules were set, not null
* @param baseWallOffset the wall offset to use before legal rules were set, not null
* @param standardOffsetTransitionList the list of changes to the standard offset, not null
* @param transitionList the list of transitions, not null
* @param lastRules the recurring last rules, size 16 or less, not null
*/
ZoneRules(ZoneOffset baseStandardOffset,
ZoneOffset baseWallOffset,
List<ZoneOffsetTransition> standardOffsetTransitionList,
List<ZoneOffsetTransition> transitionList,
List<ZoneOffsetTransitionRule> lastRules) {
this.standardTransitions = new long[standardOffsetTransitionList.size()];
this.standardOffsets = new ZoneOffset[standardOffsetTransitionList.size() + 1];
this.standardOffsets[0] = baseStandardOffset;
for (int i = 0; i < standardOffsetTransitionList.size(); i++) {
this.standardTransitions[i] = standardOffsetTransitionList.get(i).toEpochSecond();
this.standardOffsets[i + 1] = standardOffsetTransitionList.get(i).getOffsetAfter();
}
// convert savings transitions to locals
List<ZoneOffset> localTransitionOffsetList = new ArrayList<>();
localTransitionOffsetList.add(baseWallOffset);
for (ZoneOffsetTransition trans : transitionList) {
localTransitionOffsetList.add(trans.getOffsetAfter());
}
this.wallOffsets = localTransitionOffsetList.toArray(new ZoneOffset[localTransitionOffsetList.size()]);
// convert savings transitions to instants
this.savingsInstantTransitions = new long[transitionList.size()];
for (int i = 0; i < transitionList.size(); i++) {
this.savingsInstantTransitions[i] = transitionList.get(i).toEpochSecond();
}
// last rules
if (lastRules.size() > 16) {
throw new IllegalArgumentException("Too many transition rules");
}
this.lastRules = lastRules.toArray(new ZoneOffsetTransitionRule[lastRules.size()]);
}
/** Type for ZoneRules. */
static final byte ZRULES = 1;
/**
* Writes the state to the stream.
*
* @param out the output stream, not null
* @throws IOException if an error occurs
*/
void writeExternal(DataOutput out) throws IOException {
out.writeByte(ZRULES);
out.writeInt(standardTransitions.length);
for (long trans : standardTransitions) {
writeEpochSec(trans, out);
}
for (ZoneOffset offset : standardOffsets) {
writeOffset(offset, out);
}
out.writeInt(savingsInstantTransitions.length);
for (long trans : savingsInstantTransitions) {
writeEpochSec(trans, out);
}
for (ZoneOffset offset : wallOffsets) {
writeOffset(offset, out);
}
out.writeByte(lastRules.length);
for (ZoneOffsetTransitionRule rule : lastRules) {
writeRule(rule, out);
}
}
/**
* Writes the state the ZoneOffset to the stream.
*
* @param offset the offset, not null
* @param out the output stream, not null
* @throws IOException if an error occurs
*/
static void writeOffset(ZoneOffset offset, DataOutput out) throws IOException {
final int offsetSecs = offset.getTotalSeconds();
int offsetByte = offsetSecs % 900 == 0 ? offsetSecs / 900 : 127; // compress to -72 to +72
out.writeByte(offsetByte);
if (offsetByte == 127) {
out.writeInt(offsetSecs);
}
}
/**
* Writes the epoch seconds to the stream.
*
* @param epochSec the epoch seconds, not null
* @param out the output stream, not null
* @throws IOException if an error occurs
*/
static void writeEpochSec(long epochSec, DataOutput out) throws IOException {
if (epochSec >= -4575744000L && epochSec < 10413792000L && epochSec % 900 == 0) { // quarter hours between 1825 and 2300
int store = (int) ((epochSec + 4575744000L) / 900);
out.writeByte((store >>> 16) & 255);
out.writeByte((store >>> 8) & 255);
out.writeByte(store & 255);
} else {
out.writeByte(255);
out.writeLong(epochSec);
}
}
/**
* Writes the state of the transition rule to the stream.
*
* @param rule the transition rule, not null
* @param out the output stream, not null
* @throws IOException if an error occurs
*/
static void writeRule(ZoneOffsetTransitionRule rule, DataOutput out) throws IOException {
int month = rule.getMonth().getValue();
byte dom = (byte)rule.getDayOfMonthIndicator();
int dow = (rule.getDayOfWeek() == null ? -1 : rule.getDayOfWeek().getValue());
LocalTime time = rule.getLocalTime();
boolean timeEndOfDay = rule.isMidnightEndOfDay();
TimeDefinition timeDefinition = rule.getTimeDefinition();
ZoneOffset standardOffset = rule.getStandardOffset();
ZoneOffset offsetBefore = rule.getOffsetBefore();
ZoneOffset offsetAfter = rule.getOffsetAfter();
int timeSecs = (timeEndOfDay ? 86400 : time.toSecondOfDay());
int stdOffset = standardOffset.getTotalSeconds();
int beforeDiff = offsetBefore.getTotalSeconds() - stdOffset;
int afterDiff = offsetAfter.getTotalSeconds() - stdOffset;
int timeByte = (timeSecs % 3600 == 0 ? (timeEndOfDay ? 24 : time.getHour()) : 31);
int stdOffsetByte = (stdOffset % 900 == 0 ? stdOffset / 900 + 128 : 255);
int beforeByte = (beforeDiff == 0 || beforeDiff == 1800 || beforeDiff == 3600 ? beforeDiff / 1800 : 3);
int afterByte = (afterDiff == 0 || afterDiff == 1800 || afterDiff == 3600 ? afterDiff / 1800 : 3);
int dowByte = (dow == -1 ? 0 : dow);
int b = (month << 28) + // 4 bytes
((dom + 32) << 22) + // 6 bytes
(dowByte << 19) + // 3 bytes
(timeByte << 14) + // 5 bytes
(timeDefinition.ordinal() << 12) + // 2 bytes
(stdOffsetByte << 4) + // 8 bytes
(beforeByte << 2) + // 2 bytes
afterByte; // 2 bytes
out.writeInt(b);
if (timeByte == 31) {
out.writeInt(timeSecs);
}
if (stdOffsetByte == 255) {
out.writeInt(stdOffset);
}
if (beforeByte == 3) {
out.writeInt(offsetBefore.getTotalSeconds());
}
if (afterByte == 3) {
out.writeInt(offsetAfter.getTotalSeconds());
}
}
/**
* Checks if this set of rules equals another.
* <p>
* Two rule sets are equal if they will always result in the same output
* for any given input instant or local date-time.
* Rules from two different groups may return false even if they are in fact the same.
* <p>
* This definition should result in implementations comparing their entire state.
*
* @param otherRules the other rules, null returns false
* @return true if this rules is the same as that specified
*/
@Override
public boolean equals(Object otherRules) {
if (this == otherRules) {
return true;
}
if (otherRules instanceof ZoneRules) {
ZoneRules other = (ZoneRules) otherRules;
return Arrays.equals(standardTransitions, other.standardTransitions) &&
Arrays.equals(standardOffsets, other.standardOffsets) &&
Arrays.equals(savingsInstantTransitions, other.savingsInstantTransitions) &&
Arrays.equals(wallOffsets, other.wallOffsets) &&
Arrays.equals(lastRules, other.lastRules);
}
return false;
}
/**
* Returns a suitable hash code given the definition of {@code #equals}.
*
* @return the hash code
*/
@Override
public int hashCode() {
return Arrays.hashCode(standardTransitions) ^
Arrays.hashCode(standardOffsets) ^
Arrays.hashCode(savingsInstantTransitions) ^
Arrays.hashCode(wallOffsets) ^
Arrays.hashCode(lastRules);
}
}