/*
* Copyright (c) 2009-2010, 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.
*
* * Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* * Neither the name of JSR-310 nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
package javax.time.calendar.zone;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import javax.time.calendar.DateAdjusters;
import javax.time.calendar.DayOfWeek;
import javax.time.calendar.ISOChronology;
import javax.time.calendar.IllegalCalendarFieldValueException;
import javax.time.calendar.LocalDate;
import javax.time.calendar.LocalDateTime;
import javax.time.calendar.LocalTime;
import javax.time.calendar.MonthOfYear;
import javax.time.calendar.OffsetDateTime;
import javax.time.calendar.Year;
import javax.time.calendar.ZoneOffset;
import javax.time.period.Period;
/**
* A mutable builder used to create all the rules for a historic time zone.
* <p>
* The rules of a time zone describe how the offset changes over time.
* The rules are created by building windows on the time-line within which
* the different rules apply. The rules may be one of two kinds:
* <ul>
* <li>Fixed savings - A single fixed amount of savings from the standard offset will apply.</li>
* <li>Rules - A set of one or more rules describe how daylight savings changes during the window.</li>
* </ul>
* <p>
* TransitionRulesBuilder is a mutable class used to create instances of TimeZone.
* It must only be used from a single thread.
* The created TimeZone instances are immutable and thread-safe.
*
* @author Michael Nascimento Santos
* @author Stephen Colebourne
*/
public class ZoneRulesBuilder {
/**
* A serialization identifier for this class.
*/
private static final long serialVersionUID = 9375261659767L;
/**
* The maximum date-time.
*/
private static final LocalDateTime MAX_DATE_TIME = LocalDateTime.of(Year.MAX_YEAR, 12, 31, 23, 59, 59, 999999999);
/**
* The list of windows.
*/
private List<TZWindow> windowList = new ArrayList<TZWindow>();
/**
* A map for deduplicating the output.
*/
private Map<Object, Object> deduplicateMap;
// /**
// * Creates an alias zone that wraps a zone with a different one id.
// *
// * @param zoneId the new zone id, not null
// * @param baseZoneId the base zone id, not null
// * @return the created zone, never null
// */
// public static ZoneRules createAlias(String zoneId, String baseZoneId) {
// checkNotNull(zoneId, "Zone id must not be null");
// checkNotNull(baseZoneId, "Base zone id must not be null");
// return new AliasZone(zoneId, baseZoneId);
// }
/**
* Validates that the input value is not null.
*
* @param object the object to check
* @param errorMessage the error to throw
* @throws NullPointerException if the object is null
*/
private static void checkNotNull(Object object, String errorMessage) {
if (object == null) {
throw new NullPointerException(errorMessage);
}
}
//-----------------------------------------------------------------------
/**
* Constructs an instance of the builder that can be used to create zone rules.
* <p>
* The builder is used by adding one or more windows representing portions
* of the time-line. The standard offset from UTC will be constant within a window,
* although two adjacent windows can have the same standard offset.
* <p>
* Within each window, there can either be a
* {@link #setFixedSavingsToWindow fixed savings amount} or a
* {@link #addRuleToWindow list of rules}.
*/
public ZoneRulesBuilder() {
}
//-----------------------------------------------------------------------
/**
* Adds a window to the builder that can be used to filter a set of rules.
* <p>
* This method defines and adds a window to the zone where the standard offset is specified.
* The window limits the effect of subsequent additions of transition rules
* or fixed savings. If neither rules or fixed savings are added to the window
* then the window will default to no savings.
* <p>
* Each window must be added sequentially, as the start instant of the window
* is derived from the until instant of the previous window.
*
* @param standardOffset the standard offset, not null
* @param until the date-time that the offset applies until, not null
* @param untilDefinition the time type for the until date-time, not null
* @return this, for chaining
* @throws IllegalStateException if the window order is invalid
*/
public ZoneRulesBuilder addWindow(
ZoneOffset standardOffset,
LocalDateTime until,
TimeDefinition untilDefinition) {
checkNotNull(standardOffset, "Standard offset must not be null");
checkNotNull(until, "Until date-time must not be null");
checkNotNull(untilDefinition, "Time definition must not be null");
TZWindow window = new TZWindow(standardOffset, until, untilDefinition);
if (windowList.size() > 0) {
TZWindow previous = windowList.get(windowList.size() - 1);
window.validateWindowOrder(previous);
}
windowList.add(window);
return this;
}
/**
* Adds a window that applies until the end of time to the builder that can be
* used to filter a set of rules.
* <p>
* This method defines and adds a window to the zone where the standard offset is specified.
* The window limits the effect of subsequent additions of transition rules
* or fixed savings. If neither rules or fixed savings are added to the window
* then the window will default to no savings.
* <p>
* This must be added after all other windows.
* No more windows can be added after this one.
*
* @param standardOffset the standard offset, not null
* @return this, for chaining
* @throws IllegalStateException if a forever window has already been added
*/
public ZoneRulesBuilder addWindowForever(
ZoneOffset standardOffset) {
return addWindow(standardOffset, MAX_DATE_TIME, TimeDefinition.WALL);
}
//-----------------------------------------------------------------------
/**
* Sets the previously added window to have fixed savings.
* <p>
* Setting a window to have fixed savings simply means that a single daylight
* savings amount applies throughout the window. The window could be small,
* such as a single summer, or large, such as a multi-year daylight savings.
* <p>
* A window can either have fixed savings or rules but not both.
*
* @param fixedSavingAmount the amount of saving to use for the whole window, not null
* @return this, for chaining
* @throws IllegalStateException if no window has yet been added
* @throws IllegalStateException if the window already has rules
*/
public ZoneRulesBuilder setFixedSavingsToWindow(Period fixedSavingAmount) {
checkNotNull(fixedSavingAmount, "Fixed savings amount must not be null");
if (windowList.isEmpty()) {
throw new IllegalStateException("Must add a window before setting the fixed savings");
}
TZWindow window = windowList.get(windowList.size() - 1);
window.setFixedSavings(fixedSavingAmount);
return this;
}
//-----------------------------------------------------------------------
/**
* Adds a single transition rule to the current window.
* <p>
* This adds a rule such that the offset, expressed as a daylight savings amount,
* changes at the specified date-time.
*
* @param dateTime the date-time that the transition occurs as defined by timeDefintion, not null
* @param timeDefinition the definition of how to convert local to actual time, not null
* @param savingAmount the amount of saving from the standard offset after the transition, not null
* @return this, for chaining
* @throws IllegalStateException if no window has yet been added
* @throws IllegalStateException if the window already has fixed savings
* @throws IllegalStateException if the window has reached the maximum capacity of 2000 rules
*/
public ZoneRulesBuilder addRuleToWindow(
LocalDateTime dateTime,
TimeDefinition timeDefinition,
Period savingAmount) {
checkNotNull(dateTime, "Rule end date-time must not be null");
return addRuleToWindow(
dateTime.getYear(), dateTime.getYear(),
dateTime.getMonthOfYear(), dateTime.getDayOfMonth(),
null, dateTime.toLocalTime(), timeDefinition, savingAmount);
}
/**
* Adds a single transition rule to the current window.
* <p>
* This adds a rule such that the offset, expressed as a daylight savings amount,
* changes at the specified date-time.
*
* @param year the year of the transition, from MIN_YEAR to MAX_YEAR
* @param month the month of the transition, not null
* @param dayOfMonth the day-of-month of the transition, from 1 to 31, or -1 for the last day-of-month
* @param time the time that the transition occurs as defined by timeDefintion, not null
* @param timeDefinition the definition of how to convert local to actual time, not null
* @param savingAmount the amount of saving from the standard offset after the transition, not null
* @return this, for chaining
* @throws IllegalCalendarFieldValueException if a date-time field is out of range
* @throws IllegalStateException if no window has yet been added
* @throws IllegalStateException if the window already has fixed savings
* @throws IllegalStateException if the window has reached the maximum capacity of 2000 rules
*/
public ZoneRulesBuilder addRuleToWindow(
int year,
MonthOfYear month,
int dayOfMonth,
LocalTime time,
TimeDefinition timeDefinition,
Period savingAmount) {
return addRuleToWindow(year, year, month, dayOfMonth, null, time, timeDefinition, savingAmount);
}
/**
* Adds a multi-year transition rule to the current window.
* <p>
* This adds a rule such that the offset, expressed as a daylight savings amount,
* changes at the specified date-time for each year in the range.
*
* @param startYear the start year of the rule, from MIN_YEAR to MAX_YEAR
* @param endYear the end year of the rule, from MIN_YEAR to MAX_YEAR
* @param month the month of the transition, not null
* @param dayOfMonth the day-of-month of the transition, adjusted by dayOfWeek,
* from 1 to 31 adjusted later, or -1 adjusted earlier from the last day of the month
* @param dayOfWeek the day-of-week to adjust to, null if day-of-month should not be adjusted
* @param time the time that the transition occurs as defined by timeDefintion, not null
* @param timeDefinition the definition of how to convert local to actual time, not null
* @param savingAmount the amount of saving from the standard offset after the transition, not null
* @return this, for chaining
* @throws IllegalCalendarFieldValueException if a date-time field is out of range
* @throws IllegalStateException if no window has yet been added
* @throws IllegalStateException if the window already has fixed savings
* @throws IllegalStateException if the window has reached the maximum capacity of 2000 rules
*/
public ZoneRulesBuilder addRuleToWindow(
int startYear,
int endYear,
MonthOfYear month,
int dayOfMonth,
DayOfWeek dayOfWeek,
LocalTime time,
TimeDefinition timeDefinition,
Period savingAmount) {
checkNotNull(month, "Rule end month must not be null");
checkNotNull(time, "Rule end time must not be null");
checkNotNull(timeDefinition, "Time definition must not be null");
checkNotNull(savingAmount, "Savings amount must not be null");
ISOChronology.yearRule().checkValue(startYear);
ISOChronology.yearRule().checkValue(endYear);
if (dayOfMonth != -1) {
ISOChronology.dayOfMonthRule().checkValue(dayOfMonth);
}
if (windowList.isEmpty()) {
throw new IllegalStateException("Must add a window before adding a rule");
}
TZWindow window = windowList.get(windowList.size() - 1);
window.addRule(startYear, endYear, month, dayOfMonth, dayOfWeek, time, timeDefinition, savingAmount);
return this;
}
//-----------------------------------------------------------------------
/**
* Completes the build converting the builder to a set of time zone rules.
*
* @param id the time zone id, not null
* @return the zone rules, never null
* @throws IllegalStateException if no windows have been added
* @throws IllegalStateException if there is only one rule defined as being forever for any given window
*/
public ZoneRules toRules(String id) {
return toRules(id, new HashMap<Object, Object>());
}
/**
* Completes the build converting the builder to a set of time zone rules.
*
* @param id the time zone id, not null
* @param deduplicateMap a map for deduplicating the values, not null
* @return the zone rules, never null
* @throws IllegalStateException if no windows have been added
* @throws IllegalStateException if there is only one rule defined as being forever for any given window
*/
ZoneRules toRules(String id, Map<Object, Object> deduplicateMap) {
checkNotNull(id, "Time zone id must not be null");
if (windowList.isEmpty()) {
throw new IllegalStateException("No windows have been added to the builder");
}
this.deduplicateMap = deduplicateMap;
List<OffsetDateTime> standardOffsetList = new ArrayList<OffsetDateTime>(4);
List<ZoneOffsetTransition> transitionList = new ArrayList<ZoneOffsetTransition>(256);
List<ZoneOffsetTransitionRule> lastTransitionRuleList = new ArrayList<ZoneOffsetTransitionRule>(2);
// initialize the standard offset calculation
TZWindow firstWindow = windowList.get(0);
ZoneOffset standardOffset = firstWindow.standardOffset;
Period savings = Period.ZERO;
if (firstWindow.fixedSavingAmount != null) {
savings = firstWindow.fixedSavingAmount;
}
ZoneOffset firstWallOffset = deduplicate(standardOffset.plus(savings));
OffsetDateTime windowStart = deduplicate(OffsetDateTime.of(Year.MIN_YEAR, 1, 1, 0, 0, firstWallOffset));
// build the windows and rules to interesting data
for (TZWindow window : windowList) {
// tidy the state
window.tidy(windowStart.getYear());
// calculate effective savings at the start of the window
Period effectiveSavings = window.fixedSavingAmount;
if (effectiveSavings == null) {
// apply rules from this window together with the standard offset and
// savings from the last window to find the savings amount applicable
// at start of this window
effectiveSavings = Period.ZERO;
for (TZRule rule : window.ruleList) {
ZoneOffsetTransition trans = rule.toTransition(standardOffset, savings);
if (trans.getDateTime().isAfter(windowStart)) {
// previous savings amount found, which could be the savings amount at
// the instant that the window starts (hence isAfter)
break;
}
effectiveSavings = rule.savingAmount;
}
}
// check if standard offset changed, and update it
if (standardOffset.equals(window.standardOffset) == false) {
standardOffset = deduplicate(window.standardOffset);
standardOffsetList.add(deduplicate(windowStart.withOffsetSameInstant(standardOffset)));
}
// check if the start of the window represents a transition
ZoneOffset effectiveWallOffset = deduplicate(standardOffset.plus(effectiveSavings));
if (windowStart.getOffset().equals(effectiveWallOffset) == false) {
ZoneOffsetTransition trans = new ZoneOffsetTransition(windowStart, effectiveWallOffset);
transitionList.add(trans);
}
savings = effectiveSavings;
// apply rules within the window
for (TZRule rule : window.ruleList) {
ZoneOffsetTransition trans = rule.toTransition(standardOffset, savings);
if (trans.getDateTime().isBefore(windowStart) == false &&
trans.getDateTime().isBefore(window.createDateTime(savings)) &&
trans.getOffsetBefore().equals(trans.getOffsetAfter()) == false) {
transitionList.add(trans);
savings = rule.savingAmount;
}
}
// calculate last rules
for (TZRule lastRule : window.lastRuleList) {
ZoneOffsetTransitionRule transitionRule = lastRule.toTransitionRule(standardOffset, savings);
lastTransitionRuleList.add(transitionRule);
savings = lastRule.savingAmount;
}
// finally we can calculate the true end of the window, passing it to the next window
windowStart = deduplicate(window.createDateTime(savings));
}
return new StandardZoneRules(
firstWindow.standardOffset, firstWallOffset, standardOffsetList,
transitionList, lastTransitionRuleList);
}
/**
* Deduplicates an object instance.
*
* @param <T> the generic type
* @param object the object to deduplicate
* @return the deduplicated object
*/
@SuppressWarnings("unchecked")
<T> T deduplicate(T object) {
if (deduplicateMap.containsKey(object) == false) {
deduplicateMap.put(object, object);
}
return (T) deduplicateMap.get(object);
}
//-----------------------------------------------------------------------
/**
* A definition of the way a local time can be converted to an offset time.
* <p>
* Time zone rules are expressed in one of three ways:
* <ul>
* <li>Relative to UTC</li>
* <li>Relative to the standard offset in force</li>
* <li>Relative to the wall offset (what you would see on a clock on the wall)</li>
* </ul>
*/
public static enum TimeDefinition {
/** The local date-time is expressed in terms of the UTC offset. */
UTC,
/** The local date-time is expressed in terms of the wall offset. */
WALL,
/** The local date-time is expressed in terms of the standard offset. */
STANDARD;
/**
* Creates the offset date-time from the specified local date-time.
* <p>
* This method converts a local date-time to an offset date-time using an
* algorithm based on the definition type.
* The UTC type builds the offset date-time using the UTC offset.
* The STANDARD type builds the offset date-time using the standard offset.
* The WALL type builds the offset date-time using the wall offset.
* The result always uses the wall-offset, thus a conversion may occur.
*
* @param dateTime the local date-time, not null
* @param standardOffset the standard offset, not null
* @param wallOffset the wall offset, not null
* @return the created offset date-time in the wall offset, never null
*/
public OffsetDateTime createDateTime(LocalDateTime dateTime, ZoneOffset standardOffset, ZoneOffset wallOffset) {
switch (this) {
case UTC:
return OffsetDateTime.from(dateTime, ZoneOffset.UTC).withOffsetSameInstant(wallOffset);
case STANDARD:
return OffsetDateTime.from(dateTime, standardOffset).withOffsetSameInstant(wallOffset);
default: // WALL
return OffsetDateTime.from(dateTime, wallOffset);
}
}
}
//-----------------------------------------------------------------------
/**
* A definition of a window in the time-line.
* The window will have one standard offset and will either have a
* fixed DST savings or a set of rules.
*/
class TZWindow {
/** The standard offset during the window. */
private final ZoneOffset standardOffset;
/** The end local time. */
private final LocalDateTime windowEnd;
/** The type of the end time. */
private final TimeDefinition timeDefinition;
/** The fixed amount of the saving to be applied during this window. */
private Period fixedSavingAmount;
/** The rules for the current window. */
private List<TZRule> ruleList = new ArrayList<TZRule>();
/** The latest year that the last year starts at. */
private int maxLastRuleStartYear = Year.MIN_YEAR;
/** The last rules. */
private List<TZRule> lastRuleList = new ArrayList<TZRule>();
/**
* Constructor.
*
* @param standardOffset the standard offset applicable during the window, not null
* @param windowEnd the end of the window, relative to the time definition, null if forever
* @param timeDefinition the time definition for calculating the true end, not null
*/
TZWindow(
ZoneOffset standardOffset,
LocalDateTime windowEnd,
TimeDefinition timeDefinition) {
super();
this.windowEnd = windowEnd;
this.timeDefinition = timeDefinition;
this.standardOffset = standardOffset;
}
/**
* Sets the fixed savings amount for the window.
*
* @param fixedSavingAmount the amount of daylight saving to apply throughout the window, may be null
* @throws IllegalStateException if the window already has rules
*/
void setFixedSavings(Period fixedSavingAmount) {
if (ruleList.size() > 0 || lastRuleList.size() > 0) {
throw new IllegalStateException("Window has DST rules, so cannot have fixed savings");
}
this.fixedSavingAmount = fixedSavingAmount;
}
/**
* Adds a rule to the current window.
*
* @param startYear the start year of the rule, from MIN_YEAR to MAX_YEAR
* @param endYear the end year of the rule, from MIN_YEAR to MAX_YEAR
* @param month the month of the transition, not null
* @param dayOfMonth the day-of-month of the transition, adjusted by dayOfWeek,
* from 1 to 31 adjusted later, or -1 adjusted earlier from the last day of the month
* @param dayOfWeek the day-of-week to adjust to, null if day-of-month should not be adjusted
* @param time the time that the transition occurs as defined by timeDefintion, not null
* @param timeDefinition the definition of how to convert local to actual time, not null
* @param savingAmount the amount of saving from the standard offset, not null
* @throws IllegalStateException if the window already has fixed savings
* @throws IllegalStateException if the window has reached the maximum capacity of 2000 rules
*/
void addRule(
int startYear,
int endYear,
MonthOfYear month,
int dayOfMonth,
DayOfWeek dayOfWeek,
LocalTime time,
TimeDefinition timeDefinition,
Period savingAmount) {
if (fixedSavingAmount != null) {
throw new IllegalStateException("Window has a fixed DST saving, so cannot have DST rules");
}
if (ruleList.size() >= 2000) {
throw new IllegalStateException("Window has reached the maximum number of allowed rules");
}
boolean lastRule = false;
if (endYear == Year.MAX_YEAR) {
lastRule = true;
endYear = startYear;
}
int year = startYear;
while (year <= endYear) {
TZRule rule = new TZRule(year, month, dayOfMonth, dayOfWeek, time, timeDefinition, savingAmount);
if (lastRule) {
lastRuleList.add(rule);
maxLastRuleStartYear = Math.max(startYear, maxLastRuleStartYear);
} else {
ruleList.add(rule);
}
year++;
}
}
/**
* Validates that this window is after the previous one.
*
* @param previous the previous window, not null
* @throws IllegalStateException if the window order is invalid
*/
void validateWindowOrder(TZWindow previous) {
if (windowEnd.isBefore(previous.windowEnd)) {
throw new IllegalStateException("Windows must be added in date-time order: " +
windowEnd + " < " + previous.windowEnd);
}
}
/**
* Adds rules to make the last rules all start from the same year.
* Also add one more year to avoid weird case where penultimate year has odd offset.
*
* @param windowStartYear the window start year
* @throws IllegalStateException if there is only one rule defined as being forever
*/
void tidy(int windowStartYear) {
if (lastRuleList.size() == 1) {
throw new IllegalStateException("Cannot have only one rule defined as being forever");
}
// handle last rules
if (windowEnd.equals(MAX_DATE_TIME)) {
// setup at least one real rule, which closes off other windows nicely
maxLastRuleStartYear = Math.max(maxLastRuleStartYear, windowStartYear) + 1;
for (TZRule lastRule : lastRuleList) {
addRule(lastRule.year, maxLastRuleStartYear, lastRule.month, lastRule.dayOfMonth,
lastRule.dayOfWeek, lastRule.time, lastRule.timeDefinition, lastRule.savingAmount);
lastRule.year = maxLastRuleStartYear + 1;
}
if (maxLastRuleStartYear == Year.MAX_YEAR) {
lastRuleList.clear();
} else {
maxLastRuleStartYear++;
}
} else {
// convert all within the endYear limit
int endYear = windowEnd.getYear();
for (TZRule lastRule : lastRuleList) {
addRule(lastRule.year, endYear + 1, lastRule.month, lastRule.dayOfMonth,
lastRule.dayOfWeek, lastRule.time, lastRule.timeDefinition, lastRule.savingAmount);
}
lastRuleList.clear();
maxLastRuleStartYear = Year.MAX_YEAR;
}
// ensure lists are sorted
Collections.sort(ruleList);
Collections.sort(lastRuleList);
// default fixed savings to zero
if (ruleList.size() == 0 && fixedSavingAmount == null) {
fixedSavingAmount = Period.ZERO;
}
}
/**
* Creates the offset date-time for the local date-time at the end of the window.
*
* @param savings the amount of savings in use, not null
* @return the created offset date-time in the wall offset, never null
*/
OffsetDateTime createDateTime(Period savings) {
ZoneOffset wallOffset = standardOffset.plus(savings);
return timeDefinition.createDateTime(windowEnd, standardOffset, wallOffset);
}
}
//-----------------------------------------------------------------------
/**
* A definition of the way a local time can be converted to an offset time.
*/
class TZRule implements Comparable<TZRule> {
/** The year. */
private int year;
/** The month. */
private final MonthOfYear month;
/** The day-of-month. */
private final int dayOfMonth;
/** The day-of-month. */
private final DayOfWeek dayOfWeek;
/** The local time. */
private final LocalTime time;
/** The type of the time. */
private final TimeDefinition timeDefinition;
/** The amount of the saving to be applied after this point. */
private final Period savingAmount;
/**
* Constructor.
*
* @param year the year
* @param month the month, not null
* @param dayOfMonth the day-of-month
* @param dayOfWeek the day-of-week, null if day-of-month is exact
* @param time the time, not null
* @param timeDefinition the time definition, not null
* @param savingAfter the savings amount, not null
*/
TZRule(int year, MonthOfYear month, int dayOfMonth,
DayOfWeek dayOfWeek, LocalTime time,
TimeDefinition timeDefinition, Period savingAfter) {
super();
this.year = year;
this.month = month;
this.dayOfMonth = dayOfMonth;
this.dayOfWeek = dayOfWeek;
this.time = time;
this.timeDefinition = timeDefinition;
this.savingAmount = savingAfter;
}
/**
* Converts this to a transition.
*
* @param standardOffset the active standard offset, not null
* @param savingsBefore the active savings, not null
* @return the transition, never null
*/
ZoneOffsetTransition toTransition(ZoneOffset standardOffset, Period savingsBefore) {
ZoneOffset offsetAfter = standardOffset.plus(savingAmount);
LocalDate date;
if (dayOfMonth == -1) {
date = LocalDate.of(year, month, month.getLastDayOfMonth(ISOChronology.isLeapYear(year)));
if (dayOfWeek != null) {
date = date.with(DateAdjusters.previousOrCurrent(dayOfWeek));
}
} else {
date = LocalDate.of(year, month, dayOfMonth);
if (dayOfWeek != null) {
date = date.with(DateAdjusters.nextOrCurrent(dayOfWeek));
}
}
date = deduplicate(date);
LocalDateTime ldt = deduplicate(LocalDateTime.from(date, time));
ZoneOffset wallOffset = deduplicate(standardOffset.plus(savingsBefore));
OffsetDateTime dt = deduplicate(timeDefinition.createDateTime(ldt, standardOffset, wallOffset));
return new ZoneOffsetTransition(dt, offsetAfter);
}
/**
* Converts this to a transition rule.
*
* @param standardOffset the active standard offset, not null
* @param savingsBefore the active savings before the transition, not null
* @return the transition, never null
*/
ZoneOffsetTransitionRule toTransitionRule(ZoneOffset standardOffset, Period savingsBefore) {
// optimize stored format
int dom;
if (dayOfMonth == -1) {
if (month == MonthOfYear.FEBRUARY) {
dom = -1;
} else {
dom = month.maxLengthInDays() - 6;
}
} else {
dom = dayOfMonth;
}
// build rule
ZoneOffsetTransition trans = toTransition(standardOffset, savingsBefore);
return new ZoneOffsetTransitionRule(
month, dom, dayOfWeek, time, timeDefinition,
standardOffset, trans.getOffsetBefore(), trans.getOffsetAfter());
}
/** {@inheritDoc}. */
public int compareTo(TZRule other) {
int cmp = year - other.year;
cmp = (cmp == 0 ? month.compareTo(other.month) : cmp);
cmp = (cmp == 0 ? dayOfMonth - other.dayOfMonth : cmp);
cmp = (cmp == 0 ? time.compareTo(other.time) : cmp);
return cmp;
}
}
// //-----------------------------------------------------------------------
// /**
// * An alias for a time zone, allowing it to be referred to using a different ID.
// */
// static class AliasZone extends ZoneRules {
// /**
// * A serialization identifier for this class.
// */
// private static final long serialVersionUID = 93618758758127L;
// /**
// * The time zone being aliased.
// */
// private final String baseZoneId;
//
// /**
// * Constructor.
// *
// * @param id the time zone id, not null
// * @param baseZoneId the id of the base zone, not null
// */
// AliasZone(String id, String baseZoneId) {
// super(id);
// this.baseZoneId = baseZoneId;
// }
//
// /** {@inheritDoc}. */
// @Override
// public ZoneOffset getOffset(InstantProvider instantProvider) {
// return TimeZone.timeZone(baseZoneId).getOffset(instantProvider);
// }
//
// /** {@inheritDoc}. */
// @Override
// public OffsetInfo getOffsetInfo(LocalDateTime dateTime) {
// return TimeZone.timeZone(baseZoneId).getOffsetInfo(dateTime);
// }
//
// /** {@inheritDoc}. */
// @Override
// public ZoneOffset getStandardOffset(InstantProvider instantProvider) {
// return TimeZone.timeZone(baseZoneId).getStandardOffset(instantProvider);
// }
// }
}