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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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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) 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.
*
* * Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
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*
* * 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
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
package java.time.chrono;
import static java.time.temporal.ChronoField.ALIGNED_DAY_OF_WEEK_IN_MONTH;
import static java.time.temporal.ChronoField.ALIGNED_DAY_OF_WEEK_IN_YEAR;
import static java.time.temporal.ChronoField.ALIGNED_WEEK_OF_MONTH;
import static java.time.temporal.ChronoField.ALIGNED_WEEK_OF_YEAR;
import static java.time.temporal.ChronoField.DAY_OF_MONTH;
import static java.time.temporal.ChronoField.DAY_OF_WEEK;
import static java.time.temporal.ChronoField.DAY_OF_YEAR;
import static java.time.temporal.ChronoField.EPOCH_DAY;
import static java.time.temporal.ChronoField.ERA;
import static java.time.temporal.ChronoField.MONTH_OF_YEAR;
import static java.time.temporal.ChronoField.PROLEPTIC_MONTH;
import static java.time.temporal.ChronoField.YEAR;
import static java.time.temporal.ChronoField.YEAR_OF_ERA;
import static java.time.temporal.ChronoUnit.DAYS;
import static java.time.temporal.ChronoUnit.MONTHS;
import static java.time.temporal.ChronoUnit.WEEKS;
import static java.time.temporal.TemporalAdjusters.nextOrSame;
import java.io.DataInput;
import java.io.DataOutput;
import java.io.IOException;
import java.io.InvalidObjectException;
import java.io.ObjectInputStream;
import java.io.ObjectStreamException;
import java.io.Serializable;
import java.time.DateTimeException;
import java.time.DayOfWeek;
import java.time.format.ResolverStyle;
import java.time.temporal.ChronoField;
import java.time.temporal.TemporalAdjusters;
import java.time.temporal.TemporalField;
import java.time.temporal.ValueRange;
import java.util.Comparator;
import java.util.HashSet;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Objects;
import java.util.ServiceLoader;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import sun.util.logging.PlatformLogger;
/**
* An abstract implementation of a calendar system, used to organize and identify dates.
* <p>
* The main date and time API is built on the ISO calendar system.
* The chronology operates behind the scenes to represent the general concept of a calendar system.
* <p>
* See {@link Chronology} for more details.
*
* @implSpec
* This class is separated from the {@code Chronology} interface so that the static methods
* are not inherited. While {@code Chronology} can be implemented directly, it is strongly
* recommended to extend this abstract class instead.
* <p>
* This class must be implemented with care to ensure other classes operate correctly.
* All implementations that can be instantiated must be final, immutable and thread-safe.
* Subclasses should be Serializable wherever possible.
*
* @since 1.8
*/
public abstract class AbstractChronology implements Chronology {
/**
* ChronoLocalDate order constant.
*/
static final Comparator<ChronoLocalDate> DATE_ORDER =
(Comparator<ChronoLocalDate> & Serializable) (date1, date2) -> {
return Long.compare(date1.toEpochDay(), date2.toEpochDay());
};
/**
* ChronoLocalDateTime order constant.
*/
static final Comparator<ChronoLocalDateTime<? extends ChronoLocalDate>> DATE_TIME_ORDER =
(Comparator<ChronoLocalDateTime<? extends ChronoLocalDate>> & Serializable) (dateTime1, dateTime2) -> {
int cmp = Long.compare(dateTime1.toLocalDate().toEpochDay(), dateTime2.toLocalDate().toEpochDay());
if (cmp == 0) {
cmp = Long.compare(dateTime1.toLocalTime().toNanoOfDay(), dateTime2.toLocalTime().toNanoOfDay());
}
return cmp;
};
/**
* ChronoZonedDateTime order constant.
*/
static final Comparator<ChronoZonedDateTime<?>> INSTANT_ORDER =
(Comparator<ChronoZonedDateTime<?>> & Serializable) (dateTime1, dateTime2) -> {
int cmp = Long.compare(dateTime1.toEpochSecond(), dateTime2.toEpochSecond());
if (cmp == 0) {
cmp = Long.compare(dateTime1.toLocalTime().getNano(), dateTime2.toLocalTime().getNano());
}
return cmp;
};
/**
* Map of available calendars by ID.
*/
private static final ConcurrentHashMap<String, Chronology> CHRONOS_BY_ID = new ConcurrentHashMap<>();
/**
* Map of available calendars by calendar type.
*/
private static final ConcurrentHashMap<String, Chronology> CHRONOS_BY_TYPE = new ConcurrentHashMap<>();
/**
* Register a Chronology by its ID and type for lookup by {@link #of(String)}.
* Chronologies must not be registered until they are completely constructed.
* Specifically, not in the constructor of Chronology.
*
* @param chrono the chronology to register; not null
* @return the already registered Chronology if any, may be null
*/
static Chronology registerChrono(Chronology chrono) {
return registerChrono(chrono, chrono.getId());
}
/**
* Register a Chronology by ID and type for lookup by {@link #of(String)}.
* Chronos must not be registered until they are completely constructed.
* Specifically, not in the constructor of Chronology.
*
* @param chrono the chronology to register; not null
* @param id the ID to register the chronology; not null
* @return the already registered Chronology if any, may be null
*/
static Chronology registerChrono(Chronology chrono, String id) {
Chronology prev = CHRONOS_BY_ID.putIfAbsent(id, chrono);
if (prev == null) {
String type = chrono.getCalendarType();
if (type != null) {
CHRONOS_BY_TYPE.putIfAbsent(type, chrono);
}
}
return prev;
}
/**
* Initialization of the maps from id and type to Chronology.
* The ServiceLoader is used to find and register any implementations
* of {@link java.time.chrono.AbstractChronology} found in the bootclass loader.
* The built-in chronologies are registered explicitly.
* Calendars configured via the Thread's context classloader are local
* to that thread and are ignored.
* <p>
* The initialization is done only once using the registration
* of the IsoChronology as the test and the final step.
* Multiple threads may perform the initialization concurrently.
* Only the first registration of each Chronology is retained by the
* ConcurrentHashMap.
* @return true if the cache was initialized
*/
private static boolean initCache() {
if (CHRONOS_BY_ID.get("ISO") == null) {
// Initialization is incomplete
// Register built-in Chronologies
registerChrono(HijrahChronology.INSTANCE);
registerChrono(JapaneseChronology.INSTANCE);
registerChrono(MinguoChronology.INSTANCE);
registerChrono(ThaiBuddhistChronology.INSTANCE);
// Register Chronologies from the ServiceLoader
@SuppressWarnings("rawtypes")
ServiceLoader<AbstractChronology> loader = ServiceLoader.load(AbstractChronology.class, null);
for (AbstractChronology chrono : loader) {
String id = chrono.getId();
if (id.equals("ISO") || registerChrono(chrono) != null) {
// Log the attempt to replace an existing Chronology
PlatformLogger logger = PlatformLogger.getLogger("java.time.chrono");
logger.warning("Ignoring duplicate Chronology, from ServiceLoader configuration " + id);
}
}
// finally, register IsoChronology to mark initialization is complete
registerChrono(IsoChronology.INSTANCE);
return true;
}
return false;
}
//-----------------------------------------------------------------------
/**
* Obtains an instance of {@code Chronology} from a locale.
* <p>
* See {@link Chronology#ofLocale(Locale)}.
*
* @param locale the locale to use to obtain the calendar system, not null
* @return the calendar system associated with the locale, not null
* @throws java.time.DateTimeException if the locale-specified calendar cannot be found
*/
static Chronology ofLocale(Locale locale) {
Objects.requireNonNull(locale, "locale");
String type = locale.getUnicodeLocaleType("ca");
if (type == null || "iso".equals(type) || "iso8601".equals(type)) {
return IsoChronology.INSTANCE;
}
// Not pre-defined; lookup by the type
do {
Chronology chrono = CHRONOS_BY_TYPE.get(type);
if (chrono != null) {
return chrono;
}
// If not found, do the initialization (once) and repeat the lookup
} while (initCache());
// Look for a Chronology using ServiceLoader of the Thread's ContextClassLoader
// Application provided Chronologies must not be cached
@SuppressWarnings("rawtypes")
ServiceLoader<Chronology> loader = ServiceLoader.load(Chronology.class);
for (Chronology chrono : loader) {
if (type.equals(chrono.getCalendarType())) {
return chrono;
}
}
throw new DateTimeException("Unknown calendar system: " + type);
}
//-----------------------------------------------------------------------
/**
* Obtains an instance of {@code Chronology} from a chronology ID or
* calendar system type.
* <p>
* See {@link Chronology#of(String)}.
*
* @param id the chronology ID or calendar system type, not null
* @return the chronology with the identifier requested, not null
* @throws java.time.DateTimeException if the chronology cannot be found
*/
static Chronology of(String id) {
Objects.requireNonNull(id, "id");
do {
Chronology chrono = of0(id);
if (chrono != null) {
return chrono;
}
// If not found, do the initialization (once) and repeat the lookup
} while (initCache());
// Look for a Chronology using ServiceLoader of the Thread's ContextClassLoader
// Application provided Chronologies must not be cached
@SuppressWarnings("rawtypes")
ServiceLoader<Chronology> loader = ServiceLoader.load(Chronology.class);
for (Chronology chrono : loader) {
if (id.equals(chrono.getId()) || id.equals(chrono.getCalendarType())) {
return chrono;
}
}
throw new DateTimeException("Unknown chronology: " + id);
}
/**
* Obtains an instance of {@code Chronology} from a chronology ID or
* calendar system type.
*
* @param id the chronology ID or calendar system type, not null
* @return the chronology with the identifier requested, or {@code null} if not found
*/
private static Chronology of0(String id) {
Chronology chrono = CHRONOS_BY_ID.get(id);
if (chrono == null) {
chrono = CHRONOS_BY_TYPE.get(id);
}
return chrono;
}
/**
* Returns the available chronologies.
* <p>
* Each returned {@code Chronology} is available for use in the system.
* The set of chronologies includes the system chronologies and
* any chronologies provided by the application via ServiceLoader
* configuration.
*
* @return the independent, modifiable set of the available chronology IDs, not null
*/
static Set<Chronology> getAvailableChronologies() {
initCache(); // force initialization
HashSet<Chronology> chronos = new HashSet<>(CHRONOS_BY_ID.values());
/// Add in Chronologies from the ServiceLoader configuration
@SuppressWarnings("rawtypes")
ServiceLoader<Chronology> loader = ServiceLoader.load(Chronology.class);
for (Chronology chrono : loader) {
chronos.add(chrono);
}
return chronos;
}
//-----------------------------------------------------------------------
/**
* Creates an instance.
*/
protected AbstractChronology() {
}
//-----------------------------------------------------------------------
/**
* Resolves parsed {@code ChronoField} values into a date during parsing.
* <p>
* Most {@code TemporalField} implementations are resolved using the
* resolve method on the field. By contrast, the {@code ChronoField} class
* defines fields that only have meaning relative to the chronology.
* As such, {@code ChronoField} date fields are resolved here in the
* context of a specific chronology.
* <p>
* {@code ChronoField} instances are resolved by this method, which may
* be overridden in subclasses.
* <ul>
* <li>{@code EPOCH_DAY} - If present, this is converted to a date and
* all other date fields are then cross-checked against the date.
* <li>{@code PROLEPTIC_MONTH} - If present, then it is split into the
* {@code YEAR} and {@code MONTH_OF_YEAR}. If the mode is strict or smart
* then the field is validated.
* <li>{@code YEAR_OF_ERA} and {@code ERA} - If both are present, then they
* are combined to form a {@code YEAR}. In lenient mode, the {@code YEAR_OF_ERA}
* range is not validated, in smart and strict mode it is. The {@code ERA} is
* validated for range in all three modes. If only the {@code YEAR_OF_ERA} is
* present, and the mode is smart or lenient, then the last available era
* is assumed. In strict mode, no era is assumed and the {@code YEAR_OF_ERA} is
* left untouched. If only the {@code ERA} is present, then it is left untouched.
* <li>{@code YEAR}, {@code MONTH_OF_YEAR} and {@code DAY_OF_MONTH} -
* If all three are present, then they are combined to form a date.
* In all three modes, the {@code YEAR} is validated.
* If the mode is smart or strict, then the month and day are validated.
* If the mode is lenient, then the date is combined in a manner equivalent to
* creating a date on the first day of the first month in the requested year,
* then adding the difference in months, then the difference in days.
* If the mode is smart, and the day-of-month is greater than the maximum for
* the year-month, then the day-of-month is adjusted to the last day-of-month.
* If the mode is strict, then the three fields must form a valid date.
* <li>{@code YEAR} and {@code DAY_OF_YEAR} -
* If both are present, then they are combined to form a date.
* In all three modes, the {@code YEAR} is validated.
* If the mode is lenient, then the date is combined in a manner equivalent to
* creating a date on the first day of the requested year, then adding
* the difference in days.
* If the mode is smart or strict, then the two fields must form a valid date.
* <li>{@code YEAR}, {@code MONTH_OF_YEAR}, {@code ALIGNED_WEEK_OF_MONTH} and
* {@code ALIGNED_DAY_OF_WEEK_IN_MONTH} -
* If all four are present, then they are combined to form a date.
* In all three modes, the {@code YEAR} is validated.
* If the mode is lenient, then the date is combined in a manner equivalent to
* creating a date on the first day of the first month in the requested year, then adding
* the difference in months, then the difference in weeks, then in days.
* If the mode is smart or strict, then the all four fields are validated to
* their outer ranges. The date is then combined in a manner equivalent to
* creating a date on the first day of the requested year and month, then adding
* the amount in weeks and days to reach their values. If the mode is strict,
* the date is additionally validated to check that the day and week adjustment
* did not change the month.
* <li>{@code YEAR}, {@code MONTH_OF_YEAR}, {@code ALIGNED_WEEK_OF_MONTH} and
* {@code DAY_OF_WEEK} - If all four are present, then they are combined to
* form a date. The approach is the same as described above for
* years, months and weeks in {@code ALIGNED_DAY_OF_WEEK_IN_MONTH}.
* The day-of-week is adjusted as the next or same matching day-of-week once
* the years, months and weeks have been handled.
* <li>{@code YEAR}, {@code ALIGNED_WEEK_OF_YEAR} and {@code ALIGNED_DAY_OF_WEEK_IN_YEAR} -
* If all three are present, then they are combined to form a date.
* In all three modes, the {@code YEAR} is validated.
* If the mode is lenient, then the date is combined in a manner equivalent to
* creating a date on the first day of the requested year, then adding
* the difference in weeks, then in days.
* If the mode is smart or strict, then the all three fields are validated to
* their outer ranges. The date is then combined in a manner equivalent to
* creating a date on the first day of the requested year, then adding
* the amount in weeks and days to reach their values. If the mode is strict,
* the date is additionally validated to check that the day and week adjustment
* did not change the year.
* <li>{@code YEAR}, {@code ALIGNED_WEEK_OF_YEAR} and {@code DAY_OF_WEEK} -
* If all three are present, then they are combined to form a date.
* The approach is the same as described above for years and weeks in
* {@code ALIGNED_DAY_OF_WEEK_IN_YEAR}. The day-of-week is adjusted as the
* next or same matching day-of-week once the years and weeks have been handled.
* </ul>
* <p>
* The default implementation is suitable for most calendar systems.
* If {@link java.time.temporal.ChronoField#YEAR_OF_ERA} is found without an {@link java.time.temporal.ChronoField#ERA}
* then the last era in {@link #eras()} is used.
* The implementation assumes a 7 day week, that the first day-of-month
* has the value 1, that first day-of-year has the value 1, and that the
* first of the month and year always exists.
*
* @param fieldValues the map of fields to values, which can be updated, not null
* @param resolverStyle the requested type of resolve, not null
* @return the resolved date, null if insufficient information to create a date
* @throws java.time.DateTimeException if the date cannot be resolved, typically
* because of a conflict in the input data
*/
@Override
public ChronoLocalDate resolveDate(Map<TemporalField, Long> fieldValues, ResolverStyle resolverStyle) {
// check epoch-day before inventing era
if (fieldValues.containsKey(EPOCH_DAY)) {
return dateEpochDay(fieldValues.remove(EPOCH_DAY));
}
// fix proleptic month before inventing era
resolveProlepticMonth(fieldValues, resolverStyle);
// invent era if necessary to resolve year-of-era
ChronoLocalDate resolved = resolveYearOfEra(fieldValues, resolverStyle);
if (resolved != null) {
return resolved;
}
// build date
if (fieldValues.containsKey(YEAR)) {
if (fieldValues.containsKey(MONTH_OF_YEAR)) {
if (fieldValues.containsKey(DAY_OF_MONTH)) {
return resolveYMD(fieldValues, resolverStyle);
}
if (fieldValues.containsKey(ALIGNED_WEEK_OF_MONTH)) {
if (fieldValues.containsKey(ALIGNED_DAY_OF_WEEK_IN_MONTH)) {
return resolveYMAA(fieldValues, resolverStyle);
}
if (fieldValues.containsKey(DAY_OF_WEEK)) {
return resolveYMAD(fieldValues, resolverStyle);
}
}
}
if (fieldValues.containsKey(DAY_OF_YEAR)) {
return resolveYD(fieldValues, resolverStyle);
}
if (fieldValues.containsKey(ALIGNED_WEEK_OF_YEAR)) {
if (fieldValues.containsKey(ALIGNED_DAY_OF_WEEK_IN_YEAR)) {
return resolveYAA(fieldValues, resolverStyle);
}
if (fieldValues.containsKey(DAY_OF_WEEK)) {
return resolveYAD(fieldValues, resolverStyle);
}
}
}
return null;
}
void resolveProlepticMonth(Map<TemporalField, Long> fieldValues, ResolverStyle resolverStyle) {
Long pMonth = fieldValues.remove(PROLEPTIC_MONTH);
if (pMonth != null) {
if (resolverStyle != ResolverStyle.LENIENT) {
PROLEPTIC_MONTH.checkValidValue(pMonth);
}
// first day-of-month is likely to be safest for setting proleptic-month
// cannot add to year zero, as not all chronologies have a year zero
ChronoLocalDate chronoDate = dateNow()
.with(DAY_OF_MONTH, 1).with(PROLEPTIC_MONTH, pMonth);
addFieldValue(fieldValues, MONTH_OF_YEAR, chronoDate.get(MONTH_OF_YEAR));
addFieldValue(fieldValues, YEAR, chronoDate.get(YEAR));
}
}
ChronoLocalDate resolveYearOfEra(Map<TemporalField, Long> fieldValues, ResolverStyle resolverStyle) {
Long yoeLong = fieldValues.remove(YEAR_OF_ERA);
if (yoeLong != null) {
Long eraLong = fieldValues.remove(ERA);
int yoe;
if (resolverStyle != ResolverStyle.LENIENT) {
yoe = range(YEAR_OF_ERA).checkValidIntValue(yoeLong, YEAR_OF_ERA);
} else {
yoe = Math.toIntExact(yoeLong);
}
if (eraLong != null) {
Era eraObj = eraOf(range(ERA).checkValidIntValue(eraLong, ERA));
addFieldValue(fieldValues, YEAR, prolepticYear(eraObj, yoe));
} else {
if (fieldValues.containsKey(YEAR)) {
int year = range(YEAR).checkValidIntValue(fieldValues.get(YEAR), YEAR);
ChronoLocalDate chronoDate = dateYearDay(year, 1);
addFieldValue(fieldValues, YEAR, prolepticYear(chronoDate.getEra(), yoe));
} else if (resolverStyle == ResolverStyle.STRICT) {
// do not invent era if strict
// reinstate the field removed earlier, no cross-check issues
fieldValues.put(YEAR_OF_ERA, yoeLong);
} else {
List<Era> eras = eras();
if (eras.isEmpty()) {
addFieldValue(fieldValues, YEAR, yoe);
} else {
Era eraObj = eras.get(eras.size() - 1);
addFieldValue(fieldValues, YEAR, prolepticYear(eraObj, yoe));
}
}
}
} else if (fieldValues.containsKey(ERA)) {
range(ERA).checkValidValue(fieldValues.get(ERA), ERA); // always validated
}
return null;
}
ChronoLocalDate resolveYMD(Map<TemporalField, Long> fieldValues, ResolverStyle resolverStyle) {
int y = range(YEAR).checkValidIntValue(fieldValues.remove(YEAR), YEAR);
if (resolverStyle == ResolverStyle.LENIENT) {
long months = Math.subtractExact(fieldValues.remove(MONTH_OF_YEAR), 1);
long days = Math.subtractExact(fieldValues.remove(DAY_OF_MONTH), 1);
return date(y, 1, 1).plus(months, MONTHS).plus(days, DAYS);
}
int moy = range(MONTH_OF_YEAR).checkValidIntValue(fieldValues.remove(MONTH_OF_YEAR), MONTH_OF_YEAR);
ValueRange domRange = range(DAY_OF_MONTH);
int dom = domRange.checkValidIntValue(fieldValues.remove(DAY_OF_MONTH), DAY_OF_MONTH);
if (resolverStyle == ResolverStyle.SMART) { // previous valid
try {
return date(y, moy, dom);
} catch (DateTimeException ex) {
return date(y, moy, 1).with(TemporalAdjusters.lastDayOfMonth());
}
}
return date(y, moy, dom);
}
ChronoLocalDate resolveYD(Map<TemporalField, Long> fieldValues, ResolverStyle resolverStyle) {
int y = range(YEAR).checkValidIntValue(fieldValues.remove(YEAR), YEAR);
if (resolverStyle == ResolverStyle.LENIENT) {
long days = Math.subtractExact(fieldValues.remove(DAY_OF_YEAR), 1);
return dateYearDay(y, 1).plus(days, DAYS);
}
int doy = range(DAY_OF_YEAR).checkValidIntValue(fieldValues.remove(DAY_OF_YEAR), DAY_OF_YEAR);
return dateYearDay(y, doy); // smart is same as strict
}
ChronoLocalDate resolveYMAA(Map<TemporalField, Long> fieldValues, ResolverStyle resolverStyle) {
int y = range(YEAR).checkValidIntValue(fieldValues.remove(YEAR), YEAR);
if (resolverStyle == ResolverStyle.LENIENT) {
long months = Math.subtractExact(fieldValues.remove(MONTH_OF_YEAR), 1);
long weeks = Math.subtractExact(fieldValues.remove(ALIGNED_WEEK_OF_MONTH), 1);
long days = Math.subtractExact(fieldValues.remove(ALIGNED_DAY_OF_WEEK_IN_MONTH), 1);
return date(y, 1, 1).plus(months, MONTHS).plus(weeks, WEEKS).plus(days, DAYS);
}
int moy = range(MONTH_OF_YEAR).checkValidIntValue(fieldValues.remove(MONTH_OF_YEAR), MONTH_OF_YEAR);
int aw = range(ALIGNED_WEEK_OF_MONTH).checkValidIntValue(fieldValues.remove(ALIGNED_WEEK_OF_MONTH), ALIGNED_WEEK_OF_MONTH);
int ad = range(ALIGNED_DAY_OF_WEEK_IN_MONTH).checkValidIntValue(fieldValues.remove(ALIGNED_DAY_OF_WEEK_IN_MONTH), ALIGNED_DAY_OF_WEEK_IN_MONTH);
ChronoLocalDate date = date(y, moy, 1).plus((aw - 1) * 7 + (ad - 1), DAYS);
if (resolverStyle == ResolverStyle.STRICT && date.get(MONTH_OF_YEAR) != moy) {
throw new DateTimeException("Strict mode rejected resolved date as it is in a different month");
}
return date;
}
ChronoLocalDate resolveYMAD(Map<TemporalField, Long> fieldValues, ResolverStyle resolverStyle) {
int y = range(YEAR).checkValidIntValue(fieldValues.remove(YEAR), YEAR);
if (resolverStyle == ResolverStyle.LENIENT) {
long months = Math.subtractExact(fieldValues.remove(MONTH_OF_YEAR), 1);
long weeks = Math.subtractExact(fieldValues.remove(ALIGNED_WEEK_OF_MONTH), 1);
long dow = Math.subtractExact(fieldValues.remove(DAY_OF_WEEK), 1);
return resolveAligned(date(y, 1, 1), months, weeks, dow);
}
int moy = range(MONTH_OF_YEAR).checkValidIntValue(fieldValues.remove(MONTH_OF_YEAR), MONTH_OF_YEAR);
int aw = range(ALIGNED_WEEK_OF_MONTH).checkValidIntValue(fieldValues.remove(ALIGNED_WEEK_OF_MONTH), ALIGNED_WEEK_OF_MONTH);
int dow = range(DAY_OF_WEEK).checkValidIntValue(fieldValues.remove(DAY_OF_WEEK), DAY_OF_WEEK);
ChronoLocalDate date = date(y, moy, 1).plus((aw - 1) * 7, DAYS).with(nextOrSame(DayOfWeek.of(dow)));
if (resolverStyle == ResolverStyle.STRICT && date.get(MONTH_OF_YEAR) != moy) {
throw new DateTimeException("Strict mode rejected resolved date as it is in a different month");
}
return date;
}
ChronoLocalDate resolveYAA(Map<TemporalField, Long> fieldValues, ResolverStyle resolverStyle) {
int y = range(YEAR).checkValidIntValue(fieldValues.remove(YEAR), YEAR);
if (resolverStyle == ResolverStyle.LENIENT) {
long weeks = Math.subtractExact(fieldValues.remove(ALIGNED_WEEK_OF_YEAR), 1);
long days = Math.subtractExact(fieldValues.remove(ALIGNED_DAY_OF_WEEK_IN_YEAR), 1);
return dateYearDay(y, 1).plus(weeks, WEEKS).plus(days, DAYS);
}
int aw = range(ALIGNED_WEEK_OF_YEAR).checkValidIntValue(fieldValues.remove(ALIGNED_WEEK_OF_YEAR), ALIGNED_WEEK_OF_YEAR);
int ad = range(ALIGNED_DAY_OF_WEEK_IN_YEAR).checkValidIntValue(fieldValues.remove(ALIGNED_DAY_OF_WEEK_IN_YEAR), ALIGNED_DAY_OF_WEEK_IN_YEAR);
ChronoLocalDate date = dateYearDay(y, 1).plus((aw - 1) * 7 + (ad - 1), DAYS);
if (resolverStyle == ResolverStyle.STRICT && date.get(YEAR) != y) {
throw new DateTimeException("Strict mode rejected resolved date as it is in a different year");
}
return date;
}
ChronoLocalDate resolveYAD(Map<TemporalField, Long> fieldValues, ResolverStyle resolverStyle) {
int y = range(YEAR).checkValidIntValue(fieldValues.remove(YEAR), YEAR);
if (resolverStyle == ResolverStyle.LENIENT) {
long weeks = Math.subtractExact(fieldValues.remove(ALIGNED_WEEK_OF_YEAR), 1);
long dow = Math.subtractExact(fieldValues.remove(DAY_OF_WEEK), 1);
return resolveAligned(dateYearDay(y, 1), 0, weeks, dow);
}
int aw = range(ALIGNED_WEEK_OF_YEAR).checkValidIntValue(fieldValues.remove(ALIGNED_WEEK_OF_YEAR), ALIGNED_WEEK_OF_YEAR);
int dow = range(DAY_OF_WEEK).checkValidIntValue(fieldValues.remove(DAY_OF_WEEK), DAY_OF_WEEK);
ChronoLocalDate date = dateYearDay(y, 1).plus((aw - 1) * 7, DAYS).with(nextOrSame(DayOfWeek.of(dow)));
if (resolverStyle == ResolverStyle.STRICT && date.get(YEAR) != y) {
throw new DateTimeException("Strict mode rejected resolved date as it is in a different year");
}
return date;
}
ChronoLocalDate resolveAligned(ChronoLocalDate base, long months, long weeks, long dow) {
ChronoLocalDate date = base.plus(months, MONTHS).plus(weeks, WEEKS);
if (dow > 7) {
date = date.plus((dow - 1) / 7, WEEKS);
dow = ((dow - 1) % 7) + 1;
} else if (dow < 1) {
date = date.plus(Math.subtractExact(dow, 7) / 7, WEEKS);
dow = ((dow + 6) % 7) + 1;
}
return date.with(nextOrSame(DayOfWeek.of((int) dow)));
}
/**
* Adds a field-value pair to the map, checking for conflicts.
* <p>
* If the field is not already present, then the field-value pair is added to the map.
* If the field is already present and it has the same value as that specified, no action occurs.
* If the field is already present and it has a different value to that specified, then
* an exception is thrown.
*
* @param field the field to add, not null
* @param value the value to add, not null
* @throws java.time.DateTimeException if the field is already present with a different value
*/
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