/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package java.util; import java.io.IOException; import java.io.Serializable; import java.util.regex.Matcher; import java.util.regex.Pattern; import libcore.icu.TimeZoneNames; import libcore.io.IoUtils; import libcore.util.ZoneInfoDB; // TODO: repackage this class, used by frameworks/base. import org.apache.harmony.luni.internal.util.TimezoneGetter; /** * {@code TimeZone} represents a time zone, primarily used for configuring a {@link Calendar} or * {@link java.text.SimpleDateFormat} instance. * *

Most applications will use {@link #getDefault} which returns a {@code TimeZone} based on * the time zone where the program is running. * *

You can also get a specific {@code TimeZone} {@link #getTimeZone by Olson ID}. * *

It is highly unlikely you'll ever want to use anything but the factory methods yourself. * Let classes like {@link Calendar} and {@link java.text.SimpleDateFormat} do the date * computations for you. * *

If you do need to do date computations manually, there are two common cases to take into * account: *

* *

Note the type returned by the factory methods {@link #getDefault} and {@link #getTimeZone} is * implementation dependent. This may introduce serialization incompatibility issues between * different implementations, or different versions of Android. * * @see Calendar * @see GregorianCalendar * @see SimpleDateFormat */ public abstract class TimeZone implements Serializable, Cloneable { private static final long serialVersionUID = 3581463369166924961L; private static final Pattern CUSTOM_ZONE_ID_PATTERN = Pattern.compile("^GMT[-+](\\d{1,2})(:?(\\d\\d))?$"); /** * The short display name style, such as {@code PDT}. Requests for this * style may yield GMT offsets like {@code GMT-08:00}. */ public static final int SHORT = 0; /** * The long display name style, such as {@code Pacific Daylight Time}. * Requests for this style may yield GMT offsets like {@code GMT-08:00}. */ public static final int LONG = 1; private static final TimeZone GMT = new SimpleTimeZone(0, "GMT"); private static final TimeZone UTC = new SimpleTimeZone(0, "UTC"); private static TimeZone defaultTimeZone; private String ID; public TimeZone() {} /** * Returns a new time zone with the same ID, raw offset, and daylight * savings time rules as this time zone. */ @Override public Object clone() { try { return super.clone(); } catch (CloneNotSupportedException e) { throw new AssertionError(e); } } /** * Returns the system's installed time zone IDs. Any of these IDs can be * passed to {@link #getTimeZone} to lookup the corresponding time zone * instance. */ public static synchronized String[] getAvailableIDs() { return ZoneInfoDB.getInstance().getAvailableIDs(); } /** * Returns the IDs of the time zones whose offset from UTC is {@code * offsetMillis}. Any of these IDs can be passed to {@link #getTimeZone} to * lookup the corresponding time zone instance. * * @return a possibly-empty array. */ public static synchronized String[] getAvailableIDs(int offsetMillis) { return ZoneInfoDB.getInstance().getAvailableIDs(offsetMillis); } /** * Returns the user's preferred time zone. This may have been overridden for * this process with {@link #setDefault}. * *

Since the user's time zone changes dynamically, avoid caching this * value. Instead, use this method to look it up for each use. */ public static synchronized TimeZone getDefault() { if (defaultTimeZone == null) { TimezoneGetter tzGetter = TimezoneGetter.getInstance(); String zoneName = (tzGetter != null) ? tzGetter.getId() : null; if (zoneName != null) { zoneName = zoneName.trim(); } if (zoneName == null || zoneName.isEmpty()) { try { // On the host, we can find the configured timezone here. zoneName = IoUtils.readFileAsString("/etc/timezone"); } catch (IOException ex) { // "vogar --mode device" can end up here. // TODO: give libcore access to Android system properties and read "persist.sys.timezone". zoneName = "GMT"; } } defaultTimeZone = TimeZone.getTimeZone(zoneName); } return (TimeZone) defaultTimeZone.clone(); } /** * Equivalent to {@code getDisplayName(false, TimeZone.LONG, Locale.getDefault())}. * Be wary of the default locale. */ public final String getDisplayName() { return getDisplayName(false, LONG, Locale.getDefault()); } /** * Equivalent to {@code getDisplayName(false, TimeZone.LONG, locale)}. */ public final String getDisplayName(Locale locale) { return getDisplayName(false, LONG, locale); } /** * Equivalent to {@code getDisplayName(daylightTime, style, Locale.getDefault())}. * Be wary of the default locale. */ public final String getDisplayName(boolean daylightTime, int style) { return getDisplayName(daylightTime, style, Locale.getDefault()); } /** * Returns the {@link #SHORT short} or {@link #LONG long} name of this time * zone with either standard or daylight time, as written in {@code locale}. * If the name is not available, the result is in the format * {@code GMT[+-]hh:mm}. * * @param daylightTime true for daylight time, false for standard time. * @param style either {@link TimeZone#LONG} or {@link TimeZone#SHORT}. * @param locale the display locale. */ public String getDisplayName(boolean daylightTime, int style, Locale locale) { if (style != SHORT && style != LONG) { throw new IllegalArgumentException("Bad style: " + style); } String[][] zoneStrings = TimeZoneNames.getZoneStrings(locale); String result = TimeZoneNames.getDisplayName(zoneStrings, getID(), daylightTime, style); if (result != null) { return result; } // If we get here, it's because icu4c has nothing for us. Most commonly, this is in the // case of short names. For Pacific/Fiji, for example, icu4c has nothing better to offer // than "GMT+12:00". Why do we re-do this work ourselves? Because we have up-to-date // time zone transition data, which icu4c _doesn't_ use --- it uses its own baked-in copy, // which only gets updated when we update icu4c. http://b/7955614 and http://b/8026776. // TODO: should we generate these once, in TimeZoneNames.getDisplayName? Revisit when we // upgrade to icu4c 50 and rewrite the underlying native code. See also the // "element[j] != null" check in SimpleDateFormat.parseTimeZone, and the extra work in // DateFormatSymbols.getZoneStrings. int offset = getRawOffset(); if (daylightTime) { offset += getDSTSavings(); } offset /= 60000; char sign = '+'; if (offset < 0) { sign = '-'; offset = -offset; } StringBuilder builder = new StringBuilder(9); builder.append("GMT"); builder.append(sign); appendNumber(builder, 2, offset / 60); builder.append(':'); appendNumber(builder, 2, offset % 60); return builder.toString(); } private void appendNumber(StringBuilder builder, int count, int value) { String string = Integer.toString(value); for (int i = 0; i < count - string.length(); i++) { builder.append('0'); } builder.append(string); } /** * Returns the ID of this {@code TimeZone}, such as * {@code America/Los_Angeles}, {@code GMT-08:00} or {@code UTC}. */ public String getID() { return ID; } /** * Returns the latest daylight savings in milliseconds for this time zone, relative * to this time zone's regular UTC offset (as returned by {@link #getRawOffset}). * *

This class returns {@code 3600000} (1 hour) for time zones * that use daylight savings time and {@code 0} for timezones that do not, * leaving it to subclasses to override this method for other daylight savings * offsets. (There are time zones, such as {@code Australia/Lord_Howe}, * that use other values.) * *

Note that this method doesn't tell you whether or not to apply the * offset: you need to call {@code inDaylightTime} for the specific time * you're interested in. If this method returns a non-zero offset, that only * tells you that this {@code TimeZone} sometimes observes daylight savings. * *

Note also that this method doesn't necessarily return the value you need * to apply to the time you're working with. This value can and does change over * time for a given time zone. * *

It's highly unlikely that you should ever call this method. You * probably want {@link #getOffset} instead, which tells you the offset * for a specific point in time, and takes daylight savings into account for you. */ public int getDSTSavings() { return useDaylightTime() ? 3600000 : 0; } /** * Returns the offset in milliseconds from UTC for this time zone at {@code * time}. The offset includes daylight savings time if the specified * date is within the daylight savings time period. * * @param time the date in milliseconds since January 1, 1970 00:00:00 UTC */ public int getOffset(long time) { if (inDaylightTime(new Date(time))) { return getRawOffset() + getDSTSavings(); } return getRawOffset(); } /** * Returns this time zone's offset in milliseconds from UTC at the specified * date and time. The offset includes daylight savings time if the date * and time is within the daylight savings time period. * *

This method is intended to be used by {@link Calendar} to compute * {@link Calendar#DST_OFFSET} and {@link Calendar#ZONE_OFFSET}. Application * code should have no reason to call this method directly. Each parameter * is interpreted in the same way as the corresponding {@code Calendar} * field. Refer to {@link Calendar} for specific definitions of this * method's parameters. */ public abstract int getOffset(int era, int year, int month, int day, int dayOfWeek, int timeOfDayMillis); /** * Returns the offset in milliseconds from UTC of this time zone's standard * time. */ public abstract int getRawOffset(); /** * Returns a {@code TimeZone} corresponding to the given {@code id}, or {@code GMT} * for unknown ids. * *

An ID can be an Olson name of the form Area/Location, such * as {@code America/Los_Angeles}. The {@link #getAvailableIDs} method returns * the supported names. * *

This method can also create a custom {@code TimeZone} given an ID with the following * syntax: {@code GMT[+|-]hh[[:]mm]}. For example, {@code "GMT+05:00"}, {@code "GMT+0500"}, * {@code "GMT+5:00"}, {@code "GMT+500"}, {@code "GMT+05"}, and {@code "GMT+5"} all return * an object with a raw offset of +5 hours from UTC, and which does not use daylight * savings. These are rarely useful, because they don't correspond to time zones actually * in use by humans. * *

Other than the special cases "UTC" and "GMT" (which are synonymous in this context, * both corresponding to UTC), Android does not support the deprecated three-letter time * zone IDs used in Java 1.1. */ public static synchronized TimeZone getTimeZone(String id) { if (id == null) { throw new NullPointerException("id == null"); } // Special cases? These can clone an existing instance. // TODO: should we just add a cache to ZoneInfoDB instead? if (id.length() == 3) { if (id.equals("GMT")) { return (TimeZone) GMT.clone(); } if (id.equals("UTC")) { return (TimeZone) UTC.clone(); } } // In the database? TimeZone zone = null; try { zone = ZoneInfoDB.getInstance().makeTimeZone(id); } catch (IOException ignored) { } // Custom time zone? if (zone == null && id.length() > 3 && id.startsWith("GMT")) { zone = getCustomTimeZone(id); } // We never return null; on failure we return the equivalent of "GMT". return (zone != null) ? zone : (TimeZone) GMT.clone(); } /** * Returns a new SimpleTimeZone for an ID of the form "GMT[+|-]hh[[:]mm]", or null. */ private static TimeZone getCustomTimeZone(String id) { Matcher m = CUSTOM_ZONE_ID_PATTERN.matcher(id); if (!m.matches()) { return null; } int hour; int minute = 0; try { hour = Integer.parseInt(m.group(1)); if (m.group(3) != null) { minute = Integer.parseInt(m.group(3)); } } catch (NumberFormatException impossible) { throw new AssertionError(impossible); } if (hour < 0 || hour > 23 || minute < 0 || minute > 59) { return null; } char sign = id.charAt(3); int raw = (hour * 3600000) + (minute * 60000); if (sign == '-') { raw = -raw; } String cleanId = String.format("GMT%c%02d:%02d", sign, hour, minute); return new SimpleTimeZone(raw, cleanId); } /** * Returns true if {@code timeZone} has the same rules as this time zone. * *

The base implementation returns true if both time zones have the same * raw offset. */ public boolean hasSameRules(TimeZone timeZone) { if (timeZone == null) { return false; } return getRawOffset() == timeZone.getRawOffset(); } /** * Returns true if {@code time} is in a daylight savings time period for * this time zone. */ public abstract boolean inDaylightTime(Date time); /** * Overrides the default time zone for the current process only. * *

Warning: avoid using this method to use a custom time * zone in your process. This value may be cleared or overwritten at any * time, which can cause unexpected behavior. Instead, manually supply a * custom time zone as needed. * * @param timeZone a custom time zone, or {@code null} to set the default to * the user's preferred value. */ public static synchronized void setDefault(TimeZone timeZone) { defaultTimeZone = timeZone != null ? (TimeZone) timeZone.clone() : null; } /** * Sets the ID of this {@code TimeZone}. */ public void setID(String id) { if (id == null) { throw new NullPointerException("id == null"); } ID = id; } /** * Sets the offset in milliseconds from UTC of this time zone's standard * time. */ public abstract void setRawOffset(int offsetMillis); /** * Returns true if this time zone has a future transition to or from * daylight savings time. * *

Warning: this returns false for time zones like * {@code Asia/Kuala_Lumpur} that have previously used DST but do not * currently. A hypothetical country that has never observed daylight * savings before but plans to start next year would return true. * *

Warning: this returns true for time zones that use * DST, even when it is not active. * *

Use {@link #inDaylightTime} to find out whether daylight savings is * in effect at a specific time. * *

Most applications should not use this method. */ public abstract boolean useDaylightTime(); }