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A library jar that provides APIs for Applications written for the Google Android Platform.

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/*
 * Copyright (C) 2006 The Android Open Source Project
 *
 * Licensed 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 android.util;

import android.annotation.NonNull;
import android.annotation.Nullable;
import android.annotation.TestApi;
import android.compat.annotation.UnsupportedAppUsage;
import android.os.Build;
import android.os.SystemClock;

import com.android.i18n.timezone.CountryTimeZones;
import com.android.i18n.timezone.CountryTimeZones.TimeZoneMapping;
import com.android.i18n.timezone.TimeZoneFinder;
import com.android.i18n.timezone.ZoneInfoDb;

import java.io.PrintWriter;
import java.text.SimpleDateFormat;
import java.time.Instant;
import java.time.LocalTime;
import java.util.ArrayList;
import java.util.Calendar;
import java.util.Collections;
import java.util.Date;
import java.util.List;

/**
 * A class containing utility methods related to time zones.
 */
public class TimeUtils {
    /** @hide */ public TimeUtils() {}
    /** {@hide} */
    private static final SimpleDateFormat sLoggingFormat =
            new SimpleDateFormat("yyyy-MM-dd HH:mm:ss");

    /** @hide */
    public static final SimpleDateFormat sDumpDateFormat =
            new SimpleDateFormat("yyyy-MM-dd HH:mm:ss.SSS");

    /**
     * This timestamp is used in TimeUtils methods and by the SettingsUI to filter time zones
     * to only "effective" ones in a country. It is compared against the notUsedAfter metadata that
     * Android records for some time zones.
     *
     * 

What is notUsedAfter?

* Android chooses to avoid making users choose between functionally identical time zones at the * expense of not being able to represent local times in the past. * * notUsedAfter exists because some time zones can "merge" with other time zones after a given * point in time (i.e. they change to have identical transitions, offsets, display names, etc.). * From the notUsedAfter time, the zone will express the same local time as the one it merged * with. * *

Why hardcoded?

* Rather than using System.currentTimeMillis(), a timestamp known to be in the recent past is * used to ensure consistent behavior across devices and time, and avoid assumptions that the * system clock on a device is currently set correctly. The fixed value should be updated * occasionally, but it doesn't have to be very often as effective time zones for a country * don't change very often. * * @hide */ public static final Instant MIN_USE_DATE_OF_TIMEZONE = Instant.ofEpochMilli(1546300800000L); // 1/1/2019 00:00 UTC /** * Tries to return a time zone that would have had the specified offset * and DST value at the specified moment in the specified country. * Returns null if no suitable zone could be found. */ public static java.util.TimeZone getTimeZone( int offset, boolean dst, long when, String country) { android.icu.util.TimeZone icuTimeZone = getIcuTimeZone(offset, dst, when, country); // We must expose a java.util.TimeZone here for API compatibility because this is a public // API method. return icuTimeZone != null ? java.util.TimeZone.getTimeZone(icuTimeZone.getID()) : null; } /** * Returns a frozen ICU time zone that has / would have had the specified offset and DST value * at the specified moment in the specified country. Returns null if no suitable zone could be * found. */ private static android.icu.util.TimeZone getIcuTimeZone( int offsetMillis, boolean isDst, long whenMillis, String countryIso) { if (countryIso == null) { return null; } android.icu.util.TimeZone bias = android.icu.util.TimeZone.getDefault(); CountryTimeZones countryTimeZones = TimeZoneFinder.getInstance().lookupCountryTimeZones(countryIso); if (countryTimeZones == null) { return null; } CountryTimeZones.OffsetResult offsetResult = countryTimeZones.lookupByOffsetWithBias( whenMillis, bias, offsetMillis, isDst); return offsetResult != null ? offsetResult.getTimeZone() : null; } /** * Returns time zone IDs for time zones known to be associated with a country. * *

The list returned may be different from other on-device sources like * {@link android.icu.util.TimeZone#getRegion(String)} as it can be curated to avoid * contentious or obsolete mappings. * * @param countryCode the ISO 3166-1 alpha-2 code for the country as can be obtained using * {@link java.util.Locale#getCountry()} * @return IDs that can be passed to {@link java.util.TimeZone#getTimeZone(String)} or similar * methods, or {@code null} if the countryCode is unrecognized */ public static @Nullable List getTimeZoneIdsForCountryCode(@NonNull String countryCode) { if (countryCode == null) { throw new NullPointerException("countryCode == null"); } TimeZoneFinder timeZoneFinder = TimeZoneFinder.getInstance(); CountryTimeZones countryTimeZones = timeZoneFinder.lookupCountryTimeZones(countryCode.toLowerCase()); if (countryTimeZones == null) { return null; } List timeZoneIds = new ArrayList<>(); for (TimeZoneMapping timeZoneMapping : countryTimeZones.getTimeZoneMappings()) { if (timeZoneMapping.isShownInPickerAt(MIN_USE_DATE_OF_TIMEZONE)) { timeZoneIds.add(timeZoneMapping.getTimeZoneId()); } } return Collections.unmodifiableList(timeZoneIds); } /** * Returns a String indicating the version of the time zone database currently * in use. The format of the string is dependent on the underlying time zone * database implementation, but will typically contain the year in which the database * was updated plus a letter from a to z indicating changes made within that year. * *

Time zone database updates should be expected to occur periodically due to * political and legal changes that cannot be anticipated in advance. Therefore, * when computing the UTC time for a future event, applications should be aware that * the results may differ following a time zone database update. This method allows * applications to detect that a database change has occurred, and to recalculate any * cached times accordingly. * *

The time zone database may be assumed to change only when the device runtime * is restarted. Therefore, it is not necessary to re-query the database version * during the lifetime of an activity. */ public static String getTimeZoneDatabaseVersion() { return ZoneInfoDb.getInstance().getVersion(); } /** @hide Field length that can hold 999 days of time */ public static final int HUNDRED_DAY_FIELD_LEN = 19; private static final int SECONDS_PER_MINUTE = 60; private static final int SECONDS_PER_HOUR = 60 * 60; private static final int SECONDS_PER_DAY = 24 * 60 * 60; /** @hide */ public static final long NANOS_PER_MS = 1000000; private static final Object sFormatSync = new Object(); private static char[] sFormatStr = new char[HUNDRED_DAY_FIELD_LEN+10]; private static char[] sTmpFormatStr = new char[HUNDRED_DAY_FIELD_LEN+10]; static private int accumField(int amt, int suffix, boolean always, int zeropad) { if (amt > 999) { int num = 0; while (amt != 0) { num++; amt /= 10; } return num + suffix; } else { if (amt > 99 || (always && zeropad >= 3)) { return 3+suffix; } if (amt > 9 || (always && zeropad >= 2)) { return 2+suffix; } if (always || amt > 0) { return 1+suffix; } } return 0; } static private int printFieldLocked(char[] formatStr, int amt, char suffix, int pos, boolean always, int zeropad) { if (always || amt > 0) { final int startPos = pos; if (amt > 999) { int tmp = 0; while (amt != 0 && tmp < sTmpFormatStr.length) { int dig = amt % 10; sTmpFormatStr[tmp] = (char)(dig + '0'); tmp++; amt /= 10; } tmp--; while (tmp >= 0) { formatStr[pos] = sTmpFormatStr[tmp]; pos++; tmp--; } } else { if ((always && zeropad >= 3) || amt > 99) { int dig = amt/100; formatStr[pos] = (char)(dig + '0'); pos++; amt -= (dig*100); } if ((always && zeropad >= 2) || amt > 9 || startPos != pos) { int dig = amt/10; formatStr[pos] = (char)(dig + '0'); pos++; amt -= (dig*10); } formatStr[pos] = (char)(amt + '0'); pos++; } formatStr[pos] = suffix; pos++; } return pos; } private static int formatDurationLocked(long duration, int fieldLen) { if (sFormatStr.length < fieldLen) { sFormatStr = new char[fieldLen]; } char[] formatStr = sFormatStr; if (duration == 0) { int pos = 0; fieldLen -= 1; while (pos < fieldLen) { formatStr[pos++] = ' '; } formatStr[pos] = '0'; return pos+1; } char prefix; if (duration > 0) { prefix = '+'; } else { prefix = '-'; duration = -duration; } int millis = (int)(duration%1000); int seconds = (int) Math.floor(duration / 1000); int days = 0, hours = 0, minutes = 0; if (seconds >= SECONDS_PER_DAY) { days = seconds / SECONDS_PER_DAY; seconds -= days * SECONDS_PER_DAY; } if (seconds >= SECONDS_PER_HOUR) { hours = seconds / SECONDS_PER_HOUR; seconds -= hours * SECONDS_PER_HOUR; } if (seconds >= SECONDS_PER_MINUTE) { minutes = seconds / SECONDS_PER_MINUTE; seconds -= minutes * SECONDS_PER_MINUTE; } int pos = 0; if (fieldLen != 0) { int myLen = accumField(days, 1, false, 0); myLen += accumField(hours, 1, myLen > 0, 2); myLen += accumField(minutes, 1, myLen > 0, 2); myLen += accumField(seconds, 1, myLen > 0, 2); myLen += accumField(millis, 2, true, myLen > 0 ? 3 : 0) + 1; while (myLen < fieldLen) { formatStr[pos] = ' '; pos++; myLen++; } } formatStr[pos] = prefix; pos++; int start = pos; boolean zeropad = fieldLen != 0; pos = printFieldLocked(formatStr, days, 'd', pos, false, 0); pos = printFieldLocked(formatStr, hours, 'h', pos, pos != start, zeropad ? 2 : 0); pos = printFieldLocked(formatStr, minutes, 'm', pos, pos != start, zeropad ? 2 : 0); pos = printFieldLocked(formatStr, seconds, 's', pos, pos != start, zeropad ? 2 : 0); pos = printFieldLocked(formatStr, millis, 'm', pos, true, (zeropad && pos != start) ? 3 : 0); formatStr[pos] = 's'; return pos + 1; } /** @hide Just for debugging; not internationalized. */ public static void formatDuration(long duration, StringBuilder builder) { synchronized (sFormatSync) { int len = formatDurationLocked(duration, 0); builder.append(sFormatStr, 0, len); } } /** @hide Just for debugging; not internationalized. */ public static void formatDuration(long duration, StringBuilder builder, int fieldLen) { synchronized (sFormatSync) { int len = formatDurationLocked(duration, fieldLen); builder.append(sFormatStr, 0, len); } } /** @hide Just for debugging; not internationalized. */ @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 115609023) public static void formatDuration(long duration, PrintWriter pw, int fieldLen) { synchronized (sFormatSync) { int len = formatDurationLocked(duration, fieldLen); pw.print(new String(sFormatStr, 0, len)); } } /** @hide Just for debugging; not internationalized. */ @TestApi public static String formatDuration(long duration) { synchronized (sFormatSync) { int len = formatDurationLocked(duration, 0); return new String(sFormatStr, 0, len); } } /** @hide Just for debugging; not internationalized. */ @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 115609023) public static void formatDuration(long duration, PrintWriter pw) { formatDuration(duration, pw, 0); } /** @hide Just for debugging; not internationalized. */ public static void formatDuration(long time, long now, PrintWriter pw) { if (time == 0) { pw.print("--"); return; } formatDuration(time-now, pw, 0); } /** @hide Just for debugging; not internationalized. */ public static String formatUptime(long time) { return formatTime(time, SystemClock.uptimeMillis()); } /** @hide Just for debugging; not internationalized. */ public static String formatRealtime(long time) { return formatTime(time, SystemClock.elapsedRealtime()); } /** @hide Just for debugging; not internationalized. */ public static String formatTime(long time, long referenceTime) { long diff = time - referenceTime; if (diff > 0) { return time + " (in " + diff + " ms)"; } if (diff < 0) { return time + " (" + -diff + " ms ago)"; } return time + " (now)"; } /** * Convert a System.currentTimeMillis() value to a time of day value like * that printed in logs. MM-DD HH:MM:SS.MMM * * @param millis since the epoch (1/1/1970) * @return String representation of the time. * @hide */ @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553) public static String logTimeOfDay(long millis) { Calendar c = Calendar.getInstance(); if (millis >= 0) { c.setTimeInMillis(millis); return String.format("%tm-%td %tH:%tM:%tS.%tL", c, c, c, c, c, c); } else { return Long.toString(millis); } } /** {@hide} */ public static String formatForLogging(long millis) { if (millis <= 0) { return "unknown"; } else { return sLoggingFormat.format(new Date(millis)); } } /** * Dump a currentTimeMillis style timestamp for dumpsys. * * @hide */ public static void dumpTime(PrintWriter pw, long time) { pw.print(sDumpDateFormat.format(new Date(time))); } /** * This method is used to find if a clock time is inclusively between two other clock times * @param reference The time of the day we want check if it is between start and end * @param start The start time reference * @param end The end time * @return true if the reference time is between the two clock times, and false otherwise. */ public static boolean isTimeBetween(@NonNull LocalTime reference, @NonNull LocalTime start, @NonNull LocalTime end) { // ////////E----+-----S//////// if ((reference.isBefore(start) && reference.isAfter(end) // -----+----S//////////E------ || (reference.isBefore(end) && reference.isBefore(start) && start.isBefore(end)) // ---------S//////////E---+--- || (reference.isAfter(end) && reference.isAfter(start)) && start.isBefore(end))) { return false; } else { return true; } } /** * Dump a currentTimeMillis style timestamp for dumpsys, with the delta time from now. * * @hide */ public static void dumpTimeWithDelta(PrintWriter pw, long time, long now) { pw.print(sDumpDateFormat.format(new Date(time))); if (time == now) { pw.print(" (now)"); } else { pw.print(" ("); TimeUtils.formatDuration(time, now, pw); pw.print(")"); } }}





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