/* * Copyright (C) 2015 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 com.android.settingslib.datetime; import android.content.Context; import android.content.res.XmlResourceParser; import android.icu.text.TimeZoneFormat; import android.icu.text.TimeZoneNames; import android.support.v4.text.BidiFormatter; import android.support.v4.text.TextDirectionHeuristicsCompat; import android.text.SpannableString; import android.text.SpannableStringBuilder; import android.text.TextUtils; import android.text.format.DateUtils; import android.text.style.TtsSpan; import android.util.Log; import android.view.View; import com.android.settingslib.R; import org.xmlpull.v1.XmlPullParserException; import java.util.ArrayList; import java.util.Date; import java.util.HashMap; import java.util.HashSet; import java.util.List; import java.util.Locale; import java.util.Map; import java.util.Set; import java.util.TimeZone; /** * ZoneGetter is the utility class to get time zone and zone list, and both of them have display * name in time zone. In this class, we will keep consistency about display names for all * the methods. * * The display name chosen for each zone entry depends on whether the zone is one associated * with the country of the user's chosen locale. For "local" zones we prefer the "long name" * (e.g. "Europe/London" -> "British Summer Time" for people in the UK). For "non-local" * zones we prefer the exemplar location (e.g. "Europe/London" -> "London" for English * speakers from outside the UK). This heuristic is based on the fact that people are * typically familiar with their local timezones and exemplar locations don't always match * modern-day expectations for people living in the country covered. Large countries like * China that mostly use a single timezone (olson id: "Asia/Shanghai") may not live near * "Shanghai" and prefer the long name over the exemplar location. The only time we don't * follow this policy for local zones is when Android supplies multiple olson IDs to choose * from and the use of a zone's long name leads to ambiguity. For example, at the time of * writing Android lists 5 olson ids for Australia which collapse to 2 different zone names * in winter but 4 different zone names in summer. The ambiguity leads to the users * selecting the wrong olson ids. * */ public class ZoneGetter { private static final String TAG = "ZoneGetter"; public static final String KEY_ID = "id"; // value: String /** * @deprecated Use {@link #KEY_DISPLAY_LABEL} instead. */ @Deprecated public static final String KEY_DISPLAYNAME = "name"; // value: String public static final String KEY_DISPLAY_LABEL = "display_label"; // value: CharSequence /** * @deprecated Use {@link #KEY_OFFSET_LABEL} instead. */ @Deprecated public static final String KEY_GMT = "gmt"; // value: String public static final String KEY_OFFSET = "offset"; // value: int (Integer) public static final String KEY_OFFSET_LABEL = "offset_label"; // value: CharSequence private static final String XMLTAG_TIMEZONE = "timezone"; public static CharSequence getTimeZoneOffsetAndName(Context context, TimeZone tz, Date now) { Locale locale = context.getResources().getConfiguration().locale; TimeZoneFormat tzFormatter = TimeZoneFormat.getInstance(locale); CharSequence gmtText = getGmtOffsetText(tzFormatter, locale, tz, now); TimeZoneNames timeZoneNames = TimeZoneNames.getInstance(locale); String zoneNameString = getZoneLongName(timeZoneNames, tz, now); if (zoneNameString == null) { return gmtText; } // We don't use punctuation here to avoid having to worry about localizing that too! return TextUtils.concat(gmtText, " ", zoneNameString); } public static List> getZonesList(Context context) { final Locale locale = context.getResources().getConfiguration().locale; final Date now = new Date(); final TimeZoneNames timeZoneNames = TimeZoneNames.getInstance(locale); final ZoneGetterData data = new ZoneGetterData(context); // Work out whether the display names we would show by default would be ambiguous. final boolean useExemplarLocationForLocalNames = shouldUseExemplarLocationForLocalNames(data, timeZoneNames); // Generate the list of zone entries to return. List> zones = new ArrayList>(); for (int i = 0; i < data.zoneCount; i++) { TimeZone tz = data.timeZones[i]; CharSequence gmtOffsetText = data.gmtOffsetTexts[i]; CharSequence displayName = getTimeZoneDisplayName(data, timeZoneNames, useExemplarLocationForLocalNames, tz, data.olsonIdsToDisplay[i]); if (TextUtils.isEmpty(displayName)) { displayName = gmtOffsetText; } int offsetMillis = tz.getOffset(now.getTime()); Map displayEntry = createDisplayEntry(tz, gmtOffsetText, displayName, offsetMillis); zones.add(displayEntry); } return zones; } private static Map createDisplayEntry( TimeZone tz, CharSequence gmtOffsetText, CharSequence displayName, int offsetMillis) { Map map = new HashMap<>(); map.put(KEY_ID, tz.getID()); map.put(KEY_DISPLAYNAME, displayName.toString()); map.put(KEY_DISPLAY_LABEL, displayName); map.put(KEY_GMT, gmtOffsetText.toString()); map.put(KEY_OFFSET_LABEL, gmtOffsetText); map.put(KEY_OFFSET, offsetMillis); return map; } private static List readTimezonesToDisplay(Context context) { List olsonIds = new ArrayList(); try (XmlResourceParser xrp = context.getResources().getXml(R.xml.timezones)) { while (xrp.next() != XmlResourceParser.START_TAG) { continue; } xrp.next(); while (xrp.getEventType() != XmlResourceParser.END_TAG) { while (xrp.getEventType() != XmlResourceParser.START_TAG) { if (xrp.getEventType() == XmlResourceParser.END_DOCUMENT) { return olsonIds; } xrp.next(); } if (xrp.getName().equals(XMLTAG_TIMEZONE)) { String olsonId = xrp.getAttributeValue(0); olsonIds.add(olsonId); } while (xrp.getEventType() != XmlResourceParser.END_TAG) { xrp.next(); } xrp.next(); } } catch (XmlPullParserException xppe) { Log.e(TAG, "Ill-formatted timezones.xml file"); } catch (java.io.IOException ioe) { Log.e(TAG, "Unable to read timezones.xml file"); } return olsonIds; } private static boolean shouldUseExemplarLocationForLocalNames(ZoneGetterData data, TimeZoneNames timeZoneNames) { final Set localZoneNames = new HashSet<>(); final Date now = new Date(); for (int i = 0; i < data.zoneCount; i++) { final String olsonId = data.olsonIdsToDisplay[i]; if (data.localZoneIds.contains(olsonId)) { final TimeZone tz = data.timeZones[i]; CharSequence displayName = getZoneLongName(timeZoneNames, tz, now); if (displayName == null) { displayName = data.gmtOffsetTexts[i]; } final boolean nameIsUnique = localZoneNames.add(displayName); if (!nameIsUnique) { return true; } } } return false; } private static CharSequence getTimeZoneDisplayName(ZoneGetterData data, TimeZoneNames timeZoneNames, boolean useExemplarLocationForLocalNames, TimeZone tz, String olsonId) { final Date now = new Date(); final boolean isLocalZoneId = data.localZoneIds.contains(olsonId); final boolean preferLongName = isLocalZoneId && !useExemplarLocationForLocalNames; String displayName; if (preferLongName) { displayName = getZoneLongName(timeZoneNames, tz, now); } else { // Canonicalize the zone ID for ICU. It will only return valid strings for zone IDs // that match ICUs zone IDs (which are similar but not guaranteed the same as those // in timezones.xml). timezones.xml and related files uses the IANA IDs. ICU IDs are // stable and IANA IDs have changed over time so they have drifted. // See http://bugs.icu-project.org/trac/ticket/13070 / http://b/36469833. String canonicalZoneId = android.icu.util.TimeZone.getCanonicalID(tz.getID()); if (canonicalZoneId == null) { canonicalZoneId = tz.getID(); } displayName = timeZoneNames.getExemplarLocationName(canonicalZoneId); if (displayName == null || displayName.isEmpty()) { // getZoneExemplarLocation can return null. Fall back to the long name. displayName = getZoneLongName(timeZoneNames, tz, now); } } return displayName; } /** * Returns the long name for the timezone for the given locale at the time specified. * Can return {@code null}. */ private static String getZoneLongName(TimeZoneNames names, TimeZone tz, Date now) { final TimeZoneNames.NameType nameType = tz.inDaylightTime(now) ? TimeZoneNames.NameType.LONG_DAYLIGHT : TimeZoneNames.NameType.LONG_STANDARD; return names.getDisplayName(tz.getID(), nameType, now.getTime()); } private static void appendWithTtsSpan(SpannableStringBuilder builder, CharSequence content, TtsSpan span) { int start = builder.length(); builder.append(content); builder.setSpan(span, start, builder.length(), 0); } // Input must be positive. minDigits must be 1 or 2. private static String formatDigits(int input, int minDigits, String localizedDigits) { final int tens = input / 10; final int units = input % 10; StringBuilder builder = new StringBuilder(minDigits); if (input >= 10 || minDigits == 2) { builder.append(localizedDigits.charAt(tens)); } builder.append(localizedDigits.charAt(units)); return builder.toString(); } /** * Get the GMT offset text label for the given time zone, in the format "GMT-08:00". This will * also add TTS spans to give hints to the text-to-speech engine for the type of data it is. * * @param tzFormatter The timezone formatter to use. * @param locale The locale which the string is displayed in. This should be the same as the * locale of the time zone formatter. * @param tz Time zone to get the GMT offset from. * @param now The current time, used to tell whether daylight savings is active. * @return A CharSequence suitable for display as the offset label of {@code tz}. */ private static CharSequence getGmtOffsetText(TimeZoneFormat tzFormatter, Locale locale, TimeZone tz, Date now) { final SpannableStringBuilder builder = new SpannableStringBuilder(); final String gmtPattern = tzFormatter.getGMTPattern(); final int placeholderIndex = gmtPattern.indexOf("{0}"); final String gmtPatternPrefix, gmtPatternSuffix; if (placeholderIndex == -1) { // Bad pattern. Replace with defaults. gmtPatternPrefix = "GMT"; gmtPatternSuffix = ""; } else { gmtPatternPrefix = gmtPattern.substring(0, placeholderIndex); gmtPatternSuffix = gmtPattern.substring(placeholderIndex + 3); // After the "{0}". } if (!gmtPatternPrefix.isEmpty()) { appendWithTtsSpan(builder, gmtPatternPrefix, new TtsSpan.TextBuilder(gmtPatternPrefix).build()); } int offsetMillis = tz.getOffset(now.getTime()); final boolean negative = offsetMillis < 0; final TimeZoneFormat.GMTOffsetPatternType patternType; if (negative) { offsetMillis = -offsetMillis; patternType = TimeZoneFormat.GMTOffsetPatternType.NEGATIVE_HM; } else { patternType = TimeZoneFormat.GMTOffsetPatternType.POSITIVE_HM; } final String gmtOffsetPattern = tzFormatter.getGMTOffsetPattern(patternType); final String localizedDigits = tzFormatter.getGMTOffsetDigits(); final int offsetHours = (int) (offsetMillis / DateUtils.HOUR_IN_MILLIS); final int offsetMinutes = (int) (offsetMillis / DateUtils.MINUTE_IN_MILLIS); final int offsetMinutesRemaining = Math.abs(offsetMinutes) % 60; for (int i = 0; i < gmtOffsetPattern.length(); i++) { char c = gmtOffsetPattern.charAt(i); if (c == '+' || c == '-' || c == '\u2212' /* MINUS SIGN */) { final String sign = String.valueOf(c); appendWithTtsSpan(builder, sign, new TtsSpan.VerbatimBuilder(sign).build()); } else if (c == 'H' || c == 'm') { final int numDigits; if (i + 1 < gmtOffsetPattern.length() && gmtOffsetPattern.charAt(i + 1) == c) { numDigits = 2; i++; // Skip the next formatting character. } else { numDigits = 1; } final int number; final String unit; if (c == 'H') { number = offsetHours; unit = "hour"; } else { // c == 'm' number = offsetMinutesRemaining; unit = "minute"; } appendWithTtsSpan(builder, formatDigits(number, numDigits, localizedDigits), new TtsSpan.MeasureBuilder().setNumber(number).setUnit(unit).build()); } else { builder.append(c); } } if (!gmtPatternSuffix.isEmpty()) { appendWithTtsSpan(builder, gmtPatternSuffix, new TtsSpan.TextBuilder(gmtPatternSuffix).build()); } CharSequence gmtText = new SpannableString(builder); // Ensure that the "GMT+" stays with the "00:00" even if the digits are RTL. final BidiFormatter bidiFormatter = BidiFormatter.getInstance(); boolean isRtl = TextUtils.getLayoutDirectionFromLocale(locale) == View.LAYOUT_DIRECTION_RTL; gmtText = bidiFormatter.unicodeWrap(gmtText, isRtl ? TextDirectionHeuristicsCompat.RTL : TextDirectionHeuristicsCompat.LTR); return gmtText; } private static final class ZoneGetterData { public final String[] olsonIdsToDisplay; public final CharSequence[] gmtOffsetTexts; public final TimeZone[] timeZones; public final Set localZoneIds; public final int zoneCount; public ZoneGetterData(Context context) { final Locale locale = context.getResources().getConfiguration().locale; final TimeZoneFormat tzFormatter = TimeZoneFormat.getInstance(locale); final Date now = new Date(); final List olsonIdsToDisplayList = readTimezonesToDisplay(context); // Load all the data needed to display time zones zoneCount = olsonIdsToDisplayList.size(); olsonIdsToDisplay = new String[zoneCount]; timeZones = new TimeZone[zoneCount]; gmtOffsetTexts = new CharSequence[zoneCount]; for (int i = 0; i < zoneCount; i++) { final String olsonId = olsonIdsToDisplayList.get(i); olsonIdsToDisplay[i] = olsonId; final TimeZone tz = TimeZone.getTimeZone(olsonId); timeZones[i] = tz; gmtOffsetTexts[i] = getGmtOffsetText(tzFormatter, locale, tz, now); } // Create a lookup of local zone IDs. localZoneIds = new HashSet(); for (String olsonId : libcore.icu.TimeZoneNames.forLocale(locale)) { localZoneIds.add(olsonId); } } } }