/* * 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.text.format; import android.content.Context; import android.os.UserHandle; import android.provider.Settings; import android.text.SpannableStringBuilder; import android.text.Spanned; import android.text.SpannedString; import libcore.icu.ICU; import libcore.icu.LocaleData; import java.text.SimpleDateFormat; import java.util.Calendar; import java.util.Date; import java.util.GregorianCalendar; import java.util.Locale; import java.util.TimeZone; /** * Utility class for producing strings with formatted date/time. * *
Most callers should avoid supplying their own format strings to this * class' {@code format} methods and rely on the correctly localized ones * supplied by the system. This class' factory methods return * appropriately-localized {@link java.text.DateFormat} instances, suitable * for both formatting and parsing dates. For the canonical documentation * of format strings, see {@link java.text.SimpleDateFormat}. * *
In cases where the system does not provide a suitable pattern, * this class offers the {@link #getBestDateTimePattern} method. * *
The {@code format} methods in this class implement a subset of Unicode * UTS #35 patterns. * The subset currently supported by this class includes the following format characters: * {@code acdEHhLKkLMmsyz}. Up to API level 17, only {@code adEhkMmszy} were supported. * Note that this class incorrectly implements {@code k} as if it were {@code H} for backwards * compatibility. * *
See {@link java.text.SimpleDateFormat} for more documentation * about patterns, or if you need a more complete or correct implementation. * Note that the non-{@code format} methods in this class are implemented by * {@code SimpleDateFormat}. */ public class DateFormat { /** * @deprecated Use a literal {@code '} instead. * @removed */ @Deprecated public static final char QUOTE = '\''; /** * @deprecated Use a literal {@code 'a'} instead. * @removed */ @Deprecated public static final char AM_PM = 'a'; /** * @deprecated Use a literal {@code 'a'} instead; 'A' was always equivalent to 'a'. * @removed */ @Deprecated public static final char CAPITAL_AM_PM = 'A'; /** * @deprecated Use a literal {@code 'd'} instead. * @removed */ @Deprecated public static final char DATE = 'd'; /** * @deprecated Use a literal {@code 'E'} instead. * @removed */ @Deprecated public static final char DAY = 'E'; /** * @deprecated Use a literal {@code 'h'} instead. * @removed */ @Deprecated public static final char HOUR = 'h'; /** * @deprecated Use a literal {@code 'H'} (for compatibility with {@link SimpleDateFormat} * and Unicode) or {@code 'k'} (for compatibility with Android releases up to and including * Jelly Bean MR-1) instead. Note that the two are incompatible. * * @removed */ @Deprecated public static final char HOUR_OF_DAY = 'k'; /** * @deprecated Use a literal {@code 'm'} instead. * @removed */ @Deprecated public static final char MINUTE = 'm'; /** * @deprecated Use a literal {@code 'M'} instead. * @removed */ @Deprecated public static final char MONTH = 'M'; /** * @deprecated Use a literal {@code 'L'} instead. * @removed */ @Deprecated public static final char STANDALONE_MONTH = 'L'; /** * @deprecated Use a literal {@code 's'} instead. * @removed */ @Deprecated public static final char SECONDS = 's'; /** * @deprecated Use a literal {@code 'z'} instead. * @removed */ @Deprecated public static final char TIME_ZONE = 'z'; /** * @deprecated Use a literal {@code 'y'} instead. * @removed */ @Deprecated public static final char YEAR = 'y'; private static final Object sLocaleLock = new Object(); private static Locale sIs24HourLocale; private static boolean sIs24Hour; /** * Returns true if user preference is set to 24-hour format. * @param context the context to use for the content resolver * @return true if 24 hour time format is selected, false otherwise. */ public static boolean is24HourFormat(Context context) { return is24HourFormat(context, UserHandle.myUserId()); } /** * Returns true if user preference with the given user handle is set to 24-hour format. * @param context the context to use for the content resolver * @param userHandle the user handle of the user to query. * @return true if 24 hour time format is selected, false otherwise. * * @hide */ public static boolean is24HourFormat(Context context, int userHandle) { String value = Settings.System.getStringForUser(context.getContentResolver(), Settings.System.TIME_12_24, userHandle); if (value == null) { Locale locale = context.getResources().getConfiguration().locale; synchronized (sLocaleLock) { if (sIs24HourLocale != null && sIs24HourLocale.equals(locale)) { return sIs24Hour; } } java.text.DateFormat natural = java.text.DateFormat.getTimeInstance(java.text.DateFormat.LONG, locale); if (natural instanceof SimpleDateFormat) { SimpleDateFormat sdf = (SimpleDateFormat) natural; String pattern = sdf.toPattern(); if (pattern.indexOf('H') >= 0) { value = "24"; } else { value = "12"; } } else { value = "12"; } synchronized (sLocaleLock) { sIs24HourLocale = locale; sIs24Hour = value.equals("24"); } return sIs24Hour; } return value.equals("24"); } /** * Returns the best possible localized form of the given skeleton for the given * locale. A skeleton is similar to, and uses the same format characters as, a Unicode * UTS #35 * pattern. * *
One difference is that order is irrelevant. For example, "MMMMd" will return * "MMMM d" in the {@code en_US} locale, but "d. MMMM" in the {@code de_CH} locale. * *
Note also in that second example that the necessary punctuation for German was * added. For the same input in {@code es_ES}, we'd have even more extra text: * "d 'de' MMMM". * *
This method will automatically correct for grammatical necessity. Given the * same "MMMMd" input, this method will return "d LLLL" in the {@code fa_IR} locale, * where stand-alone months are necessary. Lengths are preserved where meaningful, * so "Md" would give a different result to "MMMd", say, except in a locale such as * {@code ja_JP} where there is only one length of month. * *
This method will only return patterns that are in CLDR, and is useful whenever * you know what elements you want in your format string but don't want to make your * code specific to any one locale. * * @param locale the locale into which the skeleton should be localized * @param skeleton a skeleton as described above * @return a string pattern suitable for use with {@link java.text.SimpleDateFormat}. */ public static String getBestDateTimePattern(Locale locale, String skeleton) { return ICU.getBestDateTimePattern(skeleton, locale); } /** * Returns a {@link java.text.DateFormat} object that can format the time according * to the current locale and the user's 12-/24-hour clock preference. * @param context the application context * @return the {@link java.text.DateFormat} object that properly formats the time. */ public static java.text.DateFormat getTimeFormat(Context context) { return new java.text.SimpleDateFormat(getTimeFormatString(context)); } /** * Returns a String pattern that can be used to format the time according * to the current locale and the user's 12-/24-hour clock preference. * @param context the application context * @hide */ public static String getTimeFormatString(Context context) { return getTimeFormatString(context, UserHandle.myUserId()); } /** * Returns a String pattern that can be used to format the time according * to the current locale and the user's 12-/24-hour clock preference. * @param context the application context * @param userHandle the user handle of the user to query the format for * @hide */ public static String getTimeFormatString(Context context, int userHandle) { LocaleData d = LocaleData.get(context.getResources().getConfiguration().locale); return is24HourFormat(context, userHandle) ? d.timeFormat_Hm : d.timeFormat_hm; } /** * Returns a {@link java.text.DateFormat} object that can format the date * in short form according to the current locale. * * @param context the application context * @return the {@link java.text.DateFormat} object that properly formats the date. */ public static java.text.DateFormat getDateFormat(Context context) { return java.text.DateFormat.getDateInstance(java.text.DateFormat.SHORT); } /** * Returns a {@link java.text.DateFormat} object that can format the date * in long form (such as {@code Monday, January 3, 2000}) for the current locale. * @param context the application context * @return the {@link java.text.DateFormat} object that formats the date in long form. */ public static java.text.DateFormat getLongDateFormat(Context context) { return java.text.DateFormat.getDateInstance(java.text.DateFormat.LONG); } /** * Returns a {@link java.text.DateFormat} object that can format the date * in medium form (such as {@code Jan 3, 2000}) for the current locale. * @param context the application context * @return the {@link java.text.DateFormat} object that formats the date in long form. */ public static java.text.DateFormat getMediumDateFormat(Context context) { return java.text.DateFormat.getDateInstance(java.text.DateFormat.MEDIUM); } /** * Gets the current date format stored as a char array. Returns a 3 element * array containing the day ({@code 'd'}), month ({@code 'M'}), and year ({@code 'y'})) * in the order specified by the user's format preference. Note that this order is * only appropriate for all-numeric dates; spelled-out (MEDIUM and LONG) * dates will generally contain other punctuation, spaces, or words, * not just the day, month, and year, and not necessarily in the same * order returned here. */ public static char[] getDateFormatOrder(Context context) { return ICU.getDateFormatOrder(getDateFormatString()); } private static String getDateFormatString() { java.text.DateFormat df = java.text.DateFormat.getDateInstance(java.text.DateFormat.SHORT); if (df instanceof SimpleDateFormat) { return ((SimpleDateFormat) df).toPattern(); } throw new AssertionError("!(df instanceof SimpleDateFormat)"); } /** * Given a format string and a time in milliseconds since Jan 1, 1970 GMT, returns a * CharSequence containing the requested date. * @param inFormat the format string, as described in {@link android.text.format.DateFormat} * @param inTimeInMillis in milliseconds since Jan 1, 1970 GMT * @return a {@link CharSequence} containing the requested text */ public static CharSequence format(CharSequence inFormat, long inTimeInMillis) { return format(inFormat, new Date(inTimeInMillis)); } /** * Given a format string and a {@link java.util.Date} object, returns a CharSequence containing * the requested date. * @param inFormat the format string, as described in {@link android.text.format.DateFormat} * @param inDate the date to format * @return a {@link CharSequence} containing the requested text */ public static CharSequence format(CharSequence inFormat, Date inDate) { Calendar c = new GregorianCalendar(); c.setTime(inDate); return format(inFormat, c); } /** * Indicates whether the specified format string contains seconds. * * Always returns false if the input format is null. * * @param inFormat the format string, as described in {@link android.text.format.DateFormat} * * @return true if the format string contains {@link #SECONDS}, false otherwise * * @hide */ public static boolean hasSeconds(CharSequence inFormat) { return hasDesignator(inFormat, SECONDS); } /** * Test if a format string contains the given designator. Always returns * {@code false} if the input format is {@code null}. * * @hide */ public static boolean hasDesignator(CharSequence inFormat, char designator) { if (inFormat == null) return false; final int length = inFormat.length(); int c; int count; for (int i = 0; i < length; i += count) { count = 1; c = inFormat.charAt(i); if (c == QUOTE) { count = skipQuotedText(inFormat, i, length); } else if (c == designator) { return true; } } return false; } private static int skipQuotedText(CharSequence s, int i, int len) { if (i + 1 < len && s.charAt(i + 1) == QUOTE) { return 2; } int count = 1; // skip leading quote i++; while (i < len) { char c = s.charAt(i); if (c == QUOTE) { count++; // QUOTEQUOTE -> QUOTE if (i + 1 < len && s.charAt(i + 1) == QUOTE) { i++; } else { break; } } else { i++; count++; } } return count; } /** * Given a format string and a {@link java.util.Calendar} object, returns a CharSequence * containing the requested date. * @param inFormat the format string, as described in {@link android.text.format.DateFormat} * @param inDate the date to format * @return a {@link CharSequence} containing the requested text */ public static CharSequence format(CharSequence inFormat, Calendar inDate) { SpannableStringBuilder s = new SpannableStringBuilder(inFormat); int count; LocaleData localeData = LocaleData.get(Locale.getDefault()); int len = inFormat.length(); for (int i = 0; i < len; i += count) { count = 1; int c = s.charAt(i); if (c == QUOTE) { count = appendQuotedText(s, i, len); len = s.length(); continue; } while ((i + count < len) && (s.charAt(i + count) == c)) { count++; } String replacement; switch (c) { case 'A': case 'a': replacement = localeData.amPm[inDate.get(Calendar.AM_PM) - Calendar.AM]; break; case 'd': replacement = zeroPad(inDate.get(Calendar.DATE), count); break; case 'c': case 'E': replacement = getDayOfWeekString(localeData, inDate.get(Calendar.DAY_OF_WEEK), count, c); break; case 'K': // hour in am/pm (0-11) case 'h': // hour in am/pm (1-12) { int hour = inDate.get(Calendar.HOUR); if (c == 'h' && hour == 0) { hour = 12; } replacement = zeroPad(hour, count); } break; case 'H': // hour in day (0-23) case 'k': // hour in day (1-24) [but see note below] { int hour = inDate.get(Calendar.HOUR_OF_DAY); // Historically on Android 'k' was interpreted as 'H', which wasn't // implemented, so pretty much all callers that want to format 24-hour // times are abusing 'k'. http://b/8359981. if (false && c == 'k' && hour == 0) { hour = 24; } replacement = zeroPad(hour, count); } break; case 'L': case 'M': replacement = getMonthString(localeData, inDate.get(Calendar.MONTH), count, c); break; case 'm': replacement = zeroPad(inDate.get(Calendar.MINUTE), count); break; case 's': replacement = zeroPad(inDate.get(Calendar.SECOND), count); break; case 'y': replacement = getYearString(inDate.get(Calendar.YEAR), count); break; case 'z': replacement = getTimeZoneString(inDate, count); break; default: replacement = null; break; } if (replacement != null) { s.replace(i, i + count, replacement); count = replacement.length(); // CARE: count is used in the for loop above len = s.length(); } } if (inFormat instanceof Spanned) { return new SpannedString(s); } else { return s.toString(); } } private static String getDayOfWeekString(LocaleData ld, int day, int count, int kind) { boolean standalone = (kind == 'c'); if (count == 5) { return standalone ? ld.tinyStandAloneWeekdayNames[day] : ld.tinyWeekdayNames[day]; } else if (count == 4) { return standalone ? ld.longStandAloneWeekdayNames[day] : ld.longWeekdayNames[day]; } else { return standalone ? ld.shortStandAloneWeekdayNames[day] : ld.shortWeekdayNames[day]; } } private static String getMonthString(LocaleData ld, int month, int count, int kind) { boolean standalone = (kind == 'L'); if (count == 5) { return standalone ? ld.tinyStandAloneMonthNames[month] : ld.tinyMonthNames[month]; } else if (count == 4) { return standalone ? ld.longStandAloneMonthNames[month] : ld.longMonthNames[month]; } else if (count == 3) { return standalone ? ld.shortStandAloneMonthNames[month] : ld.shortMonthNames[month]; } else { // Calendar.JANUARY == 0, so add 1 to month. return zeroPad(month+1, count); } } private static String getTimeZoneString(Calendar inDate, int count) { TimeZone tz = inDate.getTimeZone(); if (count < 2) { // FIXME: shouldn't this be <= 2 ? return formatZoneOffset(inDate.get(Calendar.DST_OFFSET) + inDate.get(Calendar.ZONE_OFFSET), count); } else { boolean dst = inDate.get(Calendar.DST_OFFSET) != 0; return tz.getDisplayName(dst, TimeZone.SHORT); } } private static String formatZoneOffset(int offset, int count) { offset /= 1000; // milliseconds to seconds StringBuilder tb = new StringBuilder(); if (offset < 0) { tb.insert(0, "-"); offset = -offset; } else { tb.insert(0, "+"); } int hours = offset / 3600; int minutes = (offset % 3600) / 60; tb.append(zeroPad(hours, 2)); tb.append(zeroPad(minutes, 2)); return tb.toString(); } private static String getYearString(int year, int count) { return (count <= 2) ? zeroPad(year % 100, 2) : String.format(Locale.getDefault(), "%d", year); } private static int appendQuotedText(SpannableStringBuilder s, int i, int len) { if (i + 1 < len && s.charAt(i + 1) == QUOTE) { s.delete(i, i + 1); return 1; } int count = 0; // delete leading quote s.delete(i, i + 1); len--; while (i < len) { char c = s.charAt(i); if (c == QUOTE) { // QUOTEQUOTE -> QUOTE if (i + 1 < len && s.charAt(i + 1) == QUOTE) { s.delete(i, i + 1); len--; count++; i++; } else { // Closing QUOTE ends quoted text copying s.delete(i, i + 1); break; } } else { i++; count++; } } return count; } private static String zeroPad(int inValue, int inMinDigits) { return String.format(Locale.getDefault(), "%0" + inMinDigits + "d", inValue); } }