public static Calendar UTC2Calendar(String dateTime) throws UtilitiesException { Matcher m = UTC_PATTERNER.matcher(dateTime); if (m.matches() && m.groupCount() == 9) { int parts[] = new int[8]; int i; for (i = 0; i < 6; i++) parts[i] = Integer.parseInt(m.group(i + 1)); String ms = m.group(i + 1); if (ms == null) { parts[i++] = 0; } else { if (ms.length() > 3) ms = ms.substring(0, 3); parts[i++] = Integer.parseInt(ms); } String tzStr = m.group(i + 1); TimeZone tz = null; if (tzStr == null || tzStr.equals("Z")) tz = TimeZone.getTimeZone("UTC"); else tz = TimeZone.getTimeZone("GMT" + tzStr); Calendar c = Calendar.getInstance(); c.clear(); c.setTimeZone(tz); c.set(parts[0], parts[1] - 1, parts[2], parts[3], parts[4], parts[5]); c.add(14, parts[6]); return c; } else { throw new UtilitiesException("Unable to convert datetime to UTC format:" + dateTime); } }
public TimezoneTest(String name) { super(name); TimeZone UTC = TimeZone.getTimeZone("UTC"); // +0000 always TimeZone GMT03 = TimeZone.getTimeZone("GMT+03"); // +0300 always TimeZone GMT05 = TimeZone.getTimeZone("GMT-05"); // -0500 always TimeZone GMT13 = TimeZone.getTimeZone("GMT+13"); // +1000 always cUTC = Calendar.getInstance(UTC); cGMT03 = Calendar.getInstance(GMT03); cGMT05 = Calendar.getInstance(GMT05); cGMT13 = Calendar.getInstance(GMT13); }
void dateTest() throws RuntimeException { Locale locTH = new Locale("th", "TH", "TH"); TimeZone tz = TimeZone.getTimeZone("PST"); Calendar calGregorian = Calendar.getInstance(tz, Locale.US); calGregorian.clear(); calGregorian.set(2002, 4, 1, 8, 30); final Date date = calGregorian.getTime(); Calendar cal = Calendar.getInstance(tz, locTH); cal.clear(); cal.setTime(date); final String strExpected = "\u0E27\u0E31\u0E19\u0E1E\u0E38\u0E18\u0E17\u0E35\u0E48\u0020\u0E51\u0020\u0E1E\u0E24\u0E29\u0E20\u0E32\u0E04\u0E21\u0020\u0E1E\u002E\u0E28\u002E\u0020\u0E52\u0E55\u0E54\u0E55\u002C\u0020\u0E58\u0020\u0E19\u0E32\u0E2C\u0E34\u0E01\u0E32\u0020\u0E53\u0E50\u0020\u0E19\u0E32\u0E17\u0E35\u0020\u0E50\u0E50\u0020\u0E27\u0E34\u0E19\u0E32\u0E17\u0E35"; Date value = cal.getTime(); // th_TH_TH test DateFormat df = DateFormat.getDateTimeInstance(DateFormat.FULL, DateFormat.FULL, locTH); df.setTimeZone(tz); String str = df.format(value); if (!strExpected.equals(str)) { throw new RuntimeException(); } }
@InitBinder("systemNotificationForm") protected void initBinder(WebDataBinder binder) { binder.setValidator(systemNotificationValidator); SimpleDateFormat sdf = new SimpleDateFormat("MM/dd/yyyy HH:mm"); sdf.setTimeZone(TimeZone.getTimeZone("GMT")); binder.registerCustomEditor(Date.class, new CustomDateEditor(sdf, true)); binder.registerCustomEditor( SystemNotificationType.class, new EnumEditor(SystemNotificationType.class)); binder.registerCustomEditor( SystemNotificationSeverity.class, new EnumEditor(SystemNotificationSeverity.class)); binder.registerCustomEditor( List.class, "types", new CustomCollectionEditor(List.class) { @Override protected Object convertElement(Object element) { SystemNotificationType type = null; if (element != null) { try { type = SystemNotificationType.valueOf((String) element); } catch (Exception ex) { log.error( String.format( "Error converting element to SystemNotificationType: %s", element), ex); } } return type; } }); }
@Override public void init() throws ServletException { // TODO Auto-generated method stub super.init(); filePath = getServletContext().getRealPath("") + File.separator + "schedule.ics"; try { ical.getProperties().add(new ProdId("-//Ben Fortuna//iCal4j 1.0//EN")); ical.getProperties().add(Version.VERSION_2_0); ical.getProperties().add(CalScale.GREGORIAN); } catch (Exception e) { System.out.println("iCalendar failed to import"); } registry = TimeZoneRegistryFactory.getInstance().createRegistry(); timezone = registry.getTimeZone("America/New_York"); tz = timezone.getVTimeZone(); try { // Register the driver. Class.forName("org.postgresql.Driver").newInstance(); } catch (Exception e) { e.printStackTrace(); } String url = "jdbc:postgresql://hopper.cs.wlu.edu/corsola"; try { con = DriverManager.getConnection(url, "web", ""); } catch (SQLException e) { e.printStackTrace(); } }
/** * Takes a packed-stream InputStream, and writes to a JarOutputStream. Internally the entire * buffer must be read, it may be more efficient to read the packed-stream to a file and pass the * File object, in the alternate method described below. * * <p>Closes its input but not its output. (The output can accumulate more elements.) * * @param in an InputStream. * @param out a JarOutputStream. * @exception IOException if an error is encountered. */ public void unpack(InputStream in0, JarOutputStream out) throws IOException { assert (Utils.currentInstance.get() == null); TimeZone tz = (_props.getBoolean(Utils.PACK_DEFAULT_TIMEZONE)) ? null : TimeZone.getDefault(); try { Utils.currentInstance.set(this); if (tz != null) TimeZone.setDefault(TimeZone.getTimeZone("UTC")); final int verbose = _props.getInteger(Utils.DEBUG_VERBOSE); BufferedInputStream in = new BufferedInputStream(in0); if (Utils.isJarMagic(Utils.readMagic(in))) { if (verbose > 0) Utils.log.info("Copying unpacked JAR file..."); Utils.copyJarFile(new JarInputStream(in), out); } else if (_props.getBoolean(Utils.DEBUG_DISABLE_NATIVE)) { (new DoUnpack()).run(in, out); in.close(); Utils.markJarFile(out); } else { (new NativeUnpack(this)).run(in, out); in.close(); Utils.markJarFile(out); } } finally { _nunp = null; Utils.currentInstance.set(null); if (tz != null) TimeZone.setDefault(tz); } }
DataContextImpl(OptiqConnectionImpl connection, List<Object> parameterValues) { this.queryProvider = connection; this.typeFactory = connection.getTypeFactory(); this.rootSchema = connection.rootSchema; // Store the time at which the query started executing. The SQL // standard says that functions such as CURRENT_TIMESTAMP return the // same value throughout the query. final long time = System.currentTimeMillis(); final TimeZone timeZone = connection.getTimeZone(); final long localOffset = timeZone.getOffset(time); final long currentOffset = localOffset; ImmutableMap.Builder<Object, Object> builder = ImmutableMap.builder(); builder .put("utcTimestamp", time) .put("currentTimestamp", time + currentOffset) .put("localTimestamp", time + localOffset) .put("timeZone", timeZone); for (Ord<Object> value : Ord.zip(parameterValues)) { Object e = value.e; if (e == null) { e = AvaticaParameter.DUMMY_VALUE; } builder.put("?" + value.i, e); } map = builder.build(); }
public int compare(TimeZone o1, TimeZone o2) { int result = o1.getRawOffset() - o2.getRawOffset(); if (result == 0) result = o1.getDisplayName(locale).compareTo(o2.getDisplayName(locale)); return result; }
public void testDateIssues() throws Exception { // test System.currentTimeMillis() long myApproximateTime = (long) 1.4412384e+12; // the current time of test execution long ct = System.currentTimeMillis(); assertTrue(ct > myApproximateTime); // test date conversion and millisecond diffing DateFormat DATE_FORMAT = new SimpleDateFormat("dd/MM/yy"); DATE_FORMAT.setTimeZone(TimeZone.getTimeZone("America/Los_Angeles")); DateFormat DATE_FORMAT2 = new SimpleDateFormat("dd/MM/yy"); DATE_FORMAT2.setTimeZone(TimeZone.getTimeZone("Europe/Rome")); Date d1 = DATE_FORMAT.parse( "13/09/15"); // the same date comes before in Europe than in America/Pacific Date d2 = DATE_FORMAT2.parse("13/09/15"); assertTrue(d2.compareTo(d1) < 0); assertTrue(d2.getTime() < d1.getTime()); long diff = d1.getTime() - d2.getTime(); long hoursDiff = TimeUnit.HOURS.convert(diff, TimeUnit.MILLISECONDS); assertTrue(hoursDiff == 9L); // parse milliseconds, compare dates Date d3 = new Date(myApproximateTime); Date d4 = new Date(ct); assertTrue(d4.compareTo(d3) > 0); }
/** * Parse the given {@code timeZoneString} value into a {@link TimeZone}. * * @param timeZoneString the time zone String, following {@link TimeZone#getTimeZone(String)} but * throwing {@link IllegalArgumentException} in case of an invalid time zone specification * @return a corresponding {@link TimeZone} instance * @throws IllegalArgumentException in case of an invalid time zone specification */ public static TimeZone parseTimeZoneString(String timeZoneString) { TimeZone timeZone = TimeZone.getTimeZone(timeZoneString); if ("GMT".equals(timeZone.getID()) && !timeZoneString.startsWith("GMT")) { // We don't want that GMT fallback... throw new IllegalArgumentException( "Invalid time zone specification '" + timeZoneString + "'"); } return timeZone; }
public void test_toOffsetTime_variableOffset() { GregorianCalendar gcal = new GregorianCalendar(TimeZone.getTimeZone("Europe/Paris")); gcal.set(2008, 0, 1, 0, 0, 0); gcal.set(Calendar.MILLISECOND, 0); for (int i = 0; i < 500; i++) { OffsetTime test = gcal.toOffsetTime(); assertEquals(test.toLocalTime().toNanoOfDay(), 0); boolean isDST = TimeZone.getTimeZone("Europe/Paris").inDaylightTime(gcal.getTime()); assertEquals(test.getOffset().getID(), isDST ? "+02:00" : "+01:00"); gcal.add(Calendar.DATE, 1); } }
/** * Converts a Date in default time zone to client's time zone. * * @param inputDate a date in the default time zone * @return a date in the client time zone */ private Date convertDateToClientTimeZone(Date inputDate) { Calendar c = Calendar.getInstance(locale); c.setTime(inputDate); TimeZone clientZone = timeZoneTracker.getClientTimeZone(); TimeZone defaultZone = TimeZone.getDefault(); long now = System.currentTimeMillis(); int offset = defaultZone.getOffset(now) - clientZone.getOffset(now); c.add(Calendar.MILLISECOND, offset); return c.getTime(); }
void test1() { Locale[] available = Locale.getAvailableLocales(); List<Locale> jreimplloc = Arrays.asList( LocaleProviderAdapter.forJRE().getTimeZoneNameProvider().getAvailableLocales()); List<Locale> providerLocales = Arrays.asList(tznp.getAvailableLocales()); String[] ids = TimeZone.getAvailableIDs(); for (Locale target : available) { // pure JRE implementation OpenListResourceBundle rb = ((ResourceBundleBasedAdapter) LocaleProviderAdapter.forJRE()) .getLocaleData() .getTimeZoneNames(target); boolean jreSupportsTarget = jreimplloc.contains(target); for (String id : ids) { // the time zone TimeZone tz = TimeZone.getTimeZone(id); // JRE string array for the id String[] jrearray = null; if (jreSupportsTarget) { try { jrearray = rb.getStringArray(id); } catch (MissingResourceException mre) { } } for (int i = 1; i <= (tz.useDaylightTime() ? 4 : 2); i++) { // the localized name String name = tz.getDisplayName(i >= 3, i % 2, target); // provider's name (if any) String providersname = null; if (providerLocales.contains(target)) { providersname = tznp.getDisplayName(id, i >= 3, i % 2, target); } // JRE's name String jresname = null; if (jrearray != null) { jresname = jrearray[i]; } checkValidity( target, jresname, providersname, name, jreSupportsTarget && jresname != null); } } } }
/** This code borrowed from Piesquared on irc.nexuswar.com */ private TimeZone tZF(String search) { if (search.equals("")) return TimeZone.getTimeZone("GMT"); search = search.toLowerCase(); search = search.replace("+", "\\+"); search = search.replace("*", "\\*"); search = search.replace("?", "\\?"); String[] zones = TimeZone.getAvailableIDs(); for (int i = 0; i < zones.length; i++) if (zones[i].toLowerCase().equals(search)) return TimeZone.getTimeZone(zones[i]); for (int i = 0; i < zones.length; i++) if (zones[i].toLowerCase().matches(".*" + search + ".*")) return TimeZone.getTimeZone(zones[i]); return TimeZone.getTimeZone("GMT"); }
void test2() { Locale defaultLocale = Locale.getDefault(); TimeZone reservedTimeZone = TimeZone.getDefault(); Date d = new Date(2005 - 1900, Calendar.DECEMBER, 22); String formatted; TimeZone tz; SimpleDateFormat df; try { for (int i = 0; i < TIMEZONES.length; i++) { tz = TimeZone.getTimeZone(TIMEZONES[i]); TimeZone.setDefault(tz); df = new SimpleDateFormat(pattern, DateFormatSymbols.getInstance(OSAKA)); Locale.setDefault(defaultLocale); System.out.println(formatted = df.format(d)); if (!formatted.equals(DISPLAY_NAMES_OSAKA[i])) { throw new RuntimeException( "TimeZone " + TIMEZONES[i] + ": formatted zone names mismatch. " + formatted + " should match with " + DISPLAY_NAMES_OSAKA[i]); } df.parse(DISPLAY_NAMES_OSAKA[i]); Locale.setDefault(KYOTO); df = new SimpleDateFormat(pattern, DateFormatSymbols.getInstance()); System.out.println(formatted = df.format(d)); if (!formatted.equals(DISPLAY_NAMES_KYOTO[i])) { throw new RuntimeException( "Timezone " + TIMEZONES[i] + ": formatted zone names mismatch. " + formatted + " should match with " + DISPLAY_NAMES_KYOTO[i]); } df.parse(DISPLAY_NAMES_KYOTO[i]); } } catch (ParseException pe) { throw new RuntimeException("parse error occured" + pe); } finally { // restore the reserved locale and time zone Locale.setDefault(defaultLocale); TimeZone.setDefault(reservedTimeZone); } }
private void setTimeZone(String line) throws JBookTraderException { String timeZone = line.substring(line.indexOf('=') + 1); TimeZone tz = TimeZone.getTimeZone(timeZone); if (!tz.getID().equals(timeZone)) { String msg = "The specified time zone " + "\"" + timeZone + "\"" + " does not exist." + LINE_SEP; msg += "Examples of valid time zones: " + " America/New_York, Europe/London, Asia/Singapore."; throw new JBookTraderException(msg); } sdf = new SimpleDateFormat("MMddyyHHmmss"); // Enforce strict interpretation of date and time formats sdf.setLenient(false); sdf.setTimeZone(tz); }
public void test_toOffsetDate_variableOffset() { GregorianCalendar gcal = new GregorianCalendar(TimeZone.getTimeZone("Europe/Paris")); gcal.set(2008, 0, 1, 0, 0, 0); gcal.set(Calendar.MILLISECOND, 0); for (int i = 0; i < 500; i++) { OffsetDate test = gcal.toOffsetDate(); assertEquals(test.getYear(), gcal.get(Calendar.YEAR)); assertEquals(test.getMonthOfYear().getValue(), gcal.get(Calendar.MONTH) + 1); assertEquals(test.getDayOfMonth(), gcal.get(Calendar.DATE)); assertEquals(test.getYear(), i < 366 ? 2008 : 2009); boolean isDST = TimeZone.getTimeZone("Europe/Paris").inDaylightTime(gcal.getTime()); assertEquals(test.getOffset().getID(), isDST ? "+02:00" : "+01:00"); gcal.add(Calendar.DATE, 1); } }
/** * Converts this <code>Date</code> object to a <code>String</code>. The output format is as * follows: * * <blockquote> * * <pre>yyyy MM dd hh mm ss +zzzz</pre> * * </blockquote> * * where: * * <ul> * <li> * <dd>yyyy is the year, as four decimal digits. Year values larger than * <dd>9999 will be truncated to * <dd>9999. * <li> * <dd>MM is the month ( * <dd>01 through * <dd>12), as two decimal digits. * <li> * <dd>dd is the day of the month ( * <dd>01 through * <dd>31), as two decimal digits. * <li> * <dd>hh is the hour of the day ( * <dd>00 through * <dd>23), as two decimal digits. * <li> * <dd>mm is the minute within the hour ( * <dd>00 through * <dd>59), as two decimal digits. * <li> * <dd>ss is the second within the minute ( * <dd>00 through * <dd>59), as two decimal digits. * <li> * <dd>zzzz is the time zone offset in hours and minutes (four decimal digits * <dd>"hhmm") relative to GMT, preceded by a "+" or "-" character ( * <dd>-1200 through * <dd>+1200). For instance, Pacific Standard Time zone is printed as * <dd>-0800. GMT is printed as * <dd>+0000. * </ul> * * @return a string representation of this date. */ public static String toISO8601String(Calendar calendar) { // Printing in the absence of a Calendar // implementation class is not supported if (calendar == null) { return "0000 00 00 00 00 00 +0000"; } int year = calendar.get(Calendar.YEAR); int month = calendar.get(Calendar.MONTH) + 1; int day = calendar.get(Calendar.DAY_OF_MONTH); int hour_of_day = calendar.get(Calendar.HOUR_OF_DAY); int hour = calendar.get(Calendar.HOUR); int minute = calendar.get(Calendar.MINUTE); int seconds = calendar.get(Calendar.SECOND); String yr = Integer.toString(year); // The total size of the string buffer // yr.length+1+2+1+2+1+2+1+2+1+2+1+5 = 25 + yr.length StringBuffer sb = new StringBuffer(25 + yr.length()); appendFourDigits(sb, year).append(' '); appendTwoDigits(sb, month).append(' '); appendTwoDigits(sb, day).append(' '); appendTwoDigits(sb, hour_of_day).append(' '); appendTwoDigits(sb, minute).append(' '); appendTwoDigits(sb, seconds).append(' '); // TimeZone offset is represented in milliseconds. // Convert the offset to minutes: TimeZone t = calendar.getTimeZone(); int zoneOffsetInMinutes = t.getRawOffset() / 1000 / 60; if (zoneOffsetInMinutes < 0) { zoneOffsetInMinutes = Math.abs(zoneOffsetInMinutes); sb.append('-'); } else { sb.append('+'); } int zoneHours = zoneOffsetInMinutes / 60; int zoneMinutes = zoneOffsetInMinutes % 60; appendTwoDigits(sb, zoneHours); appendTwoDigits(sb, zoneMinutes); return sb.toString(); }
/** Returns the time zone for which this <code>CronExpression</code> will be resolved. */ public TimeZone getTimeZone() { if (timeZone == null) { timeZone = TimeZone.getDefault(); } return timeZone; }
/** * Creates the Hadoop authentication HTTP cookie. * * @param token authentication token for the cookie. * @param expires UNIX timestamp that indicates the expire date of the cookie. It has no effect if * its value < 0. * <p>XXX the following code duplicate some logic in Jetty / Servlet API, because of the fact * that Hadoop is stuck at servlet 2.5 and jetty 6 right now. */ public static void createAuthCookie( HttpServletResponse resp, String token, String domain, String path, long expires, boolean isSecure) { StringBuilder sb = new StringBuilder(AuthenticatedURL.AUTH_COOKIE).append("="); if (token != null && token.length() > 0) { sb.append("\"").append(token).append("\""); } sb.append("; Version=1"); if (path != null) { sb.append("; Path=").append(path); } if (domain != null) { sb.append("; Domain=").append(domain); } if (expires >= 0) { Date date = new Date(expires); SimpleDateFormat df = new SimpleDateFormat("EEE, " + "dd-MMM-yyyy HH:mm:ss zzz"); df.setTimeZone(TimeZone.getTimeZone("GMT")); sb.append("; Expires=").append(df.format(date)); } if (isSecure) { sb.append("; Secure"); } sb.append("; HttpOnly"); resp.addHeader("Set-Cookie", sb.toString()); }
protected void tearDown() throws Exception { // System.err.println("++++++ TESTS END (" + getName() + ") ++++++"); TimeZone.setDefault(saveTZ); TestUtil.dropTable(con, "testtimezone"); TestUtil.closeDB(con); }
private void finalizePartitionsUpTo(String topic, Calendar calendar) throws IOException, ParseException, InterruptedException { NavigableSet<Calendar> partitionDates = getPartitions(topic).headSet(calendar, true).descendingSet(); final String s3Prefix = "s3n://" + mConfig.getS3Bucket() + "/" + mConfig.getS3Path(); SimpleDateFormat format = new SimpleDateFormat("yyyy-MM-dd"); format.setTimeZone(TimeZone.getTimeZone("UTC")); for (Calendar partition : partitionDates) { String partitionStr = format.format(partition.getTime()); String[] partitions = {"dt=" + partitionStr}; LogFilePath logFilePath = new LogFilePath( s3Prefix, topic, partitions, mConfig.getGeneration(), 0, 0, mFileExtension); String logFileDir = logFilePath.getLogFileDir(); assert FileUtil.exists(logFileDir) : "FileUtil.exists(" + logFileDir + ")"; String successFilePath = logFileDir + "/_SUCCESS"; if (FileUtil.exists(successFilePath)) { return; } try { mQuboleClient.addPartition(mConfig.getHivePrefix() + topic, "dt='" + partitionStr + "'"); } catch (Exception e) { LOG.error("failed to finalize topic " + topic + " partition dt=" + partitionStr, e); continue; } LOG.info("touching file " + successFilePath); FileUtil.touch(successFilePath); } }
public static Collection<BatchPoints> create( int chunksize, String db, ZeitreihenDTO... zeitreihenDTOs) throws ParseException { List<Point> points = new ArrayList<>(); for (ZeitreihenDTO zeitreihenDTO : zeitreihenDTOs) { for (Long timestamp : timestamps(zeitreihenDTO)) { GregorianCalendar calendar = new GregorianCalendar(); calendar.setTimeZone(TimeZone.getTimeZone("UTC")); calendar.setTimeInMillis(timestamp); int monat = calendar.get(Calendar.MONTH) + 1; int jahr = calendar.get(Calendar.YEAR); points.add( Point.measurement("lastgang") .tag("zaehlpunktbezeichnung", zeitreihenDTO.zaehlpunktbezeichnung) .tag("commodity", zeitreihenDTO.commodity) .tag("zaehlverfahren", zeitreihenDTO.zaehlverfahren) .tag("monat", String.valueOf(monat)) .tag("jahr", String.valueOf(jahr)) .time(timestamp, TimeUnit.MILLISECONDS) .field("value", randomValue()) .build()); } } Collection<BatchPoints> batchPoints = new ArrayList<>(); Lists.partition(points, chunksize) .forEach( chunk -> { BatchPoints bp = BatchPoints.database(db).retentionPolicy("default").build(); chunk.forEach(bp::point); batchPoints.add(bp); }); return batchPoints; }
public static BatchPoints create(String db, ZeitreihenDTO... zeitreihenDTOs) throws ParseException { BatchPoints batchPoints = BatchPoints.database(db).retentionPolicy("default").build(); for (ZeitreihenDTO zeitreihenDTO : zeitreihenDTOs) { for (Long timestamp : timestamps(zeitreihenDTO)) { GregorianCalendar calendar = new GregorianCalendar(); calendar.setTimeZone(TimeZone.getTimeZone("UTC")); calendar.setTimeInMillis(timestamp); int monat = calendar.get(Calendar.MONTH) + 1; int jahr = calendar.get(Calendar.YEAR); batchPoints.point( Point.measurement("lastgang") .tag("zaehlpunktbezeichnung", zeitreihenDTO.zaehlpunktbezeichnung) .tag("commodity", zeitreihenDTO.commodity) .tag("zaehlverfahren", zeitreihenDTO.zaehlverfahren) .tag("monat", String.valueOf(monat)) .tag("jahr", String.valueOf(jahr)) .time(timestamp, TimeUnit.MILLISECONDS) .field("value", randomValue()) .build()); } } return batchPoints; }
public static String date2UTC(Date dateTime, TimeZone timeZone) throws UtilitiesException { try { DecimalFormat twoDigits; String utc; String sign; int hours; int minutes; SimpleDateFormat dateFormatter = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss.SSS"); dateFormatter.setLenient(false); dateFormatter.setTimeZone(timeZone); twoDigits = new DecimalFormat("00"); utc = dateFormatter.format(dateTime); int tzOffset = timeZone.getOffset(dateTime.getTime()); sign = "+"; if (tzOffset < 0) { sign = "-"; tzOffset = -tzOffset; } hours = tzOffset / 0x36ee80; minutes = (tzOffset % 0x36ee80) / 60000; return (new StringBuffer(utc.length() + 7)) .append(utc) .append(sign) .append(twoDigits.format(hours)) .append(":") .append(twoDigits.format(minutes)) .toString(); } catch (Exception ex) { throw new hk.hku.cecid.piazza.commons.util.UtilitiesException(ex); } }
public static String getCurrentUTCDateTime() { try { return date2UTC(new Date(), TimeZone.getDefault()); } catch (UtilitiesException ex) { return null; } }
@Override public String toString(long timestamp, String timezone) { // Por enquanto, o fuso horĂ¡rio deve ser UTC: assert timezone.equals("UTC"); DateFormat formatter = new SimpleDateFormat(DEFAULT_FORMAT); formatter.setTimeZone(TimeZone.getTimeZone(timezone)); return formatter.format(new Date(timestamp * 1000)) + " " + timezone; }
@Override public void setUp() { Calendar cal = new GregorianCalendar(2007, 8 - 1, 13, 19, 51, 23); cal.setTimeZone(TimeZone.getTimeZone("GMT")); cal.set(Calendar.MILLISECOND, 0); date = cal.getTime(); df = new ISO8601DateFormat(); }
private static Date shift(Date v) { if (v == null) { return null; } long time = v.getTime(); int offset = TimeZone.getDefault().getOffset(time); return new Date(time + offset); }
private static Time shift(Time v) { if (v == null) { return null; } long time = v.getTime(); int offset = TimeZone.getDefault().getOffset(time); return new Time((time + offset) % DateTimeUtil.MILLIS_PER_DAY); }