GetUtcOffset() public abstract method

public abstract GetUtcOffset ( System.DateTime time ) : System.TimeSpan
time System.DateTime
return System.TimeSpan
Example #1
0
	private void CET (TimeZone t1) 
	{
		Assert.AreEqual("CET", t1.StandardName, "A01");
		Assert.AreEqual("CEST", t1.DaylightName, "A02");
	
		DaylightTime d1 = t1.GetDaylightChanges (2002);
		Assert.AreEqual("03/31/2002 02:00:00", d1.Start.ToString ("G", CultureInfo.InvariantCulture), "A03");
		Assert.AreEqual("10/27/2002 03:00:00", d1.End.ToString ("G", CultureInfo.InvariantCulture), "A04");
		Assert.AreEqual(36000000000L, d1.Delta.Ticks, "A05");
	
		DaylightTime d2 = t1.GetDaylightChanges (1996);
		Assert.AreEqual("03/31/1996 02:00:00", d2.Start.ToString ("G", CultureInfo.InvariantCulture), "A06");
		Assert.AreEqual("10/27/1996 03:00:00", d2.End.ToString ("G", CultureInfo.InvariantCulture), "A07");
		Assert.AreEqual(36000000000L, d2.Delta.Ticks, "A08");
	
		DateTime d3 = new DateTime (2002,2,25);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d3), "A09");
		DateTime d4 = new DateTime (2002,4,2);
		Assert.AreEqual(true, t1.IsDaylightSavingTime (d4), "A10");
		DateTime d5 = new DateTime (2002,11,4);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d5), "A11");
	
		Assert.AreEqual(36000000000L, t1.GetUtcOffset (d3).Ticks, "A12");
		Assert.AreEqual(72000000000L, t1.GetUtcOffset (d4).Ticks, "A13");
		Assert.AreEqual(36000000000L, t1.GetUtcOffset (d5).Ticks, "A14");

		// Test TimeZone methods with UTC DateTime in DST.
		DateTime d6 = d4.ToUniversalTime ();
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d6), "A15");
		Assert.AreEqual(0, t1.GetUtcOffset (d6).Ticks, "A16");
	}
Example #2
0
	private void EST (TimeZone t1) 
	{
		Assert.IsTrue("EST" == t1.StandardName || "Eastern Standard Time" == t1.StandardName, "B01");
		Assert.IsTrue("EDT" == t1.DaylightName || "Eastern Daylight Time" == t1.DaylightName, "B02");

		DaylightTime d1 = t1.GetDaylightChanges (2002);
		Assert.AreEqual("04/07/2002 02:00:00", d1.Start.ToString ("G", CultureInfo.InvariantCulture), "B03");
		Assert.AreEqual("10/27/2002 02:00:00", d1.End.ToString ("G", CultureInfo.InvariantCulture), "B04");
		Assert.AreEqual(36000000000L, d1.Delta.Ticks, "B05");

		DaylightTime d2 = t1.GetDaylightChanges (1996);
		Assert.AreEqual("04/07/1996 02:00:00", d2.Start.ToString ("G", CultureInfo.InvariantCulture), "B06");
		Assert.AreEqual("10/27/1996 02:00:00", d2.End.ToString ("G", CultureInfo.InvariantCulture), "B07");
		Assert.AreEqual(36000000000L, d2.Delta.Ticks, "B08");

		DateTime d3 = new DateTime (2002,2,25);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d3), "B09");
		DateTime d4 = new DateTime (2002,4,8);
		Assert.AreEqual(true, t1.IsDaylightSavingTime (d4), "B10");
		
		DateTime d5 = new DateTime (2002,11,4);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d5), "B11");

		Assert.AreEqual(-180000000000L, t1.GetUtcOffset (d3).Ticks, "B12");
		Assert.AreEqual(-144000000000L, t1.GetUtcOffset (d4).Ticks, "B13");
		Assert.AreEqual(-180000000000L, t1.GetUtcOffset (d5).Ticks, "B14");

		// Test TimeZone methods with UTC DateTime in DST.
		DateTime d6 = d4.ToUniversalTime ();
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d6), "B15");
		Assert.AreEqual(0, t1.GetUtcOffset (d6).Ticks, "B16");
	}
Example #3
0
	private void CET (TimeZone t1) 
	{
		Assert.AreEqual("CET", t1.StandardName, "A01");
		Assert.AreEqual("CEST", t1.DaylightName, "A02");
	
		DaylightTime d1 = t1.GetDaylightChanges (2002);
		Assert.AreEqual("03/31/2002 02:00:00", d1.Start.ToString ("G"), "A03");
		Assert.AreEqual("10/27/2002 03:00:00", d1.End.ToString ("G"), "A04");
		Assert.AreEqual(36000000000L, d1.Delta.Ticks, "A05");
	
		DaylightTime d2 = t1.GetDaylightChanges (1996);
		Assert.AreEqual("03/31/1996 02:00:00", d2.Start.ToString ("G"), "A06");
		Assert.AreEqual("10/27/1996 03:00:00", d2.End.ToString ("G"), "A07");
		Assert.AreEqual(36000000000L, d2.Delta.Ticks, "A08");
	
		DateTime d3 = new DateTime (2002,2,25);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d3), "A09");
		DateTime d4 = new DateTime (2002,4,2);
		Assert.AreEqual(true, t1.IsDaylightSavingTime (d4), "A10");
		DateTime d5 = new DateTime (2002,11,4);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d5), "A11");
	
		Assert.AreEqual(36000000000L, t1.GetUtcOffset (d3).Ticks, "A12");
		Assert.AreEqual(72000000000L, t1.GetUtcOffset (d4).Ticks, "A13");
		Assert.AreEqual(36000000000L, t1.GetUtcOffset (d5).Ticks, "A14");
	}
Example #4
0
	private void EST (TimeZone t1) 
	{
		// It could be EST though...
		//Assert.AreEqual("Eastern Standard Time", t1.StandardName, "B01");
		//Assert.AreEqual("Eastern Daylight Time", t1.DaylightName, "B02");

		DaylightTime d1 = t1.GetDaylightChanges (2002);
		Assert.AreEqual("04/07/2002 02:00:00", d1.Start.ToString ("G"), "B03");
		Assert.AreEqual("10/27/2002 02:00:00", d1.End.ToString ("G"), "B04");
		Assert.AreEqual(36000000000L, d1.Delta.Ticks, "B05");

		DaylightTime d2 = t1.GetDaylightChanges (1996);
		Assert.AreEqual("04/07/1996 02:00:00", d2.Start.ToString ("G"), "B06");
		Assert.AreEqual("10/27/1996 02:00:00", d2.End.ToString ("G"), "B07");
		Assert.AreEqual(36000000000L, d2.Delta.Ticks, "B08");

		DateTime d3 = new DateTime (2002,2,25);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d3), "B09");
		DateTime d4 = new DateTime (2002,4,8);
		Assert.AreEqual(true, t1.IsDaylightSavingTime (d4), "B10");
		DateTime d5 = new DateTime (2002,11,4);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d5), "B11");

		Assert.AreEqual(-180000000000L, t1.GetUtcOffset (d3).Ticks, "B12");
		Assert.AreEqual(-144000000000L, t1.GetUtcOffset (d4).Ticks, "B13");
		Assert.AreEqual(-180000000000L, t1.GetUtcOffset (d5).Ticks, "B14");
	}
	private void CET (TimeZone t1) 
	{
		AssertEquals("A01", "CET", t1.StandardName);
		AssertEquals("A02", "CEST", t1.DaylightName);
	
		DaylightTime d1 = t1.GetDaylightChanges (2002);
		AssertEquals("A03", "03/31/2002 01:00:00", d1.Start.ToString ("G"));
		AssertEquals("A04", "10/27/2002 01:00:00", d1.End.ToString ("G"));
		AssertEquals("A05", 36000000000L, d1.Delta.Ticks);
	
		DaylightTime d2 = t1.GetDaylightChanges (1996);
		AssertEquals("A06", "03/31/1996 01:00:00", d2.Start.ToString ("G"));
		AssertEquals("A07", "10/27/1996 01:00:00", d2.End.ToString ("G"));
		AssertEquals("A08", 36000000000L, d2.Delta.Ticks);
	
		DateTime d3 = new DateTime (2002,2,25);
		AssertEquals("A09", false, t1.IsDaylightSavingTime (d3));
		DateTime d4 = new DateTime (2002,4,2);
		AssertEquals("A10", true, t1.IsDaylightSavingTime (d4));
		DateTime d5 = new DateTime (2002,11,4);
		AssertEquals("A11", false, t1.IsDaylightSavingTime (d5));
	
		AssertEquals("A12", 36000000000L, t1.GetUtcOffset (d3).Ticks);
		AssertEquals("A13", 72000000000L, t1.GetUtcOffset (d4).Ticks);
		AssertEquals("A14", 36000000000L, t1.GetUtcOffset (d5).Ticks);
	}
Example #6
0
        int IComparable.CompareTo(object o)
        {
            if (o == null)
            {
                return(1);
            }
            Server server = o as Server;

            if (server == null)
            {
                throw new ArgumentException();
            }
            System.TimeZone currentTimeZone = System.TimeZone.CurrentTimeZone;
            DateTime        now             = DateTime.Now;
            int             hours           = currentTimeZone.GetUtcOffset(now).Hours;
            int             num2            = -this.m_TimeZone;
            int             num3            = -server.m_TimeZone;
            int             num4            = Math.Abs((int)(hours - num2));
            int             num5            = Math.Abs((int)(hours - num3));
            int             num6            = num4.CompareTo(num5);

            if (num6 == 0)
            {
                num6 = server.m_PercentFull.CompareTo(this.m_PercentFull);
                if (num6 == 0)
                {
                    num6 = this.m_Name.CompareTo(server.m_Name);
                    if (num6 == 0)
                    {
                        num6 = this.m_ServerID.CompareTo(server.m_ServerID);
                    }
                }
            }
            return(num6);
        }
Example #7
0
        public override string ToString()
        {
            string result = null;

            switch (SelectedIndex)
            {
            case 1:
                string          dateFormat = string.Empty;
                string          timeFormat = string.Empty;
                Regex           r1         = new Regex(@"(y*[-\/]*M*[-\/]*[Dd]*)(M*[-\/]*[Dd]*[-\/]*y*)([Dd]*[-\/]*M*[-\/]*y*)([Hh]*[:]*m*[:]*s*[ ]*t*)");
                MatchCollection mc         = r1.Matches(DateTimeFormat);
                foreach (Match match in mc)
                {
                    if (match.Value.Trim().Length > 0 && match.Value.Contains('d'))
                    {
                        dateFormat = match.Value;
                    }
                    if (match.Value.Trim().Length > 0 && match.Value.Contains('m'))
                    {
                        timeFormat = match.Value;
                    }
                }
                System.TimeZone zone    = System.TimeZone.CurrentTimeZone;
                TimeSpan        span    = zone.GetUtcOffset(DateTime.Now);
                DateTime        dtLocal = DateTime.Now.Add(TimeZone.UtcOffset - span);
                // if GAT is behind Now, return +1
                int addDays = ExactTimeValidDays;
                if (ExactTimeValidDays == 0 && DateTime.Parse(dtLocal.ToShortTimeString()) >= DateTime.Parse(ExactTime.ToShortTimeString()))
                {
                    addDays = 1;
                }

                result  = DateTimeFormat.Replace(dateFormat, dtLocal.AddDays(addDays).ToString(dateFormat));
                result  = result.Replace(timeFormat, ExactTime.ToString(timeFormat));
                result += TimeZone != null ? " " + TimeZone.Id : "";
                //System.Diagnostics.Debug.WriteLine("GTD: " + result);

                break;

            case 2:
                //result =  OrderTime.AddSeconds(Seconds).ToString(DateTimeFormat);
                // assume using current timezone setting
                result = DateTime.Now.AddSeconds(Seconds).ToString(DateTimeFormat);
                break;

            case 3:
                int div = (int)Math.Ceiling((float)(OrderTime.Minute / (int)BarInterval));
                // in case of the beginning of bar
                if (OrderTime.Minute % (int)BarInterval == 0)
                {
                    div++;
                }
                result = DateTime.Now.AddMinutes((int)BarInterval * div).ToString(DateTimeFormat);
                break;
            }
            return(result);
        }
        /// <summary>
        /// <para>Converts a given <see cref='System.DateTime'/> object to DMTF format.</para>
        ///
        /// </summary>
        /// <param name='date'>A <see cref='System.DateTime'/> object representing the datetime to be converted to DMTF datetime.</param>
        /// <returns>
        /// <para>A string that represents the DMTF datetime for the given DateTime object.</para>
        /// </returns>
        /// <remarks>
        ///			<para> Date and time in WMI is represented in DMTF datetime format. This format is explained in WMI SDK documentation.
        ///				The DMTF datetime string represented will be with respect to the UTC offset of the
        ///				current timezone. The lowest precision in DMTF is microseconds and
        ///				in <see cref='System.DateTime'/> is Ticks , which is equivalent to 100 of nanoseconds.
        ///				 During conversion these Ticks are converted to microseconds and rounded
        ///				 off to the the nearest microsecond.
        ///			</para>
        /// </remarks>
        /// <example>
        ///    <code lang='C#'>
        ///	// Convert the current time in System.DateTime to DMTF format
        ///	string dmtfDateTime = ManagementDateTimeConverter.ToDmtfDateTime(DateTime.Now);
        ///    </code>
        ///    <code lang='VB'>
        ///	' Convert the current time in System.DateTime to DMTF format
        ///	Dim dmtfDateTime as String = ManagementDateTimeConverter.ToDmtfDateTime(DateTime.Now)
        ///    </code>
        /// </example>
        public static string ToDmtfDateTime(DateTime date)
        {
            string UtcString = String.Empty;

            // Fill up the UTC field in the DMTF date with the current
            // zones UTC value
            System.TimeZone curZone    = System.TimeZone.CurrentTimeZone;
            System.TimeSpan tickOffset = curZone.GetUtcOffset(date);
            long            OffsetMins = (tickOffset.Ticks / System.TimeSpan.TicksPerMinute);
            IFormatProvider frmInt32   = (IFormatProvider)CultureInfo.InvariantCulture.GetFormat(typeof(System.Int32));

            // If the offset is more than that what can be specified in DMTF format, then
            // convert the date to UniversalTime
            if (Math.Abs(OffsetMins) > MAXSIZE_UTC_DMTF)
            {
                date      = date.ToUniversalTime();
                UtcString = "+000";
            }
            else
            if ((tickOffset.Ticks >= 0))
            {
                UtcString = "+" + ((tickOffset.Ticks / System.TimeSpan.TicksPerMinute)).ToString(frmInt32).PadLeft(3, '0');
            }
            else
            {
                string strTemp = OffsetMins.ToString(frmInt32);
                UtcString = "-" + strTemp.Substring(1, strTemp.Length - 1).PadLeft(3, '0');
            }

            string dmtfDateTime = date.Year.ToString(frmInt32).PadLeft(4, '0');

            dmtfDateTime = (dmtfDateTime + date.Month.ToString(frmInt32).PadLeft(2, '0'));
            dmtfDateTime = (dmtfDateTime + date.Day.ToString(frmInt32).PadLeft(2, '0'));
            dmtfDateTime = (dmtfDateTime + date.Hour.ToString(frmInt32).PadLeft(2, '0'));
            dmtfDateTime = (dmtfDateTime + date.Minute.ToString(frmInt32).PadLeft(2, '0'));
            dmtfDateTime = (dmtfDateTime + date.Second.ToString(frmInt32).PadLeft(2, '0'));
            dmtfDateTime = (dmtfDateTime + ".");

            // Construct a DateTime with with the precision to Second as same as the passed DateTime and so get
            // the ticks difference so that the microseconds can be calculated
            DateTime dtTemp = new DateTime(date.Year, date.Month, date.Day, date.Hour, date.Minute, date.Second, 0);

            System.Int64 microsec = ((date.Ticks - dtTemp.Ticks) * 1000) / System.TimeSpan.TicksPerMillisecond;

            // fill the microseconds field
            String strMicrosec = microsec.ToString((IFormatProvider)CultureInfo.InvariantCulture.GetFormat(typeof(System.Int64)));

            if (strMicrosec.Length > 6)
            {
                strMicrosec = strMicrosec.Substring(0, 6);
            }
            dmtfDateTime = dmtfDateTime + strMicrosec.PadLeft(6, '0');
            // adding the UTC offset
            dmtfDateTime = dmtfDateTime + UtcString;

            return(dmtfDateTime);
        }
Example #9
0
 static public int GetUtcOffset(IntPtr l)
 {
     try {
         System.TimeZone self = (System.TimeZone)checkSelf(l);
         System.DateTime a1;
         checkValueType(l, 2, out a1);
         var ret = self.GetUtcOffset(a1);
         pushValue(l, true);
         pushValue(l, ret);
         return(2);
     }
     catch (Exception e) {
         return(error(l, e));
     }
 }
Example #10
0
    static int GetUtcOffset(IntPtr L)
    {
        try
        {
            ToLua.CheckArgsCount(L, 2);
            System.TimeZone obj  = (System.TimeZone)ToLua.CheckObject <System.TimeZone>(L, 1);
            System.DateTime arg0 = StackTraits <System.DateTime> .Check(L, 2);

            System.TimeSpan o = obj.GetUtcOffset(arg0);
            ToLua.PushValue(L, o);
            return(1);
        }
        catch (Exception e)
        {
            return(LuaDLL.toluaL_exception(L, e));
        }
    }
Example #11
0
        private static string GetTimezone()
        {
            System.TimeZone tz    = System.TimeZone.CurrentTimeZone;
            System.TimeSpan tspan = tz.GetUtcOffset(System.DateTime.Now);

            // TimeZone.  Format should be '+|-HH:MM' (e.g., -07:00).
            String tzformat;

            if (tspan.Hours >= 0)
            {
                tzformat = String.Format("+{0}:{1}", tspan.Hours.ToString("D2"), tspan.Minutes.ToString("D2"));
            }
            else
            {
                tzformat = String.Format("{0}:{1}", tspan.Hours.ToString("D2"), tspan.Minutes.ToString("D2"));
            }
            return(tzformat);
        }
Example #12
0
        static StackObject *GetUtcOffset_3(ILIntepreter __intp, StackObject *__esp, IList <object> __mStack, CLRMethod __method, bool isNewObj)
        {
            ILRuntime.Runtime.Enviorment.AppDomain __domain = __intp.AppDomain;
            StackObject *ptr_of_this_method;
            StackObject *__ret = ILIntepreter.Minus(__esp, 2);

            ptr_of_this_method = ILIntepreter.Minus(__esp, 1);
            System.DateTime @time = (System.DateTime) typeof(System.DateTime).CheckCLRTypes(StackObject.ToObject(ptr_of_this_method, __domain, __mStack));
            __intp.Free(ptr_of_this_method);

            ptr_of_this_method = ILIntepreter.Minus(__esp, 2);
            System.TimeZone instance_of_this_method = (System.TimeZone) typeof(System.TimeZone).CheckCLRTypes(StackObject.ToObject(ptr_of_this_method, __domain, __mStack));
            __intp.Free(ptr_of_this_method);

            var result_of_this_method = instance_of_this_method.GetUtcOffset(@time);

            return(ILIntepreter.PushObject(__ret, __mStack, result_of_this_method));
        }
Example #13
0
 public ServerInfo( string name, int fullPercent, TimeZone tz, IPEndPoint address )
 {
     m_Name = name;
     m_FullPercent = fullPercent;
     m_TimeZone = tz.GetUtcOffset( Core.Now ).Hours;
     m_Address = address;
 }
Example #14
0
	private void GMT (TimeZone t1) {
		// Probably wont work on MS.NET, but is better than nothing. Where do
		// we change our implementation to match theirs?
		
		Assert.AreEqual("GMT", t1.StandardName, "D01");
		Assert.IsTrue("BST" == t1.DaylightName || "IST" == t1.DaylightName, "D02");
	
		DaylightTime d1 = t1.GetDaylightChanges (2002);
		Assert.AreEqual("03/31/2002 01:00:00", d1.Start.ToString ("G"), "D03");
		Assert.AreEqual("10/27/2002 02:00:00", d1.End.ToString ("G"), "D04");
		Assert.AreEqual(36000000000L, d1.Delta.Ticks, "D05");
	
		DaylightTime d2 = t1.GetDaylightChanges (1996);
		Assert.AreEqual("03/31/1996 01:00:00", d2.Start.ToString ("G"), "D06");
		Assert.AreEqual("10/27/1996 02:00:00", d2.End.ToString ("G"), "D07");
		Assert.AreEqual(36000000000L, d2.Delta.Ticks, "D08");
	
		DateTime d3 = new DateTime (2002,2,25);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d3), "D09");
		DateTime d4 = new DateTime (2002,4,2);
		Assert.AreEqual(true, t1.IsDaylightSavingTime (d4), "D10");
		DateTime d5 = new DateTime (2002,11,4);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d5), "D11");
	
		Assert.AreEqual(0L, t1.GetUtcOffset (d3).Ticks, "D12");
		Assert.AreEqual(36000000000L, t1.GetUtcOffset (d4).Ticks, "D13");
		Assert.AreEqual(0L, t1.GetUtcOffset (d5).Ticks, "D14");
	}
Example #15
0
	private void TST (TimeZone t1) 
	{
		Assert.AreEqual("Tokyo Standard Time", t1.StandardName, "C01");
		Assert.AreEqual("Tokyo Standard Time", t1.DaylightName, "C02");

		DateTime d3 = new DateTime (2002,2,25);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d3), "C09");
		DateTime d4 = new DateTime (2002,4,8);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d4), "C10");
		DateTime d5 = new DateTime (2002,11,4);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d5), "C11");

		Assert.AreEqual(324000000000L, t1.GetUtcOffset (d3).Ticks, "C12");
		Assert.AreEqual(324000000000L, t1.GetUtcOffset (d4).Ticks, "C13");
		Assert.AreEqual(324000000000L, t1.GetUtcOffset (d5).Ticks, "C14");
	}
	private void TST (TimeZone t1) 
	{
		AssertEquals("C01", "Tokyo Standard Time", t1.StandardName);
		AssertEquals("C02", "Tokyo Standard Time", t1.DaylightName);

		DateTime d3 = new DateTime (2002,2,25);
		AssertEquals("C09", false, t1.IsDaylightSavingTime (d3));
		DateTime d4 = new DateTime (2002,4,8);
		AssertEquals("C10", false, t1.IsDaylightSavingTime (d4));
		DateTime d5 = new DateTime (2002,11,4);
		AssertEquals("C11", false, t1.IsDaylightSavingTime (d5));

		AssertEquals("C12", 324000000000L, t1.GetUtcOffset (d3).Ticks);
		AssertEquals("C13", 324000000000L, t1.GetUtcOffset (d4).Ticks);
		AssertEquals("C14", 324000000000L, t1.GetUtcOffset (d5).Ticks);
	}
Example #17
0
	private void NZST(TimeZone t1) {
		Assert.AreEqual("NZST", t1.StandardName, "E01");
		Assert.AreEqual("NZDT", t1.DaylightName, "E02");

		DaylightTime d1 = t1.GetDaylightChanges (2013);
		Assert.AreEqual("09/29/2013 02:00:00", d1.Start.ToString ("G"), "E03");
		Assert.AreEqual("04/07/2013 03:00:00", d1.End.ToString ("G"), "E04");
		Assert.AreEqual(36000000000L, d1.Delta.Ticks, "E05");

		DaylightTime d2 = t1.GetDaylightChanges (2001);
		Assert.AreEqual("10/07/2001 02:00:00", d2.Start.ToString ("G"), "E06");
		Assert.AreEqual("03/18/2001 03:00:00", d2.End.ToString ("G"), "E07");
		Assert.AreEqual(36000000000L, d2.Delta.Ticks, "E08");

		DateTime d3 = new DateTime(2013,02,15);
		Assert.AreEqual(true, t1.IsDaylightSavingTime (d3), "E09");
		DateTime d4 = new DateTime(2013,04,30);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d4), "E10");
		DateTime d5 = new DateTime(2013,11,03);
		Assert.AreEqual(true, t1.IsDaylightSavingTime (d5), "E11");

		Assert.AreEqual(36000000000L /*hour*/ * 13L, t1.GetUtcOffset (d3).Ticks, "E12");
		Assert.AreEqual(36000000000L /*hour*/ * 12L, t1.GetUtcOffset (d4).Ticks, "E13");
		Assert.AreEqual(36000000000L /*hour*/ * 13L, t1.GetUtcOffset (d5).Ticks, "E14");
	}
Example #18
0
		/// <summary>
		/// Returns true if the specified DayEntry is within the same month as <c>month</c>;
		/// </summary>
		/// <param name="dayEntry"></param>
		/// <param name="timeZone"></param>
		/// <param name="month"></param>
		/// <returns></returns>
		public static bool OccursInMonth(DayEntry dayEntry, TimeZone timeZone, 
			DateTime month)
		{
			DateTime startOfMonth = new DateTime(month.Year, month.Month, 1, 0, 0, 0);
			DateTime endOfMonth = new DateTime(month.Year, month.Month, 1, 0, 0, 0);
			endOfMonth = endOfMonth.AddMonths(1);
			endOfMonth = endOfMonth.AddSeconds(-1);
			
			TimeSpan offset = timeZone.GetUtcOffset(endOfMonth);
			endOfMonth = endOfMonth.AddHours(offset.Negate().Hours);
			return ( OccursBetween(dayEntry, timeZone, startOfMonth, endOfMonth) );
		}
Example #19
0
		public ServerInfo(string name, int fullPercent, TimeZone tz, IPEndPoint address)
		{
			Name = name;
			FullPercent = fullPercent;
			TimeZone = tz.GetUtcOffset(DateTime.Now).Hours;
			Address = address;
		}
        /// <summary>
        /// <para>Converts a given DMTF datetime to <see cref='System.DateTime'/> object. The returned DateTime will be in the
        ///			current TimeZone of the system.</para>
        /// </summary>
        /// <param name='dmtfDate'>A string representing the datetime in DMTF format.</param>
        /// <returns>
        /// <para>A <see cref='System.DateTime'/> object that represents the given DMTF datetime.</para>
        /// </returns>
        /// <remarks>
        ///			<para> Date and time in WMI is represented in DMTF datetime format. This format is explained in WMI SDK documentation.
        ///				DMTF datetime string has an UTC offset which this datetime string represents.
        ///				 During conversion to <see cref='System.DateTime'/>, UTC offset is used to convert the date to the
        ///				current timezone. According to DMTF format a particular field can be represented by the character
        ///				'*'. This will be converted to the MinValue of this field that can be represented in <see cref='System.DateTime'/>.
        ///			</para>
        /// </remarks>
        /// <example>
        ///    <code lang='C#'>
        ///	// Convert a DMTF datetime to System.DateTime
        ///	DateTime date = ManagementDateTimeConverter.ToDateTime("20020408141835.999999-420");
        ///    </code>
        ///    <code lang='VB'>
        ///	' Convert a DMTF datetime to System.DateTime
        ///	Dim date as DateTime = ManagementDateTimeConverter.ToDateTime("20020408141835.999999-420")
        ///    </code>
        /// </example>
        public static DateTime ToDateTime(string dmtfDate)
        {
            int      year     = DateTime.MinValue.Year;
            int      month    = DateTime.MinValue.Month;
            int      day      = DateTime.MinValue.Day;
            int      hour     = DateTime.MinValue.Hour;
            int      minute   = DateTime.MinValue.Minute;
            int      second   = DateTime.MinValue.Second;
            int      millisec = 0;
            string   dmtf     = dmtfDate;
            DateTime datetime = DateTime.MinValue;

            // If the string passed is empty or null then throw
            // an exception
            if (dmtf == null)
            {
                throw new System.ArgumentOutOfRangeException();
            }
            if (dmtf.Length == 0)
            {
                throw new System.ArgumentOutOfRangeException();
            }

            // if the length of the string is not equal to the
            // standard length of the DMTF datetime then throw an exception
            if (dmtf.Length != SIZEOFDMTFDATETIME)
            {
                throw new System.ArgumentOutOfRangeException();
            }

            System.Int64 ticks = 0;
            try
            {
                string tempString = System.String.Empty;
                tempString = dmtf.Substring(0, 4);
                if (("****" != tempString))
                {
                    year = System.Int32.Parse(tempString);
                }
                tempString = dmtf.Substring(4, 2);
                if (("**" != tempString))
                {
                    month = System.Int32.Parse(tempString);
                }
                tempString = dmtf.Substring(6, 2);
                if (("**" != tempString))
                {
                    day = System.Int32.Parse(tempString);
                }
                tempString = dmtf.Substring(8, 2);
                if (("**" != tempString))
                {
                    hour = System.Int32.Parse(tempString);
                }
                tempString = dmtf.Substring(10, 2);
                if (("**" != tempString))
                {
                    minute = System.Int32.Parse(tempString);
                }
                tempString = dmtf.Substring(12, 2);
                if (("**" != tempString))
                {
                    second = System.Int32.Parse(tempString);
                }
                tempString = dmtf.Substring(15, 6);
                if (("******" != tempString))
                {
                    ticks = (System.Int64.Parse(tempString)) * (System.TimeSpan.TicksPerMillisecond / 1000);
                }
                if (year < 0 || month < 0 || day < 0 || hour < 0 || minute < 0 || second < 0 || ticks < 0)
                {
                    throw new System.ArgumentOutOfRangeException();
                }
            }
            catch
            {
                throw new System.ArgumentOutOfRangeException();
            }


            // Construct a new System.DateTime object
            datetime = new System.DateTime(year, month, day, hour, minute, second, millisec);
            // Then add the ticks calculated from the microseconds
            datetime = datetime.AddTicks(ticks);

            // Adjust the UTC time to reflect the current zone time
            System.TimeZone curZone    = System.TimeZone.CurrentTimeZone;
            System.TimeSpan tickOffset = curZone.GetUtcOffset(datetime);
            long            OffsetMins = tickOffset.Ticks / System.TimeSpan.TicksPerMinute;

            // Adjusting the DateTime for the current UTC
            int    UTCOffset          = 0;
            string tempString1        = dmtf.Substring(22, 3);
            long   OffsetToBeAdjusted = 0;

            if (("***" != tempString1))
            {
                tempString1 = dmtf.Substring(21, 4);
                try
                {
                    UTCOffset = System.Int32.Parse(tempString1);
                }
                catch
                {
                    throw new System.ArgumentOutOfRangeException();
                }

                OffsetToBeAdjusted = UTCOffset - OffsetMins;

                // We have to substract the minutes from the time
                datetime = datetime.AddMinutes(OffsetToBeAdjusted * -1);
            }
            return(datetime);
        }
Example #21
0
	private void NZST(TimeZone t1) {
		Assert.AreEqual("NZST", t1.StandardName, "E01");
		Assert.AreEqual("NZDT", t1.DaylightName, "E02");

		DaylightTime d1 = t1.GetDaylightChanges (2013);
		Assert.AreEqual("09/29/2013 02:00:00", d1.Start.ToString ("G", CultureInfo.InvariantCulture), "E03");
		Assert.AreEqual("04/07/2013 03:00:00", d1.End.ToString ("G", CultureInfo.InvariantCulture), "E04");
		Assert.AreEqual(36000000000L, d1.Delta.Ticks, "E05");

		DaylightTime d2 = t1.GetDaylightChanges (2001);
		Assert.AreEqual("10/07/2001 02:00:00", d2.Start.ToString ("G", CultureInfo.InvariantCulture), "E06");
		Assert.AreEqual("03/18/2001 03:00:00", d2.End.ToString ("G", CultureInfo.InvariantCulture), "E07");
		Assert.AreEqual(36000000000L, d2.Delta.Ticks, "E08");

		DateTime d3 = new DateTime(2013,02,15);
		Assert.AreEqual(true, t1.IsDaylightSavingTime (d3), "E09");
		DateTime d4 = new DateTime(2013,04,30);
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d4), "E10");
		DateTime d5 = new DateTime(2013,11,03);
		Assert.AreEqual(true, t1.IsDaylightSavingTime (d5), "E11");

		Assert.AreEqual(36000000000L /*hour*/ * 13L, t1.GetUtcOffset (d3).Ticks, "E12");
		Assert.AreEqual(36000000000L /*hour*/ * 12L, t1.GetUtcOffset (d4).Ticks, "E13");
		Assert.AreEqual(36000000000L /*hour*/ * 13L, t1.GetUtcOffset (d5).Ticks, "E14");

		// Test TimeZone methods with UTC DateTime in DST.
		DateTime d6 = d5.ToUniversalTime ();
		Assert.AreEqual(false, t1.IsDaylightSavingTime (d6), "E15");
		Assert.AreEqual(0, t1.GetUtcOffset (d6).Ticks, "E16");
	}