Example #1
0
        public static System.DateTime JsonToDateTime(string jsonDate)
        {
            string text = jsonDate.Substring(5, jsonDate.Length - 6) + "+0800";

            System.DateTimeKind dateTimeKind = System.DateTimeKind.Utc;
            int num = text.IndexOf('+', 1);

            if (num == -1)
            {
                num = text.IndexOf('-', 1);
            }
            if (num != -1)
            {
                dateTimeKind = System.DateTimeKind.Local;
                text         = text.Substring(0, num);
            }
            long num2  = long.Parse(text, System.Globalization.NumberStyles.Integer, System.Globalization.CultureInfo.InvariantCulture);
            long ticks = new System.DateTime(1970, 1, 1, 0, 0, 0, System.DateTimeKind.Utc).Ticks;

            System.DateTime dateTime = new System.DateTime(num2 * 10000L + ticks, System.DateTimeKind.Utc);
            System.DateTime result;
            switch (dateTimeKind)
            {
            case System.DateTimeKind.Unspecified:
                result = System.DateTime.SpecifyKind(dateTime.ToLocalTime(), System.DateTimeKind.Unspecified);
                return(result);

            case System.DateTimeKind.Local:
                result = dateTime.ToLocalTime();
                return(result);
            }
            result = dateTime;
            return(result);
        }
Example #2
0
        private static void TestGetDescription()
        {
            System.DateTimeKind dtk1 = DateTimeKind.Local;
            string s1 = dtk1.GetDescription();



            System.DateTimeKind dtk2 = DateTimeKind.Unspecified;

            string s2 = dtk2.GetDescription();

            DateTimeKind dtk3 = DateTimeKind.Local;

            string s3 = dtk3.GetDescription();
        }
Example #3
0
        static StackObject *Ctor_0(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, 7);

            ptr_of_this_method = ILIntepreter.Minus(__esp, 1);
            System.DateTimeKind @kind = (System.DateTimeKind) typeof(System.DateTimeKind).CheckCLRTypes(StackObject.ToObject(ptr_of_this_method, __domain, __mStack), (CLR.Utils.Extensions.TypeFlags) 20);
            __intp.Free(ptr_of_this_method);

            ptr_of_this_method = ILIntepreter.Minus(__esp, 2);
            System.Int32 @second = ptr_of_this_method->Value;

            ptr_of_this_method = ILIntepreter.Minus(__esp, 3);
            System.Int32 @minute = ptr_of_this_method->Value;

            ptr_of_this_method = ILIntepreter.Minus(__esp, 4);
            System.Int32 @hour = ptr_of_this_method->Value;

            ptr_of_this_method = ILIntepreter.Minus(__esp, 5);
            System.Int32 @day = ptr_of_this_method->Value;

            ptr_of_this_method = ILIntepreter.Minus(__esp, 6);
            System.Int32 @month = ptr_of_this_method->Value;

            ptr_of_this_method = ILIntepreter.Minus(__esp, 7);
            System.Int32 @year = ptr_of_this_method->Value;


            var result_of_this_method = new System.DateTime(@year, @month, @day, @hour, @minute, @second, @kind);

            if (!isNewObj)
            {
                __ret--;
                WriteBackInstance(__domain, __ret, __mStack, ref result_of_this_method);
                return(__ret);
            }

            return(ILIntepreter.PushObject(__ret, __mStack, result_of_this_method));
        }
        internal static unsafe bool IsValidTimeWithLeapSeconds(int year, int month, int day, int hour, int minute, int second, DateTimeKind kind)
        {
            DateTime       dt   = new DateTime(year, month, day);
            FullSystemTime time = new FullSystemTime(year, month, dt.DayOfWeek, day, hour, minute, second);

            return(kind switch
            {
                DateTimeKind.Local => ValidateSystemTime(&time.systemTime, localTime: true),
                DateTimeKind.Utc => ValidateSystemTime(&time.systemTime, localTime: false),
                _ => ValidateSystemTime(&time.systemTime, localTime: true) || ValidateSystemTime(&time.systemTime, localTime: false),
            });
Example #5
0
 public DateTime(int year, int month, int day, int hour, int minute, int second, int millisecond, System.Globalization.Calendar calendar, DateTimeKind kind)
 {
 }
 public static System.DateTime GetMinValue(System.DateTimeKind kind)
 {
     return(new System.DateTime(System.DateTime.MinValue.Ticks, kind));
 }
Example #7
0
 /// <summary>
 ///
 /// </summary>
 /// <param name="year"></param>
 /// <param name="month"></param>
 /// <param name="day"></param>
 /// <param name="hour"></param>
 /// <param name="minute"></param>
 /// <param name="second"></param>
 /// <param name="kind"></param>
 public DbaDateTime(int year, int month, int day, int hour, int minute, int second, System.DateTimeKind kind)
 {
     _timestamp = new DateTime(year, month, day, hour, minute, second, kind);
 }
Example #8
0
 /// <summary>
 ///
 /// </summary>
 /// <param name="year"></param>
 /// <param name="month"></param>
 /// <param name="day"></param>
 /// <param name="hour"></param>
 /// <param name="minute"></param>
 /// <param name="second"></param>
 /// <param name="millisecond"></param>
 /// <param name="calendar"></param>
 /// <param name="kind"></param>
 public DbaDateTime(int year, int month, int day, int hour, int minute, int second, int millisecond, System.Globalization.Calendar calendar, System.DateTimeKind kind)
 {
     _timestamp = new DateTime(year, month, day, hour, minute, second, millisecond, calendar, kind);
 }
 // Positional argument (aka constructor parameters) - for required params
 public System_DateTimeKind(System.DateTimeKind p1)
 {
     this._p1 = p1;
 }
Example #10
0
 public extern DateTime(int year, int month, int day, int hour, int minute, int second, DateTimeKind kind);
Example #11
0
 public extern DateTime(long ticks, DateTimeKind kind);
Example #12
0
 public extern static DateTime SpecifyKind(DateTime value, DateTimeKind kind);
Example #13
0
        /// <summary>Converts a string to a dateTime with the given format and kind.</summary>
        /// <param name="dateTimeString">The date time string.</param>
        /// <param name="dateTimeFormat">The date time format.</param>
        /// <param name="dateTimeKind">Kind of the date time.</param>
        /// <returns></returns>
        public static DateTime ToDateTime(this string dateTimeString, string dateTimeFormat, DateTimeKind dateTimeKind)
        {
            if (string.IsNullOrEmpty(dateTimeString))
            {
                return(DateTime.MinValue);
            }

            DateTime dateTime;

            try
            {
                dateTime = DateTime.SpecifyKind(DateTime.ParseExact(dateTimeString, dateTimeFormat, CultureInfo.InvariantCulture), dateTimeKind);
            }
            catch (FormatException)
            {
                dateTime = DateTime.MinValue;
            }

            return(dateTime);
        }
Example #14
0
 public static System.DateTime SpecifyKind(System.DateTime value, DateTimeKind kind)
 {
     return(default(System.DateTime));
 }
Example #15
0
 public DateTime(long value, DateTimeKind kind)
 {
 }
Example #16
0
 public DateTime(int year, int month, int day, int hours, int minutes, int seconds, int milliseconds, DateTimeKind kind)
 {
 }
Example #17
0
 /// <summary>
 /// Initializes a new instance of the DateTime structure to a specified number of ticks and to Coordinated Universal Time (UTC).
 /// </summary>
 /// <param name="ticks">A date and time expressed in the number of 100-nanosecond intervals. </param>
 /// <param name="kind">One of the enumeration values that indicates whether ticks specifies a local time, Coordinated Universal Time (UTC), or neither.</param>
 /// <remarks>nanoFramework doesn't suport local time, only  UTC, so it's not possible to specify DateTimeKind.Local.</remarks>
 public DateTime(long ticks, DateTimeKind kind)
     : this(ticks)
 {
     _ticks |= UtcMask;
 }
 public void MethodWithDefaultParameter(int param1, int param2 = 1, System.DateTimeKind kind = DateTimeKind.Local, int[] array = null)
 {
 }
Example #19
0
 public DateTime(long ticks)
 {
     this.ticks = new TimeSpan(ticks);
     this.kind  = DateTimeKind.Unspecified;
 }
 // Positional argument (aka constructor parameters) - for required params
 public System_DateTimeKind(System.DateTimeKind p1)
 {
     this._p1 = p1;
 }
Example #21
0
 public DateTime(long ticks, DateTimeKind kind)
 {
     this.ticks = new TimeSpan(ticks);
     this.kind  = kind;
 }
Example #22
0
 /// <summary>
 ///
 /// </summary>
 /// <param name="ticks"></param>
 /// <param name="kind"></param>
 public DbaDateTime(long ticks, System.DateTimeKind kind)
 {
     _timestamp = new DateTime(ticks, kind);
 }
Example #23
0
 public DateTime(int year, int month, int day, int hour, int minute, int second, DateTimeKind kind)
     : this(year, month, day, hour, minute, second, 0, kind)
 {
 }
Example #24
0
    public void Populate()
    {
        #region Types of Keywords

        FieldPublicDynamic = new { PropPublic1 = "A", PropPublic2 = 1, PropPublic3 = "B", PropPublic4 = "B", PropPublic5 = "B", PropPublic6 = "B", PropPublic7 = "B", PropPublic8 = "B", PropPublic9 = "B", PropPublic10 = "B", PropPublic11 = "B", PropPublic12 = new { PropSubPublic1 = 0, PropSubPublic2 = 1, PropSubPublic3 = 2 } };
        FieldPublicObject  = new StringBuilder("Object - StringBuilder");
        FieldPublicInt32   = int.MaxValue;
        FieldPublicInt64   = long.MaxValue;
        FieldPublicULong   = ulong.MaxValue;
        FieldPublicUInt    = uint.MaxValue;
        FieldPublicDecimal = 100000.999999m;
        FieldPublicDouble  = 100000.999999d;
        FieldPublicChar    = 'A';
        FieldPublicByte    = byte.MaxValue;
        FieldPublicBoolean = true;
        FieldPublicSByte   = sbyte.MaxValue;
        FieldPublicShort   = short.MaxValue;
        FieldPublicUShort  = ushort.MaxValue;
        FieldPublicFloat   = 100000.675555f;

        FieldPublicInt32Nullable   = int.MaxValue;
        FieldPublicInt64Nullable   = 2;
        FieldPublicULongNullable   = ulong.MaxValue;
        FieldPublicUIntNullable    = uint.MaxValue;
        FieldPublicDecimalNullable = 100000.999999m;
        FieldPublicDoubleNullable  = 100000.999999d;
        FieldPublicCharNullable    = 'A';
        FieldPublicByteNullable    = byte.MaxValue;
        FieldPublicBooleanNullable = true;
        FieldPublicSByteNullable   = sbyte.MaxValue;
        FieldPublicShortNullable   = short.MaxValue;
        FieldPublicUShortNullable  = ushort.MaxValue;
        FieldPublicFloatNullable   = 100000.675555f;

        #endregion

        #region System

        FieldPublicDateTime         = new DateTime(2000, 1, 1, 1, 1, 1);
        FieldPublicTimeSpan         = new TimeSpan(1, 10, 40);
        FieldPublicEnumDateTimeKind = DateTimeKind.Local;

        // Instantiate date and time using Persian calendar with years,
        // months, days, hours, minutes, seconds, and milliseconds
        FieldPublicDateTimeOffset = new DateTimeOffset(1387, 2, 12, 8, 6, 32, 545,
                                                       new System.Globalization.PersianCalendar(),
                                                       new TimeSpan(1, 0, 0));

        FieldPublicIntPtr         = new IntPtr(100);
        FieldPublicTimeZone       = TimeZone.CurrentTimeZone;
        FieldPublicTimeZoneInfo   = TimeZoneInfo.Utc;
        FieldPublicTuple          = Tuple.Create <string, int, decimal>("T-string\"", 1, 1.1m);
        FieldPublicType           = typeof(object);
        FieldPublicUIntPtr        = new UIntPtr(100);
        FieldPublicUri            = new Uri("http://www.site.com");
        FieldPublicVersion        = new Version(1, 0, 100, 1);
        FieldPublicGuid           = new Guid("d5010f5b-0cd1-44ca-aacb-5678b9947e6c");
        FieldPublicSingle         = Single.MaxValue;
        FieldPublicException      = new Exception("Test error", new Exception("inner exception"));
        FieldPublicEnumNonGeneric = EnumTest.ValueA;
        FieldPublicAction         = () => true.Equals(true);
        FieldPublicAction2        = (a, b) => true.Equals(true);
        FieldPublicFunc           = () => true;
        FieldPublicFunc2          = (a, b) => true;

        #endregion

        #region Arrays and Collections

        FieldPublicArrayUni    = new string[2];
        FieldPublicArrayUni[0] = "[0]";
        FieldPublicArrayUni[1] = "[1]";

        FieldPublicArrayTwo       = new string[2, 2];
        FieldPublicArrayTwo[0, 0] = "[0, 0]";
        FieldPublicArrayTwo[0, 1] = "[0, 1]";
        FieldPublicArrayTwo[1, 0] = "[1, 0]";
        FieldPublicArrayTwo[1, 1] = "[1, 1]";

        FieldPublicArrayThree          = new string[1, 1, 2];
        FieldPublicArrayThree[0, 0, 0] = "[0, 0, 0]";
        FieldPublicArrayThree[0, 0, 1] = "[0, 0, 1]";

        FieldPublicJaggedArrayTwo    = new string[2][];
        FieldPublicJaggedArrayTwo[0] = new string[5] {
            "a", "b", "c", "d", "e"
        };
        FieldPublicJaggedArrayTwo[1] = new string[4] {
            "a1", "b1", "c1", "d1"
        };

        FieldPublicJaggedArrayThree          = new string[1][][];
        FieldPublicJaggedArrayThree[0]       = new string[1][];
        FieldPublicJaggedArrayThree[0][0]    = new string[2];
        FieldPublicJaggedArrayThree[0][0][0] = "[0][0][0]";
        FieldPublicJaggedArrayThree[0][0][1] = "[0][0][1]";

        FieldPublicMixedArrayAndJagged = new int[3][, ]
        {
            new int[, ] {
                { 1, 3 }, { 5, 7 }
            },
            new int[, ] {
                { 0, 2 }, { 4, 6 }, { 8, 10 }
            },
            new int[, ] {
                { 11, 22 }, { 99, 88 }, { 0, 9 }
            }
        };

        FieldPublicDictionary = new System.Collections.Generic.Dictionary <string, string>();
        FieldPublicDictionary.Add("Key1", "Value1");
        FieldPublicDictionary.Add("Key2", "Value2");
        FieldPublicDictionary.Add("Key3", "Value3");
        FieldPublicDictionary.Add("Key4", "Value4");

        FieldPublicList = new System.Collections.Generic.List <int>();
        FieldPublicList.Add(0);
        FieldPublicList.Add(1);
        FieldPublicList.Add(2);

        FieldPublicQueue = new System.Collections.Generic.Queue <int>();
        FieldPublicQueue.Enqueue(10);
        FieldPublicQueue.Enqueue(11);
        FieldPublicQueue.Enqueue(12);

        FieldPublicHashSet = new System.Collections.Generic.HashSet <string>();
        FieldPublicHashSet.Add("HashSet1");
        FieldPublicHashSet.Add("HashSet2");

        FieldPublicSortedSet = new System.Collections.Generic.SortedSet <string>();
        FieldPublicSortedSet.Add("SortedSet1");
        FieldPublicSortedSet.Add("SortedSet2");
        FieldPublicSortedSet.Add("SortedSet3");

        FieldPublicStack = new System.Collections.Generic.Stack <string>();
        FieldPublicStack.Push("Stack1");
        FieldPublicStack.Push("Stack2");
        FieldPublicStack.Push("Stack3");

        FieldPublicLinkedList = new System.Collections.Generic.LinkedList <string>();
        FieldPublicLinkedList.AddFirst("LinkedList1");
        FieldPublicLinkedList.AddLast("LinkedList2");
        FieldPublicLinkedList.AddAfter(FieldPublicLinkedList.Find("LinkedList1"), "LinkedList1.1");

        FieldPublicObservableCollection = new System.Collections.ObjectModel.ObservableCollection <string>();
        FieldPublicObservableCollection.Add("ObservableCollection1");
        FieldPublicObservableCollection.Add("ObservableCollection2");

        FieldPublicKeyedCollection = new MyDataKeyedCollection();
        FieldPublicKeyedCollection.Add(new MyData()
        {
            Data = "data1", Id = 0
        });
        FieldPublicKeyedCollection.Add(new MyData()
        {
            Data = "data2", Id = 1
        });

        var list = new List <string>();
        list.Add("list1");
        list.Add("list2");
        list.Add("list3");

        FieldPublicReadOnlyCollection = new ReadOnlyCollection <string>(list);

        FieldPublicReadOnlyDictionary           = new ReadOnlyDictionary <string, string>(FieldPublicDictionary);
        FieldPublicReadOnlyObservableCollection = new ReadOnlyObservableCollection <string>(FieldPublicObservableCollection);
        FieldPublicCollection = new Collection <string>();
        FieldPublicCollection.Add("collection1");
        FieldPublicCollection.Add("collection2");
        FieldPublicCollection.Add("collection3");

        FieldPublicArrayListNonGeneric = new System.Collections.ArrayList();
        FieldPublicArrayListNonGeneric.Add(1);
        FieldPublicArrayListNonGeneric.Add("a");
        FieldPublicArrayListNonGeneric.Add(10.0m);
        FieldPublicArrayListNonGeneric.Add(new DateTime(2000, 01, 01));

        FieldPublicBitArray    = new System.Collections.BitArray(3);
        FieldPublicBitArray[2] = true;

        FieldPublicSortedList = new System.Collections.SortedList();
        FieldPublicSortedList.Add("key1", 1);
        FieldPublicSortedList.Add("key2", 2);
        FieldPublicSortedList.Add("key3", 3);
        FieldPublicSortedList.Add("key4", 4);

        FieldPublicHashtableNonGeneric = new System.Collections.Hashtable();
        FieldPublicHashtableNonGeneric.Add("key1", 1);
        FieldPublicHashtableNonGeneric.Add("key2", 2);
        FieldPublicHashtableNonGeneric.Add("key3", 3);
        FieldPublicHashtableNonGeneric.Add("key4", 4);

        FieldPublicQueueNonGeneric = new System.Collections.Queue();
        FieldPublicQueueNonGeneric.Enqueue("QueueNonGeneric1");
        FieldPublicQueueNonGeneric.Enqueue("QueueNonGeneric2");
        FieldPublicQueueNonGeneric.Enqueue("QueueNonGeneric3");

        FieldPublicStackNonGeneric = new System.Collections.Stack();
        FieldPublicStackNonGeneric.Push("StackNonGeneric1");
        FieldPublicStackNonGeneric.Push("StackNonGeneric2");

        FieldPublicIEnumerable = FieldPublicSortedList;

        FieldPublicBlockingCollection = new System.Collections.Concurrent.BlockingCollection <string>();
        FieldPublicBlockingCollection.Add("BlockingCollection1");
        FieldPublicBlockingCollection.Add("BlockingCollection2");

        FieldPublicConcurrentBag = new System.Collections.Concurrent.ConcurrentBag <string>();
        FieldPublicConcurrentBag.Add("ConcurrentBag1");
        FieldPublicConcurrentBag.Add("ConcurrentBag2");
        FieldPublicConcurrentBag.Add("ConcurrentBag3");

        FieldPublicConcurrentDictionary = new System.Collections.Concurrent.ConcurrentDictionary <string, int>();
        FieldPublicConcurrentDictionary.GetOrAdd("ConcurrentDictionary1", 0);
        FieldPublicConcurrentDictionary.GetOrAdd("ConcurrentDictionary2", 0);

        FieldPublicConcurrentQueue = new System.Collections.Concurrent.ConcurrentQueue <string>();
        FieldPublicConcurrentQueue.Enqueue("ConcurrentQueue1");
        FieldPublicConcurrentQueue.Enqueue("ConcurrentQueue2");

        FieldPublicConcurrentStack = new System.Collections.Concurrent.ConcurrentStack <string>();
        FieldPublicConcurrentStack.Push("ConcurrentStack1");
        FieldPublicConcurrentStack.Push("ConcurrentStack2");

        // FieldPublicOrderablePartitioner = new OrderablePartitioner();
        // FieldPublicPartitioner;
        // FieldPublicPartitionerNonGeneric;

        FieldPublicHybridDictionary = new System.Collections.Specialized.HybridDictionary();
        FieldPublicHybridDictionary.Add("HybridDictionaryKey1", "HybridDictionary1");
        FieldPublicHybridDictionary.Add("HybridDictionaryKey2", "HybridDictionary2");

        FieldPublicListDictionary = new System.Collections.Specialized.ListDictionary();
        FieldPublicListDictionary.Add("ListDictionaryKey1", "ListDictionary1");
        FieldPublicListDictionary.Add("ListDictionaryKey2", "ListDictionary2");
        FieldPublicNameValueCollection = new System.Collections.Specialized.NameValueCollection();
        FieldPublicNameValueCollection.Add("Key1", "Value1");
        FieldPublicNameValueCollection.Add("Key2", "Value2");

        FieldPublicOrderedDictionary = new System.Collections.Specialized.OrderedDictionary();
        FieldPublicOrderedDictionary.Add(1, "OrderedDictionary1");
        FieldPublicOrderedDictionary.Add(2, "OrderedDictionary1");
        FieldPublicOrderedDictionary.Add("OrderedDictionaryKey2", "OrderedDictionary2");

        FieldPublicStringCollection = new System.Collections.Specialized.StringCollection();
        FieldPublicStringCollection.Add("StringCollection1");
        FieldPublicStringCollection.Add("StringCollection2");

        #endregion

        #region Several

        PropXmlDocument = new XmlDocument();
        PropXmlDocument.LoadXml("<xml>something</xml>");

        var tr = new StringReader("<Root>Content</Root>");
        PropXDocument         = XDocument.Load(tr);
        PropStream            = GenerateStreamFromString("Stream");
        PropBigInteger        = new System.Numerics.BigInteger(100);
        PropStringBuilder     = new StringBuilder("StringBuilder");
        FieldPublicIQueryable = new List <string>()
        {
            "IQueryable"
        }.AsQueryable();

        #endregion

        #region Custom

        FieldPublicMyCollectionPublicGetEnumerator           = new MyCollectionPublicGetEnumerator("a b c", new char[] { ' ' });
        FieldPublicMyCollectionInheritsPublicGetEnumerator   = new MyCollectionInheritsPublicGetEnumerator("a b c", new char[] { ' ' });
        FieldPublicMyCollectionExplicitGetEnumerator         = new MyCollectionExplicitGetEnumerator("a b c", new char[] { ' ' });
        FieldPublicMyCollectionInheritsExplicitGetEnumerator = new MyCollectionInheritsExplicitGetEnumerator("a b c", new char[] { ' ' });
        FieldPublicMyCollectionInheritsTooIEnumerable        = new MyCollectionInheritsTooIEnumerable("a b c", new char[] { ' ' });

        FieldPublicEnumSpecific = EnumTest.ValueB;
        MyDelegate            = MethodDelegate;
        EmptyClass            = new EmptyClass();
        StructGeneric         = new ThreeTuple <int>(0, 1, 2);
        StructGenericNullable = new ThreeTuple <int>(0, 1, 2);
        FieldPublicNullable   = new Nullable <ThreeTuple <int> >(StructGeneric);

        #endregion
    }
Example #25
0
 public DateTime(int year, int month, int day, int hour, int minute, int second, int millisecond, DateTimeKind kind)
 {
     ticks     = new TimeSpan(AbsoluteDays(year, month, day), hour, minute, second, millisecond);
     this.kind = kind;
 }
Example #26
0
        //
        // NOTENOTE: Implementation detail
        // In the transition from standard time to daylight saving time,
        // if we convert local time to Universal time, we can have the
        // following (take PST as an example):
        //      Local               Universal       UTC Offset
        //      -----               ---------       ----------
        //      01:00AM             09:00           -8:00
        //      02:00 (=> 03:00)    10:00           -8:00   [This time doesn't actually exist, but it can be created from DateTime]
        //      03:00               10:00           -7:00
        //      04:00               11:00           -7:00
        //      05:00               12:00           -7:00
        //
        //      So from 02:00 - 02:59:59, we should return the standard offset, instead of the daylight saving offset.
        //
        // In the transition from daylight saving time to standard time,
        // if we convert local time to Universal time, we can have the
        // following (take PST as an example):
        //      Local               Universal       UTC Offset
        //      -----               ---------       ----------
        //      01:00AM             08:00           -7:00
        //      02:00 (=> 01:00)    09:00           -8:00
        //      02:00               10:00           -8:00
        //      03:00               11:00           -8:00
        //      04:00               12:00           -8:00
        //
        //      So in this case, the 02:00 does exist after the first 2:00 rolls back to 01:00. We don't need to special case this.
        //      But note that there are two 01:00 in the local time.

        //
        // And imagine if the daylight saving offset is negative (although this does not exist in real life)
        // In the transition from standard time to daylight saving time,
        // if we convert local time to Universal time, we can have the
        // following (take PST as an example, but the daylight saving offset is -01:00):
        //      Local               Universal       UTC Offset
        //      -----               ---------       ----------
        //      01:00AM             09:00           -8:00
        //      02:00 (=> 01:00)    10:00           -9:00
        //      02:00               11:00           -9:00
        //      03:00               12:00           -9:00
        //      04:00               13:00           -9:00
        //      05:00               14:00           -9:00
        //
        //      So in this case, the 02:00 does exist after the first 2:00 rolls back to 01:00. We don't need to special case this.
        //
        // In the transition from daylight saving time to standard time,
        // if we convert local time to Universal time, we can have the
        // following (take PST as an example, daylight saving offset is -01:00):
        //
        //      Local               Universal       UTC Offset
        //      -----               ---------       ----------
        //      01:00AM             10:00           -9:00
        //      02:00 (=> 03:00)    11:00           -9:00
        //      03:00               11:00           -8:00
        //      04:00               12:00           -8:00
        //      05:00               13:00           -8:00
        //      06:00               14:00           -8:00
        //
        //      So from 02:00 - 02:59:59, we should return the daylight saving offset, instead of the standard offset.
        //
        internal static TimeSpan CalculateUtcOffset(DateTime time, DaylightTime daylightTimes)
        {
            if (daylightTimes == null)
            {
                return(TimeSpan.Zero);
            }
            DateTimeKind kind = time.Kind;

            if (kind == DateTimeKind.Utc)
            {
                return(TimeSpan.Zero);
            }

            DateTime startTime;
            DateTime endTime;

            // startTime and endTime represent the period from either the start of DST to the end and includes the
            // potentially overlapped times
            startTime = daylightTimes.Start + daylightTimes.Delta;
            endTime   = daylightTimes.End;

            // For normal time zones, the ambiguous hour is the last hour of daylight saving when you wind the
            // clock back. It is theoretically possible to have a positive delta, (which would really be daylight
            // reduction time), where you would have to wind the clock back in the begnning.
            DateTime ambiguousStart;
            DateTime ambiguousEnd;

            if (daylightTimes.Delta.Ticks > 0)
            {
                ambiguousStart = endTime - daylightTimes.Delta;
                ambiguousEnd   = endTime;
            }
            else
            {
                ambiguousStart = startTime;
                ambiguousEnd   = startTime - daylightTimes.Delta;
            }

            bool isDst = false;

            if (startTime > endTime)
            {
                // In southern hemisphere, the daylight saving time starts later in the year, and ends in the beginning of next year.
                // Note, the summer in the southern hemisphere begins late in the year.
                if (time >= startTime || time < endTime)
                {
                    isDst = true;
                }
            }
            else if (time >= startTime && time < endTime)
            {
                // In northern hemisphere, the daylight saving time starts in the middle of the year.
                isDst = true;
            }

            // If this date was previously converted from a UTC date and we were able to detect that the local
            // DateTime would be ambiguous, this data is stored in the DateTime to resolve this ambiguity.
            if (isDst && time >= ambiguousStart && time < ambiguousEnd)
            {
                isDst = time.IsAmbiguousDaylightSavingTime();
            }

            if (isDst)
            {
                return(daylightTimes.Delta);
            }
            return(TimeSpan.Zero);
        }
Example #27
0
 public DateTime(long ticks, DateTimeKind kind)
 {
 }