6 * Stephane Delcroix <stephane@delcroix.org>
8 * Copyright 2011 Xamarin Inc.
10 * Permission is hereby granted, free of charge, to any person obtaining
11 * a copy of this software and associated documentation files (the
12 * "Software"), to deal in the Software without restriction, including
13 * without limitation the rights to use, copy, modify, merge, publish,
14 * distribute, sublicense, and/or sell copies of the Software, and to
15 * permit persons to whom the Software is furnished to do so, subject to
16 * the following conditions:
18 * The above copyright notice and this permission notice shall be
19 * included in all copies or substantial portions of the Software.
21 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
22 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
23 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
24 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
25 * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
26 * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
27 * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
31 using System.Runtime.CompilerServices;
32 using System.Threading;
33 using System.Collections.Generic;
34 using System.Collections.ObjectModel;
35 using System.Runtime.Serialization;
37 using System.Globalization;
44 using Microsoft.Win32;
49 [TypeForwardedFrom (Consts.AssemblySystem_Core)]
51 [TypeForwardedFrom (Consts.AssemblySystemCore_3_5)]
53 [SerializableAttribute]
55 sealed partial class TimeZoneInfo : IEquatable<TimeZoneInfo>, ISerializable, IDeserializationCallback
57 TimeSpan baseUtcOffset;
58 public TimeSpan BaseUtcOffset {
59 get { return baseUtcOffset; }
62 string daylightDisplayName;
63 public string DaylightName {
65 return supportsDaylightSavingTime
72 public string DisplayName {
73 get { return displayName; }
81 static TimeZoneInfo local;
82 public static TimeZoneInfo Local {
88 throw new TimeZoneNotFoundException ();
90 if (Interlocked.CompareExchange (ref local, l, null) != null)
99 TimeZone transitions are stored when there is a change on the base offset.
101 private List<KeyValuePair<DateTime, TimeType>> transitions;
103 static TimeZoneInfo CreateLocal ()
106 return AndroidTimeZones.Local;
108 using (Stream stream = GetMonoTouchData (null)) {
109 return BuildFromStream ("Local", stream);
113 if (IsWindows && LocalZoneKey != null) {
114 string name = (string)LocalZoneKey.GetValue ("TimeZoneKeyName");
115 name = TrimSpecial (name);
117 return TimeZoneInfo.FindSystemTimeZoneById (name);
121 var tz = Environment.GetEnvironmentVariable ("TZ");
123 if (tz == String.Empty)
126 return FindSystemTimeZoneByFileName (tz, Path.Combine (TimeZoneDirectory, tz));
133 return FindSystemTimeZoneByFileName ("Local", "/etc/localtime");
136 return FindSystemTimeZoneByFileName ("Local", Path.Combine (TimeZoneDirectory, "localtime"));
144 string standardDisplayName;
145 public string StandardName {
146 get { return standardDisplayName; }
149 bool supportsDaylightSavingTime;
150 public bool SupportsDaylightSavingTime {
151 get { return supportsDaylightSavingTime; }
154 static TimeZoneInfo utc;
155 public static TimeZoneInfo Utc {
158 utc = CreateCustomTimeZone ("UTC", new TimeSpan (0), "UTC", "UTC");
163 static string timeZoneDirectory;
164 static string TimeZoneDirectory {
166 if (timeZoneDirectory == null)
167 timeZoneDirectory = "/usr/share/zoneinfo";
168 return timeZoneDirectory;
172 timeZoneDirectory = value;
176 private AdjustmentRule [] adjustmentRules;
180 /// Determine whether windows of not (taken Stephane Delcroix's code)
182 private static bool IsWindows
185 int platform = (int) Environment.OSVersion.Platform;
186 return ((platform != 4) && (platform != 6) && (platform != 128));
191 /// Needed to trim misc garbage in MS registry keys
193 private static string TrimSpecial (string str)
196 while (Istart < str.Length && !char.IsLetterOrDigit(str[Istart])) Istart++;
197 var Iend = str.Length - 1;
198 while (Iend > Istart && !char.IsLetterOrDigit(str[Iend])) Iend--;
200 return str.Substring (Istart, Iend-Istart+1);
203 static RegistryKey timeZoneKey;
204 static RegistryKey TimeZoneKey {
206 if (timeZoneKey != null)
211 return timeZoneKey = Registry.LocalMachine.OpenSubKey (
212 "SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Time Zones",
217 static RegistryKey localZoneKey;
218 static RegistryKey LocalZoneKey {
220 if (localZoneKey != null)
226 return localZoneKey = Registry.LocalMachine.OpenSubKey (
227 "SYSTEM\\CurrentControlSet\\Control\\TimeZoneInformation", false);
232 public static void ClearCachedData ()
236 systemTimeZones = null;
239 public static DateTime ConvertTime (DateTime dateTime, TimeZoneInfo destinationTimeZone)
241 return ConvertTime (dateTime, dateTime.Kind == DateTimeKind.Utc ? TimeZoneInfo.Utc : TimeZoneInfo.Local, destinationTimeZone);
244 public static DateTime ConvertTime (DateTime dateTime, TimeZoneInfo sourceTimeZone, TimeZoneInfo destinationTimeZone)
246 if (sourceTimeZone == null)
247 throw new ArgumentNullException ("sourceTimeZone");
249 if (destinationTimeZone == null)
250 throw new ArgumentNullException ("destinationTimeZone");
252 if (dateTime.Kind == DateTimeKind.Local && sourceTimeZone != TimeZoneInfo.Local)
253 throw new ArgumentException ("Kind property of dateTime is Local but the sourceTimeZone does not equal TimeZoneInfo.Local");
255 if (dateTime.Kind == DateTimeKind.Utc && sourceTimeZone != TimeZoneInfo.Utc)
256 throw new ArgumentException ("Kind property of dateTime is Utc but the sourceTimeZone does not equal TimeZoneInfo.Utc");
258 if (sourceTimeZone.IsInvalidTime (dateTime))
259 throw new ArgumentException ("dateTime parameter is an invalid time");
261 if (dateTime.Kind == DateTimeKind.Local && sourceTimeZone == TimeZoneInfo.Local && destinationTimeZone == TimeZoneInfo.Local)
264 DateTime utc = ConvertTimeToUtc (dateTime, sourceTimeZone);
266 if (destinationTimeZone != TimeZoneInfo.Utc) {
267 utc = ConvertTimeFromUtc (utc, destinationTimeZone);
268 if (dateTime.Kind == DateTimeKind.Unspecified)
269 return DateTime.SpecifyKind (utc, DateTimeKind.Unspecified);
275 public static DateTimeOffset ConvertTime(DateTimeOffset dateTimeOffset, TimeZoneInfo destinationTimeZone)
277 if (destinationTimeZone == null)
278 throw new ArgumentNullException("destinationTimeZone");
280 var utcDateTime = dateTimeOffset.UtcDateTime;
281 AdjustmentRule rule = destinationTimeZone.GetApplicableRule (utcDateTime);
283 if (rule != null && destinationTimeZone.IsDaylightSavingTime(utcDateTime)) {
284 var offset = destinationTimeZone.BaseUtcOffset + rule.DaylightDelta;
285 return new DateTimeOffset(DateTime.SpecifyKind(utcDateTime, DateTimeKind.Unspecified) + offset, offset);
288 return new DateTimeOffset(DateTime.SpecifyKind(utcDateTime, DateTimeKind.Unspecified) + destinationTimeZone.BaseUtcOffset, destinationTimeZone.BaseUtcOffset);
292 public static DateTime ConvertTimeBySystemTimeZoneId (DateTime dateTime, string destinationTimeZoneId)
294 return ConvertTime (dateTime, FindSystemTimeZoneById (destinationTimeZoneId));
297 public static DateTime ConvertTimeBySystemTimeZoneId (DateTime dateTime, string sourceTimeZoneId, string destinationTimeZoneId)
299 return ConvertTime (dateTime, FindSystemTimeZoneById (sourceTimeZoneId), FindSystemTimeZoneById (destinationTimeZoneId));
302 public static DateTimeOffset ConvertTimeBySystemTimeZoneId (DateTimeOffset dateTimeOffset, string destinationTimeZoneId)
304 return ConvertTime (dateTimeOffset, FindSystemTimeZoneById (destinationTimeZoneId));
307 private DateTime ConvertTimeFromUtc (DateTime dateTime)
309 if (dateTime.Kind == DateTimeKind.Local)
310 throw new ArgumentException ("Kind property of dateTime is Local");
312 if (this == TimeZoneInfo.Utc)
313 return DateTime.SpecifyKind (dateTime, DateTimeKind.Utc);
315 //FIXME: do not rely on DateTime implementation !
316 if (this == TimeZoneInfo.Local)
318 return dateTime.ToLocalTime ();
322 AdjustmentRule rule = GetApplicableRule (dateTime);
323 if (rule != null && IsDaylightSavingTime (DateTime.SpecifyKind (dateTime, DateTimeKind.Utc)))
324 return DateTime.SpecifyKind (dateTime + BaseUtcOffset + rule.DaylightDelta , DateTimeKind.Unspecified);
326 return DateTime.SpecifyKind (dateTime + BaseUtcOffset, DateTimeKind.Unspecified);
329 public static DateTime ConvertTimeFromUtc (DateTime dateTime, TimeZoneInfo destinationTimeZone)
331 if (destinationTimeZone == null)
332 throw new ArgumentNullException ("destinationTimeZone");
334 return destinationTimeZone.ConvertTimeFromUtc (dateTime);
337 public static DateTime ConvertTimeToUtc (DateTime dateTime)
339 if (dateTime.Kind == DateTimeKind.Utc)
342 return ConvertTimeToUtc (dateTime, TimeZoneInfo.Local);
345 static internal DateTime ConvertTimeToUtc(DateTime dateTime, TimeZoneInfoOptions flags)
347 return ConvertTimeToUtc (dateTime, TimeZoneInfo.Local, flags);
350 public static DateTime ConvertTimeToUtc (DateTime dateTime, TimeZoneInfo sourceTimeZone)
352 return ConvertTimeToUtc (dateTime, sourceTimeZone, TimeZoneInfoOptions.None);
355 static DateTime ConvertTimeToUtc (DateTime dateTime, TimeZoneInfo sourceTimeZone, TimeZoneInfoOptions flags)
357 if ((flags & TimeZoneInfoOptions.NoThrowOnInvalidTime) == 0) {
358 if (sourceTimeZone == null)
359 throw new ArgumentNullException ("sourceTimeZone");
361 if (dateTime.Kind == DateTimeKind.Utc && sourceTimeZone != TimeZoneInfo.Utc)
362 throw new ArgumentException ("Kind property of dateTime is Utc but the sourceTimeZone does not equal TimeZoneInfo.Utc");
364 if (dateTime.Kind == DateTimeKind.Local && sourceTimeZone != TimeZoneInfo.Local)
365 throw new ArgumentException ("Kind property of dateTime is Local but the sourceTimeZone does not equal TimeZoneInfo.Local");
367 if (sourceTimeZone.IsInvalidTime (dateTime))
368 throw new ArgumentException ("dateTime parameter is an invalid time");
371 if (dateTime.Kind == DateTimeKind.Utc)
374 if (sourceTimeZone.IsAmbiguousTime (dateTime) || !sourceTimeZone.IsDaylightSavingTime (dateTime)) {
375 var ticks = dateTime.Ticks - sourceTimeZone.BaseUtcOffset.Ticks;
376 if (ticks < DateTime.MinValue.Ticks)
377 ticks = DateTime.MinValue.Ticks;
378 else if (ticks > DateTime.MaxValue.Ticks)
379 ticks = DateTime.MaxValue.Ticks;
381 return new DateTime (ticks, DateTimeKind.Utc);
384 AdjustmentRule rule = sourceTimeZone.GetApplicableRule (dateTime);
386 return DateTime.SpecifyKind (dateTime - sourceTimeZone.BaseUtcOffset - rule.DaylightDelta, DateTimeKind.Utc);
388 return DateTime.SpecifyKind (dateTime - sourceTimeZone.BaseUtcOffset, DateTimeKind.Utc);
392 static internal TimeSpan GetDateTimeNowUtcOffsetFromUtc(DateTime time, out Boolean isAmbiguousLocalDst)
394 bool isDaylightSavings;
395 return GetUtcOffsetFromUtc(time, TimeZoneInfo.Local, out isDaylightSavings, out isAmbiguousLocalDst);
398 public static TimeZoneInfo CreateCustomTimeZone (string id, TimeSpan baseUtcOffset, string displayName, string standardDisplayName)
400 return CreateCustomTimeZone (id, baseUtcOffset, displayName, standardDisplayName, null, null, true);
403 public static TimeZoneInfo CreateCustomTimeZone (string id, TimeSpan baseUtcOffset, string displayName, string standardDisplayName, string daylightDisplayName, TimeZoneInfo.AdjustmentRule [] adjustmentRules)
405 return CreateCustomTimeZone (id, baseUtcOffset, displayName, standardDisplayName, daylightDisplayName, adjustmentRules, false);
408 public static TimeZoneInfo CreateCustomTimeZone ( string id, TimeSpan baseUtcOffset, string displayName, string standardDisplayName, string daylightDisplayName, TimeZoneInfo.AdjustmentRule [] adjustmentRules, bool disableDaylightSavingTime)
410 return new TimeZoneInfo (id, baseUtcOffset, displayName, standardDisplayName, daylightDisplayName, adjustmentRules, disableDaylightSavingTime);
413 public override bool Equals (object obj)
415 return Equals (obj as TimeZoneInfo);
418 public bool Equals (TimeZoneInfo other)
423 return other.Id == this.Id && HasSameRules (other);
426 public static TimeZoneInfo FindSystemTimeZoneById (string id)
428 //FIXME: this method should check for cached values in systemTimeZones
430 throw new ArgumentNullException ("id");
432 if (TimeZoneKey != null)
434 RegistryKey key = TimeZoneKey.OpenSubKey (id, false);
436 throw new TimeZoneNotFoundException ();
437 return FromRegistryKey(id, key);
440 // Local requires special logic that already exists in the Local property (bug #326)
444 using (Stream stream = GetMonoTouchData (id)) {
445 return BuildFromStream (id, stream);
448 var timeZoneInfo = AndroidTimeZones.GetTimeZone (id, id);
449 if (timeZoneInfo == null)
450 throw new TimeZoneNotFoundException ();
453 string filepath = Path.Combine (TimeZoneDirectory, id);
454 return FindSystemTimeZoneByFileName (id, filepath);
456 throw new NotImplementedException ();
461 private static TimeZoneInfo FindSystemTimeZoneByFileName (string id, string filepath)
463 if (!File.Exists (filepath))
464 throw new TimeZoneNotFoundException ();
466 using (FileStream stream = File.OpenRead (filepath)) {
467 return BuildFromStream (id, stream);
471 #if LIBC || MONOTOUCH
472 const int BUFFER_SIZE = 16384; //Big enough for any tz file (on Oct 2008, all tz files are under 10k)
474 private static TimeZoneInfo BuildFromStream (string id, Stream stream)
476 byte [] buffer = new byte [BUFFER_SIZE];
477 int length = stream.Read (buffer, 0, BUFFER_SIZE);
479 if (!ValidTZFile (buffer, length))
480 throw new InvalidTimeZoneException ("TZ file too big for the buffer");
483 return ParseTZBuffer (id, buffer, length);
484 } catch (Exception e) {
485 throw new InvalidTimeZoneException (e.Message);
491 private static TimeZoneInfo FromRegistryKey (string id, RegistryKey key)
493 byte [] reg_tzi = (byte []) key.GetValue ("TZI");
496 throw new InvalidTimeZoneException ();
498 int bias = BitConverter.ToInt32 (reg_tzi, 0);
499 TimeSpan baseUtcOffset = new TimeSpan (0, -bias, 0);
501 string display_name = (string) key.GetValue ("Display");
502 string standard_name = (string) key.GetValue ("Std");
503 string daylight_name = (string) key.GetValue ("Dlt");
505 List<AdjustmentRule> adjustmentRules = new List<AdjustmentRule> ();
507 RegistryKey dst_key = key.OpenSubKey ("Dynamic DST", false);
508 if (dst_key != null) {
509 int first_year = (int) dst_key.GetValue ("FirstEntry");
510 int last_year = (int) dst_key.GetValue ("LastEntry");
513 for (year=first_year; year<=last_year; year++) {
514 byte [] dst_tzi = (byte []) dst_key.GetValue (year.ToString ());
515 if (dst_tzi != null) {
516 int start_year = year == first_year ? 1 : year;
517 int end_year = year == last_year ? 9999 : year;
518 ParseRegTzi(adjustmentRules, start_year, end_year, dst_tzi);
523 ParseRegTzi(adjustmentRules, 1, 9999, reg_tzi);
525 return CreateCustomTimeZone (id, baseUtcOffset, display_name, standard_name, daylight_name, ValidateRules (adjustmentRules).ToArray ());
528 private static void ParseRegTzi (List<AdjustmentRule> adjustmentRules, int start_year, int end_year, byte [] buffer)
530 //int standard_bias = BitConverter.ToInt32 (buffer, 4); /* not sure how to handle this */
531 int daylight_bias = BitConverter.ToInt32 (buffer, 8);
533 int standard_year = BitConverter.ToInt16 (buffer, 12);
534 int standard_month = BitConverter.ToInt16 (buffer, 14);
535 int standard_dayofweek = BitConverter.ToInt16 (buffer, 16);
536 int standard_day = BitConverter.ToInt16 (buffer, 18);
537 int standard_hour = BitConverter.ToInt16 (buffer, 20);
538 int standard_minute = BitConverter.ToInt16 (buffer, 22);
539 int standard_second = BitConverter.ToInt16 (buffer, 24);
540 int standard_millisecond = BitConverter.ToInt16 (buffer, 26);
542 int daylight_year = BitConverter.ToInt16 (buffer, 28);
543 int daylight_month = BitConverter.ToInt16 (buffer, 30);
544 int daylight_dayofweek = BitConverter.ToInt16 (buffer, 32);
545 int daylight_day = BitConverter.ToInt16 (buffer, 34);
546 int daylight_hour = BitConverter.ToInt16 (buffer, 36);
547 int daylight_minute = BitConverter.ToInt16 (buffer, 38);
548 int daylight_second = BitConverter.ToInt16 (buffer, 40);
549 int daylight_millisecond = BitConverter.ToInt16 (buffer, 42);
551 if (standard_month == 0 || daylight_month == 0)
555 DateTime start_timeofday = new DateTime (1, 1, 1, daylight_hour, daylight_minute, daylight_second, daylight_millisecond);
556 TransitionTime start_transition_time;
558 if (daylight_year == 0) {
559 start_date = new DateTime (start_year, 1, 1);
560 start_transition_time = TransitionTime.CreateFloatingDateRule (
561 start_timeofday, daylight_month, daylight_day,
562 (DayOfWeek) daylight_dayofweek);
565 start_date = new DateTime (daylight_year, daylight_month, daylight_day,
566 daylight_hour, daylight_minute, daylight_second, daylight_millisecond);
567 start_transition_time = TransitionTime.CreateFixedDateRule (
568 start_timeofday, daylight_month, daylight_day);
572 DateTime end_timeofday = new DateTime (1, 1, 1, standard_hour, standard_minute, standard_second, standard_millisecond);
573 TransitionTime end_transition_time;
575 if (standard_year == 0) {
576 end_date = new DateTime (end_year, 12, 31);
577 end_transition_time = TransitionTime.CreateFloatingDateRule (
578 end_timeofday, standard_month, standard_day,
579 (DayOfWeek) standard_dayofweek);
582 end_date = new DateTime (standard_year, standard_month, standard_day,
583 standard_hour, standard_minute, standard_second, standard_millisecond);
584 end_transition_time = TransitionTime.CreateFixedDateRule (
585 end_timeofday, standard_month, standard_day);
588 TimeSpan daylight_delta = new TimeSpan(0, -daylight_bias, 0);
590 adjustmentRules.Add (AdjustmentRule.CreateAdjustmentRule (
591 start_date, end_date, daylight_delta,
592 start_transition_time, end_transition_time));
596 public AdjustmentRule [] GetAdjustmentRules ()
598 if (!supportsDaylightSavingTime)
599 return new AdjustmentRule [0];
601 return (AdjustmentRule []) adjustmentRules.Clone ();
604 public TimeSpan [] GetAmbiguousTimeOffsets (DateTime dateTime)
606 if (!IsAmbiguousTime (dateTime))
607 throw new ArgumentException ("dateTime is not an ambiguous time");
609 AdjustmentRule rule = GetApplicableRule (dateTime);
611 return new TimeSpan[] {baseUtcOffset, baseUtcOffset + rule.DaylightDelta};
613 return new TimeSpan[] {baseUtcOffset, baseUtcOffset};
616 public TimeSpan [] GetAmbiguousTimeOffsets (DateTimeOffset dateTimeOffset)
618 if (!IsAmbiguousTime (dateTimeOffset))
619 throw new ArgumentException ("dateTimeOffset is not an ambiguous time");
621 throw new NotImplementedException ();
624 public override int GetHashCode ()
626 int hash_code = Id.GetHashCode ();
627 foreach (AdjustmentRule rule in GetAdjustmentRules ())
628 hash_code ^= rule.GetHashCode ();
632 void ISerializable.GetObjectData (SerializationInfo info, StreamingContext context)
635 throw new ArgumentNullException ("info");
636 info.AddValue ("Id", id);
637 info.AddValue ("DisplayName", displayName);
638 info.AddValue ("StandardName", standardDisplayName);
639 info.AddValue ("DaylightName", daylightDisplayName);
640 info.AddValue ("BaseUtcOffset", baseUtcOffset);
641 info.AddValue ("AdjustmentRules", adjustmentRules);
642 info.AddValue ("SupportsDaylightSavingTime", SupportsDaylightSavingTime);
645 //FIXME: change this to a generic Dictionary and allow caching for FindSystemTimeZoneById
646 private static List<TimeZoneInfo> systemTimeZones;
647 public static ReadOnlyCollection<TimeZoneInfo> GetSystemTimeZones ()
649 if (systemTimeZones == null) {
650 systemTimeZones = new List<TimeZoneInfo> ();
652 if (TimeZoneKey != null) {
653 foreach (string id in TimeZoneKey.GetSubKeyNames ()) {
655 systemTimeZones.Add (FindSystemTimeZoneById (id));
659 return new ReadOnlyCollection<TimeZoneInfo> (systemTimeZones);
663 foreach (string id in AndroidTimeZones.GetAvailableIds ()) {
664 var tz = AndroidTimeZones.GetTimeZone (id, id);
666 systemTimeZones.Add (tz);
669 if (systemTimeZones.Count == 0) {
670 foreach (string name in GetMonoTouchNames ()) {
671 using (Stream stream = GetMonoTouchData (name, false)) {
674 systemTimeZones.Add (BuildFromStream (name, stream));
679 string[] continents = new string [] {"Africa", "America", "Antarctica", "Arctic", "Asia", "Atlantic", "Brazil", "Canada", "Chile", "Europe", "Indian", "Mexico", "Mideast", "Pacific", "US"};
680 foreach (string continent in continents) {
682 foreach (string zonepath in Directory.GetFiles (Path.Combine (TimeZoneDirectory, continent))) {
684 string id = String.Format ("{0}/{1}", continent, Path.GetFileName (zonepath));
685 systemTimeZones.Add (FindSystemTimeZoneById (id));
686 } catch (ArgumentNullException) {
687 } catch (TimeZoneNotFoundException) {
688 } catch (InvalidTimeZoneException) {
689 } catch (Exception) {
696 throw new NotImplementedException ("This method is not implemented for this platform");
699 return new ReadOnlyCollection<TimeZoneInfo> (systemTimeZones);
702 public TimeSpan GetUtcOffset (DateTime dateTime)
705 return GetUtcOffset (dateTime, out isDST);
708 public TimeSpan GetUtcOffset (DateTimeOffset dateTimeOffset)
710 throw new NotImplementedException ();
713 private TimeSpan GetUtcOffset (DateTime dateTime, out bool isDST)
717 TimeZoneInfo tz = this;
718 if (dateTime.Kind == DateTimeKind.Utc)
719 tz = TimeZoneInfo.Utc;
721 if (dateTime.Kind == DateTimeKind.Local)
722 tz = TimeZoneInfo.Local;
725 var tzOffset = GetUtcOffset (dateTime, tz, out isTzDst);
732 var utcTicks = dateTime.Ticks - tzOffset.Ticks;
733 if (utcTicks < 0 || utcTicks > DateTime.MaxValue.Ticks)
734 return BaseUtcOffset;
736 var utcDateTime = new DateTime (utcTicks, DateTimeKind.Utc);
738 return GetUtcOffset (utcDateTime, this, out isDST);
741 private static TimeSpan GetUtcOffset (DateTime dateTime, TimeZoneInfo tz, out bool isDST)
743 if (dateTime.Kind == DateTimeKind.Local && tz != TimeZoneInfo.Local)
744 throw new Exception ();
748 if (tz == TimeZoneInfo.Utc)
749 return TimeSpan.Zero;
752 if (tz.TryGetTransitionOffset(dateTime, out offset, out isDST))
755 if (dateTime.Kind == DateTimeKind.Utc) {
756 var utcRule = tz.GetApplicableRule (dateTime);
757 if (utcRule != null && tz.IsInDST (utcRule, dateTime)) {
759 return tz.BaseUtcOffset + utcRule.DaylightDelta;
762 return tz.BaseUtcOffset;
765 var stdTicks = dateTime.Ticks - tz.BaseUtcOffset.Ticks;
766 if (stdTicks < 0 || stdTicks > DateTime.MaxValue.Ticks)
767 return tz.BaseUtcOffset;
769 var stdUtcDateTime = new DateTime (stdTicks, DateTimeKind.Utc);
770 var tzRule = tz.GetApplicableRule (stdUtcDateTime);
772 DateTime dstUtcDateTime = DateTime.MinValue;
773 if (tzRule != null) {
774 var dstTicks = stdUtcDateTime.Ticks - tzRule.DaylightDelta.Ticks;
775 if (dstTicks < 0 || dstTicks > DateTime.MaxValue.Ticks)
776 return tz.BaseUtcOffset;
778 dstUtcDateTime = new DateTime (dstTicks, DateTimeKind.Utc);
781 if (tzRule != null && tz.IsInDST (tzRule, stdUtcDateTime) && tz.IsInDST (tzRule, dstUtcDateTime)) {
783 return tz.BaseUtcOffset + tzRule.DaylightDelta;
786 return tz.BaseUtcOffset;
789 public bool HasSameRules (TimeZoneInfo other)
792 throw new ArgumentNullException ("other");
794 if ((this.adjustmentRules == null) != (other.adjustmentRules == null))
797 if (this.adjustmentRules == null)
800 if (this.BaseUtcOffset != other.BaseUtcOffset)
803 if (this.adjustmentRules.Length != other.adjustmentRules.Length)
806 for (int i = 0; i < adjustmentRules.Length; i++) {
807 if (! (this.adjustmentRules [i]).Equals (other.adjustmentRules [i]))
814 public bool IsAmbiguousTime (DateTime dateTime)
816 if (dateTime.Kind == DateTimeKind.Local && IsInvalidTime (dateTime))
817 throw new ArgumentException ("Kind is Local and time is Invalid");
819 if (this == TimeZoneInfo.Utc)
822 if (dateTime.Kind == DateTimeKind.Utc)
823 dateTime = ConvertTimeFromUtc (dateTime);
825 if (dateTime.Kind == DateTimeKind.Local && this != TimeZoneInfo.Local)
826 dateTime = ConvertTime (dateTime, TimeZoneInfo.Local, this);
828 AdjustmentRule rule = GetApplicableRule (dateTime);
830 DateTime tpoint = TransitionPoint (rule.DaylightTransitionEnd, dateTime.Year);
831 if (dateTime > tpoint - rule.DaylightDelta && dateTime <= tpoint)
838 public bool IsAmbiguousTime (DateTimeOffset dateTimeOffset)
840 throw new NotImplementedException ();
843 private bool IsInDST (AdjustmentRule rule, DateTime dateTime)
845 // Check whether we're in the dateTime year's DST period
846 if (IsInDSTForYear (rule, dateTime, dateTime.Year))
849 // We might be in the dateTime previous year's DST period
850 return IsInDSTForYear (rule, dateTime, dateTime.Year - 1);
853 bool IsInDSTForYear (AdjustmentRule rule, DateTime dateTime, int year)
855 DateTime DST_start = TransitionPoint (rule.DaylightTransitionStart, year);
856 DateTime DST_end = TransitionPoint (rule.DaylightTransitionEnd, year + ((rule.DaylightTransitionStart.Month < rule.DaylightTransitionEnd.Month) ? 0 : 1));
857 if (dateTime.Kind == DateTimeKind.Utc) {
858 DST_start -= BaseUtcOffset;
859 DST_end -= (BaseUtcOffset + rule.DaylightDelta);
862 return (dateTime >= DST_start && dateTime < DST_end);
865 public bool IsDaylightSavingTime (DateTime dateTime)
867 if (dateTime.Kind == DateTimeKind.Local && IsInvalidTime (dateTime))
868 throw new ArgumentException ("dateTime is invalid and Kind is Local");
870 if (this == TimeZoneInfo.Utc)
873 if (!SupportsDaylightSavingTime)
877 GetUtcOffset (dateTime, out isDst);
882 internal bool IsDaylightSavingTime (DateTime dateTime, TimeZoneInfoOptions flags)
884 return IsDaylightSavingTime (dateTime);
887 public bool IsDaylightSavingTime (DateTimeOffset dateTimeOffset)
889 throw new NotImplementedException ();
892 void IDeserializationCallback.OnDeserialization (object sender)
895 TimeZoneInfo.Validate (id, baseUtcOffset, adjustmentRules);
896 } catch (ArgumentException ex) {
897 throw new SerializationException ("invalid serialization data", ex);
901 private static void Validate (string id, TimeSpan baseUtcOffset, AdjustmentRule [] adjustmentRules)
904 throw new ArgumentNullException ("id");
906 if (id == String.Empty)
907 throw new ArgumentException ("id parameter is an empty string");
909 if (baseUtcOffset.Ticks % TimeSpan.TicksPerMinute != 0)
910 throw new ArgumentException ("baseUtcOffset parameter does not represent a whole number of minutes");
912 if (baseUtcOffset > new TimeSpan (14, 0, 0) || baseUtcOffset < new TimeSpan (-14, 0, 0))
913 throw new ArgumentOutOfRangeException ("baseUtcOffset parameter is greater than 14 hours or less than -14 hours");
917 throw new ArgumentException ("id parameter shouldn't be longer than 32 characters");
920 if (adjustmentRules != null && adjustmentRules.Length != 0) {
921 AdjustmentRule prev = null;
922 foreach (AdjustmentRule current in adjustmentRules) {
924 throw new InvalidTimeZoneException ("one or more elements in adjustmentRules are null");
926 if ((baseUtcOffset + current.DaylightDelta < new TimeSpan (-14, 0, 0)) ||
927 (baseUtcOffset + current.DaylightDelta > new TimeSpan (14, 0, 0)))
928 throw new InvalidTimeZoneException ("Sum of baseUtcOffset and DaylightDelta of one or more object in adjustmentRules array is greater than 14 or less than -14 hours;");
930 if (prev != null && prev.DateStart > current.DateStart)
931 throw new InvalidTimeZoneException ("adjustment rules specified in adjustmentRules parameter are not in chronological order");
933 if (prev != null && prev.DateEnd > current.DateStart)
934 throw new InvalidTimeZoneException ("some adjustment rules in the adjustmentRules parameter overlap");
936 if (prev != null && prev.DateEnd == current.DateStart)
937 throw new InvalidTimeZoneException ("a date can have multiple adjustment rules applied to it");
944 public override string ToString ()
949 private TimeZoneInfo (SerializationInfo info, StreamingContext context)
952 throw new ArgumentNullException ("info");
953 id = (string) info.GetValue ("Id", typeof (string));
954 displayName = (string) info.GetValue ("DisplayName", typeof (string));
955 standardDisplayName = (string) info.GetValue ("StandardName", typeof (string));
956 daylightDisplayName = (string) info.GetValue ("DaylightName", typeof (string));
957 baseUtcOffset = (TimeSpan) info.GetValue ("BaseUtcOffset", typeof (TimeSpan));
958 adjustmentRules = (TimeZoneInfo.AdjustmentRule []) info.GetValue ("AdjustmentRules", typeof (TimeZoneInfo.AdjustmentRule []));
959 supportsDaylightSavingTime = (bool) info.GetValue ("SupportsDaylightSavingTime", typeof (bool));
962 private TimeZoneInfo (string id, TimeSpan baseUtcOffset, string displayName, string standardDisplayName, string daylightDisplayName, TimeZoneInfo.AdjustmentRule [] adjustmentRules, bool disableDaylightSavingTime)
965 throw new ArgumentNullException ("id");
967 if (id == String.Empty)
968 throw new ArgumentException ("id parameter is an empty string");
970 if (baseUtcOffset.Ticks % TimeSpan.TicksPerMinute != 0)
971 throw new ArgumentException ("baseUtcOffset parameter does not represent a whole number of minutes");
973 if (baseUtcOffset > new TimeSpan (14, 0, 0) || baseUtcOffset < new TimeSpan (-14, 0, 0))
974 throw new ArgumentOutOfRangeException ("baseUtcOffset parameter is greater than 14 hours or less than -14 hours");
978 throw new ArgumentException ("id parameter shouldn't be longer than 32 characters");
981 bool supportsDaylightSavingTime = !disableDaylightSavingTime;
983 if (adjustmentRules != null && adjustmentRules.Length != 0) {
984 AdjustmentRule prev = null;
985 foreach (AdjustmentRule current in adjustmentRules) {
987 throw new InvalidTimeZoneException ("one or more elements in adjustmentRules are null");
989 if ((baseUtcOffset + current.DaylightDelta < new TimeSpan (-14, 0, 0)) ||
990 (baseUtcOffset + current.DaylightDelta > new TimeSpan (14, 0, 0)))
991 throw new InvalidTimeZoneException ("Sum of baseUtcOffset and DaylightDelta of one or more object in adjustmentRules array is greater than 14 or less than -14 hours;");
993 if (prev != null && prev.DateStart > current.DateStart)
994 throw new InvalidTimeZoneException ("adjustment rules specified in adjustmentRules parameter are not in chronological order");
996 if (prev != null && prev.DateEnd > current.DateStart)
997 throw new InvalidTimeZoneException ("some adjustment rules in the adjustmentRules parameter overlap");
999 if (prev != null && prev.DateEnd == current.DateStart)
1000 throw new InvalidTimeZoneException ("a date can have multiple adjustment rules applied to it");
1005 supportsDaylightSavingTime = false;
1009 this.baseUtcOffset = baseUtcOffset;
1010 this.displayName = displayName ?? id;
1011 this.standardDisplayName = standardDisplayName ?? id;
1012 this.daylightDisplayName = daylightDisplayName;
1013 this.supportsDaylightSavingTime = supportsDaylightSavingTime;
1014 this.adjustmentRules = adjustmentRules;
1017 private AdjustmentRule GetApplicableRule (DateTime dateTime)
1019 //Applicable rules are in standard time
1020 DateTime date = dateTime;
1022 if (dateTime.Kind == DateTimeKind.Local && this != TimeZoneInfo.Local)
1023 date = date.ToUniversalTime () + BaseUtcOffset;
1024 else if (dateTime.Kind == DateTimeKind.Utc && this != TimeZoneInfo.Utc)
1025 date = date + BaseUtcOffset;
1027 // get the date component of the datetime
1030 if (adjustmentRules != null) {
1031 foreach (AdjustmentRule rule in adjustmentRules) {
1032 if (rule.DateStart > date)
1034 if (rule.DateEnd < date)
1042 private bool TryGetTransitionOffset (DateTime dateTime, out TimeSpan offset,out bool isDst)
1044 offset = BaseUtcOffset;
1047 if (transitions == null)
1050 //Transitions are in UTC
1051 DateTime date = dateTime;
1053 if (dateTime.Kind == DateTimeKind.Local && this != TimeZoneInfo.Local)
1054 date = date.ToUniversalTime () + BaseUtcOffset;
1056 if (dateTime.Kind != DateTimeKind.Utc) {
1057 if (date.Ticks < BaseUtcOffset.Ticks)
1059 date = date - BaseUtcOffset;
1062 for (var i = transitions.Count - 1; i >= 0; i--) {
1063 var pair = transitions [i];
1064 DateTime ttime = pair.Key;
1065 TimeType ttype = pair.Value;
1070 offset = new TimeSpan (0, 0, ttype.Offset);
1071 isDst = ttype.IsDst;
1079 private static DateTime TransitionPoint (TransitionTime transition, int year)
1081 if (transition.IsFixedDateRule)
1082 return new DateTime (year, transition.Month, transition.Day) + transition.TimeOfDay.TimeOfDay;
1084 DayOfWeek first = (new DateTime (year, transition.Month, 1)).DayOfWeek;
1085 int day = 1 + (transition.Week - 1) * 7 + (transition.DayOfWeek - first + 7) % 7;
1086 if (day > DateTime.DaysInMonth (year, transition.Month))
1090 return new DateTime (year, transition.Month, day) + transition.TimeOfDay.TimeOfDay;
1093 static List<AdjustmentRule> ValidateRules (List<AdjustmentRule> adjustmentRules)
1095 AdjustmentRule prev = null;
1096 foreach (AdjustmentRule current in adjustmentRules.ToArray ()) {
1097 if (prev != null && prev.DateEnd > current.DateStart) {
1098 adjustmentRules.Remove (current);
1102 return adjustmentRules;
1105 #if LIBC || MONODROID
1106 private static bool ValidTZFile (byte [] buffer, int length)
1108 StringBuilder magic = new StringBuilder ();
1110 for (int i = 0; i < 4; i++)
1111 magic.Append ((char)buffer [i]);
1113 if (magic.ToString () != "TZif")
1116 if (length >= BUFFER_SIZE)
1122 static int SwapInt32 (int i)
1124 return (((i >> 24) & 0xff)
1125 | ((i >> 8) & 0xff00)
1126 | ((i << 8) & 0xff0000)
1130 static int ReadBigEndianInt32 (byte [] buffer, int start)
1132 int i = BitConverter.ToInt32 (buffer, start);
1133 if (!BitConverter.IsLittleEndian)
1136 return SwapInt32 (i);
1139 private static TimeZoneInfo ParseTZBuffer (string id, byte [] buffer, int length)
1141 //Reading the header. 4 bytes for magic, 16 are reserved
1142 int ttisgmtcnt = ReadBigEndianInt32 (buffer, 20);
1143 int ttisstdcnt = ReadBigEndianInt32 (buffer, 24);
1144 int leapcnt = ReadBigEndianInt32 (buffer, 28);
1145 int timecnt = ReadBigEndianInt32 (buffer, 32);
1146 int typecnt = ReadBigEndianInt32 (buffer, 36);
1147 int charcnt = ReadBigEndianInt32 (buffer, 40);
1149 if (length < 44 + timecnt * 5 + typecnt * 6 + charcnt + leapcnt * 8 + ttisstdcnt + ttisgmtcnt)
1150 throw new InvalidTimeZoneException ();
1152 Dictionary<int, string> abbreviations = ParseAbbreviations (buffer, 44 + 4 * timecnt + timecnt + 6 * typecnt, charcnt);
1153 Dictionary<int, TimeType> time_types = ParseTimesTypes (buffer, 44 + 4 * timecnt + timecnt, typecnt, abbreviations);
1154 List<KeyValuePair<DateTime, TimeType>> transitions = ParseTransitions (buffer, 44, timecnt, time_types);
1156 if (time_types.Count == 0)
1157 throw new InvalidTimeZoneException ();
1159 if (time_types.Count == 1 && ((TimeType)time_types[0]).IsDst)
1160 throw new InvalidTimeZoneException ();
1162 TimeSpan baseUtcOffset = new TimeSpan (0);
1163 TimeSpan dstDelta = new TimeSpan (0);
1164 string standardDisplayName = null;
1165 string daylightDisplayName = null;
1166 bool dst_observed = false;
1167 DateTime dst_start = DateTime.MinValue;
1168 List<AdjustmentRule> adjustmentRules = new List<AdjustmentRule> ();
1169 bool storeTransition = false;
1171 for (int i = 0; i < transitions.Count; i++) {
1172 var pair = transitions [i];
1173 DateTime ttime = pair.Key;
1174 TimeType ttype = pair.Value;
1176 if (standardDisplayName != ttype.Name)
1177 standardDisplayName = ttype.Name;
1178 if (baseUtcOffset.TotalSeconds != ttype.Offset) {
1179 baseUtcOffset = new TimeSpan (0, 0, ttype.Offset);
1180 if (adjustmentRules.Count > 0) // We ignore AdjustmentRules but store transitions.
1181 storeTransition = true;
1182 adjustmentRules = new List<AdjustmentRule> ();
1183 dst_observed = false;
1186 //FIXME: check additional fields for this:
1187 //most of the transitions are expressed in GMT
1188 dst_start += baseUtcOffset;
1189 DateTime dst_end = ttime + baseUtcOffset + dstDelta;
1191 //some weird timezone (America/Phoenix) have end dates on Jan 1st
1192 if (dst_end.Date == new DateTime (dst_end.Year, 1, 1) && dst_end.Year > dst_start.Year)
1193 dst_end -= new TimeSpan (24, 0, 0);
1195 DateTime dateStart, dateEnd;
1196 if (dst_start.Month < 7)
1197 dateStart = new DateTime (dst_start.Year, 1, 1);
1199 dateStart = new DateTime (dst_start.Year, 7, 1);
1201 if (dst_end.Month >= 7)
1202 dateEnd = new DateTime (dst_end.Year, 12, 31);
1204 dateEnd = new DateTime (dst_end.Year, 6, 30);
1207 TransitionTime transition_start = TransitionTime.CreateFixedDateRule (new DateTime (1, 1, 1) + dst_start.TimeOfDay, dst_start.Month, dst_start.Day);
1208 TransitionTime transition_end = TransitionTime.CreateFixedDateRule (new DateTime (1, 1, 1) + dst_end.TimeOfDay, dst_end.Month, dst_end.Day);
1209 if (transition_start != transition_end) //y, that happened in Argentina in 1943-1946
1210 adjustmentRules.Add (AdjustmentRule.CreateAdjustmentRule (dateStart, dateEnd, dstDelta, transition_start, transition_end));
1212 dst_observed = false;
1214 if (daylightDisplayName != ttype.Name)
1215 daylightDisplayName = ttype.Name;
1216 if (dstDelta.TotalSeconds != ttype.Offset - baseUtcOffset.TotalSeconds)
1217 dstDelta = new TimeSpan(0, 0, ttype.Offset) - baseUtcOffset;
1220 dst_observed = true;
1225 if (adjustmentRules.Count == 0 && !storeTransition) {
1226 TimeType t = (TimeType)time_types [0];
1227 if (standardDisplayName == null) {
1228 standardDisplayName = t.Name;
1229 baseUtcOffset = new TimeSpan (0, 0, t.Offset);
1231 tz = CreateCustomTimeZone (id, baseUtcOffset, id, standardDisplayName);
1233 tz = CreateCustomTimeZone (id, baseUtcOffset, id, standardDisplayName, daylightDisplayName, ValidateRules (adjustmentRules).ToArray ());
1236 if (storeTransition)
1237 tz.transitions = transitions;
1242 static Dictionary<int, string> ParseAbbreviations (byte [] buffer, int index, int count)
1244 var abbrevs = new Dictionary<int, string> ();
1245 int abbrev_index = 0;
1246 var sb = new StringBuilder ();
1247 for (int i = 0; i < count; i++) {
1248 char c = (char) buffer [index + i];
1252 abbrevs.Add (abbrev_index, sb.ToString ());
1253 //Adding all the substrings too, as it seems to be used, at least for Africa/Windhoek
1254 for (int j = 1; j < sb.Length; j++)
1255 abbrevs.Add (abbrev_index + j, sb.ToString (j, sb.Length - j));
1256 abbrev_index = i + 1;
1257 sb = new StringBuilder ();
1263 static Dictionary<int, TimeType> ParseTimesTypes (byte [] buffer, int index, int count, Dictionary<int, string> abbreviations)
1265 var types = new Dictionary<int, TimeType> (count);
1266 for (int i = 0; i < count; i++) {
1267 int offset = ReadBigEndianInt32 (buffer, index + 6 * i);
1268 byte is_dst = buffer [index + 6 * i + 4];
1269 byte abbrev = buffer [index + 6 * i + 5];
1270 types.Add (i, new TimeType (offset, (is_dst != 0), abbreviations [(int)abbrev]));
1275 static List<KeyValuePair<DateTime, TimeType>> ParseTransitions (byte [] buffer, int index, int count, Dictionary<int, TimeType> time_types)
1277 var list = new List<KeyValuePair<DateTime, TimeType>> (count);
1278 for (int i = 0; i < count; i++) {
1279 int unixtime = ReadBigEndianInt32 (buffer, index + 4 * i);
1280 DateTime ttime = DateTimeFromUnixTime (unixtime);
1281 byte ttype = buffer [index + 4 * count + i];
1282 list.Add (new KeyValuePair<DateTime, TimeType> (ttime, time_types [(int)ttype]));
1287 static DateTime DateTimeFromUnixTime (long unix_time)
1289 DateTime date_time = new DateTime (1970, 1, 1);
1290 return date_time.AddSeconds (unix_time);
1293 #region reference sources
1294 // Shortcut for TimeZoneInfo.Local.GetUtcOffset
1295 internal static TimeSpan GetLocalUtcOffset(DateTime dateTime, TimeZoneInfoOptions flags)
1298 return Local.GetUtcOffset (dateTime, out dst);
1301 internal TimeSpan GetUtcOffset(DateTime dateTime, TimeZoneInfoOptions flags)
1304 return GetUtcOffset (dateTime, out dst);
1307 // used by GetUtcOffsetFromUtc (DateTime.Now, DateTime.ToLocalTime) for max/min whole-day range checks
1308 private static DateTime s_maxDateOnly = new DateTime(9999, 12, 31);
1309 private static DateTime s_minDateOnly = new DateTime(1, 1, 2);
1311 static internal TimeSpan GetUtcOffsetFromUtc (DateTime time, TimeZoneInfo zone, out Boolean isDaylightSavings, out Boolean isAmbiguousLocalDst)
1313 isDaylightSavings = false;
1314 isAmbiguousLocalDst = false;
1315 TimeSpan baseOffset = zone.BaseUtcOffset;
1317 AdjustmentRule rule;
1319 if (time > s_maxDateOnly) {
1320 rule = zone.GetAdjustmentRuleForTime(DateTime.MaxValue);
1323 else if (time < s_minDateOnly) {
1324 rule = zone.GetAdjustmentRuleForTime(DateTime.MinValue);
1328 DateTime targetTime = time + baseOffset;
1330 rule = zone.GetAdjustmentRuleForTime(targetTime);
1334 isDaylightSavings = GetIsDaylightSavingsFromUtc(time, year, zone.baseUtcOffset, rule, out isAmbiguousLocalDst);
1335 baseOffset += (isDaylightSavings ? rule.DaylightDelta : TimeSpan.Zero /* */);
1341 // assumes dateTime is in the current time zone's time
1342 private AdjustmentRule GetAdjustmentRuleForTime(DateTime dateTime) {
1343 if (adjustmentRules == null || adjustmentRules.Length == 0) {
1347 #if WINXP_AND_WIN2K3_SUPPORT
1348 // On pre-Vista versions of Windows if you run "cmd /c date" or "cmd /c time" to update the system time
1349 // the operating system doesn't pick up the correct time zone adjustment rule (it stays on the currently loaded rule).
1350 // We need to use the OS API data in this scenario instead of the loaded adjustment rules from the registry for
1351 // consistency. Otherwise DateTime.Now might not match the time displayed in the system tray.
1352 if (!Environment.IsWindowsVistaOrAbove && s_cachedData.GetCorrespondingKind(this) == DateTimeKind.Local) {
1353 return s_cachedData.GetOneYearLocalFromLocal(dateTime.Year).rule;
1356 // Only check the whole-date portion of the dateTime -
1357 // This is because the AdjustmentRule DateStart & DateEnd are stored as
1358 // Date-only values {4/2/2006 - 10/28/2006} but actually represent the
1359 // time span {4/2/2006@00:00:00.00000 - 10/28/2006@23:59:59.99999}
1360 DateTime date = dateTime.Date;
1362 for (int i = 0; i < adjustmentRules.Length; i++) {
1363 if (adjustmentRules[i].DateStart <= date && adjustmentRules[i].DateEnd >= date) {
1364 return adjustmentRules[i];
1372 // GetIsDaylightSavingsFromUtc -
1374 // Helper function that checks if a given dateTime is in Daylight Saving Time (DST)
1375 // This function assumes the dateTime is in UTC and AdjustmentRule is in a different time zone
1377 static private Boolean GetIsDaylightSavingsFromUtc(DateTime time, Int32 Year, TimeSpan utc, AdjustmentRule rule, out Boolean isAmbiguousLocalDst) {
1378 isAmbiguousLocalDst = false;
1384 // Get the daylight changes for the year of the specified time.
1385 TimeSpan offset = utc; /* */
1386 DaylightTime daylightTime = GetDaylightTime(Year, rule);
1388 // The start and end times represent the range of universal times that are in DST for that year.
1389 // Within that there is an ambiguous hour, usually right at the end, but at the beginning in
1390 // the unusual case of a negative daylight savings delta.
1391 DateTime startTime = daylightTime.Start - offset;
1392 DateTime endTime = daylightTime.End - offset - rule.DaylightDelta; /* */
1393 DateTime ambiguousStart;
1394 DateTime ambiguousEnd;
1395 if (daylightTime.Delta.Ticks > 0) {
1396 ambiguousStart = endTime - daylightTime.Delta;
1397 ambiguousEnd = endTime;
1399 ambiguousStart = startTime;
1400 ambiguousEnd = startTime - daylightTime.Delta;
1403 Boolean isDst = CheckIsDst(startTime, time, endTime);
1405 // See if the resulting local time becomes ambiguous. This must be captured here or the
1406 // DateTime will not be able to round-trip back to UTC accurately.
1408 isAmbiguousLocalDst = (time >= ambiguousStart && time < ambiguousEnd);
1410 if (!isAmbiguousLocalDst && ambiguousStart.Year != ambiguousEnd.Year) {
1411 // there exists an extreme corner case where the start or end period is on a year boundary and
1412 // because of this the comparison above might have been performed for a year-early or a year-later
1413 // than it should have been.
1414 DateTime ambiguousStartModified;
1415 DateTime ambiguousEndModified;
1417 ambiguousStartModified = ambiguousStart.AddYears(1);
1418 ambiguousEndModified = ambiguousEnd.AddYears(1);
1419 isAmbiguousLocalDst = (time >= ambiguousStart && time < ambiguousEnd);
1421 catch (ArgumentOutOfRangeException) {}
1423 if (!isAmbiguousLocalDst) {
1425 ambiguousStartModified = ambiguousStart.AddYears(-1);
1426 ambiguousEndModified = ambiguousEnd.AddYears(-1);
1427 isAmbiguousLocalDst = (time >= ambiguousStart && time < ambiguousEnd);
1429 catch (ArgumentOutOfRangeException) {}
1439 static private Boolean CheckIsDst(DateTime startTime, DateTime time, DateTime endTime) {
1442 int startTimeYear = startTime.Year;
1443 int endTimeYear = endTime.Year;
1445 if (startTimeYear != endTimeYear) {
1446 endTime = endTime.AddYears(startTimeYear - endTimeYear);
1449 int timeYear = time.Year;
1451 if (startTimeYear != timeYear) {
1452 time = time.AddYears(startTimeYear - timeYear);
1455 if (startTime > endTime) {
1456 // In southern hemisphere, the daylight saving time starts later in the year, and ends in the beginning of next year.
1457 // Note, the summer in the southern hemisphere begins late in the year.
1458 isDst = (time < endTime || time >= startTime);
1461 // In northern hemisphere, the daylight saving time starts in the middle of the year.
1462 isDst = (time >= startTime && time < endTime);
1468 // GetDaylightTime -
1470 // Helper function that returns a DaylightTime from a year and AdjustmentRule
1472 static private DaylightTime GetDaylightTime(Int32 year, AdjustmentRule rule) {
1473 TimeSpan delta = rule.DaylightDelta;
1474 DateTime startTime = TransitionTimeToDateTime(year, rule.DaylightTransitionStart);
1475 DateTime endTime = TransitionTimeToDateTime(year, rule.DaylightTransitionEnd);
1476 return new DaylightTime(startTime, endTime, delta);
1480 // TransitionTimeToDateTime -
1482 // Helper function that converts a year and TransitionTime into a DateTime
1484 static private DateTime TransitionTimeToDateTime(Int32 year, TransitionTime transitionTime) {
1486 DateTime timeOfDay = transitionTime.TimeOfDay;
1488 if (transitionTime.IsFixedDateRule) {
1489 // create a DateTime from the passed in year and the properties on the transitionTime
1491 // if the day is out of range for the month then use the last day of the month
1492 Int32 day = DateTime.DaysInMonth(year, transitionTime.Month);
1494 value = new DateTime(year, transitionTime.Month, (day < transitionTime.Day) ? day : transitionTime.Day,
1495 timeOfDay.Hour, timeOfDay.Minute, timeOfDay.Second, timeOfDay.Millisecond);
1498 if (transitionTime.Week <= 4) {
1500 // Get the (transitionTime.Week)th Sunday.
1502 value = new DateTime(year, transitionTime.Month, 1,
1503 timeOfDay.Hour, timeOfDay.Minute, timeOfDay.Second, timeOfDay.Millisecond);
1505 int dayOfWeek = (int)value.DayOfWeek;
1506 int delta = (int)transitionTime.DayOfWeek - dayOfWeek;
1510 delta += 7 * (transitionTime.Week - 1);
1513 value = value.AddDays(delta);
1518 // If TransitionWeek is greater than 4, we will get the last week.
1520 Int32 daysInMonth = DateTime.DaysInMonth(year, transitionTime.Month);
1521 value = new DateTime(year, transitionTime.Month, daysInMonth,
1522 timeOfDay.Hour, timeOfDay.Minute, timeOfDay.Second, timeOfDay.Millisecond);
1524 // This is the day of week for the last day of the month.
1525 int dayOfWeek = (int)value.DayOfWeek;
1526 int delta = dayOfWeek - (int)transitionTime.DayOfWeek;
1532 value = value.AddDays(-delta);
1542 // returns true when dateTime falls into a "hole in time".
1544 public Boolean IsInvalidTime(DateTime dateTime) {
1545 Boolean isInvalid = false;
1547 if ( (dateTime.Kind == DateTimeKind.Unspecified)
1548 || (dateTime.Kind == DateTimeKind.Local && this == Local) ) {
1550 // only check Unspecified and (Local when this TimeZoneInfo instance is Local)
1551 AdjustmentRule rule = GetAdjustmentRuleForTime(dateTime);
1555 DaylightTime daylightTime = GetDaylightTime(dateTime.Year, rule);
1556 isInvalid = GetIsInvalidTime(dateTime, rule, daylightTime);
1567 // GetIsInvalidTime -
1569 // Helper function that checks if a given DateTime is in an invalid time ("time hole")
1570 // A "time hole" occurs at a DST transition point when time jumps forward;
1571 // For example, in Pacific Standard Time on Sunday, April 2, 2006 time jumps from
1572 // 1:59:59.9999999 to 3AM. The time range 2AM to 2:59:59.9999999AM is the "time hole".
1573 // A "time hole" is not limited to only occurring at the start of DST, and may occur at
1574 // the end of DST as well.
1576 static private Boolean GetIsInvalidTime(DateTime time, AdjustmentRule rule, DaylightTime daylightTime) {
1577 Boolean isInvalid = false;
1578 if (rule == null || rule.DaylightDelta == TimeSpan.Zero) {
1582 DateTime startInvalidTime;
1583 DateTime endInvalidTime;
1585 // if at DST start we transition forward in time then there is an ambiguous time range at the DST end
1586 if (rule.DaylightDelta < TimeSpan.Zero) {
1587 startInvalidTime = daylightTime.End;
1588 endInvalidTime = daylightTime.End - rule.DaylightDelta; /* */
1591 startInvalidTime = daylightTime.Start;
1592 endInvalidTime = daylightTime.Start + rule.DaylightDelta; /* */
1595 isInvalid = (time >= startInvalidTime && time < endInvalidTime);
1597 if (!isInvalid && startInvalidTime.Year != endInvalidTime.Year) {
1598 // there exists an extreme corner case where the start or end period is on a year boundary and
1599 // because of this the comparison above might have been performed for a year-early or a year-later
1600 // than it should have been.
1601 DateTime startModifiedInvalidTime;
1602 DateTime endModifiedInvalidTime;
1604 startModifiedInvalidTime = startInvalidTime.AddYears(1);
1605 endModifiedInvalidTime = endInvalidTime.AddYears(1);
1606 isInvalid = (time >= startModifiedInvalidTime && time < endModifiedInvalidTime);
1608 catch (ArgumentOutOfRangeException) {}
1612 startModifiedInvalidTime = startInvalidTime.AddYears(-1);
1613 endModifiedInvalidTime = endInvalidTime.AddYears(-1);
1614 isInvalid = (time >= startModifiedInvalidTime && time < endModifiedInvalidTime);
1616 catch (ArgumentOutOfRangeException) {}
1625 public readonly int Offset;
1626 public readonly bool IsDst;
1629 public TimeType (int offset, bool is_dst, string abbrev)
1631 this.Offset = offset;
1632 this.IsDst = is_dst;
1636 public override string ToString ()
1638 return "offset: " + Offset + "s, is_dst: " + IsDst + ", zone name: " + Name;