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// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
using System.Diagnostics.Contracts;
using System.Runtime.Serialization;
namespace System
{
public sealed partial class TimeZoneInfo
{
[Serializable]
public sealed class AdjustmentRule : IEquatable<AdjustmentRule>, ISerializable, IDeserializationCallback
{
private readonly DateTime _dateStart;
private readonly DateTime _dateEnd;
private readonly TimeSpan _daylightDelta;
private readonly TransitionTime _daylightTransitionStart;
private readonly TransitionTime _daylightTransitionEnd;
private readonly TimeSpan _baseUtcOffsetDelta; // delta from the default Utc offset (utcOffset = defaultUtcOffset + _baseUtcOffsetDelta)
private readonly bool _noDaylightTransitions;
public DateTime DateStart => _dateStart;
public DateTime DateEnd => _dateEnd;
public TimeSpan DaylightDelta => _daylightDelta;
public TransitionTime DaylightTransitionStart => _daylightTransitionStart;
public TransitionTime DaylightTransitionEnd => _daylightTransitionEnd;
internal TimeSpan BaseUtcOffsetDelta => _baseUtcOffsetDelta;
/// <summary>
/// Gets a value indicating that this AdjustmentRule fixes the time zone offset
/// from DateStart to DateEnd without any daylight transitions in between.
/// </summary>
internal bool NoDaylightTransitions => _noDaylightTransitions;
internal bool HasDaylightSaving =>
DaylightDelta != TimeSpan.Zero ||
(DaylightTransitionStart != default(TransitionTime) && DaylightTransitionStart.TimeOfDay != DateTime.MinValue) ||
(DaylightTransitionEnd != default(TransitionTime) && DaylightTransitionEnd.TimeOfDay != DateTime.MinValue.AddMilliseconds(1));
public bool Equals(AdjustmentRule other) =>
other != null &&
_dateStart == other._dateStart &&
_dateEnd == other._dateEnd &&
_daylightDelta == other._daylightDelta &&
_baseUtcOffsetDelta == other._baseUtcOffsetDelta &&
_daylightTransitionEnd.Equals(other._daylightTransitionEnd) &&
_daylightTransitionStart.Equals(other._daylightTransitionStart);
public override int GetHashCode() => _dateStart.GetHashCode();
private AdjustmentRule(
DateTime dateStart,
DateTime dateEnd,
TimeSpan daylightDelta,
TransitionTime daylightTransitionStart,
TransitionTime daylightTransitionEnd,
TimeSpan baseUtcOffsetDelta,
bool noDaylightTransitions)
{
ValidateAdjustmentRule(dateStart, dateEnd, daylightDelta,
daylightTransitionStart, daylightTransitionEnd, noDaylightTransitions);
_dateStart = dateStart;
_dateEnd = dateEnd;
_daylightDelta = daylightDelta;
_daylightTransitionStart = daylightTransitionStart;
_daylightTransitionEnd = daylightTransitionEnd;
_baseUtcOffsetDelta = baseUtcOffsetDelta;
_noDaylightTransitions = noDaylightTransitions;
}
public static AdjustmentRule CreateAdjustmentRule(
DateTime dateStart,
DateTime dateEnd,
TimeSpan daylightDelta,
TransitionTime daylightTransitionStart,
TransitionTime daylightTransitionEnd)
{
return new AdjustmentRule(
dateStart,
dateEnd,
daylightDelta,
daylightTransitionStart,
daylightTransitionEnd,
baseUtcOffsetDelta: TimeSpan.Zero,
noDaylightTransitions: false);
}
internal static AdjustmentRule CreateAdjustmentRule(
DateTime dateStart,
DateTime dateEnd,
TimeSpan daylightDelta,
TransitionTime daylightTransitionStart,
TransitionTime daylightTransitionEnd,
TimeSpan baseUtcOffsetDelta,
bool noDaylightTransitions)
{
return new AdjustmentRule(
dateStart,
dateEnd,
daylightDelta,
daylightTransitionStart,
daylightTransitionEnd,
baseUtcOffsetDelta,
noDaylightTransitions);
}
//
// When Windows sets the daylight transition start Jan 1st at 12:00 AM, it means the year starts with the daylight saving on.
// We have to special case this value and not adjust it when checking if any date is in the daylight saving period.
//
internal bool IsStartDateMarkerForBeginningOfYear() =>
!NoDaylightTransitions &&
DaylightTransitionStart.Month == 1 && DaylightTransitionStart.Day == 1 && DaylightTransitionStart.TimeOfDay.Hour == 0 &&
DaylightTransitionStart.TimeOfDay.Minute == 0 && DaylightTransitionStart.TimeOfDay.Second == 0 &&
_dateStart.Year == _dateEnd.Year;
//
// When Windows sets the daylight transition end Jan 1st at 12:00 AM, it means the year ends with the daylight saving on.
// We have to special case this value and not adjust it when checking if any date is in the daylight saving period.
//
internal bool IsEndDateMarkerForEndOfYear() =>
!NoDaylightTransitions &&
DaylightTransitionEnd.Month == 1 && DaylightTransitionEnd.Day == 1 && DaylightTransitionEnd.TimeOfDay.Hour == 0 &&
DaylightTransitionEnd.TimeOfDay.Minute == 0 && DaylightTransitionEnd.TimeOfDay.Second == 0 &&
_dateStart.Year == _dateEnd.Year;
/// <summary>
/// Helper function that performs all of the validation checks for the actory methods and deserialization callback.
/// </summary>
private static void ValidateAdjustmentRule(
DateTime dateStart,
DateTime dateEnd,
TimeSpan daylightDelta,
TransitionTime daylightTransitionStart,
TransitionTime daylightTransitionEnd,
bool noDaylightTransitions)
{
if (dateStart.Kind != DateTimeKind.Unspecified && dateStart.Kind != DateTimeKind.Utc)
{
throw new ArgumentException(SR.Argument_DateTimeKindMustBeUnspecifiedOrUtc, nameof(dateStart));
}
if (dateEnd.Kind != DateTimeKind.Unspecified && dateEnd.Kind != DateTimeKind.Utc)
{
throw new ArgumentException(SR.Argument_DateTimeKindMustBeUnspecifiedOrUtc, nameof(dateEnd));
}
if (daylightTransitionStart.Equals(daylightTransitionEnd) && !noDaylightTransitions)
{
throw new ArgumentException(SR.Argument_TransitionTimesAreIdentical, nameof(daylightTransitionEnd));
}
if (dateStart > dateEnd)
{
throw new ArgumentException(SR.Argument_OutOfOrderDateTimes, nameof(dateStart));
}
// This cannot use UtcOffsetOutOfRange to account for the scenario where Samoa moved across the International Date Line,
// which caused their current BaseUtcOffset to be +13. But on the other side of the line it was UTC-11 (+1 for daylight).
// So when trying to describe DaylightDeltas for those times, the DaylightDelta needs
// to be -23 (what it takes to go from UTC+13 to UTC-10)
if (daylightDelta.TotalHours < -23.0 || daylightDelta.TotalHours > 14.0)
{
throw new ArgumentOutOfRangeException(nameof(daylightDelta), daylightDelta, SR.ArgumentOutOfRange_UtcOffset);
}
if (daylightDelta.Ticks % TimeSpan.TicksPerMinute != 0)
{
throw new ArgumentException(SR.Argument_TimeSpanHasSeconds, nameof(daylightDelta));
}
if (dateStart != DateTime.MinValue && dateStart.Kind == DateTimeKind.Unspecified && dateStart.TimeOfDay != TimeSpan.Zero)
{
throw new ArgumentException(SR.Argument_DateTimeHasTimeOfDay, nameof(dateStart));
}
if (dateEnd != DateTime.MaxValue && dateEnd.Kind == DateTimeKind.Unspecified && dateEnd.TimeOfDay != TimeSpan.Zero)
{
throw new ArgumentException(SR.Argument_DateTimeHasTimeOfDay, nameof(dateEnd));
}
Contract.EndContractBlock();
}
void IDeserializationCallback.OnDeserialization(object sender)
{
// OnDeserialization is called after each instance of this class is deserialized.
// This callback method performs AdjustmentRule validation after being deserialized.
try
{
ValidateAdjustmentRule(_dateStart, _dateEnd, _daylightDelta,
_daylightTransitionStart, _daylightTransitionEnd, _noDaylightTransitions);
}
catch (ArgumentException e)
{
throw new SerializationException(SR.Serialization_InvalidData, e);
}
}
void ISerializable.GetObjectData(SerializationInfo info, StreamingContext context)
{
if (info == null)
{
throw new ArgumentNullException(nameof(info));
}
Contract.EndContractBlock();
info.AddValue("DateStart", _dateStart);
info.AddValue("DateEnd", _dateEnd);
info.AddValue("DaylightDelta", _daylightDelta);
info.AddValue("DaylightTransitionStart", _daylightTransitionStart);
info.AddValue("DaylightTransitionEnd", _daylightTransitionEnd);
info.AddValue("BaseUtcOffsetDelta", _baseUtcOffsetDelta);
info.AddValue("NoDaylightTransitions", _noDaylightTransitions);
}
private AdjustmentRule(SerializationInfo info, StreamingContext context)
{
if (info == null)
{
throw new ArgumentNullException(nameof(info));
}
_dateStart = (DateTime)info.GetValue("DateStart", typeof(DateTime));
_dateEnd = (DateTime)info.GetValue("DateEnd", typeof(DateTime));
_daylightDelta = (TimeSpan)info.GetValue("DaylightDelta", typeof(TimeSpan));
_daylightTransitionStart = (TransitionTime)info.GetValue("DaylightTransitionStart", typeof(TransitionTime));
_daylightTransitionEnd = (TransitionTime)info.GetValue("DaylightTransitionEnd", typeof(TransitionTime));
object o = info.GetValueNoThrow("BaseUtcOffsetDelta", typeof(TimeSpan));
if (o != null)
{
_baseUtcOffsetDelta = (TimeSpan)o;
}
o = info.GetValueNoThrow("NoDaylightTransitions", typeof(bool));
if (o != null)
{
_noDaylightTransitions = (bool)o;
}
}
}
}
}
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