コード例 #1
0
		/// <summary>
		/// Obtains an instance from an instant using the specified time-zone.
		/// </summary>
		/// <param name="chrono">  the chronology, not null </param>
		/// <param name="instant">  the instant, not null </param>
		/// <param name="zone">  the zone identifier, not null </param>
		/// <returns> the zoned date-time, not null </returns>
//JAVA TO C# CONVERTER TODO TASK: Java wildcard generics are not converted to .NET:
//ORIGINAL LINE: static ChronoZonedDateTimeImpl<?> ofInstant(Chronology ChronoZonedDateTime_Fields.chrono, java.time.Instant instant, java.time.ZoneId zone)
		internal static ChronoZonedDateTimeImpl<?> OfInstant(Chronology ChronoZonedDateTime_Fields, Instant instant, ZoneId zone)
		{
			ZoneRules rules = zone.Rules;
			ZoneOffset offset = rules.GetOffset(instant);
			Objects.RequireNonNull(offset, "offset"); // protect against bad ZoneRules
			LocalDateTime ldt = LocalDateTime.OfEpochSecond(instant.EpochSecond, instant.Nano, offset);
//JAVA TO C# CONVERTER TODO TASK: Java wildcard generics are not converted to .NET:
//ORIGINAL LINE: ChronoLocalDateTimeImpl<?> cldt = (ChronoLocalDateTimeImpl<?>)ChronoZonedDateTime_Fields.chrono.localDateTime(ldt);
			ChronoLocalDateTimeImpl<?> cldt = (ChronoLocalDateTimeImpl<?>)ChronoZonedDateTime_Fields.Chrono.localDateTime(ldt);
			return new ChronoZonedDateTimeImpl<>(cldt, offset, zone);
		}
コード例 #2
0
ファイル: FileTime.cs プロジェクト: ranganathsb/JavaSharp
 /// <summary>
 /// Returns the string representation of this {@code FileTime}. The string
 /// is returned in the <a
 /// href="http://www.w3.org/TR/NOTE-datetime">ISO&nbsp;8601</a> format:
 /// <pre>
 ///     YYYY-MM-DDThh:mm:ss[.s+]Z
 /// </pre>
 /// where "{@code [.s+]}" represents a dot followed by one of more digits
 /// for the decimal fraction of a second. It is only present when the decimal
 /// fraction of a second is not zero. For example, {@code
 /// FileTime.fromMillis(1234567890000L).toString()} yields {@code
 /// "2009-02-13T23:31:30Z"}, and {@code FileTime.fromMillis(1234567890123L).toString()}
 /// yields {@code "2009-02-13T23:31:30.123Z"}.
 ///
 /// <para> A {@code FileTime} is primarily intended to represent the value of a
 /// file's time stamp. Where used to represent <i>extreme values</i>, where
 /// the year is less than "{@code 0001}" or greater than "{@code 9999}" then
 /// this method deviates from ISO 8601 in the same manner as the
 /// <a href="http://www.w3.org/TR/xmlschema-2/#deviantformats">XML Schema
 /// language</a>. That is, the year may be expanded to more than four digits
 /// and may be negative-signed. If more than four digits then leading zeros
 /// are not present. The year before "{@code 0001}" is "{@code -0001}".
 ///
 /// </para>
 /// </summary>
 /// <returns>  the string representation of this file time </returns>
 public override String ToString()
 {
     if (ValueAsString == null)
     {
         long secs  = 0L;
         int  nanos = 0;
         if (Instant == null && Unit.CompareTo(TimeUnit.SECONDS) >= 0)
         {
             secs = Unit.ToSeconds(Value);
         }
         else
         {
             secs  = ToInstant().EpochSecond;
             nanos = ToInstant().Nano;
         }
         LocalDateTime ldt;
         int           year = 0;
         if (secs >= -SECONDS_0000_TO_1970)
         {
             // current era
             long zeroSecs = secs - SECONDS_PER_10000_YEARS + SECONDS_0000_TO_1970;
             long hi       = Math.FloorDiv(zeroSecs, SECONDS_PER_10000_YEARS) + 1;
             long lo       = Math.FloorMod(zeroSecs, SECONDS_PER_10000_YEARS);
             ldt  = LocalDateTime.OfEpochSecond(lo - SECONDS_0000_TO_1970, nanos, ZoneOffset.UTC);
             year = ldt.Year + (int)hi * 10000;
         }
         else
         {
             // before current era
             long zeroSecs = secs + SECONDS_0000_TO_1970;
             long hi       = zeroSecs / SECONDS_PER_10000_YEARS;
             long lo       = zeroSecs % SECONDS_PER_10000_YEARS;
             ldt  = LocalDateTime.OfEpochSecond(lo - SECONDS_0000_TO_1970, nanos, ZoneOffset.UTC);
             year = ldt.Year + (int)hi * 10000;
         }
         if (year <= 0)
         {
             year = year - 1;
         }
         int           fraction = ldt.Nano;
         StringBuilder sb       = new StringBuilder(64);
         sb.Append(year < 0 ? "-" : "");
         year = System.Math.Abs(year);
         if (year < 10000)
         {
             Append(sb, 1000, System.Math.Abs(year));
         }
         else
         {
             sb.Append(Convert.ToString(year));
         }
         sb.Append('-');
         Append(sb, 10, ldt.MonthValue);
         sb.Append('-');
         Append(sb, 10, ldt.DayOfMonth);
         sb.Append('T');
         Append(sb, 10, ldt.Hour);
         sb.Append(':');
         Append(sb, 10, ldt.Minute);
         sb.Append(':');
         Append(sb, 10, ldt.Second);
         if (fraction != 0)
         {
             sb.Append('.');
             // adding leading zeros and stripping any trailing zeros
             int w = 100000000;
             while (fraction % 10 == 0)
             {
                 fraction /= 10;
                 w        /= 10;
             }
             Append(sb, w, fraction);
         }
         sb.Append('Z');
         ValueAsString = sb.ToString();
     }
     return(ValueAsString);
 }
コード例 #3
0
 /// <summary>
 /// Creates an instance from epoch-second and offsets.
 /// </summary>
 /// <param name="epochSecond">  the transition epoch-second </param>
 /// <param name="offsetBefore">  the offset before the transition, not null </param>
 /// <param name="offsetAfter">  the offset at and after the transition, not null </param>
 internal ZoneOffsetTransition(long epochSecond, ZoneOffset offsetBefore, ZoneOffset offsetAfter)
 {
     this.Transition           = LocalDateTime.OfEpochSecond(epochSecond, 0, offsetBefore);
     this.OffsetBefore_Renamed = offsetBefore;
     this.OffsetAfter_Renamed  = offsetAfter;
 }