SetFailure() private méthode

private SetFailure ( ParseFailureKind failure, string failureMessageID, object failureMessageFormatArgument ) : void
failure ParseFailureKind
failureMessageID string
failureMessageFormatArgument object
Résultat void
        internal static bool TryParseExact(String s, String format, DateTimeFormatInfo dtfi, DateTimeStyles style, ref DateTimeResult result) {
            if (s == null) {
                result.SetFailure(ParseFailureKind.ArgumentNull, "ArgumentNull_String", null, "s");
                return false;
            }
            if (format == null) {
                result.SetFailure(ParseFailureKind.ArgumentNull, "ArgumentNull_String", null, "format");
                return false;
            }
            if (s.Length == 0) {
                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                return false;
            }

            if (format.Length == 0) {
                result.SetFailure(ParseFailureKind.Format, "Format_BadFormatSpecifier", null);
                return false;
            }

            BCLDebug.Assert(dtfi != null, "dtfi == null");

            return DoStrictParse(s, format, style, dtfi, ref result);
        }
Exemple #2
0
        //
        // Parse the ISO8601 format string found during Parse();
        //
        //
        private static bool ParseISO8601(ref DateTimeRawInfo raw, ref __DTString str, DateTimeStyles styles, ref DateTimeResult result) {
            if (raw.year < 0 || raw.GetNumber(0) < 0 || raw.GetNumber(1) < 0) {
            }
            str.Index--;
            int hour, minute;
            int second = 0;
            double partSecond = 0;

            str.SkipWhiteSpaces();
            if (!ParseDigits(ref str, 2, out hour)) {
                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                return false;
            }
            str.SkipWhiteSpaces();
            if (!str.Match(':')) {
                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                return false;
            }
            str.SkipWhiteSpaces();
            if (!ParseDigits(ref str, 2, out minute)) {
                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                return false;
            }
            str.SkipWhiteSpaces();
            if (str.Match(':')) {
                str.SkipWhiteSpaces();
                if (!ParseDigits(ref str, 2, out second)) {
                    result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                    return false;
                }
                if (str.Match('.')) {
                    if (!ParseFraction(ref str, out partSecond)) {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return false;
                    }
                    str.Index--;
                }
                str.SkipWhiteSpaces();
            }
            if (str.GetNext()) {
                char ch = str.GetChar();
                if (ch == '+' || ch == '-') {
                    result.flags |= ParseFlags.TimeZoneUsed;
                    if (!ParseTimeZone(ref str, ref result.timeZoneOffset)) {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return false;
                    }
                } else if (ch == 'Z' || ch == 'z') {
                    result.flags |= ParseFlags.TimeZoneUsed;
                    result.timeZoneOffset = TimeSpan.Zero;
                    result.flags |= ParseFlags.TimeZoneUtc;
                } else {
                    str.Index--;
                }
                str.SkipWhiteSpaces();
                if (str.Match('#')) {
                    if (!VerifyValidPunctuation(ref str)) {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return false;                        
                    }
                    str.SkipWhiteSpaces();
                }
                if (str.Match('\0')) {
                    if (!VerifyValidPunctuation(ref str)) {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return false;                        
                    }
                }
                if (str.GetNext()) {                
                    // If this is true, there were non-white space characters remaining in the DateTime
                    result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                    return false;
                }
            }

            DateTime time;
            Calendar calendar = GregorianCalendar.GetDefaultInstance();
            if (!calendar.TryToDateTime(raw.year, raw.GetNumber(0), raw.GetNumber(1),
                    hour, minute, second, 0, result.era, out time)) {
                result.SetFailure(ParseFailureKind.FormatBadDateTimeCalendar, "Format_BadDateTimeCalendar", null);
                return false;
            }
            
            time = time.AddTicks((long)Math.Round(partSecond * Calendar.TicksPerSecond));
            result.parsedDate = time;
            if (!DetermineTimeZoneAdjustments(ref result, styles, false)) {
                return false;
            }
            return true;
        }
		private static bool HandleTimeZone(ref __DTString str, ref DateTimeResult result)
		{
			if (str.Index < str.len - 1)
			{
				char c = str.Value[str.Index];
				int num = 0;
				while (char.IsWhiteSpace(c) && str.Index + num < str.len - 1)
				{
					num++;
					c = str.Value[str.Index + num];
				}
				if (c == '+' || c == '-')
				{
					str.Index += num;
					if ((result.flags & ParseFlags.TimeZoneUsed) != (ParseFlags)0)
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					result.flags |= ParseFlags.TimeZoneUsed;
					if (!DateTimeParse.ParseTimeZone(ref str, ref result.timeZoneOffset))
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
				}
			}
			return true;
		}
		private static bool DoStrictParse(string s, string formatParam, DateTimeStyles styles, DateTimeFormatInfo dtfi, ref DateTimeResult result)
		{
			ParsingInfo parsingInfo = default(ParsingInfo);
			parsingInfo.Init();
			parsingInfo.calendar = dtfi.Calendar;
			parsingInfo.fAllowInnerWhite = ((styles & DateTimeStyles.AllowInnerWhite) != DateTimeStyles.None);
			parsingInfo.fAllowTrailingWhite = ((styles & DateTimeStyles.AllowTrailingWhite) != DateTimeStyles.None);
			if (formatParam.Length == 1)
			{
				if ((result.flags & ParseFlags.CaptureOffset) != (ParseFlags)0 && formatParam[0] == 'U')
				{
					result.SetFailure(ParseFailureKind.Format, "Format_BadFormatSpecifier", null);
					return false;
				}
				formatParam = DateTimeParse.ExpandPredefinedFormat(formatParam, ref dtfi, ref parsingInfo, ref result);
			}
			result.calendar = parsingInfo.calendar;
			if (parsingInfo.calendar.ID == 8)
			{
				parsingInfo.parseNumberDelegate = DateTimeParse.m_hebrewNumberParser;
				parsingInfo.fCustomNumberParser = true;
			}
			result.Hour = (result.Minute = (result.Second = -1));
			__DTString _DTString = new __DTString(formatParam, dtfi, false);
			__DTString _DTString2 = new __DTString(s, dtfi, false);
			if (parsingInfo.fAllowTrailingWhite)
			{
				_DTString.TrimTail();
				_DTString.RemoveTrailingInQuoteSpaces();
				_DTString2.TrimTail();
			}
			if ((styles & DateTimeStyles.AllowLeadingWhite) != DateTimeStyles.None)
			{
				_DTString.SkipWhiteSpaces();
				_DTString.RemoveLeadingInQuoteSpaces();
				_DTString2.SkipWhiteSpaces();
			}
			while (_DTString.GetNext())
			{
				if (parsingInfo.fAllowInnerWhite)
				{
					_DTString2.SkipWhiteSpaces();
				}
				if (!DateTimeParse.ParseByFormat(ref _DTString2, ref _DTString, ref parsingInfo, dtfi, ref result))
				{
					return false;
				}
			}
			if (_DTString2.Index < _DTString2.Value.Length - 1)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			if (parsingInfo.fUseTwoDigitYear && (dtfi.FormatFlags & DateTimeFormatFlags.UseHebrewRule) == DateTimeFormatFlags.None)
			{
				if (result.Year >= 100)
				{
					result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
					return false;
				}
				result.Year = parsingInfo.calendar.ToFourDigitYear(result.Year);
			}
			if (parsingInfo.fUseHour12)
			{
				if (parsingInfo.timeMark == DateTimeParse.TM.NotSet)
				{
					parsingInfo.timeMark = DateTimeParse.TM.AM;
				}
				if (result.Hour > 12)
				{
					result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
					return false;
				}
				if (parsingInfo.timeMark == DateTimeParse.TM.AM)
				{
					if (result.Hour == 12)
					{
						result.Hour = 0;
					}
				}
				else
				{
					result.Hour = ((result.Hour == 12) ? 12 : (result.Hour + 12));
				}
			}
			else
			{
				if ((parsingInfo.timeMark == DateTimeParse.TM.AM && result.Hour >= 12) || (parsingInfo.timeMark == DateTimeParse.TM.PM && result.Hour < 12))
				{
					result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
					return false;
				}
			}
			bool flag = result.Year == -1 && result.Month == -1 && result.Day == -1;
			if (!DateTimeParse.CheckDefaultDateTime(ref result, ref parsingInfo.calendar, styles))
			{
				return false;
			}
			if (!flag && dtfi.HasYearMonthAdjustment && !dtfi.YearMonthAdjustment(ref result.Year, ref result.Month, (result.flags & ParseFlags.ParsedMonthName) != (ParseFlags)0))
			{
				result.SetFailure(ParseFailureKind.FormatBadDateTimeCalendar, "Format_BadDateTimeCalendar", null);
				return false;
			}
			if (!parsingInfo.calendar.TryToDateTime(result.Year, result.Month, result.Day, result.Hour, result.Minute, result.Second, 0, result.era, out result.parsedDate))
			{
				result.SetFailure(ParseFailureKind.FormatBadDateTimeCalendar, "Format_BadDateTimeCalendar", null);
				return false;
			}
			if (result.fraction > 0.0)
			{
				result.parsedDate = result.parsedDate.AddTicks((long)Math.Round(result.fraction * 10000000.0));
			}
			if (parsingInfo.dayOfWeek != -1 && parsingInfo.dayOfWeek != (int)parsingInfo.calendar.GetDayOfWeek(result.parsedDate))
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDayOfWeek", null);
				return false;
			}
			return DateTimeParse.DetermineTimeZoneAdjustments(ref result, styles, flag);
		}
		private static bool CheckDefaultDateTime(ref DateTimeResult result, ref Calendar cal, DateTimeStyles styles)
		{
			if ((result.flags & ParseFlags.CaptureOffset) != (ParseFlags)0 && (result.Month != -1 || result.Day != -1) && (result.Year == -1 || (result.flags & ParseFlags.YearDefault) != (ParseFlags)0) && (result.flags & ParseFlags.TimeZoneUsed) != (ParseFlags)0)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_MissingIncompleteDate", null);
				return false;
			}
			if (result.Year == -1 || result.Month == -1 || result.Day == -1)
			{
				DateTime dateTimeNow = DateTimeParse.GetDateTimeNow(ref result, ref styles);
				if (result.Month == -1 && result.Day == -1)
				{
					if (result.Year == -1)
					{
						if ((styles & DateTimeStyles.NoCurrentDateDefault) != DateTimeStyles.None)
						{
							cal = GregorianCalendar.GetDefaultInstance();
							result.Year = (result.Month = (result.Day = 1));
						}
						else
						{
							result.Year = cal.GetYear(dateTimeNow);
							result.Month = cal.GetMonth(dateTimeNow);
							result.Day = cal.GetDayOfMonth(dateTimeNow);
						}
					}
					else
					{
						result.Month = 1;
						result.Day = 1;
					}
				}
				else
				{
					if (result.Year == -1)
					{
						result.Year = cal.GetYear(dateTimeNow);
					}
					if (result.Month == -1)
					{
						result.Month = 1;
					}
					if (result.Day == -1)
					{
						result.Day = 1;
					}
				}
			}
			if (result.Hour == -1)
			{
				result.Hour = 0;
			}
			if (result.Minute == -1)
			{
				result.Minute = 0;
			}
			if (result.Second == -1)
			{
				result.Second = 0;
			}
			if (result.era == -1)
			{
				result.era = 0;
			}
			return true;
		}
		private static bool ParseISO8601(ref DateTimeRawInfo raw, ref __DTString str, DateTimeStyles styles, ref DateTimeResult result)
		{
			if (raw.year >= 0 && raw.GetNumber(0) >= 0)
			{
				raw.GetNumber(1);
			}
			str.Index--;
			int second = 0;
			double num = 0.0;
			str.SkipWhiteSpaces();
			int hour;
			if (!DateTimeParse.ParseDigits(ref str, 2, out hour))
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			str.SkipWhiteSpaces();
			if (!str.Match(':'))
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			str.SkipWhiteSpaces();
			int minute;
			if (!DateTimeParse.ParseDigits(ref str, 2, out minute))
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			str.SkipWhiteSpaces();
			if (str.Match(':'))
			{
				str.SkipWhiteSpaces();
				if (!DateTimeParse.ParseDigits(ref str, 2, out second))
				{
					result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
					return false;
				}
				if (str.Match('.'))
				{
					if (!DateTimeParse.ParseFraction(ref str, out num))
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					str.Index--;
				}
				str.SkipWhiteSpaces();
			}
			if (str.GetNext())
			{
				char @char = str.GetChar();
				if (@char == '+' || @char == '-')
				{
					result.flags |= ParseFlags.TimeZoneUsed;
					if (!DateTimeParse.ParseTimeZone(ref str, ref result.timeZoneOffset))
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
				}
				else
				{
					if (@char == 'Z' || @char == 'z')
					{
						result.flags |= ParseFlags.TimeZoneUsed;
						result.timeZoneOffset = TimeSpan.Zero;
						result.flags |= ParseFlags.TimeZoneUtc;
					}
					else
					{
						str.Index--;
					}
				}
				str.SkipWhiteSpaces();
				if (str.Match('#'))
				{
					if (!DateTimeParse.VerifyValidPunctuation(ref str))
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					str.SkipWhiteSpaces();
				}
				if (str.Match('\0') && !DateTimeParse.VerifyValidPunctuation(ref str))
				{
					result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
					return false;
				}
				if (str.GetNext())
				{
					result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
					return false;
				}
			}
			Calendar defaultInstance = GregorianCalendar.GetDefaultInstance();
			DateTime parsedDate;
			if (!defaultInstance.TryToDateTime(raw.year, raw.GetNumber(0), raw.GetNumber(1), hour, minute, second, 0, result.era, out parsedDate))
			{
				result.SetFailure(ParseFailureKind.FormatBadDateTimeCalendar, "Format_BadDateTimeCalendar", null);
				return false;
			}
			parsedDate = parsedDate.AddTicks((long)Math.Round(num * 10000000.0));
			result.parsedDate = parsedDate;
			return DateTimeParse.DetermineTimeZoneAdjustments(ref result, styles, false);
		}
		private static bool AdjustTimeZoneToUniversal(ref DateTimeResult result)
		{
			long num = result.parsedDate.Ticks;
			num -= result.timeZoneOffset.Ticks;
			if (num < 0L)
			{
				num += 864000000000L;
			}
			if (num < 0L || num > 3155378975999999999L)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_DateOutOfRange", null);
				return false;
			}
			result.parsedDate = new DateTime(num, DateTimeKind.Utc);
			return true;
		}
		internal unsafe static bool TryParse(string s, DateTimeFormatInfo dtfi, DateTimeStyles styles, ref DateTimeResult result)
		{
			if (s == null)
			{
				result.SetFailure(ParseFailureKind.ArgumentNull, "ArgumentNull_String", null, "s");
				return false;
			}
			if (s.Length == 0)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			DateTimeParse.DS dS = DateTimeParse.DS.BEGIN;
			bool flag = false;
			DateTimeToken dateTimeToken = default(DateTimeToken);
			dateTimeToken.suffix = TokenType.SEP_Unk;
			DateTimeRawInfo dateTimeRawInfo = default(DateTimeRawInfo);
			int* numberBuffer = stackalloc int[(UIntPtr)3];
			dateTimeRawInfo.Init(numberBuffer);
			result.calendar = dtfi.Calendar;
			result.era = 0;
			__DTString _DTString = new __DTString(s, dtfi);
			_DTString.GetNext();
			while (DateTimeParse.Lex(dS, ref _DTString, ref dateTimeToken, ref dateTimeRawInfo, ref result, ref dtfi))
			{
				if (dateTimeToken.dtt != DateTimeParse.DTT.Unk)
				{
					if (dateTimeToken.suffix != TokenType.SEP_Unk)
					{
						if (!DateTimeParse.ProcessDateTimeSuffix(ref result, ref dateTimeRawInfo, ref dateTimeToken))
						{
							result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
							return false;
						}
						dateTimeToken.suffix = TokenType.SEP_Unk;
					}
					if (dateTimeToken.dtt == DateTimeParse.DTT.NumLocalTimeMark)
					{
						if (dS == DateTimeParse.DS.D_YNd || dS == DateTimeParse.DS.D_YN)
						{
							return DateTimeParse.ParseISO8601(ref dateTimeRawInfo, ref _DTString, styles, ref result);
						}
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					else
					{
						dS = DateTimeParse.dateParsingStates[(int)dS][(int)dateTimeToken.dtt];
						if (dS == DateTimeParse.DS.ERROR)
						{
							result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
							return false;
						}
						if (dS > DateTimeParse.DS.ERROR)
						{
							if ((dtfi.FormatFlags & DateTimeFormatFlags.UseHebrewRule) != DateTimeFormatFlags.None)
							{
								if (!DateTimeParse.ProcessHebrewTerminalState(dS, ref result, ref styles, ref dateTimeRawInfo, dtfi))
								{
									return false;
								}
							}
							else
							{
								if (!DateTimeParse.ProcessTerminaltState(dS, ref result, ref styles, ref dateTimeRawInfo, dtfi))
								{
									return false;
								}
							}
							flag = true;
							dS = DateTimeParse.DS.BEGIN;
						}
					}
				}
				if (dateTimeToken.dtt == DateTimeParse.DTT.End || dateTimeToken.dtt == DateTimeParse.DTT.NumEnd || dateTimeToken.dtt == DateTimeParse.DTT.MonthEnd)
				{
					if (!flag)
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					DateTimeParse.AdjustTimeMark(dtfi, ref dateTimeRawInfo);
					if (!DateTimeParse.AdjustHour(ref result.Hour, dateTimeRawInfo.timeMark))
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					bool bTimeOnly = result.Year == -1 && result.Month == -1 && result.Day == -1;
					if (!DateTimeParse.CheckDefaultDateTime(ref result, ref result.calendar, styles))
					{
						return false;
					}
					DateTime dateTime;
					if (!result.calendar.TryToDateTime(result.Year, result.Month, result.Day, result.Hour, result.Minute, result.Second, 0, result.era, out dateTime))
					{
						result.SetFailure(ParseFailureKind.FormatBadDateTimeCalendar, "Format_BadDateTimeCalendar", null);
						return false;
					}
					if (dateTimeRawInfo.fraction > 0.0)
					{
						dateTime = dateTime.AddTicks((long)Math.Round(dateTimeRawInfo.fraction * 10000000.0));
					}
					if (dateTimeRawInfo.dayOfWeek != -1 && dateTimeRawInfo.dayOfWeek != (int)result.calendar.GetDayOfWeek(dateTime))
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDayOfWeek", null);
						return false;
					}
					result.parsedDate = dateTime;
					return DateTimeParse.DetermineTimeZoneAdjustments(ref result, styles, bTimeOnly);
				}
			}
			return false;
		}
		private static bool GetDayOfNM(ref DateTimeResult result, ref DateTimeStyles styles, ref DateTimeRawInfo raw, DateTimeFormatInfo dtfi)
		{
			if ((result.flags & ParseFlags.HaveDate) != (ParseFlags)0)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			int num;
			if (!DateTimeParse.GetMonthDayOrder(dtfi.MonthDayPattern, dtfi, out num))
			{
				result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_BadDatePattern", dtfi.MonthDayPattern);
				return false;
			}
			if (num == 6)
			{
				int num2;
				if (!DateTimeParse.GetYearMonthOrder(dtfi.YearMonthPattern, dtfi, out num2))
				{
					result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_BadDatePattern", dtfi.YearMonthPattern);
					return false;
				}
				if (num2 == 4)
				{
					if (!DateTimeParse.SetDateYMD(ref result, DateTimeParse.AdjustYear(ref result, raw.GetNumber(0)), raw.month, 1))
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					return true;
				}
			}
			DateTimeParse.GetDefaultYear(ref result, ref styles);
			if (!DateTimeParse.SetDateYMD(ref result, result.Year, raw.month, raw.GetNumber(0)))
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			return true;
		}
		private static bool GetHebrewDayOfNM(ref DateTimeResult result, ref DateTimeRawInfo raw, DateTimeFormatInfo dtfi)
		{
			int num;
			if (!DateTimeParse.GetMonthDayOrder(dtfi.MonthDayPattern, dtfi, out num))
			{
				result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_BadDatePattern", dtfi.MonthDayPattern);
				return false;
			}
			result.Month = raw.month;
			if ((num == 7 || num == 6) && result.calendar.IsValidDay(result.Year, result.Month, raw.GetNumber(0), result.era))
			{
				result.Day = raw.GetNumber(0);
				return true;
			}
			result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
			return false;
		}
Exemple #11
0
        [System.Security.SecuritySafeCritical]  // auto-generated
        private static Boolean Lex(DS dps, ref __DTString str, ref DateTimeToken dtok, ref DateTimeRawInfo raw, ref DateTimeResult result, ref DateTimeFormatInfo dtfi, DateTimeStyles styles)
        {

            TokenType tokenType;
            int tokenValue;
            int indexBeforeSeparator;
            char charBeforeSeparator;

            TokenType sep;
            dtok.dtt = DTT.Unk;     // Assume the token is unkown.

            str.GetRegularToken(out tokenType, out tokenValue, dtfi);

#if _LOGGING
            // Builds with _LOGGING defined (x86dbg, amd64chk, etc) support tracing
            // Set the following internal-only/unsupported environment variables to enable DateTime tracing to the console:
            //
            // COMPlus_LogEnable=1
            // COMPlus_LogToConsole=1
            // COMPlus_LogLevel=9
            // COMPlus_ManagedLogFacility=0x00001000
            if (_tracingEnabled) {
                BCLDebug.Trace("DATETIME", "[DATETIME] Lex({0})\tpos:{1}({2}), {3}, DS.{4}", Hex(str.Value),
                               str.Index, Hex(str.m_current), tokenType, dps);
            }
#endif // _LOGGING

            // Look at the regular token.
            switch (tokenType) {
                case TokenType.NumberToken:
                case TokenType.YearNumberToken:
                    if (raw.numCount == 3 || tokenValue == -1) {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        LexTraceExit("0010", dps);
                        return false;
                    }
                    //
                    // This is a digit.
                    //
                    // If the previous parsing state is DS.T_NNt (like 12:01), and we got another number,
                    // so we will have a terminal state DS.TX_NNN (like 12:01:02).
                    // If the previous parsing state is DS.T_Nt (like 12:), and we got another number,
                    // so we will have a terminal state DS.TX_NN (like 12:01).
                    //
                    // Look ahead to see if the following character is a decimal point or timezone offset.
                    // This enables us to parse time in the forms of:
                    //  "11:22:33.1234" or "11:22:33-08".
                    if (dps == DS.T_NNt) {
                        if ((str.Index < str.len - 1)) {
                            char nextCh = str.Value[str.Index];
                            if (nextCh == '.') {
                                // While ParseFraction can fail, it just means that there were no digits after
                                // the dot. In this case ParseFraction just removes the dot. This is actually
                                // valid for cultures like Albanian, that join the time marker to the time with
                                // with a dot: e.g. "9:03.MD"
                                ParseFraction(ref str, out raw.fraction);
                            }
                        }
                    }
                    if (dps == DS.T_NNt || dps == DS.T_Nt) {
                        if ((str.Index < str.len - 1)) {
                            if (false == HandleTimeZone(ref str, ref result))
                            {
                                LexTraceExit("0020 (value like \"12:01\" or \"12:\" followed by a non-TZ number", dps);
                                return false;
                            }
                        }                        
                    }

                    dtok.num = tokenValue;
                    if (tokenType == TokenType.YearNumberToken)
                    {
                        if (raw.year == -1)
                        {
                            raw.year = tokenValue;
                            //
                            // If we have number which has 3 or more digits (like "001" or "0001"),
                            // we assume this number is a year. Save the currnet raw.numCount in
                            // raw.year.
                            //
                            switch (sep = str.GetSeparatorToken(dtfi, out indexBeforeSeparator, out charBeforeSeparator)) {
                                case TokenType.SEP_End:
                                    dtok.dtt     = DTT.YearEnd;
                                    break;
                                case TokenType.SEP_Am:
                                case TokenType.SEP_Pm:
                                    if (raw.timeMark == TM.NotSet) {
                                        raw.timeMark = (sep == TokenType.SEP_Am ? TM.AM : TM.PM);
                                        dtok.dtt    = DTT.YearSpace;
                                    } else {
                                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                        LexTraceExit("0030 (TM.AM/TM.PM Happened more than 1x)", dps);
                                    }
                                    break;
                                case TokenType.SEP_Space:
                                    dtok.dtt    = DTT.YearSpace;
                                    break;
                                case TokenType.SEP_Date:
                                    dtok.dtt     = DTT.YearDateSep;
                                    break;
                                case TokenType.SEP_Time:
                                    if (!raw.hasSameDateAndTimeSeparators)
                                    {
                                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                        LexTraceExit("0040 (Invalid separator after number)", dps);
                                        return false;
                                    }

                                    // we have the date and time separators are same and getting a year number, then change the token to YearDateSep as 
                                    // we are sure we are not parsing time.
                                    dtok.dtt = DTT.YearDateSep;
                                    break;
                                case TokenType.SEP_DateOrOffset:
                                    // The separator is either a date separator or the start of a time zone offset. If the token will complete the date then
                                    // process just the number and roll back the index so that the outer loop can attempt to parse the time zone offset.
                                    if ((dateParsingStates[(int)dps][(int) DTT.YearDateSep] == DS.ERROR) 
                                        && (dateParsingStates[(int)dps][(int) DTT.YearSpace] > DS.ERROR)) {
                                        str.Index = indexBeforeSeparator;
                                        str.m_current = charBeforeSeparator;
                                        dtok.dtt = DTT.YearSpace;
                                    }
                                    else {
                                        dtok.dtt = DTT.YearDateSep;
                                    }
                                    break;                                    
                                case TokenType.SEP_YearSuff:
                                case TokenType.SEP_MonthSuff:
                                case TokenType.SEP_DaySuff:
                                    dtok.dtt    = DTT.NumDatesuff;
                                    dtok.suffix = sep;
                                    break;
                                case TokenType.SEP_HourSuff:
                                case TokenType.SEP_MinuteSuff:
                                case TokenType.SEP_SecondSuff:
                                    dtok.dtt    = DTT.NumTimesuff;
                                    dtok.suffix = sep;
                                    break;
                                default:
                                    // Invalid separator after number number.
                                    result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                    LexTraceExit("0040 (Invalid separator after number)", dps);
                                    return false;
                            }
                            //
                            // Found the token already. Return now.
                            //
                            LexTraceExit("0050 (success)", dps);
                            return true;
                        }
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        LexTraceExit("0060", dps);
                        return false;
                    }
                    switch (sep = str.GetSeparatorToken(dtfi, out indexBeforeSeparator, out charBeforeSeparator))
                    {
                        //
                        // Note here we check if the numCount is less than three.
                        // When we have more than three numbers, it will be caught as error in the state machine.
                        //
                        case TokenType.SEP_End:
                            dtok.dtt = DTT.NumEnd;
                            raw.AddNumber(dtok.num);
                            break;
                        case TokenType.SEP_Am:
                        case TokenType.SEP_Pm:
                            if (raw.timeMark == TM.NotSet) {
                                raw.timeMark = (sep == TokenType.SEP_Am ? TM.AM : TM.PM);
                                dtok.dtt = DTT.NumAmpm;
                                // Fix AM/PM parsing case, e.g. "1/10 5 AM"
                                if (dps == DS.D_NN 
#if !FEATURE_CORECLR
                                    && enableAmPmParseAdjustment
#endif
                                )
                                {
                                    if (!ProcessTerminaltState(DS.DX_NN, ref result, ref styles, ref raw, dtfi))
                                    {
                                        return false;
                                    }
                                }

                                raw.AddNumber(dtok.num);
                            } else {
                                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                break;
                            }
                            if (dps == DS.T_NNt || dps == DS.T_Nt) {
                                if (false == HandleTimeZone(ref str, ref result))
                                {
                                    LexTraceExit("0070 (HandleTimeZone returned false)", dps);
                                    return false;
                                }
                            }
                            break;
                        case TokenType.SEP_Space:
                            dtok.dtt = DTT.NumSpace;
                            raw.AddNumber(dtok.num);
                            break;
                        case TokenType.SEP_Date:
                            dtok.dtt = DTT.NumDatesep;
                            raw.AddNumber(dtok.num);
                            break;
                        case TokenType.SEP_DateOrOffset:
                            // The separator is either a date separator or the start of a time zone offset. If the token will complete the date then
                            // process just the number and roll back the index so that the outer loop can attempt to parse the time zone offset.
                            if ((dateParsingStates[(int)dps][(int) DTT.NumDatesep] == DS.ERROR) 
                                && (dateParsingStates[(int)dps][(int) DTT.NumSpace] > DS.ERROR)) {
                                str.Index = indexBeforeSeparator;
                                str.m_current = charBeforeSeparator;
                                dtok.dtt = DTT.NumSpace;
                            }
                            else {                                
                                dtok.dtt = DTT.NumDatesep;
                            }
                            raw.AddNumber(dtok.num);
                            break;                            
                        case TokenType.SEP_Time:
                            if (raw.hasSameDateAndTimeSeparators &&
                                (dps == DS.D_Y || dps == DS.D_YN || dps == DS.D_YNd || dps == DS.D_YM || dps == DS.D_YMd))
                            {
                                // we are parsing a date and we have the time separator same as date separator, so we mark the token as date separator
                                dtok.dtt = DTT.NumDatesep;
                                raw.AddNumber(dtok.num);
                                break;
                            }
                            dtok.dtt = DTT.NumTimesep;
                            raw.AddNumber(dtok.num);
                            break;
                        case TokenType.SEP_YearSuff:
                            try {
                                dtok.num = dtfi.Calendar.ToFourDigitYear(tokenValue);
                            }
                            catch (ArgumentOutOfRangeException e) {
                                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", e);
                                LexTraceExit("0075 (Calendar.ToFourDigitYear failed)", dps);
                                return false;
                            }   
                            dtok.dtt    = DTT.NumDatesuff;
                            dtok.suffix = sep;
                            break;
                        case TokenType.SEP_MonthSuff:
                        case TokenType.SEP_DaySuff:
                            dtok.dtt    = DTT.NumDatesuff;
                            dtok.suffix = sep;
                            break;
                        case TokenType.SEP_HourSuff:
                        case TokenType.SEP_MinuteSuff:
                        case TokenType.SEP_SecondSuff:
                            dtok.dtt    = DTT.NumTimesuff;
                            dtok.suffix = sep;
                            break;
                        case TokenType.SEP_LocalTimeMark:
                            dtok.dtt = DTT.NumLocalTimeMark;
                            raw.AddNumber(dtok.num);
                            break;
                        default:
                            // Invalid separator after number number.
                            result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                            LexTraceExit("0080", dps);
                            return false;
                    }
                    break;
                case TokenType.HebrewNumber:
                    if (tokenValue >= 100) {
                        // This is a year number
                        if (raw.year == -1) {
                            raw.year = tokenValue;
                            //
                            // If we have number which has 3 or more digits (like "001" or "0001"),
                            // we assume this number is a year. Save the currnet raw.numCount in
                            // raw.year.
                            //
                            switch (sep = str.GetSeparatorToken(dtfi, out indexBeforeSeparator, out charBeforeSeparator)) {
                                case TokenType.SEP_End:
                                    dtok.dtt = DTT.YearEnd;
                                    break;
                                case TokenType.SEP_Space:
                                    dtok.dtt = DTT.YearSpace;
                                    break;
                                case TokenType.SEP_DateOrOffset:
                                    // The separator is either a date separator or the start of a time zone offset. If the token will complete the date then
                                    // process just the number and roll back the index so that the outer loop can attempt to parse the time zone offset.
                                    if (dateParsingStates[(int)dps][(int) DTT.YearSpace] > DS.ERROR) {
                                        str.Index = indexBeforeSeparator;
                                        str.m_current = charBeforeSeparator;
                                        dtok.dtt = DTT.YearSpace;
                                        break;
                                    }
                                    goto default;
                                default:
                                    // Invalid separator after number number.
                                    result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                    LexTraceExit("0090", dps);
                                    return false;
                            }
                        } else {
                            // Invalid separator after number number.
                            result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                            LexTraceExit("0100", dps);
                            return false;
                        }
                    } else {
                        // This is a day number
                        dtok.num = tokenValue;
                        raw.AddNumber(dtok.num);

                        switch (sep = str.GetSeparatorToken(dtfi, out indexBeforeSeparator, out charBeforeSeparator)) {
                            //
                            // Note here we check if the numCount is less than three.
                            // When we have more than three numbers, it will be caught as error in the state machine.
                            //
                            case TokenType.SEP_End:
                                dtok.dtt = DTT.NumEnd;
                                break;
                            case TokenType.SEP_Space:
                            case TokenType.SEP_Date:
                                dtok.dtt = DTT.NumDatesep;
                                break;
                            case TokenType.SEP_DateOrOffset:
                                // The separator is either a date separator or the start of a time zone offset. If the token will complete the date then
                                // process just the number and roll back the index so that the outer loop can attempt to parse the time zone offset.
                                if ((dateParsingStates[(int)dps][(int) DTT.NumDatesep] == DS.ERROR) 
                                    && (dateParsingStates[(int)dps][(int) DTT.NumSpace] > DS.ERROR)) {
                                    str.Index = indexBeforeSeparator;
                                    str.m_current = charBeforeSeparator;
                                    dtok.dtt = DTT.NumSpace;
                                }
                                else {                                
                                    dtok.dtt = DTT.NumDatesep;
                                }
                                break;
                            default:
                                // Invalid separator after number number.
                                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                LexTraceExit("0110", dps);
                                return false;
                        }
                    }
                    break;
                case TokenType.DayOfWeekToken:
                    if (raw.dayOfWeek == -1)
                    {
                        //
                        // This is a day of week name.
                        //
                        raw.dayOfWeek = tokenValue;
                        dtok.dtt = DTT.DayOfWeek;
                    } else {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        LexTraceExit("0120 (DayOfWeek seen more than 1x)", dps);
                        return false;
                    }
                    break;
                case TokenType.MonthToken:
                    if (raw.month == -1)
                    {
                        //
                        // This is a month name
                        //
                        switch(sep=str.GetSeparatorToken(dtfi, out indexBeforeSeparator, out charBeforeSeparator))
                        {
                            case TokenType.SEP_End:
                                dtok.dtt = DTT.MonthEnd;
                                break;
                            case TokenType.SEP_Space:
                                dtok.dtt = DTT.MonthSpace;
                                break;
                            case TokenType.SEP_Date:
                                dtok.dtt = DTT.MonthDatesep;
                                break;
                            case TokenType.SEP_Time:
                                if (!raw.hasSameDateAndTimeSeparators)
                                {
                                    result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                    LexTraceExit("0130 (Invalid separator after month name)", dps);
                                    return false;
                                }

                                // we have the date and time separators are same and getting a Month name, then change the token to MonthDatesep as 
                                // we are sure we are not parsing time.
                                dtok.dtt = DTT.MonthDatesep;
                                break;
                            case TokenType.SEP_DateOrOffset:
                                // The separator is either a date separator or the start of a time zone offset. If the token will complete the date then
                                // process just the number and roll back the index so that the outer loop can attempt to parse the time zone offset.
                                if ((dateParsingStates[(int)dps][(int) DTT.MonthDatesep] == DS.ERROR) 
                                    && (dateParsingStates[(int)dps][(int) DTT.MonthSpace] > DS.ERROR)) {
                                    str.Index = indexBeforeSeparator;
                                    str.m_current = charBeforeSeparator;
                                    dtok.dtt = DTT.MonthSpace;
                                }
                                else {                                
                                    dtok.dtt = DTT.MonthDatesep;
                                }
                                break;
                            default:
                                //Invalid separator after month name
                                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                LexTraceExit("0130 (Invalid separator after month name)", dps);
                                return false;
                        }
                        raw.month = tokenValue;
                    }  else {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        LexTraceExit("0140 (MonthToken seen more than 1x)", dps);
                        return false;
                    }
                    break;
                case TokenType.EraToken:
                    if (result.era != -1) {
                        result.era = tokenValue;
                        dtok.dtt = DTT.Era;
                    } else {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        LexTraceExit("0150 (EraToken seen when result.era already set)", dps);
                        return false;
                    }
                    break;
                case TokenType.JapaneseEraToken:
                    // Special case for Japanese.  We allow Japanese era name to be used even if the calendar is not Japanese Calendar.
                    result.calendar = JapaneseCalendar.GetDefaultInstance();
                    dtfi = DateTimeFormatInfo.GetJapaneseCalendarDTFI();
                    if (result.era != -1) {
                        result.era = tokenValue;
                        dtok.dtt = DTT.Era;
                    } else {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        LexTraceExit("0160 (JapaneseEraToken seen when result.era already set)", dps);
                        return false;
                    }
                    break;
                case TokenType.TEraToken:
                    result.calendar = TaiwanCalendar.GetDefaultInstance();
                    dtfi = DateTimeFormatInfo.GetTaiwanCalendarDTFI();
                    if (result.era != -1) {
                        result.era = tokenValue;
                        dtok.dtt = DTT.Era;
                    } else {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        LexTraceExit("0170 (TEraToken seen when result.era already set)", dps);
                        return false;
                    }
                    break;
                case TokenType.TimeZoneToken:
                    //
                    // This is a timezone designator
                    //
                    // NOTENOTE : for now, we only support "GMT" and "Z" (for Zulu time).
                    //
                    if ((result.flags & ParseFlags.TimeZoneUsed) != 0) {
                        // Should not have two timezone offsets.
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        LexTraceExit("0180 (seen GMT or Z more than 1x)", dps);
                        return false;
                    }
                    dtok.dtt = DTT.TimeZone;
                    result.flags |= ParseFlags.TimeZoneUsed;
                    result.timeZoneOffset = new TimeSpan(0);
                    result.flags |= ParseFlags.TimeZoneUtc;
                    break;
                case TokenType.EndOfString:
                    dtok.dtt = DTT.End;
                    break;
                case TokenType.DateWordToken:
                case TokenType.IgnorableSymbol:
                    // Date words and ignorable symbols can just be skipped over
                    break;
                case TokenType.Am:
                case TokenType.Pm:
                    if (raw.timeMark == TM.NotSet) {
                        raw.timeMark = (TM)tokenValue;
                    } else {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        LexTraceExit("0190 (AM/PM timeMark already set)", dps);
                        return false;
                    }
                    break;
                case TokenType.UnknownToken:
                    if (Char.IsLetter(str.m_current)) {
                        result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_UnknowDateTimeWord",  str.Index);
                        LexTraceExit("0200", dps);
                        return (false);
                    }

#if !FEATURE_CORECLR                    
                    // If DateTimeParseIgnorePunctuation is defined, we want to have the V1.1 behavior of just
                    // ignoring any unrecognized punctuation and moving on to the next character
                    if (Environment.GetCompatibilityFlag(CompatibilityFlag.DateTimeParseIgnorePunctuation) && ((result.flags & ParseFlags.CaptureOffset) == 0)) {
                        str.GetNext();
                        LexTraceExit("0210 (success)", dps);
                        return true;
                    }
#endif // FEATURE_CORECLR
                    
                    if ((str.m_current == '-' || str.m_current == '+') && ((result.flags & ParseFlags.TimeZoneUsed) == 0)) {
                        Int32 originalIndex = str.Index;
                        if (ParseTimeZone(ref str, ref result.timeZoneOffset)) {
                            result.flags |= ParseFlags.TimeZoneUsed;
                            LexTraceExit("0220 (success)", dps);
                            return true;
                        }
                        else {
                            // Time zone parse attempt failed. Fall through to punctuation handling.
                            str.Index = originalIndex;
                        }                                                
                    }
                    
                    // Visual Basic implements string to date conversions on top of DateTime.Parse:
                    //   CDate("#10/10/95#")
                    //
                    if (VerifyValidPunctuation(ref str)) {
                        LexTraceExit("0230 (success)", dps);
                        return true;                                
                    }

                    result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                    LexTraceExit("0240", dps);
                    return false;
            }

            LexTraceExit("0250 (success)", dps);
            return true;
        }
Exemple #12
0
 // This is the helper function to handle timezone in string in the format like +/-0800
 private static bool HandleTimeZone(ref __DTString str, ref DateTimeResult result)
 {
     if ((str.Index < str.len - 1)) {
         char nextCh = str.Value[str.Index];
         // Skip whitespace, but don't update the index unless we find a time zone marker
         int whitespaceCount = 0;
         while (Char.IsWhiteSpace(nextCh) && str.Index + whitespaceCount < str.len - 1) {
             whitespaceCount++;
             nextCh = str.Value[str.Index + whitespaceCount];
         }
         if (nextCh == '+' || nextCh == '-') {
             str.Index += whitespaceCount;
             if ((result.flags & ParseFlags.TimeZoneUsed) != 0) {
                 // Should not have two timezone offsets.
                 result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                 return false;
             }
             result.flags |= ParseFlags.TimeZoneUsed;
             if (!ParseTimeZone(ref str, ref result.timeZoneOffset)) {
                 result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                 return false;
             }
         }
     }                        
     return true;
 }
Exemple #13
0
        /*=================================DoStrictParse==================================
        **Action: Do DateTime parsing using the format in formatParam.
        **Returns: The parsed DateTime.
        **Arguments:
        **Exceptions:
        **
        **Notes:
        **  When the following general formats are used, InvariantInfo is used in dtfi:
        **      'r', 'R', 's'.
        **  When the following general formats are used, the time is assumed to be in Universal time.
        **
        **Limitations:
        **  Only GregarianCalendar is supported for now.
        **  Only support GMT timezone.
        ==============================================================================*/

        private static bool DoStrictParse(
            String s,
            String formatParam,
            DateTimeStyles styles,
            DateTimeFormatInfo dtfi,
            ref DateTimeResult result) {



            ParsingInfo parseInfo = new ParsingInfo();
            parseInfo.Init();

            parseInfo.calendar = dtfi.Calendar;
            parseInfo.fAllowInnerWhite = ((styles & DateTimeStyles.AllowInnerWhite) != 0);
            parseInfo.fAllowTrailingWhite = ((styles & DateTimeStyles.AllowTrailingWhite) != 0);

            // We need the original values of the following two below.
            String originalFormat = formatParam;

            if (formatParam.Length == 1) {
                if (((result.flags & ParseFlags.CaptureOffset) != 0) && formatParam[0] == 'U') {
                    // The 'U' format is not allowed for DateTimeOffset
                    result.SetFailure(ParseFailureKind.Format, "Format_BadFormatSpecifier", null);
                    return false;
                }
                formatParam = ExpandPredefinedFormat(formatParam, ref dtfi, ref parseInfo, ref result);
            }
            
            bool bTimeOnly = false;
            result.calendar = parseInfo.calendar;

            if (parseInfo.calendar.ID == Calendar.CAL_HEBREW) {
                parseInfo.parseNumberDelegate = m_hebrewNumberParser;
                parseInfo.fCustomNumberParser = true;
            }

            // Reset these values to negative one so that we could throw exception
            // if we have parsed every item twice.
            result.Hour = result.Minute = result.Second = -1;

            __DTString format = new __DTString(formatParam, dtfi, false);
            __DTString str = new __DTString(s, dtfi, false);

            if (parseInfo.fAllowTrailingWhite) {
                // Trim trailing spaces if AllowTrailingWhite.
                format.TrimTail();
                format.RemoveTrailingInQuoteSpaces();
                str.TrimTail();
            }

            if ((styles & DateTimeStyles.AllowLeadingWhite) != 0) {
                format.SkipWhiteSpaces();
                format.RemoveLeadingInQuoteSpaces();
                str.SkipWhiteSpaces();
            }

            //
            // Scan every character in format and match the pattern in str.
            //
            while (format.GetNext()) {
                // We trim inner spaces here, so that we will not eat trailing spaces when
                // AllowTrailingWhite is not used.
                if (parseInfo.fAllowInnerWhite) {
                    str.SkipWhiteSpaces();
                }
                if (!ParseByFormat(ref str, ref format, ref parseInfo, dtfi, ref result)) {
                   return (false);
                }
            }                

            if (str.Index < str.Value.Length - 1) {
                // There are still remaining character in str.
                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                return false;
            }

            if (parseInfo.fUseTwoDigitYear && ((dtfi.FormatFlags & DateTimeFormatFlags.UseHebrewRule) == 0)) {
                // A two digit year value is expected. Check if the parsed year value is valid.
                if (result.Year >= 100) {
                    result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                    return false;
                }
                try {
                    result.Year = parseInfo.calendar.ToFourDigitYear(result.Year);
                }
                catch (ArgumentOutOfRangeException e) {
                    result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", e);
                    return false;
                }
            }

            if (parseInfo.fUseHour12) {
                if (parseInfo.timeMark == TM.NotSet) {
                    // hh is used, but no AM/PM designator is specified.
                    // Assume the time is AM.
                    // Don't throw exceptions in here becasue it is very confusing for the caller.
                    // I always got confused myself when I use "hh:mm:ss" to parse a time string,
                    // and ParseExact() throws on me (because I didn't use the 24-hour clock 'HH').
                    parseInfo.timeMark = TM.AM;
                }
                if (result.Hour > 12) {
                    // AM/PM is used, but the value for HH is too big.
                    result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                    return false;
                }
                if (parseInfo.timeMark == TM.AM) {
                    if (result.Hour == 12) {
                        result.Hour = 0;
                    }
                } else {
                    result.Hour = (result.Hour == 12) ? 12 : result.Hour + 12;
                }
            }
            else
            {
                 // Military (24-hour time) mode
                 //
                 // AM cannot be set with a 24-hour time like 17:15.
                 // PM cannot be set with a 24-hour time like 03:15.
                 if (  (parseInfo.timeMark == TM.AM && result.Hour >= 12)
                     ||(parseInfo.timeMark == TM.PM && result.Hour <  12)) {
                    result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                    return false;
                }
            }


            // Check if the parased string only contains hour/minute/second values.
            bTimeOnly = (result.Year == -1 && result.Month == -1 && result.Day == -1);
            if (!CheckDefaultDateTime(ref result, ref parseInfo.calendar, styles)) {
                return false;
            }

            if (!bTimeOnly && dtfi.HasYearMonthAdjustment) {
                if (!dtfi.YearMonthAdjustment(ref result.Year, ref result.Month, ((result.flags & ParseFlags.ParsedMonthName) != 0))) {
                    result.SetFailure(ParseFailureKind.FormatBadDateTimeCalendar, "Format_BadDateTimeCalendar", null);
                    return false;
                }
            }
            if (!parseInfo.calendar.TryToDateTime(result.Year, result.Month, result.Day,
                    result.Hour, result.Minute, result.Second, 0, result.era, out result.parsedDate)) {
                result.SetFailure(ParseFailureKind.FormatBadDateTimeCalendar, "Format_BadDateTimeCalendar", null);
                return false;
            }
            if (result.fraction > 0) {
                result.parsedDate = result.parsedDate.AddTicks((long)Math.Round(result.fraction * Calendar.TicksPerSecond));
            }

            //
            // We have to check day of week before we adjust to the time zone.
            // It is because the value of day of week may change after adjusting
            // to the time zone.
            //
            if (parseInfo.dayOfWeek != -1) {
                //
                // Check if day of week is correct.
                //
                if (parseInfo.dayOfWeek != (int)parseInfo.calendar.GetDayOfWeek(result.parsedDate)) {
                    result.SetFailure(ParseFailureKind.Format, "Format_BadDayOfWeek", null);
                    return false;
                }
            }


            if (!DetermineTimeZoneAdjustments(ref result, styles, bTimeOnly)) {
                return false;
            }
            return true;
        }
Exemple #14
0
        // Given a specified format character, parse and update the parsing result.
        //
        private static bool ParseByFormat(
            ref __DTString str,
            ref __DTString format,
            ref ParsingInfo parseInfo,
            DateTimeFormatInfo dtfi,
            ref DateTimeResult result) {

            int tokenLen = 0;
            int tempYear = 0, tempMonth = 0, tempDay = 0, tempDayOfWeek = 0, tempHour = 0, tempMinute = 0, tempSecond = 0;
            double tempFraction = 0;
            TM tempTimeMark = 0;

            char ch = format.GetChar();

            switch (ch) {
                case 'y':
                    tokenLen = format.GetRepeatCount();
                    bool parseResult;
                    if (dtfi.HasForceTwoDigitYears) {
                        parseResult = ParseDigits(ref str, 1, 4, out tempYear);
                    }
                    else {
                        if (tokenLen <= 2) {
                            parseInfo.fUseTwoDigitYear = true;
                        }
                        parseResult = ParseDigits(ref str, tokenLen, out tempYear);
                    }
                    if (!parseResult && parseInfo.fCustomNumberParser) {
                        parseResult = parseInfo.parseNumberDelegate(ref str, tokenLen, out tempYear);
                    }
                    if (!parseResult) {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return (false);
                    }
                    if (!CheckNewValue(ref result.Year, tempYear, ch, ref result)) {
                        return (false);
                    }
                    break;
                case 'M':
                    tokenLen = format.GetRepeatCount();
                    if (tokenLen <= 2) {
                        if (!ParseDigits(ref str, tokenLen, out tempMonth)) {
                            if (!parseInfo.fCustomNumberParser ||
                                !parseInfo.parseNumberDelegate(ref str, tokenLen, out tempMonth)) {
                                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                return (false);
                            }
                        }
                    } else {
                        if (tokenLen == 3) {
                            if (!MatchAbbreviatedMonthName(ref str, dtfi, ref tempMonth)) {
                                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                return (false);
                            }
                        } else {
                            if (!MatchMonthName(ref str, dtfi, ref tempMonth)) {
                                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                return (false);
                            }
                        }
                        result.flags |= ParseFlags.ParsedMonthName;
                    }
                    if (!CheckNewValue(ref result.Month, tempMonth, ch, ref result)) {
                        return (false);
                    }
                    break;
                case 'd':
                    // Day & Day of week
                    tokenLen = format.GetRepeatCount();
                    if (tokenLen <= 2) {
                        // "d" & "dd"

                        if (!ParseDigits(ref str, tokenLen, out tempDay)) {
                            if (!parseInfo.fCustomNumberParser ||
                                !parseInfo.parseNumberDelegate(ref str, tokenLen, out tempDay)) {
                                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                return (false);
                            }
                        }
                        if (!CheckNewValue(ref result.Day, tempDay, ch, ref result)) {
                            return (false);
                        }
                    } else {
                        if (tokenLen == 3) {
                            // "ddd"
                            if (!MatchAbbreviatedDayName(ref str, dtfi, ref tempDayOfWeek)) {
                                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                return (false);
                            }
                        } else {
                            // "dddd*"
                            if (!MatchDayName(ref str, dtfi, ref tempDayOfWeek)) {
                                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                return (false);
                            }
                        }
                        if (!CheckNewValue(ref parseInfo.dayOfWeek, tempDayOfWeek, ch, ref result)) {
                            return (false);
                        }
                    }
                    break;
                case 'g':
                    tokenLen = format.GetRepeatCount();
                    // Put the era value in result.era.
                    if (!MatchEraName(ref str, dtfi, ref result.era)) {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return (false);
                    }
                    break;
                case 'h':
                    parseInfo.fUseHour12 = true;
                    tokenLen = format.GetRepeatCount();
                    if (!ParseDigits(ref str, (tokenLen < 2? 1 : 2), out tempHour)) {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return (false);
                    }
                    if (!CheckNewValue(ref result.Hour, tempHour, ch, ref result)) {
                        return (false);
                    }
                    break;
                case 'H':
                    tokenLen = format.GetRepeatCount();
                    if (!ParseDigits(ref str, (tokenLen < 2? 1 : 2), out tempHour)) {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return (false);
                    }
                    if (!CheckNewValue(ref result.Hour, tempHour, ch, ref result)) {
                        return (false);
                    }
                    break;
                case 'm':
                    tokenLen = format.GetRepeatCount();
                    if (!ParseDigits(ref str, (tokenLen < 2? 1 : 2), out tempMinute)) {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return (false);
                    }
                    if (!CheckNewValue(ref result.Minute, tempMinute, ch, ref result)) {
                        return (false);
                    }
                    break;
                case 's':
                    tokenLen = format.GetRepeatCount();
                    if (!ParseDigits(ref str, (tokenLen < 2? 1 : 2), out tempSecond)) {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return (false);
                    }
                    if (!CheckNewValue(ref result.Second, tempSecond, ch, ref result)) {
                        return (false);
                    }
                    break;
                case 'f':
                case 'F':
                    tokenLen = format.GetRepeatCount();
                    if (tokenLen <= DateTimeFormat.MaxSecondsFractionDigits) {
                        if (!ParseFractionExact(ref str, tokenLen, ref tempFraction)) {
                            if (ch == 'f') {
                                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                return (false);
                            }
                        }
                        if (result.fraction < 0) {
                            result.fraction = tempFraction;
                        } else {
                            if (tempFraction != result.fraction) {
                                result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", ch);
                                return (false);
                            }
                        }
                    } else {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return (false);
                    }
                    break;
            case 't':
                    // AM/PM designator
                    tokenLen = format.GetRepeatCount();
                    if (tokenLen == 1) {
                        if (!MatchAbbreviatedTimeMark(ref str, dtfi, ref tempTimeMark)) {
                            result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                            return (false);
                        }
                    } else {
                        if (!MatchTimeMark(ref str, dtfi, ref tempTimeMark)) {
                            result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                            return (false);
                        }
                    }

                    if (parseInfo.timeMark == TM.NotSet) {
                        parseInfo.timeMark = tempTimeMark;
                    }
                    else {
                        if (parseInfo.timeMark != tempTimeMark) {
                            result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", ch);
                            return (false);
                        }
                    }
                    break;
                case 'z':
                    // timezone offset
                    tokenLen = format.GetRepeatCount();
                    {
                        TimeSpan tempTimeZoneOffset = new TimeSpan(0);
                        if (!ParseTimeZoneOffset(ref str, tokenLen, ref tempTimeZoneOffset)) {
                            result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                            return (false);
                        }
                        if ((result.flags & ParseFlags.TimeZoneUsed) != 0 && tempTimeZoneOffset != result.timeZoneOffset) {
                            result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", 'z');
                            return (false);
                        }
                        result.timeZoneOffset = tempTimeZoneOffset;
                        result.flags |= ParseFlags.TimeZoneUsed;
                    }
                    break;
                case 'Z':
                    if ((result.flags & ParseFlags.TimeZoneUsed) != 0 && result.timeZoneOffset != TimeSpan.Zero) {
                        result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", 'Z');
                        return (false);
                    }

                    result.flags |= ParseFlags.TimeZoneUsed;
                    result.timeZoneOffset = new TimeSpan(0);
                    result.flags |= ParseFlags.TimeZoneUtc;

                    // The updating of the indexes is to reflect that ParseExact MatchXXX methods assume that
                    // they need to increment the index and Parse GetXXX do not. Since we are calling a Parse
                    // method from inside ParseExact we need to adjust this. Long term, we should try to
                    // eliminate this discrepancy.
                    str.Index++;
                    if (!GetTimeZoneName(ref str)) {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return false;
                    }
                    str.Index--;
                    break;
                case 'K':
                    // This should parse either as a blank, the 'Z' character or a local offset like "-07:00"
                    if (str.Match('Z')) {
                        if ((result.flags & ParseFlags.TimeZoneUsed) != 0 && result.timeZoneOffset != TimeSpan.Zero) {
                            result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", 'K');
                            return (false);
                        }

                        result.flags |= ParseFlags.TimeZoneUsed;
                        result.timeZoneOffset = new TimeSpan(0);
                        result.flags |= ParseFlags.TimeZoneUtc;
                    }
                    else if (str.Match('+') || str.Match('-')) {
                        str.Index--; // Put the character back for the parser
                        TimeSpan tempTimeZoneOffset = new TimeSpan(0);
                        if (!ParseTimeZoneOffset(ref str, 3, ref tempTimeZoneOffset)) {
                            result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                            return (false);
                        }
                        if ((result.flags & ParseFlags.TimeZoneUsed) != 0 && tempTimeZoneOffset != result.timeZoneOffset) {
                            result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", 'K');
                            return (false);
                        }
                        result.timeZoneOffset = tempTimeZoneOffset;
                        result.flags |= ParseFlags.TimeZoneUsed;
                    }
                    // Otherwise it is unspecified and we consume no characters
                    break;
                case ':':
                    // We match the separator in time pattern with the character in the time string if both equal to ':' or the date separator is matching the characters in the date string
                    // We have to exclude the case when the time separator is more than one character and starts with ':' something like "::" for instance.
                    if (((dtfi.TimeSeparator.Length > 1 && dtfi.TimeSeparator[0] == ':') || !str.Match(':')) && 
                        !str.Match(dtfi.TimeSeparator)) {
                        // A time separator is expected.
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return false;
                    }
                    break;
                case '/':
                    // We match the separator in date pattern with the character in the date string if both equal to '/' or the date separator is matching the characters in the date string
                    // We have to exclude the case when the date separator is more than one character and starts with '/' something like "//" for instance.
                    if (((dtfi.DateSeparator.Length > 1 && dtfi.DateSeparator[0] == '/') || !str.Match('/')) && 
                        !str.Match(dtfi.DateSeparator))
                    {
                        // A date separator is expected.
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return false;
                    }
                    break;
                case '\"':
                case '\'':
                    StringBuilder enquotedString = new StringBuilder();
                    // Use ParseQuoteString so that we can handle escape characters within the quoted string.
                    if (!TryParseQuoteString(format.Value, format.Index, enquotedString, out tokenLen)) {
                        result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_BadQuote", ch);
                        return (false);
                    }
                    format.Index += tokenLen - 1;

                    // Some cultures uses space in the quoted string.  E.g. Spanish has long date format as:
                    // "dddd, dd' de 'MMMM' de 'yyyy".  When inner spaces flag is set, we should skip whitespaces if there is space
                    // in the quoted string.
                    String quotedStr = enquotedString.ToString();

                    for (int i = 0; i < quotedStr.Length; i++) {
                        if (quotedStr[i] == ' ' && parseInfo.fAllowInnerWhite) {
                            str.SkipWhiteSpaces();
                        } else if (!str.Match(quotedStr[i])) {
                            // Can not find the matching quoted string.
                            result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                            return false;
                        }
                    }

                    // The "r" and "u" formats incorrectly quoted 'GMT' and 'Z', respectively.  We cannot
                    // correct this mistake for DateTime.ParseExact for compatibility reasons, but we can 
                    // fix it for DateTimeOffset.ParseExact as DateTimeOffset has not been publically released
                    // with this issue.
                    if ((result.flags & ParseFlags.CaptureOffset) != 0) {
                        if ((result.flags & ParseFlags.Rfc1123Pattern) != 0 && quotedStr == GMTName) {
                            result.flags |= ParseFlags.TimeZoneUsed;
                            result.timeZoneOffset = TimeSpan.Zero;
                        }
                        else if ((result.flags & ParseFlags.UtcSortPattern) != 0 && quotedStr == ZuluName) {
                            result.flags |= ParseFlags.TimeZoneUsed;
                            result.timeZoneOffset = TimeSpan.Zero;
                        }
                    }

                    break;
                case '%':
                    // Skip this so we can get to the next pattern character.
                    // Used in case like "%d", "%y"

                    // Make sure the next character is not a '%' again.
                    if (format.Index >= format.Value.Length - 1 || format.Value[format.Index + 1] == '%') {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadFormatSpecifier", null);
                        return false;
                    }
                    break;
                case '\\':
                    // Escape character. For example, "\d".
                    // Get the next character in format, and see if we can
                    // find a match in str.
                    if (format.GetNext()) {
                        if (!str.Match(format.GetChar())) {
                            // Can not find a match for the escaped character.
                            result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                            return false;
                        }
                    } else {
                        result.SetFailure(ParseFailureKind.Format, "Format_BadFormatSpecifier", null);
                        return false;
                    }
                    break;
                case '.': 
                    if (!str.Match(ch)) {
                        if (format.GetNext()) {
                            // If we encounter the pattern ".F", and the dot is not present, it is an optional
                            // second fraction and we can skip this format.
                            if (format.Match('F')) {
                                format.GetRepeatCount();
                                break;
                            }
                        }
                        result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                        return false;
                    }
                    break;
                default:
                    if (ch == ' ') {
                        if (parseInfo.fAllowInnerWhite) {
                            // Skip whitespaces if AllowInnerWhite.
                            // Do nothing here.
                        } else {
                            if (!str.Match(ch)) {
                                // If the space does not match, and trailing space is allowed, we do
                                // one more step to see if the next format character can lead to
                                // successful parsing.
                                // This is used to deal with special case that a empty string can match
                                // a specific pattern.
                                // The example here is af-ZA, which has a time format like "hh:mm:ss tt".  However,
                                // its AM symbol is "" (empty string).  If fAllowTrailingWhite is used, and time is in
                                // the AM, we will trim the whitespaces at the end, which will lead to a failure
                                // when we are trying to match the space before "tt".
                                if (parseInfo.fAllowTrailingWhite) {
                                    if (format.GetNext()) {
                                        if (ParseByFormat(ref str, ref format, ref parseInfo, dtfi, ref result)) {
                                            return (true);
                                        }
                                    }
                                }
                                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                return false;
                            }
                            // Found a macth.
                        }
                    } else {
                        if (format.MatchSpecifiedWord(GMTName)) {
                            format.Index += (GMTName.Length - 1);
                            // Found GMT string in format.  This means the DateTime string
                            // is in GMT timezone.
                            result.flags |= ParseFlags.TimeZoneUsed;
                            result.timeZoneOffset = TimeSpan.Zero;
                            if (!str.Match(GMTName)) {
                                result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                                return false;
                            }
                        } else if (!str.Match(ch)) {
                            // ch is expected.
                            result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
                            return false;
                        }
                    }
                    break;
            } // switch
            return (true);
        }
Exemple #15
0
        private static bool CheckDefaultDateTime(ref DateTimeResult result, ref Calendar cal, DateTimeStyles styles) {

            if ((result.flags & ParseFlags.CaptureOffset) != 0) {
                // DateTimeOffset.Parse should allow dates without a year, but only if there is also no time zone marker;
                // e.g. "May 1 5pm" is OK, but "May 1 5pm -08:30" is not.  This is somewhat pragmatic, since we would
                // have to rearchitect parsing completely to allow this one case to correctly handle things like leap
                // years and leap months.  Is is an extremely corner case, and DateTime is basically incorrect in that
                // case today.
                //
                // values like "11:00Z" or "11:00 -3:00" are also acceptable
                //
                // if ((month or day is set) and (year is not set and time zone is set))
                //
                if (  ((result.Month != -1) || (result.Day != -1)) 
                    && ((result.Year == -1 || ((result.flags & ParseFlags.YearDefault) != 0)) && (result.flags & ParseFlags.TimeZoneUsed) != 0) ) {
                    result.SetFailure(ParseFailureKind.Format, "Format_MissingIncompleteDate", null);
                    return false;
                }
            }


            if ((result.Year == -1) || (result.Month == -1) || (result.Day == -1)) {
                /*
                The following table describes the behaviors of getting the default value
                when a certain year/month/day values are missing.

                An "X" means that the value exists.  And "--" means that value is missing.

                Year    Month   Day =>  ResultYear  ResultMonth     ResultDay       Note

                X       X       X       Parsed year Parsed month    Parsed day
                X       X       --      Parsed Year Parsed month    First day       If we have year and month, assume the first day of that month.
                X       --      X       Parsed year First month     Parsed day      If the month is missing, assume first month of that year.
                X       --      --      Parsed year First month     First day       If we have only the year, assume the first day of that year.

                --      X       X       CurrentYear Parsed month    Parsed day      If the year is missing, assume the current year.
                --      X       --      CurrentYear Parsed month    First day       If we have only a month value, assume the current year and current day.
                --      --      X       CurrentYear First month     Parsed day      If we have only a day value, assume current year and first month.
                --      --      --      CurrentYear Current month   Current day     So this means that if the date string only contains time, you will get current date.

                */
                
                DateTime now = GetDateTimeNow(ref result, ref styles);
                if (result.Month == -1 && result.Day == -1) {
                    if (result.Year == -1) {
                        if ((styles & DateTimeStyles.NoCurrentDateDefault) != 0) {
                            // If there is no year/month/day values, and NoCurrentDateDefault flag is used,
                            // set the year/month/day value to the beginning year/month/day of DateTime().
                            // Note we should be using Gregorian for the year/month/day.
                            cal = GregorianCalendar.GetDefaultInstance();
                            result.Year = result.Month = result.Day = 1;
                        } else {
                            // Year/Month/Day are all missing.
                            result.Year = cal.GetYear(now);
                            result.Month = cal.GetMonth(now);
                            result.Day = cal.GetDayOfMonth(now);
                        }
                    } else {
                        // Month/Day are both missing.
                        result.Month = 1;
                        result.Day = 1;
                    }
                } else {
                    if (result.Year == -1) {
                        result.Year = cal.GetYear(now);
                    }
                    if (result.Month == -1) {
                        result.Month = 1;
                    }
                    if (result.Day == -1) {
                        result.Day = 1;
                    }
                }
            }
            // Set Hour/Minute/Second to zero if these value are not in str.
            if (result.Hour   == -1) result.Hour = 0;
            if (result.Minute == -1) result.Minute = 0;
            if (result.Second == -1) result.Second = 0;
            if (result.era == -1) result.era = Calendar.CurrentEra;
            return true;
        }
		private static bool GetDateOfNNDS(ref DateTimeResult result, ref DateTimeRawInfo raw, DateTimeFormatInfo dtfi)
		{
			if ((result.flags & ParseFlags.HaveYear) != (ParseFlags)0)
			{
				if ((result.flags & ParseFlags.HaveMonth) == (ParseFlags)0 && (result.flags & ParseFlags.HaveDay) == (ParseFlags)0 && DateTimeParse.SetDateYMD(ref result, result.Year = DateTimeParse.AdjustYear(ref result, raw.year), raw.GetNumber(0), raw.GetNumber(1)))
				{
					return true;
				}
			}
			else
			{
				if ((result.flags & ParseFlags.HaveMonth) != (ParseFlags)0 && (result.flags & ParseFlags.HaveYear) == (ParseFlags)0 && (result.flags & ParseFlags.HaveDay) == (ParseFlags)0)
				{
					int num;
					if (!DateTimeParse.GetYearMonthDayOrder(dtfi.ShortDatePattern, dtfi, out num))
					{
						result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_BadDatePattern", dtfi.ShortDatePattern);
						return false;
					}
					if (num == 0)
					{
						if (DateTimeParse.SetDateYMD(ref result, DateTimeParse.AdjustYear(ref result, raw.GetNumber(0)), result.Month, raw.GetNumber(1)))
						{
							return true;
						}
					}
					else
					{
						if (DateTimeParse.SetDateYMD(ref result, DateTimeParse.AdjustYear(ref result, raw.GetNumber(1)), result.Month, raw.GetNumber(0)))
						{
							return true;
						}
					}
				}
			}
			result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
			return false;
		}
		internal static bool ProcessHebrewTerminalState(DateTimeParse.DS dps, ref DateTimeResult result, ref DateTimeStyles styles, ref DateTimeRawInfo raw, DateTimeFormatInfo dtfi)
		{
			switch (dps)
			{
				case DateTimeParse.DS.DX_MN:
				case DateTimeParse.DS.DX_NM:
				{
					DateTimeParse.GetDefaultYear(ref result, ref styles);
					if (!dtfi.YearMonthAdjustment(ref result.Year, ref raw.month, true))
					{
						result.SetFailure(ParseFailureKind.FormatBadDateTimeCalendar, "Format_BadDateTimeCalendar", null);
						return false;
					}
					if (!DateTimeParse.GetHebrewDayOfNM(ref result, ref raw, dtfi))
					{
						return false;
					}
					goto IL_160;
				}
				case DateTimeParse.DS.DX_MNN:
				{
					raw.year = raw.GetNumber(1);
					if (!dtfi.YearMonthAdjustment(ref raw.year, ref raw.month, true))
					{
						result.SetFailure(ParseFailureKind.FormatBadDateTimeCalendar, "Format_BadDateTimeCalendar", null);
						return false;
					}
					if (!DateTimeParse.GetDayOfMNN(ref result, ref raw, dtfi))
					{
						return false;
					}
					goto IL_160;
				}
				case DateTimeParse.DS.DX_YMN:
				{
					if (!dtfi.YearMonthAdjustment(ref raw.year, ref raw.month, true))
					{
						result.SetFailure(ParseFailureKind.FormatBadDateTimeCalendar, "Format_BadDateTimeCalendar", null);
						return false;
					}
					if (!DateTimeParse.GetDayOfYMN(ref result, ref raw, dtfi))
					{
						return false;
					}
					goto IL_160;
				}
				case DateTimeParse.DS.DX_YM:
				{
					if (!dtfi.YearMonthAdjustment(ref raw.year, ref raw.month, true))
					{
						result.SetFailure(ParseFailureKind.FormatBadDateTimeCalendar, "Format_BadDateTimeCalendar", null);
						return false;
					}
					if (!DateTimeParse.GetDayOfYM(ref result, ref raw, dtfi))
					{
						return false;
					}
					goto IL_160;
				}
				case DateTimeParse.DS.TX_N:
				{
					if (!DateTimeParse.GetTimeOfN(dtfi, ref result, ref raw))
					{
						return false;
					}
					goto IL_160;
				}
				case DateTimeParse.DS.TX_NN:
				{
					if (!DateTimeParse.GetTimeOfNN(dtfi, ref result, ref raw))
					{
						return false;
					}
					goto IL_160;
				}
				case DateTimeParse.DS.TX_NNN:
				{
					if (!DateTimeParse.GetTimeOfNNN(dtfi, ref result, ref raw))
					{
						return false;
					}
					goto IL_160;
				}
			}
			result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
			return false;
			IL_160:
			if (dps > DateTimeParse.DS.ERROR)
			{
				raw.numCount = 0;
			}
			return true;
		}
		private static bool GetDayOfMNN(ref DateTimeResult result, ref DateTimeRawInfo raw, DateTimeFormatInfo dtfi)
		{
			if ((result.flags & ParseFlags.HaveDate) != (ParseFlags)0)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			int number = raw.GetNumber(0);
			int number2 = raw.GetNumber(1);
			int num;
			if (!DateTimeParse.GetYearMonthDayOrder(dtfi.ShortDatePattern, dtfi, out num))
			{
				result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_BadDatePattern", dtfi.ShortDatePattern);
				return false;
			}
			if (num == 1)
			{
				int year;
				if (result.calendar.IsValidDay(year = DateTimeParse.AdjustYear(ref result, number2), raw.month, number, result.era))
				{
					result.SetDate(year, raw.month, number);
					result.flags |= ParseFlags.HaveDate;
					return true;
				}
				if (result.calendar.IsValidDay(year = DateTimeParse.AdjustYear(ref result, number), raw.month, number2, result.era))
				{
					result.SetDate(year, raw.month, number2);
					result.flags |= ParseFlags.HaveDate;
					return true;
				}
			}
			else
			{
				if (num == 0)
				{
					int year;
					if (result.calendar.IsValidDay(year = DateTimeParse.AdjustYear(ref result, number), raw.month, number2, result.era))
					{
						result.SetDate(year, raw.month, number2);
						result.flags |= ParseFlags.HaveDate;
						return true;
					}
					if (result.calendar.IsValidDay(year = DateTimeParse.AdjustYear(ref result, number2), raw.month, number, result.era))
					{
						result.SetDate(year, raw.month, number);
						result.flags |= ParseFlags.HaveDate;
						return true;
					}
				}
				else
				{
					if (num == 2)
					{
						int year;
						if (result.calendar.IsValidDay(year = DateTimeParse.AdjustYear(ref result, number2), raw.month, number, result.era))
						{
							result.SetDate(year, raw.month, number);
							result.flags |= ParseFlags.HaveDate;
							return true;
						}
						if (result.calendar.IsValidDay(year = DateTimeParse.AdjustYear(ref result, number), raw.month, number2, result.era))
						{
							result.SetDate(year, raw.month, number2);
							result.flags |= ParseFlags.HaveDate;
							return true;
						}
					}
				}
			}
			result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
			return false;
		}
		private static bool DateTimeOffsetTimeZonePostProcessing(ref DateTimeResult result, DateTimeStyles styles)
		{
			if ((result.flags & ParseFlags.TimeZoneUsed) == (ParseFlags)0)
			{
				if ((styles & DateTimeStyles.AssumeUniversal) != DateTimeStyles.None)
				{
					result.timeZoneOffset = TimeSpan.Zero;
				}
				else
				{
					result.timeZoneOffset = TimeZoneInfo.Local.GetUtcOffset(result.parsedDate, TimeZoneInfoOptions.NoThrowOnInvalidTime);
				}
			}
			long ticks = result.timeZoneOffset.Ticks;
			long num = result.parsedDate.Ticks - ticks;
			if (num < 0L || num > 3155378975999999999L)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_UTCOutOfRange", null);
				return false;
			}
			if (ticks < -504000000000L || ticks > 504000000000L)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_OffsetOutOfRange", null);
				return false;
			}
			if ((styles & DateTimeStyles.AdjustToUniversal) != DateTimeStyles.None)
			{
				if ((result.flags & ParseFlags.TimeZoneUsed) == (ParseFlags)0 && (styles & DateTimeStyles.AssumeUniversal) == DateTimeStyles.None)
				{
					bool result2 = DateTimeParse.AdjustTimeZoneToUniversal(ref result);
					result.timeZoneOffset = TimeSpan.Zero;
					return result2;
				}
				result.parsedDate = new DateTime(num, DateTimeKind.Utc);
				result.timeZoneOffset = TimeSpan.Zero;
			}
			return true;
		}
		private static bool GetDayOfNNY(ref DateTimeResult result, ref DateTimeRawInfo raw, DateTimeFormatInfo dtfi)
		{
			if ((result.flags & ParseFlags.HaveDate) != (ParseFlags)0)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			int number = raw.GetNumber(0);
			int number2 = raw.GetNumber(1);
			int num;
			if (!DateTimeParse.GetYearMonthDayOrder(dtfi.ShortDatePattern, dtfi, out num))
			{
				result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_BadDatePattern", dtfi.ShortDatePattern);
				return false;
			}
			if (num == 1 || num == 0)
			{
				if (DateTimeParse.SetDateYMD(ref result, raw.year, number, number2))
				{
					result.flags |= ParseFlags.HaveDate;
					return true;
				}
			}
			else
			{
				if (DateTimeParse.SetDateYMD(ref result, raw.year, number2, number))
				{
					result.flags |= ParseFlags.HaveDate;
					return true;
				}
			}
			result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
			return false;
		}
		private static bool AdjustTimeZoneToLocal(ref DateTimeResult result, bool bTimeOnly)
		{
			long num = result.parsedDate.Ticks;
			TimeZoneInfo local = TimeZoneInfo.Local;
			bool isAmbiguousDst = false;
			if (num < 864000000000L)
			{
				num -= result.timeZoneOffset.Ticks;
				num += local.GetUtcOffset(bTimeOnly ? DateTime.Now : result.parsedDate, TimeZoneInfoOptions.NoThrowOnInvalidTime).Ticks;
				if (num < 0L)
				{
					num += 864000000000L;
				}
			}
			else
			{
				num -= result.timeZoneOffset.Ticks;
				if (num < 0L || num > 3155378975999999999L)
				{
					num += local.GetUtcOffset(result.parsedDate, TimeZoneInfoOptions.NoThrowOnInvalidTime).Ticks;
				}
				else
				{
					DateTime time = new DateTime(num, DateTimeKind.Utc);
					bool flag = false;
					num += TimeZoneInfo.GetUtcOffsetFromUtc(time, TimeZoneInfo.Local, out flag, out isAmbiguousDst).Ticks;
				}
			}
			if (num < 0L || num > 3155378975999999999L)
			{
				result.parsedDate = DateTime.MinValue;
				result.SetFailure(ParseFailureKind.Format, "Format_DateOutOfRange", null);
				return false;
			}
			result.parsedDate = new DateTime(num, DateTimeKind.Local, isAmbiguousDst);
			return true;
		}
		private static bool GetDayOfYM(ref DateTimeResult result, ref DateTimeRawInfo raw, DateTimeFormatInfo dtfi)
		{
			if ((result.flags & ParseFlags.HaveDate) != (ParseFlags)0)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			if (DateTimeParse.SetDateYMD(ref result, raw.year, raw.month, 1))
			{
				result.flags |= ParseFlags.HaveDate;
				return true;
			}
			result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
			return false;
		}
		private static bool CheckNewValue(ref int currentValue, int newValue, char patternChar, ref DateTimeResult result)
		{
			if (currentValue == -1)
			{
				currentValue = newValue;
				return true;
			}
			if (newValue != currentValue)
			{
				result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", patternChar);
				return false;
			}
			return true;
		}
		private static bool GetTimeOfN(DateTimeFormatInfo dtfi, ref DateTimeResult result, ref DateTimeRawInfo raw)
		{
			if ((result.flags & ParseFlags.HaveTime) != (ParseFlags)0)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			if (raw.timeMark == DateTimeParse.TM.NotSet)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			result.Hour = raw.GetNumber(0);
			result.flags |= ParseFlags.HaveTime;
			return true;
		}
		private static bool ParseByFormat(ref __DTString str, ref __DTString format, ref ParsingInfo parseInfo, DateTimeFormatInfo dtfi, ref DateTimeResult result)
		{
			int num = 0;
			int newValue = 0;
			int newValue2 = 0;
			int newValue3 = 0;
			int newValue4 = 0;
			int newValue5 = 0;
			int newValue6 = 0;
			int newValue7 = 0;
			double num2 = 0.0;
			DateTimeParse.TM tM = DateTimeParse.TM.AM;
			char @char = format.GetChar();
			char c = @char;
			if (c <= 'H')
			{
				if (c <= '\'')
				{
					if (c != '"')
					{
						switch (c)
						{
							case '%':
							{
								if (format.Index >= format.Value.Length - 1 || format.Value[format.Index + 1] == '%')
								{
									result.SetFailure(ParseFailureKind.Format, "Format_BadFormatSpecifier", null);
									return false;
								}
								return true;
							}
							case '&':
							{
								goto IL_991;
							}
							case '\'':
							{
								break;
							}
							default:
							{
								goto IL_991;
							}
						}
					}
					StringBuilder stringBuilder = new StringBuilder();
					if (!DateTimeParse.TryParseQuoteString(format.Value, format.Index, stringBuilder, out num))
					{
						result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_BadQuote", @char);
						return false;
					}
					format.Index += num - 1;
					string text = stringBuilder.ToString();
					for (int i = 0; i < text.Length; i++)
					{
						if (text[i] == ' ' && parseInfo.fAllowInnerWhite)
						{
							str.SkipWhiteSpaces();
						}
						else
						{
							if (!str.Match(text[i]))
							{
								result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
								return false;
							}
						}
					}
					if ((result.flags & ParseFlags.CaptureOffset) == (ParseFlags)0)
					{
						return true;
					}
					if ((result.flags & ParseFlags.Rfc1123Pattern) != (ParseFlags)0 && text == "GMT")
					{
						result.flags |= ParseFlags.TimeZoneUsed;
						result.timeZoneOffset = TimeSpan.Zero;
						return true;
					}
					if ((result.flags & ParseFlags.UtcSortPattern) != (ParseFlags)0 && text == "Z")
					{
						result.flags |= ParseFlags.TimeZoneUsed;
						result.timeZoneOffset = TimeSpan.Zero;
						return true;
					}
					return true;
				}
				else
				{
					switch (c)
					{
						case '.':
						{
							if (str.Match(@char))
							{
								return true;
							}
							if (format.GetNext() && format.Match('F'))
							{
								format.GetRepeatCount();
								return true;
							}
							result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
							return false;
						}
						case '/':
						{
							if (!str.Match(dtfi.DateSeparator))
							{
								result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
								return false;
							}
							return true;
						}
						default:
						{
							if (c != ':')
							{
								switch (c)
								{
									case 'F':
									{
										break;
									}
									case 'G':
									{
										goto IL_991;
									}
									case 'H':
									{
										num = format.GetRepeatCount();
										if (!DateTimeParse.ParseDigits(ref str, (num < 2) ? 1 : 2, out newValue5))
										{
											result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
											return false;
										}
										if (!DateTimeParse.CheckNewValue(ref result.Hour, newValue5, @char, ref result))
										{
											return false;
										}
										return true;
									}
									default:
									{
										goto IL_991;
									}
								}
							}
							else
							{
								if (!str.Match(dtfi.TimeSeparator))
								{
									result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
									return false;
								}
								return true;
							}
							break;
						}
					}
				}
			}
			else
			{
				if (c <= 'h')
				{
					switch (c)
					{
						case 'K':
						{
							if (str.Match('Z'))
							{
								if ((result.flags & ParseFlags.TimeZoneUsed) != (ParseFlags)0 && result.timeZoneOffset != TimeSpan.Zero)
								{
									result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", 'K');
									return false;
								}
								result.flags |= ParseFlags.TimeZoneUsed;
								result.timeZoneOffset = new TimeSpan(0L);
								result.flags |= ParseFlags.TimeZoneUtc;
								return true;
							}
							else
							{
								if (!str.Match('+') && !str.Match('-'))
								{
									return true;
								}
								str.Index--;
								TimeSpan timeSpan = new TimeSpan(0L);
								if (!DateTimeParse.ParseTimeZoneOffset(ref str, 3, ref timeSpan))
								{
									result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
									return false;
								}
								if ((result.flags & ParseFlags.TimeZoneUsed) != (ParseFlags)0 && timeSpan != result.timeZoneOffset)
								{
									result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", 'K');
									return false;
								}
								result.timeZoneOffset = timeSpan;
								result.flags |= ParseFlags.TimeZoneUsed;
								return true;
							}
							break;
						}
						case 'L':
						{
							goto IL_991;
						}
						case 'M':
						{
							num = format.GetRepeatCount();
							if (num <= 2)
							{
								if (!DateTimeParse.ParseDigits(ref str, num, out newValue2) && (!parseInfo.fCustomNumberParser || !parseInfo.parseNumberDelegate(ref str, num, out newValue2)))
								{
									result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
									return false;
								}
							}
							else
							{
								if (num == 3)
								{
									if (!DateTimeParse.MatchAbbreviatedMonthName(ref str, dtfi, ref newValue2))
									{
										result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
										return false;
									}
								}
								else
								{
									if (!DateTimeParse.MatchMonthName(ref str, dtfi, ref newValue2))
									{
										result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
										return false;
									}
								}
								result.flags |= ParseFlags.ParsedMonthName;
							}
							if (!DateTimeParse.CheckNewValue(ref result.Month, newValue2, @char, ref result))
							{
								return false;
							}
							return true;
						}
						default:
						{
							switch (c)
							{
								case 'Z':
								{
									if ((result.flags & ParseFlags.TimeZoneUsed) != (ParseFlags)0 && result.timeZoneOffset != TimeSpan.Zero)
									{
										result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", 'Z');
										return false;
									}
									result.flags |= ParseFlags.TimeZoneUsed;
									result.timeZoneOffset = new TimeSpan(0L);
									result.flags |= ParseFlags.TimeZoneUtc;
									str.Index++;
									if (!DateTimeParse.GetTimeZoneName(ref str))
									{
										result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
										return false;
									}
									str.Index--;
									return true;
								}
								case '[':
								{
									goto IL_991;
								}
								case '\\':
								{
									if (!format.GetNext())
									{
										result.SetFailure(ParseFailureKind.Format, "Format_BadFormatSpecifier", null);
										return false;
									}
									if (!str.Match(format.GetChar()))
									{
										result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
										return false;
									}
									return true;
								}
								default:
								{
									switch (c)
									{
										case 'd':
										{
											num = format.GetRepeatCount();
											if (num <= 2)
											{
												if (!DateTimeParse.ParseDigits(ref str, num, out newValue3) && (!parseInfo.fCustomNumberParser || !parseInfo.parseNumberDelegate(ref str, num, out newValue3)))
												{
													result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
													return false;
												}
												if (!DateTimeParse.CheckNewValue(ref result.Day, newValue3, @char, ref result))
												{
													return false;
												}
												return true;
											}
											else
											{
												if (num == 3)
												{
													if (!DateTimeParse.MatchAbbreviatedDayName(ref str, dtfi, ref newValue4))
													{
														result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
														return false;
													}
												}
												else
												{
													if (!DateTimeParse.MatchDayName(ref str, dtfi, ref newValue4))
													{
														result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
														return false;
													}
												}
												if (!DateTimeParse.CheckNewValue(ref parseInfo.dayOfWeek, newValue4, @char, ref result))
												{
													return false;
												}
												return true;
											}
											break;
										}
										case 'e':
										{
											goto IL_991;
										}
										case 'f':
										{
											break;
										}
										case 'g':
										{
											num = format.GetRepeatCount();
											if (!DateTimeParse.MatchEraName(ref str, dtfi, ref result.era))
											{
												result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
												return false;
											}
											return true;
										}
										case 'h':
										{
											parseInfo.fUseHour12 = true;
											num = format.GetRepeatCount();
											if (!DateTimeParse.ParseDigits(ref str, (num < 2) ? 1 : 2, out newValue5))
											{
												result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
												return false;
											}
											if (!DateTimeParse.CheckNewValue(ref result.Hour, newValue5, @char, ref result))
											{
												return false;
											}
											return true;
										}
										default:
										{
											goto IL_991;
										}
									}
									break;
								}
							}
							break;
						}
					}
				}
				else
				{
					if (c != 'm')
					{
						switch (c)
						{
							case 's':
							{
								num = format.GetRepeatCount();
								if (!DateTimeParse.ParseDigits(ref str, (num < 2) ? 1 : 2, out newValue7))
								{
									result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
									return false;
								}
								if (!DateTimeParse.CheckNewValue(ref result.Second, newValue7, @char, ref result))
								{
									return false;
								}
								return true;
							}
							case 't':
							{
								num = format.GetRepeatCount();
								if (num == 1)
								{
									if (!DateTimeParse.MatchAbbreviatedTimeMark(ref str, dtfi, ref tM))
									{
										result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
										return false;
									}
								}
								else
								{
									if (!DateTimeParse.MatchTimeMark(ref str, dtfi, ref tM))
									{
										result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
										return false;
									}
								}
								if (parseInfo.timeMark == DateTimeParse.TM.NotSet)
								{
									parseInfo.timeMark = tM;
									return true;
								}
								if (parseInfo.timeMark != tM)
								{
									result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", @char);
									return false;
								}
								return true;
							}
							default:
							{
								switch (c)
								{
									case 'y':
									{
										num = format.GetRepeatCount();
										bool flag;
										if (dtfi.HasForceTwoDigitYears)
										{
											flag = DateTimeParse.ParseDigits(ref str, 1, 4, out newValue);
										}
										else
										{
											if (num <= 2)
											{
												parseInfo.fUseTwoDigitYear = true;
											}
											flag = DateTimeParse.ParseDigits(ref str, num, out newValue);
										}
										if (!flag && parseInfo.fCustomNumberParser)
										{
											flag = parseInfo.parseNumberDelegate(ref str, num, out newValue);
										}
										if (!flag)
										{
											result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
											return false;
										}
										if (!DateTimeParse.CheckNewValue(ref result.Year, newValue, @char, ref result))
										{
											return false;
										}
										return true;
									}
									case 'z':
									{
										num = format.GetRepeatCount();
										TimeSpan timeSpan2 = new TimeSpan(0L);
										if (!DateTimeParse.ParseTimeZoneOffset(ref str, num, ref timeSpan2))
										{
											result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
											return false;
										}
										if ((result.flags & ParseFlags.TimeZoneUsed) != (ParseFlags)0 && timeSpan2 != result.timeZoneOffset)
										{
											result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", 'z');
											return false;
										}
										result.timeZoneOffset = timeSpan2;
										result.flags |= ParseFlags.TimeZoneUsed;
										return true;
									}
									default:
									{
										goto IL_991;
									}
								}
								break;
							}
						}
					}
					else
					{
						num = format.GetRepeatCount();
						if (!DateTimeParse.ParseDigits(ref str, (num < 2) ? 1 : 2, out newValue6))
						{
							result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
							return false;
						}
						if (!DateTimeParse.CheckNewValue(ref result.Minute, newValue6, @char, ref result))
						{
							return false;
						}
						return true;
					}
				}
			}
			num = format.GetRepeatCount();
			if (num > 7)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			if (!DateTimeParse.ParseFractionExact(ref str, num, ref num2) && @char == 'f')
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			if (result.fraction < 0.0)
			{
				result.fraction = num2;
				return true;
			}
			if (num2 != result.fraction)
			{
				result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", @char);
				return false;
			}
			return true;
			IL_991:
			if (@char == ' ')
			{
				if (!parseInfo.fAllowInnerWhite && !str.Match(@char))
				{
					if (parseInfo.fAllowTrailingWhite && format.GetNext() && DateTimeParse.ParseByFormat(ref str, ref format, ref parseInfo, dtfi, ref result))
					{
						return true;
					}
					result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
					return false;
				}
			}
			else
			{
				if (format.MatchSpecifiedWord("GMT"))
				{
					format.Index += "GMT".Length - 1;
					result.flags |= ParseFlags.TimeZoneUsed;
					result.timeZoneOffset = TimeSpan.Zero;
					if (!str.Match("GMT"))
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
				}
				else
				{
					if (!str.Match(@char))
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
				}
			}
			return true;
		}
		private static bool GetTimeOfNNN(DateTimeFormatInfo dtfi, ref DateTimeResult result, ref DateTimeRawInfo raw)
		{
			if ((result.flags & ParseFlags.HaveTime) != (ParseFlags)0)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			result.Hour = raw.GetNumber(0);
			result.Minute = raw.GetNumber(1);
			result.Second = raw.GetNumber(2);
			result.flags |= ParseFlags.HaveTime;
			return true;
		}
		internal static bool TryParseExactMultiple(string s, string[] formats, DateTimeFormatInfo dtfi, DateTimeStyles style, ref DateTimeResult result)
		{
			if (s == null)
			{
				result.SetFailure(ParseFailureKind.ArgumentNull, "ArgumentNull_String", null, "s");
				return false;
			}
			if (formats == null)
			{
				result.SetFailure(ParseFailureKind.ArgumentNull, "ArgumentNull_String", null, "formats");
				return false;
			}
			if (s.Length == 0)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			if (formats.Length == 0)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadFormatSpecifier", null);
				return false;
			}
			for (int i = 0; i < formats.Length; i++)
			{
				if (formats[i] == null || formats[i].Length == 0)
				{
					result.SetFailure(ParseFailureKind.Format, "Format_BadFormatSpecifier", null);
					return false;
				}
				DateTimeResult dateTimeResult = default(DateTimeResult);
				dateTimeResult.Init();
				dateTimeResult.flags = result.flags;
				if (DateTimeParse.TryParseExact(s, formats[i], dtfi, style, ref dateTimeResult))
				{
					result.parsedDate = dateTimeResult.parsedDate;
					result.timeZoneOffset = dateTimeResult.timeZoneOffset;
					return true;
				}
			}
			result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
			return false;
		}
		private static bool GetDateOfDSN(ref DateTimeResult result, ref DateTimeRawInfo raw)
		{
			if (raw.numCount != 1 || result.Day != -1)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			result.Day = raw.GetNumber(0);
			return true;
		}
		private static bool Lex(DateTimeParse.DS dps, ref __DTString str, ref DateTimeToken dtok, ref DateTimeRawInfo raw, ref DateTimeResult result, ref DateTimeFormatInfo dtfi)
		{
			dtok.dtt = DateTimeParse.DTT.Unk;
			TokenType tokenType;
			int num;
			str.GetRegularToken(out tokenType, out num, dtfi);
			switch (tokenType)
			{
				case TokenType.NumberToken:
				case TokenType.YearNumberToken:
				{
					if (raw.numCount == 3 || num == -1)
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					if (dps == DateTimeParse.DS.T_NNt && str.Index < str.len - 1)
					{
						char c = str.Value[str.Index];
						if (c == '.')
						{
							DateTimeParse.ParseFraction(ref str, out raw.fraction);
						}
					}
					if ((dps == DateTimeParse.DS.T_NNt || dps == DateTimeParse.DS.T_Nt) && str.Index < str.len - 1 && !DateTimeParse.HandleTimeZone(ref str, ref result))
					{
						return false;
					}
					dtok.num = num;
					if (tokenType != TokenType.YearNumberToken)
					{
						int index;
						char current;
						TokenType separatorToken;
						TokenType tokenType2 = separatorToken = str.GetSeparatorToken(dtfi, out index, out current);
						if (separatorToken > TokenType.SEP_YearSuff)
						{
							if (separatorToken <= TokenType.SEP_HourSuff)
							{
								if (separatorToken == TokenType.SEP_MonthSuff || separatorToken == TokenType.SEP_DaySuff)
								{
									dtok.dtt = DateTimeParse.DTT.NumDatesuff;
									dtok.suffix = tokenType2;
									break;
								}
								if (separatorToken != TokenType.SEP_HourSuff)
								{
									goto IL_52A;
								}
							}
							else
							{
								if (separatorToken <= TokenType.SEP_SecondSuff)
								{
									if (separatorToken != TokenType.SEP_MinuteSuff && separatorToken != TokenType.SEP_SecondSuff)
									{
										goto IL_52A;
									}
								}
								else
								{
									if (separatorToken == TokenType.SEP_LocalTimeMark)
									{
										dtok.dtt = DateTimeParse.DTT.NumLocalTimeMark;
										raw.AddNumber(dtok.num);
										break;
									}
									if (separatorToken != TokenType.SEP_DateOrOffset)
									{
										goto IL_52A;
									}
									if (DateTimeParse.dateParsingStates[(int)dps][4] == DateTimeParse.DS.ERROR && DateTimeParse.dateParsingStates[(int)dps][3] > DateTimeParse.DS.ERROR)
									{
										str.Index = index;
										str.m_current = current;
										dtok.dtt = DateTimeParse.DTT.NumSpace;
									}
									else
									{
										dtok.dtt = DateTimeParse.DTT.NumDatesep;
									}
									raw.AddNumber(dtok.num);
									break;
								}
							}
							dtok.dtt = DateTimeParse.DTT.NumTimesuff;
							dtok.suffix = tokenType2;
							break;
						}
						if (separatorToken <= TokenType.SEP_Am)
						{
							if (separatorToken == TokenType.SEP_End)
							{
								dtok.dtt = DateTimeParse.DTT.NumEnd;
								raw.AddNumber(dtok.num);
								break;
							}
							if (separatorToken == TokenType.SEP_Space)
							{
								dtok.dtt = DateTimeParse.DTT.NumSpace;
								raw.AddNumber(dtok.num);
								break;
							}
							if (separatorToken != TokenType.SEP_Am)
							{
								goto IL_52A;
							}
						}
						else
						{
							if (separatorToken <= TokenType.SEP_Date)
							{
								if (separatorToken != TokenType.SEP_Pm)
								{
									if (separatorToken != TokenType.SEP_Date)
									{
										goto IL_52A;
									}
									dtok.dtt = DateTimeParse.DTT.NumDatesep;
									raw.AddNumber(dtok.num);
									break;
								}
							}
							else
							{
								if (separatorToken == TokenType.SEP_Time)
								{
									dtok.dtt = DateTimeParse.DTT.NumTimesep;
									raw.AddNumber(dtok.num);
									break;
								}
								if (separatorToken != TokenType.SEP_YearSuff)
								{
									goto IL_52A;
								}
								dtok.num = dtfi.Calendar.ToFourDigitYear(num);
								dtok.dtt = DateTimeParse.DTT.NumDatesuff;
								dtok.suffix = tokenType2;
								break;
							}
						}
						if (raw.timeMark != DateTimeParse.TM.NotSet)
						{
							result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
							break;
						}
						raw.timeMark = ((tokenType2 == TokenType.SEP_Am) ? DateTimeParse.TM.AM : DateTimeParse.TM.PM);
						dtok.dtt = DateTimeParse.DTT.NumAmpm;
						raw.AddNumber(dtok.num);
						if ((dps == DateTimeParse.DS.T_NNt || dps == DateTimeParse.DS.T_Nt) && !DateTimeParse.HandleTimeZone(ref str, ref result))
						{
							return false;
						}
						break;
						IL_52A:
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					if (raw.year == -1)
					{
						raw.year = num;
						int index;
						char current;
						TokenType separatorToken2;
						TokenType tokenType2 = separatorToken2 = str.GetSeparatorToken(dtfi, out index, out current);
						if (separatorToken2 > TokenType.SEP_YearSuff)
						{
							if (separatorToken2 <= TokenType.SEP_HourSuff)
							{
								if (separatorToken2 == TokenType.SEP_MonthSuff || separatorToken2 == TokenType.SEP_DaySuff)
								{
									goto IL_26A;
								}
								if (separatorToken2 != TokenType.SEP_HourSuff)
								{
									goto IL_28E;
								}
							}
							else
							{
								if (separatorToken2 != TokenType.SEP_MinuteSuff && separatorToken2 != TokenType.SEP_SecondSuff)
								{
									if (separatorToken2 != TokenType.SEP_DateOrOffset)
									{
										goto IL_28E;
									}
									if (DateTimeParse.dateParsingStates[(int)dps][13] == DateTimeParse.DS.ERROR && DateTimeParse.dateParsingStates[(int)dps][12] > DateTimeParse.DS.ERROR)
									{
										str.Index = index;
										str.m_current = current;
										dtok.dtt = DateTimeParse.DTT.YearSpace;
										return true;
									}
									dtok.dtt = DateTimeParse.DTT.YearDateSep;
									return true;
								}
							}
							dtok.dtt = DateTimeParse.DTT.NumTimesuff;
							dtok.suffix = tokenType2;
							return true;
						}
						if (separatorToken2 <= TokenType.SEP_Am)
						{
							if (separatorToken2 == TokenType.SEP_End)
							{
								dtok.dtt = DateTimeParse.DTT.YearEnd;
								return true;
							}
							if (separatorToken2 == TokenType.SEP_Space)
							{
								dtok.dtt = DateTimeParse.DTT.YearSpace;
								return true;
							}
							if (separatorToken2 != TokenType.SEP_Am)
							{
								goto IL_28E;
							}
						}
						else
						{
							if (separatorToken2 != TokenType.SEP_Pm)
							{
								if (separatorToken2 == TokenType.SEP_Date)
								{
									dtok.dtt = DateTimeParse.DTT.YearDateSep;
									return true;
								}
								if (separatorToken2 != TokenType.SEP_YearSuff)
								{
									goto IL_28E;
								}
								goto IL_26A;
							}
						}
						if (raw.timeMark == DateTimeParse.TM.NotSet)
						{
							raw.timeMark = ((tokenType2 == TokenType.SEP_Am) ? DateTimeParse.TM.AM : DateTimeParse.TM.PM);
							dtok.dtt = DateTimeParse.DTT.YearSpace;
							return true;
						}
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return true;
						IL_26A:
						dtok.dtt = DateTimeParse.DTT.NumDatesuff;
						dtok.suffix = tokenType2;
						return true;
						IL_28E:
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
					return false;
				}
				case TokenType.Am:
				case TokenType.Pm:
				{
					if (raw.timeMark != DateTimeParse.TM.NotSet)
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					raw.timeMark = (DateTimeParse.TM)num;
					break;
				}
				case TokenType.MonthToken:
				{
					if (raw.month != -1)
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					int index;
					char current;
					TokenType separatorToken3 = str.GetSeparatorToken(dtfi, out index, out current);
					if (separatorToken3 <= TokenType.SEP_Space)
					{
						if (separatorToken3 == TokenType.SEP_End)
						{
							dtok.dtt = DateTimeParse.DTT.MonthEnd;
							goto IL_786;
						}
						if (separatorToken3 == TokenType.SEP_Space)
						{
							dtok.dtt = DateTimeParse.DTT.MonthSpace;
							goto IL_786;
						}
					}
					else
					{
						if (separatorToken3 == TokenType.SEP_Date)
						{
							dtok.dtt = DateTimeParse.DTT.MonthDatesep;
							goto IL_786;
						}
						if (separatorToken3 == TokenType.SEP_DateOrOffset)
						{
							if (DateTimeParse.dateParsingStates[(int)dps][8] == DateTimeParse.DS.ERROR && DateTimeParse.dateParsingStates[(int)dps][7] > DateTimeParse.DS.ERROR)
							{
								str.Index = index;
								str.m_current = current;
								dtok.dtt = DateTimeParse.DTT.MonthSpace;
								goto IL_786;
							}
							dtok.dtt = DateTimeParse.DTT.MonthDatesep;
							goto IL_786;
						}
					}
					result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
					return false;
					IL_786:
					raw.month = num;
					break;
				}
				case TokenType.EndOfString:
				{
					dtok.dtt = DateTimeParse.DTT.End;
					break;
				}
				case TokenType.DayOfWeekToken:
				{
					if (raw.dayOfWeek != -1)
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					raw.dayOfWeek = num;
					dtok.dtt = DateTimeParse.DTT.DayOfWeek;
					break;
				}
				case TokenType.TimeZoneToken:
				{
					if ((result.flags & ParseFlags.TimeZoneUsed) != (ParseFlags)0)
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					dtok.dtt = DateTimeParse.DTT.TimeZone;
					result.flags |= ParseFlags.TimeZoneUsed;
					result.timeZoneOffset = new TimeSpan(0L);
					result.flags |= ParseFlags.TimeZoneUtc;
					break;
				}
				case TokenType.EraToken:
				{
					if (result.era == -1)
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					result.era = num;
					dtok.dtt = DateTimeParse.DTT.Era;
					break;
				}
				case TokenType.UnknownToken:
				{
					if (char.IsLetter(str.m_current))
					{
						result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_UnknowDateTimeWord", str.Index);
						return false;
					}
					if (Environment.GetCompatibilityFlag(CompatibilityFlag.DateTimeParseIgnorePunctuation) && (result.flags & ParseFlags.CaptureOffset) == (ParseFlags)0)
					{
						str.GetNext();
						return true;
					}
					if ((str.m_current == '-' || str.m_current == '+') && (result.flags & ParseFlags.TimeZoneUsed) == (ParseFlags)0)
					{
						int index2 = str.Index;
						if (DateTimeParse.ParseTimeZone(ref str, ref result.timeZoneOffset))
						{
							result.flags |= ParseFlags.TimeZoneUsed;
							return true;
						}
						str.Index = index2;
					}
					if (DateTimeParse.VerifyValidPunctuation(ref str))
					{
						return true;
					}
					result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
					return false;
				}
				case TokenType.HebrewNumber:
				{
					int index;
					char current;
					if (num < 100)
					{
						dtok.num = num;
						raw.AddNumber(dtok.num);
						TokenType separatorToken4 = str.GetSeparatorToken(dtfi, out index, out current);
						if (separatorToken4 <= TokenType.SEP_Space)
						{
							if (separatorToken4 == TokenType.SEP_End)
							{
								dtok.dtt = DateTimeParse.DTT.NumEnd;
								break;
							}
							if (separatorToken4 != TokenType.SEP_Space)
							{
								goto IL_695;
							}
						}
						else
						{
							if (separatorToken4 != TokenType.SEP_Date)
							{
								if (separatorToken4 != TokenType.SEP_DateOrOffset)
								{
									goto IL_695;
								}
								if (DateTimeParse.dateParsingStates[(int)dps][4] == DateTimeParse.DS.ERROR && DateTimeParse.dateParsingStates[(int)dps][3] > DateTimeParse.DS.ERROR)
								{
									str.Index = index;
									str.m_current = current;
									dtok.dtt = DateTimeParse.DTT.NumSpace;
									break;
								}
								dtok.dtt = DateTimeParse.DTT.NumDatesep;
								break;
							}
						}
						dtok.dtt = DateTimeParse.DTT.NumDatesep;
						break;
						IL_695:
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					if (raw.year != -1)
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					raw.year = num;
					TokenType separatorToken5 = str.GetSeparatorToken(dtfi, out index, out current);
					if (separatorToken5 != TokenType.SEP_End)
					{
						if (separatorToken5 != TokenType.SEP_Space)
						{
							if (separatorToken5 == TokenType.SEP_DateOrOffset)
							{
								if (DateTimeParse.dateParsingStates[(int)dps][12] > DateTimeParse.DS.ERROR)
								{
									str.Index = index;
									str.m_current = current;
									dtok.dtt = DateTimeParse.DTT.YearSpace;
									break;
								}
							}
							result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
							return false;
						}
						dtok.dtt = DateTimeParse.DTT.YearSpace;
					}
					else
					{
						dtok.dtt = DateTimeParse.DTT.YearEnd;
					}
					break;
				}
				case TokenType.JapaneseEraToken:
				{
					result.calendar = JapaneseCalendar.GetDefaultInstance();
					dtfi = DateTimeFormatInfo.GetJapaneseCalendarDTFI();
					if (result.era == -1)
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					result.era = num;
					dtok.dtt = DateTimeParse.DTT.Era;
					break;
				}
				case TokenType.TEraToken:
				{
					result.calendar = TaiwanCalendar.GetDefaultInstance();
					dtfi = DateTimeFormatInfo.GetTaiwanCalendarDTFI();
					if (result.era == -1)
					{
						result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
						return false;
					}
					result.era = num;
					dtok.dtt = DateTimeParse.DTT.Era;
					break;
				}
			}
			return true;
		}
		private static bool GetDateOfNDS(ref DateTimeResult result, ref DateTimeRawInfo raw)
		{
			if (result.Month == -1)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			if (result.Year != -1)
			{
				result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
				return false;
			}
			result.Year = DateTimeParse.AdjustYear(ref result, raw.GetNumber(0));
			result.Day = 1;
			return true;
		}