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);
}
/*=================================MatchAbbreviatedTimeMark==================================
**Action: Parse the abbreviated time mark (AM/PM) from string starting at str.Index.
**Returns: TM_AM or TM_PM.
**Arguments: str: a __DTString. The parsing will start from the
** next character after str.Index.
**Exceptions: FormatException if a abbreviated time mark can not be found.
==============================================================================*/
private static bool MatchAbbreviatedTimeMark(ref __DTString str, DateTimeFormatInfo dtfi, ref TM result) {
// NOTENOTE : the assumption here is that abbreviated time mark is the first
// character of the AM/PM designator. If this invariant changes, we have to
// change the code below.
if (str.GetNext())
{
if (str.GetChar() == dtfi.AMDesignator[0]) {
result = TM.AM;
return (true);
}
if (str.GetChar() == dtfi.PMDesignator[0]) {
result = TM.PM;
return (true);
}
}
return false;
}
// 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);
}
////////////////////////////////////////////////////////////////////////
//
// Actions:
// Parse the current word as a Hebrew number.
// This is used by DateTime.ParseExact().
//
////////////////////////////////////////////////////////////////////////
internal static bool MatchHebrewDigits(ref __DTString str, int digitLen, out int number) {
number = 0;
// Create a context object so that we can parse the Hebrew number text character by character.
HebrewNumberParsingContext context = new HebrewNumberParsingContext(0);
// Set this to ContinueParsing so that we will run the following while loop in the first time.
HebrewNumberParsingState state = HebrewNumberParsingState.ContinueParsing;
while (state == HebrewNumberParsingState.ContinueParsing && str.GetNext()) {
state = HebrewNumber.ParseByChar(str.GetChar(), ref context);
}
if (state == HebrewNumberParsingState.FoundEndOfHebrewNumber) {
// If we have reached a terminal state, update the result and returns.
number = context.result;
return (true);
}
// If we run out of the character before reaching FoundEndOfHebrewNumber, or
// the state is InvalidHebrewNumber or ContinueParsing, we fail to match a Hebrew number.
// Return an error.
return false;
}
/*=================================ParseSign==================================
**Action: Parse a positive or a negative sign.
**Returns: true if postive sign. flase if negative sign.
**Arguments: str: a __DTString. The parsing will start from the
** next character after str.Index.
**Exceptions: FormatException if end of string is encountered or a sign
** symbol is not found.
==============================================================================*/
private static bool ParseSign(ref __DTString str, ref bool result) {
if (!str.GetNext()) {
// A sign symbol ('+' or '-') is expected. However, end of string is encountered.
return false;
}
char ch = str.GetChar();
if (ch == '+') {
result = true;
return (true);
} else if (ch == '-') {
result = false;
return (true);
}
// A sign symbol ('+' or '-') is expected.
return false;
}
private static bool MatchAbbreviatedTimeMark(ref __DTString str, DateTimeFormatInfo dtfi, ref DateTimeParse.TM result)
{
if (str.GetNext())
{
if (str.GetChar() == dtfi.AMDesignator[0])
{
result = DateTimeParse.TM.AM;
return true;
}
if (str.GetChar() == dtfi.PMDesignator[0])
{
result = DateTimeParse.TM.PM;
return true;
}
}
return false;
}
/*=================================ParseSign==================================
**Action: Parse a positive or a negative sign.
**Returns: true if postive sign. flase if negative sign.
**Arguments: str: a __DTString. The parsing will start from the
** next character after str.Index.
**Exceptions: FormatException if end of string is encountered or a sign
** symbol is not found.
==============================================================================*/
private static bool ParseSign(__DTString str, bool isThrowExp, ref bool result) {
if (!str.GetNext()) {
// A sign symbol ('+' or '-') is expected. However, end of string is encountered.
return (ParseFormatError(isThrowExp, "Format_BadDateTime"));
}
char ch = str.GetChar();
if (ch == '+') {
result = true;
return (true);
} else if (ch == '-') {
result = false;
return (true);
}
// A sign symbol ('+' or '-') is expected.
return (ParseFormatError(isThrowExp, "Format_BadDateTime"));
}
private static bool ParseByFormat(ref __DTString str, ref __DTString format, ref ParsingInfo parseInfo, DateTimeFormatInfo dtfi, ref DateTimeResult result)
{
bool flag;
int returnValue = 0;
int num2 = 0;
int num3 = 0;
int num4 = 0;
int num5 = 0;
int num6 = 0;
int num7 = 0;
int num8 = 0;
double num9 = 0.0;
TM aM = TM.AM;
char failureMessageFormatArgument = format.GetChar();
switch (failureMessageFormatArgument)
{
case '%':
if ((format.Index < (format.Value.Length - 1)) && (format.Value[format.Index + 1] != '%'))
{
goto Label_0A5A;
}
result.SetFailure(ParseFailureKind.Format, "Format_BadFormatSpecifier", null);
return false;
case '\'':
case '"':
{
StringBuilder builder = new StringBuilder();
if (!TryParseQuoteString(format.Value, format.Index, builder, out returnValue))
{
result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_BadQuote", failureMessageFormatArgument);
return false;
}
format.Index += returnValue - 1;
string str2 = builder.ToString();
for (int i = 0; i < str2.Length; i++)
{
if ((str2[i] == ' ') && parseInfo.fAllowInnerWhite)
{
str.SkipWhiteSpaces();
}
else if (!str.Match(str2[i]))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
}
if ((result.flags & ParseFlags.CaptureOffset) != 0)
{
if (((result.flags & ParseFlags.Rfc1123Pattern) != 0) && (str2 == "GMT"))
{
result.flags |= ParseFlags.TimeZoneUsed;
result.timeZoneOffset = TimeSpan.Zero;
}
else if (((result.flags & ParseFlags.UtcSortPattern) != 0) && (str2 == "Z"))
{
result.flags |= ParseFlags.TimeZoneUsed;
result.timeZoneOffset = TimeSpan.Zero;
}
}
goto Label_0A5A;
}
case '.':
if (!str.Match(failureMessageFormatArgument))
{
if (!format.GetNext() || !format.Match('F'))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
format.GetRepeatCount();
}
goto Label_0A5A;
case '/':
if (str.Match(dtfi.DateSeparator))
{
goto Label_0A5A;
}
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
case ':':
if (str.Match(dtfi.TimeSeparator))
{
goto Label_0A5A;
}
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
case 'F':
case 'f':
returnValue = format.GetRepeatCount();
if (returnValue <= 7)
{
if (!ParseFractionExact(ref str, returnValue, ref num9) && (failureMessageFormatArgument == 'f'))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
if (result.fraction >= 0.0)
{
if (num9 != result.fraction)
{
result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", failureMessageFormatArgument);
return false;
}
}
else
{
result.fraction = num9;
}
goto Label_0A5A;
}
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
case 'H':
returnValue = format.GetRepeatCount();
if (ParseDigits(ref str, (returnValue < 2) ? 1 : 2, out num6))
{
if (!CheckNewValue(ref result.Hour, num6, failureMessageFormatArgument, ref result))
{
return false;
}
goto Label_0A5A;
}
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
case 'K':
if (!str.Match('Z'))
{
if (str.Match('+') || str.Match('-'))
{
str.Index--;
TimeSpan span2 = new TimeSpan(0L);
if (!ParseTimeZoneOffset(ref str, 3, ref span2))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
if (((result.flags & ParseFlags.TimeZoneUsed) != 0) && (span2 != result.timeZoneOffset))
{
result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", 'K');
return false;
}
result.timeZoneOffset = span2;
result.flags |= ParseFlags.TimeZoneUsed;
}
goto Label_0A5A;
}
if (((result.flags & ParseFlags.TimeZoneUsed) == 0) || !(result.timeZoneOffset != TimeSpan.Zero))
{
result.flags |= ParseFlags.TimeZoneUsed;
result.timeZoneOffset = new TimeSpan(0L);
result.flags |= ParseFlags.TimeZoneUtc;
goto Label_0A5A;
}
result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", 'K');
return false;
case 'M':
returnValue = format.GetRepeatCount();
if (returnValue > 2)
{
if (returnValue == 3)
{
if (!MatchAbbreviatedMonthName(ref str, dtfi, ref num3))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
}
else if (!MatchMonthName(ref str, dtfi, ref num3))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
result.flags |= ParseFlags.ParsedMonthName;
goto Label_0223;
}
if (ParseDigits(ref str, returnValue, out num3) || (parseInfo.fCustomNumberParser && parseInfo.parseNumberDelegate(ref str, returnValue, out num3)))
{
goto Label_0223;
}
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
case 'Z':
if (((result.flags & ParseFlags.TimeZoneUsed) == 0) || !(result.timeZoneOffset != TimeSpan.Zero))
{
result.flags |= ParseFlags.TimeZoneUsed;
result.timeZoneOffset = new TimeSpan(0L);
result.flags |= ParseFlags.TimeZoneUtc;
str.Index++;
if (!GetTimeZoneName(ref str))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
str.Index--;
goto Label_0A5A;
}
result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", 'Z');
return false;
case '\\':
if (!format.GetNext())
{
result.SetFailure(ParseFailureKind.Format, "Format_BadFormatSpecifier", null);
return false;
}
if (str.Match(format.GetChar()))
{
goto Label_0A5A;
}
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
case 'd':
returnValue = format.GetRepeatCount();
if (returnValue > 2)
{
if (returnValue == 3)
{
if (!MatchAbbreviatedDayName(ref str, dtfi, ref num5))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
}
else if (!MatchDayName(ref str, dtfi, ref num5))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
if (!CheckNewValue(ref parseInfo.dayOfWeek, num5, failureMessageFormatArgument, ref result))
{
return false;
}
goto Label_0A5A;
}
if (ParseDigits(ref str, returnValue, out num4) || (parseInfo.fCustomNumberParser && parseInfo.parseNumberDelegate(ref str, returnValue, out num4)))
{
if (!CheckNewValue(ref result.Day, num4, failureMessageFormatArgument, ref result))
{
return false;
}
goto Label_0A5A;
}
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
case 'g':
returnValue = format.GetRepeatCount();
if (MatchEraName(ref str, dtfi, ref result.era))
{
goto Label_0A5A;
}
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
case 'h':
parseInfo.fUseHour12 = true;
returnValue = format.GetRepeatCount();
if (ParseDigits(ref str, (returnValue < 2) ? 1 : 2, out num6))
{
if (!CheckNewValue(ref result.Hour, num6, failureMessageFormatArgument, ref result))
{
return false;
}
goto Label_0A5A;
}
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
case 's':
returnValue = format.GetRepeatCount();
if (ParseDigits(ref str, (returnValue < 2) ? 1 : 2, out num8))
{
if (!CheckNewValue(ref result.Second, num8, failureMessageFormatArgument, ref result))
{
return false;
}
goto Label_0A5A;
}
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
case 't':
if (format.GetRepeatCount() != 1)
{
if (!MatchTimeMark(ref str, dtfi, ref aM))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
goto Label_04DE;
}
if (MatchAbbreviatedTimeMark(ref str, dtfi, ref aM))
{
goto Label_04DE;
}
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
case 'm':
returnValue = format.GetRepeatCount();
if (!ParseDigits(ref str, (returnValue < 2) ? 1 : 2, out num7))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
if (CheckNewValue(ref result.Minute, num7, failureMessageFormatArgument, ref result))
{
goto Label_0A5A;
}
return false;
case 'y':
returnValue = format.GetRepeatCount();
if (!dtfi.HasForceTwoDigitYears)
{
if (returnValue <= 2)
{
parseInfo.fUseTwoDigitYear = true;
}
flag = ParseDigits(ref str, returnValue, out num2);
break;
}
flag = ParseDigits(ref str, 1, 4, out num2);
break;
case 'z':
{
returnValue = format.GetRepeatCount();
TimeSpan span = new TimeSpan(0L);
if (ParseTimeZoneOffset(ref str, returnValue, ref span))
{
if (((result.flags & ParseFlags.TimeZoneUsed) != 0) && (span != result.timeZoneOffset))
{
result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", 'z');
return false;
}
result.timeZoneOffset = span;
result.flags |= ParseFlags.TimeZoneUsed;
goto Label_0A5A;
}
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
default:
if (failureMessageFormatArgument == ' ')
{
if (!parseInfo.fAllowInnerWhite && !str.Match(failureMessageFormatArgument))
{
if ((parseInfo.fAllowTrailingWhite && format.GetNext()) && 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(failureMessageFormatArgument))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
goto Label_0A5A;
}
if (!flag && parseInfo.fCustomNumberParser)
{
flag = parseInfo.parseNumberDelegate(ref str, returnValue, out num2);
}
if (!flag)
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
if (CheckNewValue(ref result.Year, num2, failureMessageFormatArgument, ref result))
{
goto Label_0A5A;
}
return false;
Label_0223:
if (CheckNewValue(ref result.Month, num3, failureMessageFormatArgument, ref result))
{
goto Label_0A5A;
}
return false;
Label_04DE:
if (parseInfo.timeMark == TM.NotSet)
{
parseInfo.timeMark = aM;
}
else if (parseInfo.timeMark != aM)
{
result.SetFailure(ParseFailureKind.FormatWithParameter, "Format_RepeatDateTimePattern", failureMessageFormatArgument);
return false;
}
Label_0A5A:
return true;
}
private static bool ParseISO8601(ref DateTimeRawInfo raw, ref __DTString str, DateTimeStyles styles, ref DateTimeResult result)
{
int num;
int num2;
DateTime time;
if ((raw.year >= 0) && (raw.GetNumber(0) >= 0))
{
raw.GetNumber(1);
}
str.Index--;
int num3 = 0;
double num4 = 0.0;
str.SkipWhiteSpaces();
if (!ParseDigits(ref str, 2, out num))
{
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 num2))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
str.SkipWhiteSpaces();
if (str.Match(':'))
{
str.SkipWhiteSpaces();
if (!ParseDigits(ref str, 2, out num3))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
if (str.Match('.'))
{
if (!ParseFraction(ref str, out num4))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
str.Index--;
}
str.SkipWhiteSpaces();
}
if (str.GetNext())
{
switch (str.GetChar())
{
case '+':
case '-':
result.flags |= ParseFlags.TimeZoneUsed;
if (!ParseTimeZone(ref str, ref result.timeZoneOffset))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
break;
case 'Z':
case 'z':
result.flags |= ParseFlags.TimeZoneUsed;
result.timeZoneOffset = TimeSpan.Zero;
result.flags |= ParseFlags.TimeZoneUtc;
break;
default:
str.Index--;
break;
}
str.SkipWhiteSpaces();
if (str.Match('#'))
{
if (!VerifyValidPunctuation(ref str))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
str.SkipWhiteSpaces();
}
if (str.Match('\0') && !VerifyValidPunctuation(ref str))
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
if (str.GetNext())
{
result.SetFailure(ParseFailureKind.Format, "Format_BadDateTime", null);
return false;
}
}
if (!GregorianCalendar.GetDefaultInstance().TryToDateTime(raw.year, raw.GetNumber(0), raw.GetNumber(1), num, num2, num3, 0, result.era, out time))
{
result.SetFailure(ParseFailureKind.FormatBadDateTimeCalendar, "Format_BadDateTimeCalendar", null);
return false;
}
time = time.AddTicks((long) Math.Round((double) (num4 * 10000000.0)));
result.parsedDate = time;
if (!DetermineTimeZoneAdjustments(ref result, styles, false))
{
return false;
}
return true;
}
/*=================================ParseTimeZone==========================
**Action: Parse the timezone offset in the following format:
** "+8", "+08", "+0800", "+0800"
** This method is used by DateTime.Parse().
**Returns: The TimeZone offset.
**Arguments:
** str the parsing string
**Exceptions:
** FormatException if invalid timezone format is found.
============================================================================*/
private static TimeSpan ParseTimeZone(__DTString str, char offsetChar) {
// The hour/minute offset for timezone.
int hourOffset = 0;
int minuteOffset = 0;
if (str.GetNextDigit()) {
// Get the first digit, Try if we can parse timezone in the form of "+8".
hourOffset = str.GetDigit();
if (str.GetNextDigit()) {
// Parsing "+18"
hourOffset *= 10;
hourOffset += str.GetDigit();
if (str.GetNext()) {
char ch;
if (Char.IsDigit(ch = str.GetChar())) {
// Parsing "+1800"
// Put the char back, since we already get the char in the previous GetNext() call.
str.Index--;
if (ParseDigits(str, 2, true, out minuteOffset)) {
// ParseDigits() does not advance the char for us, so do it here.
str.Index++;
} else {
throw new FormatException(Environment.GetResourceString("Format_BadDateTime"));
}
} else if (ch == ':') {
// Parsing "+18:00"
if (ParseDigits(str, 2, true, out minuteOffset)) {
str.Index++;
} else {
throw new FormatException(Environment.GetResourceString("Format_BadDateTime"));
}
} else {
// Not a digit, not a colon, put this char back.
str.Index--;
}
}
}
// The next char is not a digit, so we get the timezone in the form of "+8".
} else {
// Invalid timezone: No numbers after +/-.
throw new FormatException(Environment.GetResourceString("Format_BadDateTime"));
}
TimeSpan timezoneOffset = new TimeSpan(hourOffset, minuteOffset, 0);
if (offsetChar == '-') {
timezoneOffset = timezoneOffset.Negate();
}
return (timezoneOffset);
}
//
// This is the lexer. Check the character at the current index, and put the found token in dtok and
// some raw date/time information in raw.
//
private static void Lex(
int dps, __DTString str, DateTimeToken dtok, DateTimeRawInfo raw, DateTimeResult result, ref DateTimeFormatInfo dtfi) {
int sep;
dtok.dtt = DTT_Unk; // Assume the token is unkown.
//
// Skip any white spaces.
//
if (!str.SkipWhiteSpaceComma()) {
//
// SkipWhiteSpaceComma() will return true when end of string is reached.
//
dtok.dtt = DTT_End;
return;
}
char ch = str.GetChar();
if (Char.IsLetter(ch))
{
//
// This is a letter.
//
int month, dayOfWeek, era, timeMark;
//
// Check if this is a beginning of a month name.
// And check if this is a day of week name.
//
if (raw.month == -1 && (month = GetMonthNumber(str, dtfi)) >= 1)
{
//
// This is a month name
//
switch(sep=GetSeparator(str, raw, dtfi))
{
case SEP_End:
dtok.dtt = DTT_MonthEnd;
break;
case SEP_Space:
dtok.dtt = DTT_MonthSpace;
break;
case SEP_Date:
dtok.dtt = DTT_MonthDatesep;
break;
default:
//Invalid separator after month name
throw new FormatException(Environment.GetResourceString("Format_BadDateTime"));
}
raw.month = month;
}
else if (raw.dayOfWeek == -1 && (dayOfWeek = GetDayOfWeekNumber(str, dtfi)) >= 0)
{
//
// This is a day of week name.
//
raw.dayOfWeek = dayOfWeek;
dtok.dtt = DTT_DayOfWeek;
//
// Discard the separator.
//
GetSeparator(str, raw, dtfi);
}
else if (GetTimeZoneName(str))
{
//
// This is a timezone designator
//
// NOTENOTE : for now, we only support "GMT" and "Z" (for Zulu time).
//
dtok.dtt = DTT_TimeZone;
result.timeZoneUsed = true;
result.timeZoneOffset = new TimeSpan(0);
} else if ((raw.era == -1) && ((era = GetEra(str, result, ref dtfi)) != -1)) {
raw.era = era;
dtok.dtt = DTT_Era;
} else if (raw.timeMark == -1 && (timeMark = GetTimeMark(str, dtfi)) != -1) {
raw.timeMark = timeMark;
GetSeparator(str, raw, dtfi);
} else {
//
// Not a month name, not a day of week name. Check if this is one of the
// known date words. This is used to deal case like Spanish cultures, which
// uses 'de' in their Date string.
//
//
if (!str.MatchWords(dtfi.DateWords)) {
throw new FormatException(
String.Format(Environment.GetResourceString("Format_UnknowDateTimeWord"), str.Index));
}
GetSeparator(str, raw, dtfi);
}
} else if (Char.IsDigit(ch)) {
if (raw.numCount == 3) {
throw new FormatException(Environment.GetResourceString("Format_BadDateTime"));
}
//
// This is a digit.
//
int number = ch - '0';
int digitCount = 1;
//
// Collect other digits.
//
while (str.GetNextDigit())
{
number = number * 10 + str.GetDigit();
digitCount++;
}
// 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 12:01:02).
//
// 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 || dps == DS_T_Nt) {
char nextCh;
if ((str.Index < str.len - 1)) {
nextCh = str.Value[str.Index];
switch (nextCh) {
case '.':
if (dps == DS_T_NNt) {
// Yes, advance to the next character.
str.Index++;
// Collect the second fraction.
raw.fraction = ParseFraction(str);
}
break;
case '+':
case '-':
if (result.timeZoneUsed) {
// Should not have two timezone offsets.
throw new FormatException(Environment.GetResourceString("Format_BadDateTime"));
}
result.timeZoneUsed = true;
result.timeZoneOffset = ParseTimeZone(str, nextCh);
break;
}
}
}
if (number >= 0)
{
dtok.num = number;
if (digitCount >= 3)
{
if (raw.year == -1)
{
raw.year = number;
//
// 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 = GetSeparator(str, raw, dtfi))
{
case SEP_End:
dtok.dtt = DTT_YearEnd;
break;
case SEP_Am:
case SEP_Pm:
case SEP_Space:
dtok.dtt = DTT_YearSpace;
break;
case SEP_Date:
dtok.dtt = DTT_YearDateSep;
break;
case SEP_YearSuff:
case SEP_MonthSuff:
case SEP_DaySuff:
dtok.dtt = DTT_NumDatesuff;
dtok.suffix = sep;
break;
case SEP_HourSuff:
case SEP_MinuteSuff:
case SEP_SecondSuff:
dtok.dtt = DTT_NumTimesuff;
dtok.suffix = sep;
break;
default:
// Invalid separator after number number.
throw new FormatException(Environment.GetResourceString("Format_BadDateTime"));
}
//
// Found the token already. Let's bail.
//
return;
}
throw new FormatException(Environment.GetResourceString("Format_BadDateTime"));
}
} else
{
//
// number is overflowed.
//
throw new FormatException(Environment.GetResourceString("Format_BadDateTime"));
}
switch (sep = GetSeparator(str, raw, dtfi))
{
//
// 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 SEP_End:
dtok.dtt = DTT_NumEnd;
raw.num[raw.numCount++] = dtok.num;
break;
case SEP_Am:
case SEP_Pm:
dtok.dtt = DTT_NumAmpm;
raw.num[raw.numCount++] = dtok.num;
break;
case SEP_Space:
dtok.dtt = DTT_NumSpace;
raw.num[raw.numCount++] = dtok.num;
break;
case SEP_Date:
dtok.dtt = DTT_NumDatesep;
raw.num[raw.numCount++] = dtok.num;
break;
case SEP_Time:
if (!result.timeZoneUsed) {
dtok.dtt = DTT_NumTimesep;
raw.num[raw.numCount++] = dtok.num;
} else {
// If we already got timezone, there should be no
// time separator again.
throw new FormatException(Environment.GetResourceString("Format_BadDateTime"));
}
break;
case SEP_YearSuff:
dtok.num = dtfi.Calendar.ToFourDigitYear(number);
dtok.dtt = DTT_NumDatesuff;
dtok.suffix = sep;
break;
case SEP_MonthSuff:
case SEP_DaySuff:
dtok.dtt = DTT_NumDatesuff;
dtok.suffix = sep;
break;
case SEP_HourSuff:
case SEP_MinuteSuff:
case SEP_SecondSuff:
dtok.dtt = DTT_NumTimesuff;
dtok.suffix = sep;
break;
case SEP_LocalTimeMark:
dtok.dtt = DTT_NumLocalTimeMark;
raw.num[raw.numCount++] = dtok.num;
break;
default:
// Invalid separator after number number.
throw new FormatException(Environment.GetResourceString("Format_BadDateTime"));
}
}
else
{
//
// Not a letter, not a digit. Just ignore it.
//
str.Index++;
}
return;
}
//
// Starting at str.Index, check the type of the separator.
//
private static int GetSeparator(__DTString str, DateTimeRawInfo raw, DateTimeFormatInfo dtfi) {
int separator = SEP_Space; // Assume the separator is a space. And try to find a better one.
//
// Check if we found any white spaces.
//
if (!str.SkipWhiteSpaceComma()) {
//
// SkipWhiteSpaceComma() will return true when end of string is reached.
//
//
// Return the separator as SEP_End.
//
return (SEP_End);
}
if (Char.IsLetter(str.GetChar())) {
//
// This is a beginning of a word.
//
if (raw.timeMark == -1)
{
//
// Check if this is an AM time mark.
//
int timeMark;
if ((timeMark = GetTimeMark(str, dtfi)) != -1)
{
raw.timeMark = timeMark;;
return (timeMark == TM_AM ? SEP_Am: SEP_Pm);
}
}
if (MatchWord(str, LocalTimeMark, false)) {
separator = SEP_LocalTimeMark;
} else if (MatchWord(str, CJKYearSuff, false) || MatchWord(str, KoreanYearSuff, false)) {
separator = SEP_YearSuff;
}
else if (MatchWord(str, CJKMonthSuff, false) || MatchWord(str, KoreanMonthSuff, false))
{
separator = SEP_MonthSuff;
}
else if (MatchWord(str, CJKDaySuff, false) || MatchWord(str, KoreanDaySuff, false))
{
separator = SEP_DaySuff;
}
else if (MatchWord(str, CJKHourSuff, false) || MatchWord(str, ChineseHourSuff, false))
{
separator = SEP_HourSuff;
}
else if (MatchWord(str, CJKMinuteSuff, false))
{
separator = SEP_MinuteSuff;
}
else if (MatchWord(str, CJKSecondSuff, false))
{
separator = SEP_SecondSuff;
}
} else {
//
// Not a letter. Check if this is a date separator.
//
if ((MatchWord(str, dtfi.DateSeparator, false)) ||
(MatchWord(str, invariantInfo.DateSeparator, false)) ||
(MatchWord(str, alternativeDateSeparator, false)))
{
//
// NOTENOTE : alternativeDateSeparator is a special case because some cultures
// (e.g. the invariant culture) use "/". However, in RFC format, we use "-" as the
// date separator. Therefore, we should check for it.
//
separator = SEP_Date;
}
//
// Check if this is a time separator.
//
else if ((MatchWord(str, dtfi.TimeSeparator, false)) ||
(MatchWord(str, invariantInfo.TimeSeparator, false)))
{
separator = SEP_Time;
} else if (dtfi.CultureID == 0x041c) {
// Special case for sq-AL (0x041c)
// Its time pattern is "h:mm:ss.tt"
if (str.GetChar() == '.') {
if (raw.timeMark == -1)
{
//
// Check if this is an AM time mark.
//
int timeMark;
str.Index++;
if ((timeMark = GetTimeMark(str, dtfi)) != -1)
{
raw.timeMark = timeMark;;
return (timeMark == TM_AM ? SEP_Am: SEP_Pm);
}
str.Index--;
}
}
}
}
return (separator);
}
// Given a specified format character, parse and update the parsing result.
//
private static bool ParseByFormat(
__DTString str,
__DTString format,
ParsingInfo parseInfo,
DateTimeFormatInfo dtfi,
bool isThrowExp,
DateTimeResult result) {
int tokenLen = 0;
int tempYear = 0, tempMonth = 0, tempDay = 0, tempDayOfWeek = 0, tempHour = 0, tempMinute = 0, tempSecond = 0;
double tempFraction = 0;
int tempTimeMark = 0;
char ch = format.GetChar();
switch (ch) {
case 'y':
tokenLen = format.GetRepeatCount();
if (tokenLen <= 2) {
parseInfo.fUseTwoDigitYear = true;
}
if (!ParseDigits(str, tokenLen, isThrowExp, out tempYear)) {
return (false);
}
if (!CheckNewValue(ref result.Year, tempYear, ch, isThrowExp)) {
return (false);
}
break;
case 'M':
tokenLen = format.GetRepeatCount();
if (tokenLen <= 2) {
if (!ParseDigits(str, tokenLen, isThrowExp, out tempMonth)) {
return (false);
}
} else {
if (tokenLen == 3) {
if (!MatchAbbreviatedMonthName(str, dtfi, isThrowExp, ref tempMonth)) {
return (false);
}
} else {
if (!MatchMonthName(str, dtfi, isThrowExp, ref tempMonth)) {
return (false);
}
}
}
if (!CheckNewValue(ref result.Month, tempMonth, ch, isThrowExp)) {
return (false);
}
break;
case 'd':
// Day & Day of week
tokenLen = format.GetRepeatCount();
if (tokenLen <= 2) {
// "d" & "dd"
if (!ParseDigits(str, tokenLen, isThrowExp, out tempDay)) {
return (false);
}
if (!CheckNewValue(ref result.Day, tempDay, ch, isThrowExp)) {
return (false);
}
} else {
if (tokenLen == 3) {
// "ddd"
if (!MatchAbbreviatedDayName(str, dtfi, isThrowExp, ref tempDayOfWeek)) {
return (false);
}
} else {
// "dddd*"
if (!MatchDayName(str, dtfi, isThrowExp, ref tempDayOfWeek)) {
return (false);
}
}
if (!CheckNewValue(ref parseInfo.dayOfWeek, tempDayOfWeek, ch, isThrowExp)) {
return (false);
}
}
break;
case 'g':
tokenLen = format.GetRepeatCount();
// Put the era value in result.era.
if (!MatchEraName(str, dtfi, isThrowExp, ref result.era)) {
return (false);
}
break;
case 'h':
parseInfo.fUseHour12 = true;
tokenLen = format.GetRepeatCount();
if (!ParseDigits(str, (tokenLen < 2? 1 : 2), isThrowExp, out tempHour)) {
return (false);
}
if (!CheckNewValue(ref result.Hour, tempHour, ch, isThrowExp)) {
return (false);
}
break;
case 'H':
tokenLen = format.GetRepeatCount();
if (!ParseDigits(str, (tokenLen < 2? 1 : 2), isThrowExp, out tempHour)) {
return (false);
}
if (!CheckNewValue(ref result.Hour, tempHour, ch, isThrowExp)) {
return (false);
}
break;
case 'm':
tokenLen = format.GetRepeatCount();
if (!ParseDigits(str, (tokenLen < 2? 1 : 2), isThrowExp, out tempMinute)) {
return (false);
}
if (!CheckNewValue(ref result.Minute, tempMinute, ch, isThrowExp)) {
return (false);
}
break;
case 's':
tokenLen = format.GetRepeatCount();
if (!ParseDigits(str, (tokenLen < 2? 1 : 2), isThrowExp, out tempSecond)) {
return (false);
}
if (!CheckNewValue(ref result.Second, tempSecond, ch, isThrowExp)) {
return (false);
}
break;
case 'f':
tokenLen = format.GetRepeatCount();
if (tokenLen <= DateTimeFormat.MaxSecondsFractionDigits) {
if (!ParseFractionExact(str, tokenLen, isThrowExp, ref tempFraction)) {
return (false);
}
if (result.fraction < 0) {
result.fraction = tempFraction;
} else {
if (tempFraction != result.fraction) {
if (isThrowExp) {
throw new ArgumentException(
String.Format(Environment.GetResourceString("Format_RepeatDateTimePattern"), ch), "str");
} else {
return (false);
}
}
}
} else {
return ParseFormatError(isThrowExp, "Format_BadDateTime");
}
break;
case 't':
// AM/PM designator
tokenLen = format.GetRepeatCount();
if (tokenLen == 1) {
if (!MatchAbbreviatedTimeMark(str, dtfi, isThrowExp, ref tempTimeMark)) {
return (false);
}
} else {
if (!MatchTimeMark(str, dtfi, isThrowExp, ref tempTimeMark)) {
return (false);
}
}
if (!CheckNewValue(ref parseInfo.timeMark, tempTimeMark, ch, isThrowExp)) {
return (false);
}
break;
case 'z':
// timezone offset
if (parseInfo.fUseTimeZone) {
throw new ArgumentException(Environment.GetResourceString("Argument_TwoTimeZoneSpecifiers"), "str");
}
parseInfo.fUseTimeZone = true;
tokenLen = format.GetRepeatCount();
if (!ParseTimeZoneOffset(str, tokenLen, isThrowExp, ref parseInfo.timeZoneOffset)) {
return (false);
}
break;
case 'Z':
if (parseInfo.fUseTimeZone) {
throw new ArgumentException(Environment.GetResourceString("Argument_TwoTimeZoneSpecifiers"), "str");
}
parseInfo.fUseTimeZone = true;
parseInfo.timeZoneOffset = new TimeSpan(0);
str.Index++;
if (!GetTimeZoneName(str)) {
BCLDebug.Trace("NLS", "DateTimeParse.DoStrictParse(): 'Z' or 'GMT' are expected");
return (ParseFormatError(isThrowExp, "Format_BadDateTime"));
}
break;
case ':':
if (!str.Match(dtfi.TimeSeparator)) {
// A time separator is expected.
BCLDebug.Trace("NLS", "DateTimeParse.DoStrictParse(): ':' is expected");
return (ParseFormatError(isThrowExp, "Format_BadDateTime"));
}
break;
case '/':
if (!str.Match(dtfi.DateSeparator)) {
// A date separator is expected.
BCLDebug.Trace("NLS", "DateTimeParse.DoStrictParse(): date separator is expected");
return (ParseFormatError(isThrowExp, "Format_BadDateTime"));
}
break;
case '\"':
case '\'':
StringBuilder enquotedString = new StringBuilder();
try {
// Use ParseQuoteString so that we can handle escape characters within the quoted string.
tokenLen = DateTimeFormat.ParseQuoteString(format.Value, format.Index, enquotedString);
} catch (Exception) {
if (isThrowExp) {
throw new FormatException(String.Format(Environment.GetResourceString("Format_BadQuote"), ch));
} else {
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.
BCLDebug.Trace("NLS", "DateTimeParse.DoStrictParse():Quote string doesn't match");
return (ParseFormatError(isThrowExp, "Format_BadDateTime"));
}
}
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] == '%') {
BCLDebug.Trace("NLS", "DateTimeParse.DoStrictParse():%% is not permitted");
return (ParseFormatError(isThrowExp, "Format_BadFormatSpecifier"));
}
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.
BCLDebug.Trace("NLS", "DateTimeParse.DoStrictParse(): Can not find a match for the escaped character");
return (ParseFormatError(isThrowExp, "Format_BadDateTime"));
}
} else {
BCLDebug.Trace("NLS", "DateTimeParse.DoStrictParse(): \\ is at the end of the format string");
return (ParseFormatError(isThrowExp, "Format_BadFormatSpecifier"));
}
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(str, format, parseInfo, dtfi, isThrowExp, result)) {
return (true);
}
}
}
return (ParseFormatError(isThrowExp, "Format_BadDateTime"));
}
// 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.
parseInfo.fUseTimeZone = true;
if (!str.Match(GMTName)) {
BCLDebug.Trace("NLS", "DateTimeParse.DoStrictParse(): GMT in format, but not in str");
return (ParseFormatError(isThrowExp, "Format_BadDateTime"));
}
} else if (!str.Match(ch)) {
// ch is expected.
BCLDebug.Trace ("NLS", "DateTimeParse.DoStrictParse(): '", ch, "' is expected");
return (ParseFormatError(isThrowExp, "Format_BadDateTime"));
}
}
break;
} // switch
return (true);
}
/*=================================MatchAbbreviatedTimeMark==================================
**Action: Parse the abbreviated time mark (AM/PM) from string starting at str.Index.
**Returns: TM_AM or TM_PM.
**Arguments: str: a __DTString. The parsing will start from the
** next character after str.Index.
**Exceptions: FormatException if a abbreviated time mark can not be found.
==============================================================================*/
private static bool MatchAbbreviatedTimeMark(__DTString str, DateTimeFormatInfo dtfi, bool isThrowExp, ref int result) {
// NOTENOTE : the assumption here is that abbreviated time mark is the first
// character of the AM/PM designator. If this invariant changes, we have to
// change the code below.
if (str.GetNext())
{
if (str.GetChar() == dtfi.AMDesignator[0]) {
result = TM_AM;
return (true);
}
if (str.GetChar() == dtfi.PMDesignator[0]) {
result = TM_PM;
return (true);
}
}
return (ParseFormatError(isThrowExp, "Format_BadDateTime"));
}
internal static bool MatchHebrewDigits(ref __DTString str, int digitLen, out int number)
{
number = 0;
HebrewNumberParsingContext hebrewNumberParsingContext = new HebrewNumberParsingContext(0);
HebrewNumberParsingState hebrewNumberParsingState = HebrewNumberParsingState.ContinueParsing;
while (hebrewNumberParsingState == HebrewNumberParsingState.ContinueParsing && str.GetNext())
{
hebrewNumberParsingState = HebrewNumber.ParseByChar(str.GetChar(), ref hebrewNumberParsingContext);
}
if (hebrewNumberParsingState == HebrewNumberParsingState.FoundEndOfHebrewNumber)
{
number = hebrewNumberParsingContext.result;
return true;
}
return false;
}
private static bool ParseSign(ref __DTString str, ref bool result)
{
if (str.GetNext())
{
switch (str.GetChar())
{
case '+':
result = true;
return true;
case '-':
result = false;
return true;
}
}
return false;
}
private static bool ParseSign(ref __DTString str, ref bool result)
{
if (!str.GetNext())
{
return false;
}
char @char = str.GetChar();
if (@char == '+')
{
result = true;
return true;
}
if (@char == '-')
{
result = false;
return true;
}
return false;
}
//
// 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 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;
}
//
// Parse the ISO8601 format string found during Parse();
//
//
private static DateTime ParseISO8601(DateTimeRawInfo raw, __DTString str, DateTimeStyles styles) {
if (raw.year < 0 || raw.num[0] < 0 || raw.num[1] < 0) {
}
str.Index--;
int hour, minute, second;
bool timeZoneUsed = false;
TimeSpan timeZoneOffset = new TimeSpan();
DateTime time = new DateTime(0);
double partSecond = 0;
str.SkipWhiteSpaces();
ParseDigits(str, 2, true, out hour);
str.SkipWhiteSpaces();
if (str.Match(':')) {
str.SkipWhiteSpaces();
ParseDigits(str, 2, true, out minute);
str.SkipWhiteSpaces();
if (str.Match(':')) {
str.SkipWhiteSpaces();
ParseDigits(str, 2, true, out second);
str.SkipWhiteSpaces();
if (str.GetNext()) {
char ch = str.GetChar();
if (ch == '+' || ch == '-') {
timeZoneUsed = true;
timeZoneOffset = ParseTimeZone(str, str.GetChar());
} else if (ch == '.') {
str.Index++; //ParseFraction requires us to advance to the next character.
partSecond = ParseFraction(str);
} else if (ch == 'Z' || ch == 'z') {
timeZoneUsed = true;
} else {
throw new FormatException(Environment.GetResourceString("Format_BadDateTime"));
}
}
time =new DateTime(raw.year, raw.num[0], raw.num[1], hour, minute, second);
time = time.AddTicks((long)Math.Round(partSecond * Calendar.TicksPerSecond));
if (timeZoneUsed) {
time = AdjustTimeZone(time, timeZoneOffset, styles, false);
}
return time;
}
}
throw new FormatException(Environment.GetResourceString("Format_BadDateTime"));
}
