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if ( sign > 0 ) {
getTimeZone(sign);
}
}
//
// [-]{CCYY-MM}
//
// Note: CCYY could be more than 4 digits
// fStart updated to point AFTER the second 'M' (probably meet the fEnd)
//
void XMLDateTime::getYearMonth()
{
// Ensure enough chars in buffer
if ( (fStart+YMONTH_MIN_SIZE) > fEnd)
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_ym_incomplete
, fBuffer);
//"Imcomplete YearMonth Format";
// skip the first leading '-'
int start = ( fBuffer[0] == chDash ) ? fStart + 1 : fStart;
//
// search for year separator '-'
//
int yearSeparator = indexOf(start, fEnd, DATE_SEPARATOR);
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ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_ym_invalid
, fBuffer);
//("Year separator is missing or misplaced");
fValue[CentYear] = parseIntYear(yearSeparator);
fStart = yearSeparator + 1; //skip the '-' and point to the first M
//
//gonna check we have enough byte for month
//
if ((fStart + 2) > fEnd )
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_ym_noMonth
, fBuffer);
//"no month in buffer"
fValue[Month] = parseInt(fStart, yearSeparator + 3);
fStart += 2; //fStart points right after the MONTH
return;
}
void XMLDateTime::parseTimeZone()
{
{
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_tz_noUTCsign
, fBuffer);
//("Error in month parsing");
}
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{
getTimeZone(sign);
}
}
return;
}
//
// 'Z'
// ['+'|'-']hh:mm
//
// Note: Assuming fStart points to the beginning of TimeZone section
// fStart updated to meet fEnd
//
void XMLDateTime::getTimeZone(const int sign)
{
if ( fBuffer[sign] == UTC_STD_CHAR )
{
if ((sign + 1) != fEnd )
{
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_tz_stuffAfterZ
, fBuffer);
//"Error in parsing time zone");
}
return;
}
//
// otherwise, it has to be this format
// '[+|-]'hh:mm
// 1 23456 7
// sign fEnd
//
if ( ( ( sign + TIMEZONE_SIZE + 1) != fEnd ) ||
( fBuffer[sign + 3] != TIMEZONE_SEPARATOR ) )
{
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_tz_invalid
, fBuffer);
//("Error in parsing time zone");
}
fTimeZone[hh] = parseInt(sign+1, sign+3);
fTimeZone[mm] = parseInt(sign+4, fEnd);
return;
}
// ---------------------------------------------------------------------------
// Validator and normalizer
// ---------------------------------------------------------------------------
/**
* If timezone present - normalize dateTime [E Adding durations to dateTimes]
* @param date CCYY-MM-DDThh:mm:ss+03
* @return CCYY-MM-DDThh:mm:ssZ
*/
void XMLDateTime::normalize()
if ((fValue[utc] == UTC_UNKNOWN) ||
(fValue[utc] == UTC_STD) )
return;
int negate = (fValue[utc] == UTC_POS)? -1: 1;
// add mins
int temp = fValue[Minute] + negate * fTimeZone[mm];
int carry = fQuotient(temp, 60);
fValue[Minute] = mod(temp, 60, carry);
//add hours
temp = fValue[Hour] + negate * fTimeZone[hh] + carry;
carry = fQuotient(temp, 24);
fValue[Hour] = mod(temp, 24, carry);
fValue[Day] += carry;
while (1)
{
temp = maxDayInMonthFor(fValue[CentYear], fValue[Month]);
{
fValue[Day] += maxDayInMonthFor(fValue[CentYear], fValue[Month] - 1);
carry = -1;
}
{
break;
}
temp = fValue[Month] + carry;
fValue[Month] = modulo(temp, 1, 13);
fValue[CentYear] += fQuotient(temp, 1, 13);
}
// set to normalized
fValue[utc] = UTC_STD;
return;
}
void XMLDateTime::validateDateTime() const
{
//REVISIT: should we throw an exception for not valid dates
// or reporting an error message should be sufficient?
if ( fValue[CentYear] == 0 )
{
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_year_zero
, fBuffer);
//"The year \"0000\" is an illegal year value");
}
{
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_mth_invalid
, fBuffer);
//"The month must have values 1 to 12");
}
//validate days
if ( fValue[Day] > maxDayInMonthFor( fValue[CentYear], fValue[Month]) ||
{
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_day_invalid
, fBuffer);
//"The day must have values 1 to 31");
}
//validate hours
if ((fValue[Hour] < 0) ||
(fValue[Hour] > 23) ||
((fValue[Hour] == 24) && ((fValue[Minute] !=0) ||
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{
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_hour_invalid
, fBuffer);
//("Hour must have values 0-23");
}
//validate minutes
if ( fValue[Minute] < 0 ||
fValue[Minute] > 59 )
{
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_min_invalid
, fBuffer);
//"Minute must have values 0-59");
}
//validate seconds
if ( fValue[Second] < 0 ||
fValue[Second] > 60 )
{
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_second_invalid
, fBuffer);
//"Second must have values 0-60");
}
//validate time-zone hours
if ( (abs(fTimeZone[hh]) > 14) ||
((abs(fTimeZone[hh]) == 14) && (fTimeZone[mm] != 0)) )
{
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_tz_hh_invalid
, fBuffer);
//"Time zone should have range -14..+14");
}
//validate time-zone minutes
if ( abs(fTimeZone[mm]) > 59 )
{
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_min_invalid
, fBuffer);
//("Minute must have values 0-59");
}
return;
}
// -----------------------------------------------------------------------
// locator and converter
// -----------------------------------------------------------------------
int XMLDateTime::indexOf(const int start, const int end, const XMLCh ch) const
{
for ( int i = start; i < end; i++ )
if ( fBuffer[i] == ch )
return i;
return NOT_FOUND;
}
int XMLDateTime::findUTCSign (const int start)
{
int pos;
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{
pos = XMLString::indexOf(UTC_SET, fBuffer[index]);
if ( pos != NOT_FOUND)
{
fValue[utc] = pos+1; // refer to utcType, there is 1 diff
return index;
}
}
return NOT_FOUND;
}
//
// Note:
// start: starting point in fBuffer
// end: ending point in fBuffer (exclusive)
// fStart NOT updated
//
int XMLDateTime::parseInt(const int start, const int end) const
{
XMLCh* strToScan = new XMLCh[end - start + 1];
ArrayJanitor<XMLCh> jname(strToScan);
XMLString::subString(strToScan, fBuffer, start, end);
unsigned int retVal;
XMLString::textToBin(strToScan, retVal);
return (int) retVal;
}
//
// [-]CCYY
// Note: start from fStart
// end (exclusive)
// fStart NOT updated
//
int XMLDateTime::parseIntYear(const int end) const
{
// skip the first leading '-'
int start = ( fBuffer[0] == chDash ) ? fStart + 1 : fStart;
int length = end - start;
{
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_year_tooShort
, fBuffer);
//"Year must have 'CCYY' format");
}
fBuffer[start] == chDigit_0)
{
ThrowXML1(SchemaDateTimeException
, XMLExcepts::DateTime_year_leadingZero
, fBuffer);
//"Leading zeros are required if the year value would otherwise have fewer than four digits;
// otherwise they are forbidden");
}
bool negative = (fBuffer[0] == chDash);
int yearVal = parseInt((negative ? 1 : 0), end);
return ( negative ? (-1) * yearVal : yearVal );
}