DateTimeDVpublic class DateTimeDV extends AbstractDateTimeDV Validator for <dateTime> datatype (W3C Schema Datatypes) |
Methods Summary |
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public java.lang.Object | getActualValue(java.lang.String content, org.apache.xerces.impl.dv.ValidationContext context)
try{
return parse(content);
} catch(Exception ex){
throw new InvalidDatatypeValueException("cvc-datatype-valid.1.2.1", new Object[]{content, "dateTime"});
}
| protected javax.xml.datatype.XMLGregorianCalendar | getXMLGregorianCalendar(DateTimeData date)
return factory.newXMLGregorianCalendar(BigInteger.valueOf(date.unNormYear), date.unNormMonth, date.unNormDay
, date.unNormHour, date.unNormMinute, (int)date.unNormSecond, date.unNormSecond != 0?new BigDecimal(date.unNormSecond - ((int)date.unNormSecond)):null, date.timezoneHr * 60 + date.timezoneMin);
| protected DateTimeData | parse(java.lang.String str)Parses, validates and computes normalized version of dateTime object
DateTimeData date = new DateTimeData(str, this);
int len = str.length();
int end = indexOf (str, 0, len, 'T");
// both time and date
int dateEnd = getDate(str, 0, end, date);
getTime(str, end+1, len, date);
//Check the separator character between Date and Time
if (dateEnd != end) {
throw new RuntimeException(str
+ " is an invalid dateTime dataype value. "
+ "Invalid character(s) seprating date and time values.");
}
//validate and normalize
//REVISIT: do we need SchemaDateTimeException?
validateDateTime(date);
//save unnormalized values
saveUnnormalized(date);
if (date.utc!=0 && date.utc!='Z") {
normalize(date);
}
return date;
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