public ValidationFailure validate(AtomicValue input, CharSequence lexicalForm) { return newType.validate(input, lexicalForm, getConversionRules()); } }
public ValidationFailure validate(AtomicValue input, CharSequence lexicalForm) { return newType.validate(input, lexicalForm, getConversionRules()); } }
public ConversionResult convert(AtomicValue input, CharSequence lexicalForm) { ValidationFailure f = newType.validate(input, lexicalForm, getConversionRules()); if (f == null) { // success return input.copyAsSubType(newType); } else { // validation failed return f; } }
public ConversionResult convert(AtomicValue input, CharSequence lexicalForm) { ValidationFailure f = newType.validate(input, lexicalForm, getConversionRules()); if (f == null) { // success return input.copyAsSubType(newType); } else { // validation failed return f; } }
public ValidationFailure validate( CharSequence input) { CharSequence cs = Whitespace.applyWhitespaceNormalization(whitespaceAction, input); try { cs = targetType.preprocess(cs); } catch (ValidationException err) { return err.getValidationFailure(); } return targetType.validate(new StringValue(cs), cs, getConversionRules()); } }
public ValidationFailure validate( CharSequence input) { CharSequence cs = Whitespace.applyWhitespaceNormalization(whitespaceAction, input); try { cs = targetType.preprocess(cs); } catch (ValidationException err) { return err.getValidationFailure(); } return targetType.validate(new StringValue(cs), cs, getConversionRules()); } }
public ConversionResult convertString( CharSequence input) { CharSequence cs = Whitespace.applyWhitespaceNormalization(whitespaceAction, input); try { cs = targetType.preprocess(cs); } catch (ValidationException err) { return err.getValidationFailure(); } StringValue sv = new StringValue(cs); ValidationFailure f = targetType.validate(sv, cs, getConversionRules()); if (f == null) { sv.setTypeLabel(targetType); return sv; } else { return f; } }
public ConversionResult convertString( CharSequence input) { CharSequence cs = Whitespace.applyWhitespaceNormalization(whitespaceAction, input); try { cs = targetType.preprocess(cs); } catch (ValidationException err) { return err.getValidationFailure(); } StringValue sv = new StringValue(cs); ValidationFailure f = targetType.validate(sv, cs, getConversionRules()); if (f == null) { sv.setTypeLabel(targetType); return sv; } else { return f; } }
public ConversionResult convertString( CharSequence input) { CharSequence cs = Whitespace.applyWhitespaceNormalization(whitespaceAction, input); ValidationFailure f = builtInValidator.validate(cs); if (f != null) { return f; } try { cs = targetType.preprocess(cs); } catch (ValidationException err) { return err.getValidationFailure(); } StringValue sv = new StringValue(cs); f = targetType.validate(sv, cs, getConversionRules()); if (f == null) { sv.setTypeLabel(targetType); return sv; } else { return f; } } }
public ConversionResult convertString( CharSequence input) { CharSequence cs = Whitespace.applyWhitespaceNormalization(whitespaceAction, input); ValidationFailure f = builtInValidator.validate(cs); if (f != null) { return f; } try { cs = targetType.preprocess(cs); } catch (ValidationException err) { return err.getValidationFailure(); } StringValue sv = new StringValue(cs); f = targetType.validate(sv, cs, getConversionRules()); if (f == null) { sv.setTypeLabel(targetType); return sv; } else { return f; } } }
ValidationFailure vf = targetType.validate((AtomicValue)result, value, checker); if (vf != null) { return vf;
qnv = new NotationValue(prefix, uri, local, null); ValidationFailure vf = targetType.validate(qnv, lexicalForm, rules); if (vf != null) { throw vf.makeException();
qnv = new NotationValue(prefix, uri, local, null); ValidationFailure vf = targetType.validate(qnv, lexicalForm, rules); if (vf != null) { throw vf.makeException();
ValidationFailure vf = targetType.validate((AtomicValue)result, value, checker); if (vf != null) { return vf;
qnv = new NotationValue(prefix, uri, local, (AtomicType)null); ValidationFailure vf = targetType.validate(qnv, lexicalForm, config.getNameChecker()); if (vf != null) { throw vf.makeException();
qnv = new NotationValue(prefix, uri, local, (AtomicType)null); ValidationFailure vf = targetType.validate(qnv, lexicalForm, config.getNameChecker()); if (vf != null) { throw vf.makeException();
} else if (th.isSubType(targetType, BuiltInAtomicType.QNAME)) { QNameValue q = new QNameValue(parts[0], uri, parts[1], targetType, checker); ValidationFailure vf = targetType.validate(q, null, checker); if (vf != null) { throw vf.makeException(); } else { NotationValue n = new NotationValue(parts[0], uri, parts[1], checker); ValidationFailure vf = targetType.validate(n, null, checker); if (vf != null) { throw vf.makeException();
} else if (th.isSubType(targetType, BuiltInAtomicType.QNAME)) { QNameValue q = new QNameValue(parts[0], uri, parts[1], targetType, checker); ValidationFailure vf = targetType.validate(q, null, checker); if (vf != null) { throw vf.makeException(); } else { NotationValue n = new NotationValue(parts[0], uri, parts[1], checker); ValidationFailure vf = targetType.validate(n, null, checker); if (vf != null) { throw vf.makeException();
lexicalValue = getCanonicalLexicalRepresentation(); ValidationFailure vf = targetType.validate((AtomicValue)cr, lexicalValue, (context == null ? Name10Checker.getInstance() : context.getConfiguration().getNameChecker())); if (vf != null) {
lexicalValue = getCanonicalLexicalRepresentation(); ValidationFailure vf = targetType.validate((AtomicValue)cr, lexicalValue, (context == null ? Name10Checker.getInstance() : context.getConfiguration().getNameChecker())); if (vf != null) {