XSDWildcardTraverserpublic class XSDWildcardTraverser extends XSDAbstractTraverser | The wildcard schema component traverser.
<any
id = ID
maxOccurs = (nonNegativeInteger | unbounded) : 1
minOccurs = nonNegativeInteger : 1
namespace = ((##any | ##other) | List of (anyURI | (##targetNamespace | ##local)) ) : ##any
processContents = (lax | skip | strict) : strict
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</any>
<anyAttribute
id = ID
namespace = ((##any | ##other) | List of (anyURI | (##targetNamespace | ##local)) ) : ##any
processContents = (lax | skip | strict) : strict
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</anyAttribute> |
| Methods Summary |
|---|
| org.apache.xerces.impl.xs.XSParticleDecl | traverseAny(org.w3c.dom.Element elmNode, XSDocumentInfo schemaDoc, org.apache.xerces.impl.xs.SchemaGrammar grammar)Traverse <any>
// General Attribute Checking for elmNode
Object[] attrValues = fAttrChecker.checkAttributes(elmNode, false, schemaDoc);
XSWildcardDecl wildcard = traverseWildcardDecl(elmNode, attrValues, schemaDoc, grammar);
// for <any>, need to create a new particle to reflect the min/max values
XSParticleDecl particle = null;
if (wildcard != null) {
int min = ((XInt)attrValues[XSAttributeChecker.ATTIDX_MINOCCURS]).intValue();
int max = ((XInt)attrValues[XSAttributeChecker.ATTIDX_MAXOCCURS]).intValue();
if (max != 0) {
if (fSchemaHandler.fDeclPool !=null) {
particle = fSchemaHandler.fDeclPool.getParticleDecl();
} else {
particle = new XSParticleDecl();
}
particle.fType = XSParticleDecl.PARTICLE_WILDCARD;
particle.fValue = wildcard;
particle.fMinOccurs = min;
particle.fMaxOccurs = max;
particle.fAnnotations = wildcard.fAnnotations;
}
}
fAttrChecker.returnAttrArray(attrValues, schemaDoc);
return particle;
| | org.apache.xerces.impl.xs.XSWildcardDecl | traverseAnyAttribute(org.w3c.dom.Element elmNode, XSDocumentInfo schemaDoc, org.apache.xerces.impl.xs.SchemaGrammar grammar)Traverse <anyAttribute>
// General Attribute Checking for elmNode
Object[] attrValues = fAttrChecker.checkAttributes(elmNode, false, schemaDoc);
XSWildcardDecl wildcard = traverseWildcardDecl(elmNode, attrValues, schemaDoc, grammar);
fAttrChecker.returnAttrArray(attrValues, schemaDoc);
return wildcard;
| | org.apache.xerces.impl.xs.XSWildcardDecl | traverseWildcardDecl(org.w3c.dom.Element elmNode, java.lang.Object[] attrValues, XSDocumentInfo schemaDoc, org.apache.xerces.impl.xs.SchemaGrammar grammar)
//get all attributes
XSWildcardDecl wildcard = new XSWildcardDecl();
// namespace type
XInt namespaceTypeAttr = (XInt) attrValues[XSAttributeChecker.ATTIDX_NAMESPACE];
wildcard.fType = namespaceTypeAttr.shortValue();
// namespace list
wildcard.fNamespaceList = (String[])attrValues[XSAttributeChecker.ATTIDX_NAMESPACE_LIST];
// process contents
XInt processContentsAttr = (XInt) attrValues[XSAttributeChecker.ATTIDX_PROCESSCONTENTS];
wildcard.fProcessContents = processContentsAttr.shortValue();
//check content
Element child = DOMUtil.getFirstChildElement(elmNode);
XSAnnotationImpl annotation = null;
if (child != null)
{
if (DOMUtil.getLocalName(child).equals(SchemaSymbols.ELT_ANNOTATION)) {
annotation = traverseAnnotationDecl(child, attrValues, false, schemaDoc);
child = DOMUtil.getNextSiblingElement(child);
}
else {
String text = DOMUtil.getSyntheticAnnotation(elmNode);
if (text != null) {
annotation = traverseSyntheticAnnotation(elmNode, text, attrValues, false, schemaDoc);
}
}
if (child != null) {
reportSchemaError("s4s-elt-must-match.1", new Object[]{"wildcard", "(annotation?)", DOMUtil.getLocalName(child)}, elmNode);
}
}
else {
String text = DOMUtil.getSyntheticAnnotation(elmNode);
if (text != null) {
annotation = traverseSyntheticAnnotation(elmNode, text, attrValues, false, schemaDoc);
}
}
XSObjectList annotations;
if (annotation != null) {
annotations = new XSObjectListImpl();
((XSObjectListImpl) annotations).add(annotation);
} else {
annotations = XSObjectListImpl.EMPTY_LIST;
}
wildcard.fAnnotations = annotations;
return wildcard;
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