XERCES_CPP_NAMESPACE_BEGIN

// ---------------------------------------------------------------------------
//  XSWildcard: Constructors and Destructor
// ---------------------------------------------------------------------------
XSWildcard::XSWildcard(SchemaAttDef* const  attWildCard,
                       XSAnnotation* const  annot,
                       XSModel* const       xsModel,
                       MemoryManager* const manager)
    : XSObject(XSConstants::WILDCARD, xsModel, manager)
    , fConstraintType(NSCONSTRAINT_ANY)
    , fProcessContents(PC_STRICT)
    , fNsConstraintList(0)
    , fAnnotation(annot)
{
    XMLAttDef::AttTypes attType = attWildCard->getType();
    if (attType == XMLAttDef::Any_Other)
    {
        fConstraintType = NSCONSTRAINT_NOT;
        fNsConstraintList = new (manager) RefArrayVectorOf<XMLCh>(1, true, manager);
        fNsConstraintList->addElement
        (
            XMLString::replicate(fXSModel->getURIStringPool()->getValueForId(
                    attWildCard->getAttName()->getURI()), manager)
        );
    }
    else if (attType == XMLAttDef::Any_List)
    {
        fConstraintType = NSCONSTRAINT_DERIVATION_LIST;
        ValueVectorOf<unsigned int>* nsList = attWildCard->getNamespaceList();
        if (nsList)
        {
            unsigned int nsListSize = nsList->size();
            if (nsListSize)
            {
                fNsConstraintList = new (manager) RefArrayVectorOf<XMLCh>(nsListSize, true, manager);
                for (unsigned int i=0; i < nsListSize; i++)
                {
                    fNsConstraintList->addElement
                    (
                        XMLString::replicate
                        (
                            fXSModel->getURIStringPool()->getValueForId
                            (
                                nsList->elementAt(i)
                            )
                            , manager
                        )
                    );
                }
            }
        }
    }

    XMLAttDef::DefAttTypes attDefType = attWildCard->getDefaultType();
    if (attDefType == XMLAttDef::ProcessContents_Skip)
        fProcessContents = PC_SKIP;
    else if (attDefType == XMLAttDef::ProcessContents_Lax)
        fProcessContents = PC_LAX;
}
bool SubstitutionGroupComparator::isAllowedByWildcard(SchemaGrammar* const pGrammar,
                                                      QName* const element,
                                                      unsigned int wuri, bool wother)
{
    // whether the uri is allowed directly by the wildcard
    unsigned int uriId = element->getURI();

    if ((!wother && uriId == wuri) ||
        (wother &&
         uriId != wuri &&
         uriId != XMLContentModel::gEOCFakeId &&
         uriId != XMLContentModel::gEpsilonFakeId &&
         uriId != XMLElementDecl::fgPCDataElemId &&
         uriId != XMLElementDecl::fgInvalidElemId))
    {
        return true;
    }

    // get all elements that can substitute the current element
    RefHash2KeysTableOf<ElemVector>* theValidSubstitutionGroups = pGrammar->getValidSubstitutionGroups();

    if (!theValidSubstitutionGroups)
        return false;

    ValueVectorOf<SchemaElementDecl*>* subsElements = theValidSubstitutionGroups->get(element->getLocalPart(), uriId);

    if (!subsElements)
        return false;

    // then check whether there exists one element that is allowed by the wildcard
    int size = subsElements->size();

    for (int i = 0; i < size; i++)
    {
        unsigned int subUriId = subsElements->elementAt(i)->getElementName()->getURI();

        if ((!wother && subUriId == wuri) ||
            (wother &&
             subUriId != wuri &&
             subUriId != XMLContentModel::gEOCFakeId &&
             subUriId != XMLContentModel::gEpsilonFakeId &&
             subUriId != XMLElementDecl::fgPCDataElemId &&
             subUriId != XMLElementDecl::fgInvalidElemId))
        {
            return true;
        }
    }
    return false;
}
Exemple #3
0
XSModel::XSModel( XSModel *baseModel
                , GrammarResolver *grammarResolver
                , MemoryManager* const manager)
    : fMemoryManager(manager)
    , fNamespaceStringList(0)
    , fXSNamespaceItemList(0)
    , fURIStringPool(0)
    , fXSAnnotationList(0)
    , fHashNamespace(0)    
    , fObjFactory(0)
    , fDeleteNamespace(0)
    , fParent(baseModel)
    , fDeleteParent(true)
    , fAddedS4SGrammar(false)
{
    fURIStringPool = grammarResolver->getStringPool();
    fObjFactory = new (manager) XSObjectFactory(manager);

    unsigned int i;
    // Populate XSNamedMaps by going through the components
    for (i=0; i<XSConstants::MULTIVALUE_FACET; i++)
    {
        switch (i+1)
        {
            case XSConstants::ATTRIBUTE_DECLARATION:
            case XSConstants::ELEMENT_DECLARATION:
            case XSConstants::TYPE_DEFINITION:
            case XSConstants::ATTRIBUTE_GROUP_DEFINITION:
            case XSConstants::MODEL_GROUP_DEFINITION:
            case XSConstants::NOTATION_DECLARATION:
                fComponentMap[i] = new (fMemoryManager) XSNamedMap<XSObject>
                (
                    20,     // size
                    29,     // modulus
                    fURIStringPool,
                    false,  // adoptElems
                    fMemoryManager
                );
                break;
            default:
                // ATTRIBUTE_USE
                // MODEL_GROUP
                // PARTICLE
                // IDENTITY_CONSTRAINT
                // WILDCARD
                // ANNOTATION
                // FACET
                // MULTIVALUE
                fComponentMap[i] = 0;
                break;
        }
        fIdVector[i] = new (fMemoryManager) RefVectorOf<XSObject>(30, false, fMemoryManager);
    }

    fNamespaceStringList        = new (manager) RefArrayVectorOf <XMLCh>(10, true, manager);
    fXSNamespaceItemList        = new (manager) RefVectorOf <XSNamespaceItem>(10, false, manager);
    fDeleteNamespace            = new (manager) RefVectorOf <XSNamespaceItem>(10, true, manager);
    fXSAnnotationList           = new (manager) RefVectorOf <XSAnnotation> (10, false, manager); 
    fHashNamespace              = new (manager) RefHashTableOf<XSNamespaceItem> (11, false, manager);

    if (fParent)
    {
        if (fParent->fAddedS4SGrammar)
            fAddedS4SGrammar = true;

        // Need to copy information from parent so it can be returned in this object...
        for (i=0; i<fParent->fXSNamespaceItemList->size(); i++)
        {
            XSNamespaceItem* namespaceItem = fParent->fXSNamespaceItemList->elementAt(i);
            fXSNamespaceItemList->addElement(namespaceItem);
            fNamespaceStringList->addElement
            (
                XMLString::replicate
                (
                    namespaceItem->getSchemaNamespace(), manager
                )
            );
        }

        for (i=0; i<XSConstants::MULTIVALUE_FACET; i++)
        {
            switch (i+1) 
            {
                case XSConstants::ATTRIBUTE_DECLARATION:
                case XSConstants::ELEMENT_DECLARATION:
                case XSConstants::TYPE_DEFINITION:
                case XSConstants::ATTRIBUTE_GROUP_DEFINITION:
                case XSConstants::MODEL_GROUP_DEFINITION:
                case XSConstants::NOTATION_DECLARATION:
                    for (unsigned int j=0; j<fParent->fComponentMap[i]->getLength(); j++)
                    {
                        XSObject* copyObj = fParent->fComponentMap[i]->item(j);
                        fComponentMap[i]->addElement(copyObj,
                                                     copyObj->getName(),
                                                     copyObj->getNamespace());
                    }
                break;
            }
            for (unsigned int j=0; j<fParent->fIdVector[i]->size(); j++)
            {
                fIdVector[i]->addElement(fParent->fIdVector[i]->elementAt(j));
            }
        }

        for (i=0; i<fParent->fXSAnnotationList->size(); i++)
        {
            fXSAnnotationList->addElement(fParent->fXSAnnotationList->elementAt(i));
        }

    } // end of copying parent info

    // Now add information from the new grammars but first create the
    // XSNamespaceItem's so we can have access to the XSAnnotations...
    ValueVectorOf<SchemaGrammar*>* grammarsToAdd = grammarResolver->getGrammarsToAddToXSModel();
    unsigned int numberOfNamespaces = fXSNamespaceItemList->size();
    unsigned int numberOfNamespacesToAdd = 0;
    for (i=0; i < grammarsToAdd->size(); i++)
    {
        SchemaGrammar* lGrammar = grammarsToAdd->elementAt(i);
        if (lGrammar->getGrammarType() != Grammar::SchemaGrammarType ||
            XMLString::equals(lGrammar->getTargetNamespace(), SchemaSymbols::fgURI_SCHEMAFORSCHEMA))
            continue;

        XMLCh* NameSpace = XMLString::replicate(lGrammar->getTargetNamespace(), manager);
        fNamespaceStringList->addElement(NameSpace);

        XSNamespaceItem* namespaceItem = new (manager) XSNamespaceItem(this, lGrammar, manager);
        fXSNamespaceItemList->addElement(namespaceItem);
        fHashNamespace->put(NameSpace, namespaceItem);
        fDeleteNamespace->addElement(namespaceItem);
        ++numberOfNamespacesToAdd;
    }

    // Add S4S namespace if needed
    if (!fAddedS4SGrammar)
    {
        DatatypeValidatorFactory dvFactory(manager);
        dvFactory.expandRegistryToFullSchemaSet();

        XSNamespaceItem* namespaceItem = new (manager) XSNamespaceItem
        (
            this, SchemaSymbols::fgURI_SCHEMAFORSCHEMA, manager
        );

        fNamespaceStringList->addElement
        (
            XMLString::replicate(SchemaSymbols::fgURI_SCHEMAFORSCHEMA,manager)
        );
        fXSNamespaceItemList->addElement(namespaceItem);
        fHashNamespace->put
        (
            (void*) SchemaSymbols::fgURI_SCHEMAFORSCHEMA , namespaceItem
        );
        fDeleteNamespace->addElement(namespaceItem);
        addS4SToXSModel
        (
            namespaceItem
            , dvFactory.getBuiltInRegistry()
        );
    }

    // Now loop through all of the newly created NamespaceItem's
    for (i=numberOfNamespaces; i<(numberOfNamespaces+numberOfNamespacesToAdd); i++)
    {
        addGrammarToXSModel(fXSNamespaceItemList->elementAt(i));
    } // end of namespaceItem loop
}
Exemple #4
0
void XSDDOMParser::startAnnotation( const XMLElementDecl&       elemDecl
                                  , const RefVectorOf<XMLAttr>& attrList
                                  , const unsigned int          attrCount)
{
    fAnnotationBuf.append(chOpenAngle);
	fAnnotationBuf.append(elemDecl.getFullName());
    fAnnotationBuf.append(chSpace);

    // attributes are a bit of a pain.  To get this right, we have to keep track
    // of the namespaces we've seen declared, then examine the namespace context
    // for other namespaces so that we can also include them.
    // optimized for simplicity and the case that not many
    // namespaces are declared on this annotation...
    fURIs->removeAllElements();
    for (unsigned int i=0; i < attrCount; i++) {

        const XMLAttr* oneAttrib = attrList.elementAt(i);
        const XMLCh* attrValue = oneAttrib->getValue();        

        if (XMLString::equals(oneAttrib->getName(), XMLUni::fgXMLNSString))
            fURIs->addElement(fScanner->getPrefixId(XMLUni::fgZeroLenString));
        else  if (!XMLString::compareNString(oneAttrib->getQName(), XMLUni::fgXMLNSColonString, 6))
            fURIs->addElement(fScanner->getPrefixId(oneAttrib->getName()));

        fAnnotationBuf.append(oneAttrib->getQName());
        fAnnotationBuf.append(chEqual);
        fAnnotationBuf.append(chDoubleQuote);
        fAnnotationBuf.append(attrValue);
        fAnnotationBuf.append(chDoubleQuote);
        fAnnotationBuf.append(chSpace);
    }

    // now we have to look through currently in-scope namespaces to see what
    // wasn't declared here
    ValueVectorOf<PrefMapElem*>* namespaceContext = fScanner->getNamespaceContext();
    for (unsigned int j=0; j < namespaceContext->size(); j++)
    {
        unsigned int prefId = namespaceContext->elementAt(j)->fPrefId;

        if (!fURIs->containsElement(prefId)) {

            const XMLCh* prefix = fScanner->getPrefixForId(prefId);

            if (XMLString::equals(prefix, XMLUni::fgZeroLenString)) {
                fAnnotationBuf.append(XMLUni::fgXMLNSString);
            }
            else  {
                fAnnotationBuf.append(XMLUni::fgXMLNSColonString);
                fAnnotationBuf.append(prefix);
            }

            fAnnotationBuf.append(chEqual);
            fAnnotationBuf.append(chDoubleQuote);
            fAnnotationBuf.append(fScanner->getURIText(namespaceContext->elementAt(j)->fURIId));
            fAnnotationBuf.append(chDoubleQuote);
            fAnnotationBuf.append(chSpace);
        }
    }

    fAnnotationBuf.append(chCloseAngle);
    fAnnotationBuf.append(chLF);
}
Exemple #5
0
DOMElement*
SchemaInfo::getTopLevelComponent(const unsigned short compCategory,
                                 const XMLCh* const compName,
                                 const XMLCh* const name) {

    if (compCategory >= C_Count)
        return 0;

    DOMElement* child = XUtil::getFirstChildElement(fSchemaRootElement);

    if (!child)
        return 0;

    ValueVectorOf<DOMElement*>* compList = fTopLevelComponents[compCategory];

    if (fTopLevelComponents[compCategory] == 0) {

        compList= new (fMemoryManager) ValueVectorOf<DOMElement*>(16, fMemoryManager);
        fTopLevelComponents[compCategory] = compList;
    }
    else {
        unsigned int listLen = compList->size();

        for (unsigned int i= 0; i < listLen; i++) {

            child = compList->elementAt(i);
            if (XMLString::equals(child->getAttribute(SchemaSymbols::fgATT_NAME), name))
                return child;
        }
    }

    DOMElement* redefParent = (DOMElement*) child->getParentNode();

    // Parent is not "redefine"
    if (!XMLString::equals(redefParent->getLocalName(),SchemaSymbols::fgELT_REDEFINE))
        redefParent = 0;

    while (child != 0) {

        if (XMLString::equals(child->getLocalName(), compName)) {

            compList->addElement(child);

            if (XMLString::equals(child->getAttribute(SchemaSymbols::fgATT_NAME), name))
                return child;
        }
        else if (XMLString::equals(child->getLocalName(),SchemaSymbols::fgELT_REDEFINE)
                 && (!fFailedRedefineList || !fFailedRedefineList->containsElement(child))) { // if redefine

            DOMElement* redefineChild = XUtil::getFirstChildElement(child);

            while (redefineChild != 0) {

                if ((!fFailedRedefineList || !fFailedRedefineList->containsElement(redefineChild))
                    && XMLString::equals(redefineChild->getLocalName(), compName)) {

                    compList->addElement(redefineChild);

                    if (XMLString::equals(redefineChild->getAttribute(SchemaSymbols::fgATT_NAME), name))
                        return redefineChild;
                }

                redefineChild = XUtil::getNextSiblingElement(redefineChild);
            }
        }

        child = XUtil::getNextSiblingElement(child);

        if (child == 0 && redefParent) {

            child = XUtil::getNextSiblingElement(redefParent);
            redefParent = 0;
        }
    }

    return child;
}