Esempio n. 1
0
SchemaAttDef::SchemaAttDef(const SchemaAttDef* other) :

    XMLAttDef(other->getValue(), other->getType(),
              other->getDefaultType(), other->getEnumeration(),
              other->getMemoryManager())
    , fElemId(XMLElementDecl::fgInvalidElemId)
    , fAttName(0)
    , fDatatypeValidator(other->fDatatypeValidator)
    , fAnyDatatypeValidator(other->fAnyDatatypeValidator)
    , fMemberTypeValidator(other->fMemberTypeValidator)
    , fNamespaceList(0)
    , fValidity(other->fValidity)
    , fValidation(other->fValidation)
    , fPSVIScope(other->fPSVIScope)
    , fBaseAttDecl(other->fBaseAttDecl)
{
    QName* otherName = other->getAttName();
    fAttName = new (getMemoryManager()) QName(otherName->getPrefix(),
                         otherName->getLocalPart(), otherName->getURI(),
                         getMemoryManager());

    if (other->fNamespaceList && other->fNamespaceList->size()) {
        fNamespaceList = new (getMemoryManager()) ValueVectorOf<unsigned int>(*(other->fNamespaceList));
    }
}
Esempio n. 2
0
// ---------------------------------------------------------------------------
//  XercesAttGroupInfo: Getter methods
// ---------------------------------------------------------------------------
const SchemaAttDef* XercesAttGroupInfo::getAttDef(const XMLCh* const baseName,
                                                  const int uriId) const {

    // If no list, then return a null
    if (!fAttributes)
        return 0;

    XMLSize_t attSize = fAttributes->size();

    for (XMLSize_t i=0; i<attSize; i++) {

        const SchemaAttDef* attDef = fAttributes->elementAt(i);
        QName* attName = attDef->getAttName();

        if (uriId == (int) attName->getURI() &&
			XMLString::equals(baseName, attName->getLocalPart())) {

            return attDef;
        }
    }

    return 0;
}
Esempio n. 3
0
bool XercesAttGroupInfo::containsAttribute(const XMLCh* const name,
                                           const unsigned int uri) {

    if (fAttributes) {

        XMLSize_t attCount = fAttributes->size();

        if (attCount) {

            for (XMLSize_t i=0; i < attCount; i++) {

                QName* attName = fAttributes->elementAt(i)->getAttName();

                if (attName->getURI() == uri &&
                    XMLString::equals(attName->getLocalPart(),name)) {
                    return true;
                }
            }
        }
    }

    return false;
}
Esempio n. 4
0
int MixedContentModel::validateContentSpecial(QName** const           children
                                            , const unsigned int      childCount
                                            , const unsigned int
                                            , GrammarResolver*  const pGrammarResolver
                                            , XMLStringPool*    const pStringPool) const
{

    SubstitutionGroupComparator comparator(pGrammarResolver, pStringPool);

    // must match order
    if (fOrdered) {
        unsigned int inIndex = 0;
        for (unsigned int outIndex = 0; outIndex < childCount; outIndex++) {

            // Get the current child out of the source index
            QName* curChild = children[outIndex];

            // If its PCDATA, then we just accept that
            if (curChild->getURI() == XMLElementDecl::fgPCDataElemId)
                continue;

            ContentSpecNode::NodeTypes type = fChildTypes[inIndex];
            QName* inChild = fChildren[inIndex];

            if (type == ContentSpecNode::Leaf) {
                if ( !comparator.isEquivalentTo(curChild, inChild))
                    return outIndex;
            }
            else if (type == ContentSpecNode::Any) {
            }
            else if (type == ContentSpecNode::Any_NS) {
                if (inChild->getURI() != curChild->getURI())
                    return outIndex;
            }
            else if (type == ContentSpecNode::Any_Other) {
                if (inChild->getURI() == curChild->getURI())
                    return outIndex;
            }

            // advance index
            inIndex++;
        }
    }

    // can appear in any order
    else {
        for (unsigned int outIndex = 0; outIndex < childCount; outIndex++) {
            // Get the current child out of the source index
            QName* curChild = children[outIndex];

            // If its PCDATA, then we just accept that
            if (curChild->getURI() == XMLElementDecl::fgPCDataElemId)
                continue;

            // And try to find it in our list
            unsigned int inIndex = 0;
            for (; inIndex < fCount; inIndex++)
            {
                ContentSpecNode::NodeTypes type = fChildTypes[inIndex];
                QName* inChild = fChildren[inIndex];

                if (type == ContentSpecNode::Leaf) {
                    if ( comparator.isEquivalentTo(curChild, inChild))
                        break;
                }
                else if (type == ContentSpecNode::Any) {
                    break;
                }
                else if (type == ContentSpecNode::Any_NS) {
                    if (inChild->getURI() == curChild->getURI())
                        break;
                }
                else if (type == ContentSpecNode::Any_Other) {
                    if (inChild->getURI() != curChild->getURI())
                        break;
                }

                // REVISIT: What about checking for multiple ANY matches?
                //          The content model ambiguity *could* be checked
                //          by the caller before constructing the mixed
                //          content model.
            }
            // We did not find this one, so the validation failed
            if (inIndex == fCount)
                return outIndex;
        }
    }

    // Everything seems to be in order, so return success
    // success
    return -1;
}
Esempio n. 5
0
int DFAContentModel::validateContentSpecial(QName** const          children
                                            , const unsigned int      childCount
                                            , const unsigned int
                                            , GrammarResolver*  const pGrammarResolver
                                            , XMLStringPool*    const pStringPool) const
{

    SubstitutionGroupComparator comparator(pGrammarResolver, pStringPool);

    if (childCount == 0)
        return fEmptyOk ? -1 : 0;

    //
    //  Lets loop through the children in the array and move our way
    //  through the states. Note that we use the fElemMap array to map
    //  an element index to a state index.
    //
    unsigned int curState = 0;
    unsigned int nextState = 0;
    unsigned int childIndex = 0;
    for (; childIndex < childCount; childIndex++)
    {
        // Get the current element index out
        QName* curElem = children[childIndex];

        // If this is text in a Schema mixed content model, skip it.
        if ( fIsMixed &&
            ( curElem->getURI() == XMLElementDecl::fgPCDataElemId))
            continue;

        // Look up this child in our element map
        unsigned int elemIndex = 0;
        for (; elemIndex < fElemMapSize; elemIndex++)
        {
            QName* inElem  = fElemMap[elemIndex];
            ContentSpecNode::NodeTypes type = fElemMapType[elemIndex];
            if (type == ContentSpecNode::Leaf)
            {
                if (comparator.isEquivalentTo(curElem, inElem) )
                {
                    nextState = fTransTable[curState][elemIndex];
                    if (nextState != XMLContentModel::gInvalidTrans)
                        break;
                }

            }
            else if ((type & 0x0f)== ContentSpecNode::Any)
            {
                nextState = fTransTable[curState][elemIndex];
                if (nextState != XMLContentModel::gInvalidTrans)
                        break;
            }
            else if ((type & 0x0f) == ContentSpecNode::Any_NS)
            {
                if (inElem->getURI() == curElem->getURI())
                {
                    nextState = fTransTable[curState][elemIndex];
                    if (nextState != XMLContentModel::gInvalidTrans)
                        break;
                }
            }
            else if ((type & 0x0f) == ContentSpecNode::Any_Other)
            {
                if (inElem->getURI() != curElem->getURI())
                {
                    nextState = fTransTable[curState][elemIndex];
                    if (nextState != XMLContentModel::gInvalidTrans)
                        break;
                }
            }
        }//for elemIndex

        // If "nextState" is -1, we found a match, but the transition is invalid
        if (nextState == XMLContentModel::gInvalidTrans)
            return childIndex;

        // If we didn't find it, then obviously not valid
        if (elemIndex == fElemMapSize)
            return childIndex;

        curState = nextState;
        nextState = 0;

    }//for childIndex

    //
    //  We transitioned all the way through the input list. However, that
    //  does not mean that we ended in a final state. So check whether
    //  our ending state is a final state.
    //
    if (!fFinalStateFlags[curState])
        return childIndex;

    //success
    return -1;
}