Examples of mf.org.apache.xerces.xs.XSTypeDefinition

• mf.org.apache.xerces.xs.XSTypeDefinition
  This interface represents a complex or simple type definition.

            annotations = XSObjectListImpl.EMPTY_LIST;
        }
        element.fAnnotations = annotations;

        // get 'type definition'
        XSTypeDefinition elementType = null;
        boolean haveAnonType = false;

        // Handle Anonymous type if there is one
        if (child != null) {
            String childName = DOMUtil.getLocalName(child);

            if (childName.equals(SchemaSymbols.ELT_COMPLEXTYPE)) {
                elementType = fSchemaHandler.fComplexTypeTraverser.traverseLocal(child, schemaDoc, grammar);
                haveAnonType = true;
                child = DOMUtil.getNextSiblingElement(child);
            }
            else if (childName.equals(SchemaSymbols.ELT_SIMPLETYPE)) {
                elementType = fSchemaHandler.fSimpleTypeTraverser.traverseLocal(child, schemaDoc, grammar);
                haveAnonType = true;
                child = DOMUtil.getNextSiblingElement(child);
            }
        }

        // Handler type attribute
        if (elementType == null && typeAtt != null) {
            elementType = (XSTypeDefinition)fSchemaHandler.getGlobalDecl(schemaDoc, XSDHandler.TYPEDECL_TYPE, typeAtt, elmDecl);
            if (elementType == null) {
                element.fUnresolvedTypeName = typeAtt;
            }
        }

        // Get it from the substitutionGroup declaration
        if (elementType == null && element.fSubGroup != null) {
            elementType = element.fSubGroup.fType;
        }

        if (elementType == null) {
            elementType = SchemaGrammar.fAnyType;
        }

        element.fType = elementType;

        // get 'identity constraint'

        // see if there's something here; it had better be key, keyref or unique.
        if (child != null) {
            String childName = DOMUtil.getLocalName(child);
            while (child != null &&
                    (childName.equals(SchemaSymbols.ELT_KEY) ||
                            childName.equals(SchemaSymbols.ELT_KEYREF) ||
                            childName.equals(SchemaSymbols.ELT_UNIQUE))) {

                if (childName.equals(SchemaSymbols.ELT_KEY) ||
                        childName.equals(SchemaSymbols.ELT_UNIQUE)) {
                    // need to set <key>/<unique> to hidden before traversing it,
                    // because it has global scope
                    DOMUtil.setHidden(child, fSchemaHandler.fHiddenNodes);
                    fSchemaHandler.fUniqueOrKeyTraverser.traverse(child, element, schemaDoc, grammar);
                    if(DOMUtil.getAttrValue(child, SchemaSymbols.ATT_NAME).length() != 0 ) {
                        fSchemaHandler.checkForDuplicateNames(
                                (schemaDoc.fTargetNamespace == null) ? ","+DOMUtil.getAttrValue(child, SchemaSymbols.ATT_NAME)
                                        : schemaDoc.fTargetNamespace+","+ DOMUtil.getAttrValue(child, SchemaSymbols.ATT_NAME),
                                        fSchemaHandler.ATTRIBUTE_TYPE, fSchemaHandler.getIDRegistry(), fSchemaHandler.getIDRegistry_sub(),
                                        child, schemaDoc);
                    }
                } else if (childName.equals(SchemaSymbols.ELT_KEYREF)) {
                    fSchemaHandler.storeKeyRef(child, schemaDoc, element);
                }
                child = DOMUtil.getNextSiblingElement(child);
                if (child != null) {
                    childName = DOMUtil.getLocalName(child);
                }
            }
        }

        // Step 3: check against schema for schemas

        // required attributes
        if (nameAtt == null) {
            if (isGlobal)
                reportSchemaError("s4s-att-must-appear", new Object[]{SchemaSymbols.ELT_ELEMENT, SchemaSymbols.ATT_NAME}, elmDecl);
            else
                reportSchemaError("src-element.2.1", null, elmDecl);
            nameAtt = NO_NAME;
        }

        // element
        if (child != null) {
            reportSchemaError("s4s-elt-must-match.1", new Object[]{nameAtt, "(annotation?, (simpleType | complexType)?, (unique | key | keyref)*))", DOMUtil.getLocalName(child)}, child);
        }

        // Step 4: check 3.3.3 constraints

        // src-element

        // 1 default and fixed must not both be present.
        if (defaultAtt != null && fixedAtt != null) {
            reportSchemaError("src-element.1", new Object[]{nameAtt}, elmDecl);
        }

        // 2 If the item's parent is not <schema>, then all of the following must be true:
        // 2.1 One of ref or name must be present, but not both.
        // This is checked in XSAttributeChecker

        // 2.2 If ref is present, then all of <complexType>, <simpleType>, <key>, <keyref>, <unique>, nillable, default, fixed, form, block and type must be absent, i.e. only minOccurs, maxOccurs, id are allowed in addition to ref, along with <annotation>.
        // Attributes are checked in XSAttributeChecker, elements are checked in "traverse" method

        // 3 type and either <simpleType> or <complexType> are mutually exclusive.
        if (haveAnonType && (typeAtt != null)) {
            reportSchemaError("src-element.3", new Object[]{nameAtt}, elmDecl);
        }

        // Step 5: check 3.3.6 constraints
        // check for NOTATION type
        checkNotationType(nameAtt, elementType, elmDecl);

        // e-props-correct

        // 2 If there is a {value constraint}, the canonical lexical representation of its value must be valid with respect to the {type definition} as defined in Element Default Valid (Immediate) (3.3.6).
        if (element.fDefault != null) {
            fValidationState.setNamespaceSupport(schemaDoc.fNamespaceSupport);
            if (XSConstraints.ElementDefaultValidImmediate(element.fType, element.fDefault.normalizedValue, fValidationState, element.fDefault) == null) {
                reportSchemaError ("e-props-correct.2", new Object[]{nameAtt, element.fDefault.normalizedValue}, elmDecl);
                element.fDefault = null;
                element.setConstraintType(XSConstants.VC_NONE);
            }
        }

        // 4 If there is an {substitution group affiliation}, the {type definition} of the element declaration must be validly derived from the {type definition} of the {substitution group affiliation}, given the value of the {substitution group exclusions} of the {substitution group affiliation}, as defined in Type Derivation OK (Complex) (3.4.6) (if the {type definition} is complex) or as defined in Type Derivation OK (Simple) (3.14.6) (if the {type definition} is simple).
        if (element.fSubGroup != null) {
            if (!XSConstraints.checkTypeDerivationOk(element.fType, element.fSubGroup.fType, element.fSubGroup.fFinal)) {
                reportSchemaError ("e-props-correct.4", new Object[]{nameAtt, subGroupAtt.prefix+":"+subGroupAtt.localpart}, elmDecl);
                element.fSubGroup = null;
            }
        }

        // 5 If the {type definition} or {type definition}'s {content type} is or is derived from ID then there must not be a {value constraint}.
        if (element.fDefault != null) {
            if ((elementType.getTypeCategory() == XSTypeDefinition.SIMPLE_TYPE &&
                    ((XSSimpleType)elementType).isIDType()) ||
                    (elementType.getTypeCategory() == XSTypeDefinition.COMPLEX_TYPE &&
                            ((XSComplexTypeDecl)elementType).containsTypeID())) {
                reportSchemaError ("e-props-correct.5", new Object[]{element.fName}, elmDecl);
                element.fDefault = null;
                element.setConstraintType(XSConstants.VC_NONE);
            }

            }
        }

        // Handle type attribute
        if (attrType == null && typeAtt != null) {
            XSTypeDefinition type = (XSTypeDefinition)fSchemaHandler.getGlobalDecl(schemaDoc, XSDHandler.TYPEDECL_TYPE, typeAtt, attrDecl);
            if (type != null && type.getTypeCategory() == XSTypeDefinition.SIMPLE_TYPE) {
                attrType = (XSSimpleType)type;
            }
            else {
                reportSchemaError("src-resolve", new Object[]{typeAtt.rawname, "simpleType definition"}, attrDecl);
                if (type == null) {

            ElementPSVI elementPSVI = (ElementPSVI)augs.getItem(Constants.ELEMENT_PSVI);
            if (elementPSVI != null) {
                if (fStorePSVI) {
                    ((PSVIElementNSImpl) currentElement).setPSVI(elementPSVI);
                }
                XSTypeDefinition type = elementPSVI.getMemberTypeDefinition();
                if (type == null) {
                    type = elementPSVI.getTypeDefinition();
                }
                ((ElementNSImpl) currentElement).setType(type);
            }

                grammar.addGlobalComplexTypeDecl(type);
            }

            // also add it to extended map
            final String loc = fSchemaHandler.schemaDocument2SystemId(schemaDoc);
            final XSTypeDefinition type2 = grammar.getGlobalTypeDecl(type.getName(), loc);
            if (type2 == null) {
                grammar.addGlobalComplexTypeDecl(type, loc);
            }

            // handle duplicates

            fAttrChecker.returnAttrArray(derivationTypeAttrValues, schemaDoc);
            throw new ComplexTypeRecoverableError("s4s-att-must-appear",
                    new Object[]{simpleContentName, "base"}, simpleContent);
        }

        XSTypeDefinition type = (XSTypeDefinition)fSchemaHandler.getGlobalDecl(schemaDoc,
                XSDHandler.TYPEDECL_TYPE, baseTypeName,
                simpleContent);
        if (type==null) {
            fAttrChecker.returnAttrArray(simpleContentAttrValues, schemaDoc);
            fAttrChecker.returnAttrArray(derivationTypeAttrValues, schemaDoc);
            throw new ComplexTypeRecoverableError();
        }

        fBaseType = type;

        XSSimpleType baseValidator = null;
        XSComplexTypeDecl baseComplexType = null;
        int baseFinalSet = 0;

        // If the base type is complex, it must have simpleContent
        if ((type.getTypeCategory() == XSTypeDefinition.COMPLEX_TYPE)) {

            baseComplexType = (XSComplexTypeDecl)type;
            baseFinalSet = baseComplexType.getFinal();
            // base is a CT with simple content (both restriction and extension are OK)
            if (baseComplexType.getContentType() == XSComplexTypeDecl.CONTENTTYPE_SIMPLE) {

            fAttrChecker.returnAttrArray(derivationTypeAttrValues, schemaDoc);
            throw new ComplexTypeRecoverableError("s4s-att-must-appear",
                    new Object[]{complexContentName, "base"}, complexContent);
        }

        XSTypeDefinition type = (XSTypeDefinition)fSchemaHandler.getGlobalDecl(schemaDoc,
                XSDHandler.TYPEDECL_TYPE,
                baseTypeName,
                complexContent);

        if (type==null) {
            fAttrChecker.returnAttrArray(complexContentAttrValues, schemaDoc);
            fAttrChecker.returnAttrArray(derivationTypeAttrValues, schemaDoc);
            throw new ComplexTypeRecoverableError();
        }

        if (! (type instanceof XSComplexTypeDecl)) {
            fAttrChecker.returnAttrArray(complexContentAttrValues, schemaDoc);
            fAttrChecker.returnAttrArray(derivationTypeAttrValues, schemaDoc);
            throw new ComplexTypeRecoverableError("src-ct.1",
                    new Object[]{fName, type.getName()}, complexContent);
        }
        XSComplexTypeDecl baseType = (XSComplexTypeDecl)type;
        fBaseType = baseType;

        // -----------------------------------------------------------------------

            return false;
        // ancestor is anyType, return true
        if (ancestor == SchemaGrammar.fAnyType)
            return true;
        // recursively get base, and compare it with ancestor
        XSTypeDefinition type = this;
        while (type != ancestor &&                     // compare with ancestor
               type != SchemaGrammar.fAnySimpleType &&  // reached anySimpleType
               type != SchemaGrammar.fAnyType) {        // reached anyType
            type = type.getBaseType();
        }

        return type == ancestor;
    }

            ancestorName.equals(SchemaSymbols.ATTVAL_ANYTYPE)) {
            return true;
        }

        // recursively get base, and compare it with ancestor
        XSTypeDefinition type = this;
        while (!(ancestorName.equals(type.getName()) &&
                 ((ancestorNS == null && type.getNamespace() == null) ||
                  (ancestorNS != null && ancestorNS.equals(type.getNamespace())))) &&   // compare with ancestor
               type != SchemaGrammar.fAnySimpleType &&  // reached anySimpleType
               type != SchemaGrammar.fAnyType) {        // reached anyType
            type = (XSTypeDefinition)type.getBaseType();
        }

        return type != SchemaGrammar.fAnySimpleType &&
        type != SchemaGrammar.fAnyType;
    }

     * @return boolean True if the type is derived by any method for the
     *         reference type
     */
    private boolean isDerivedByAny(String ancestorNS, String ancestorName,
            int derivationMethod, XSTypeDefinition type) {
        XSTypeDefinition oldType = null;
        boolean derivedFrom = false;
        while (type != null && type != oldType) {

            // If the ancestor type is reached or is the same as this type.
            if ((ancestorName.equals(type.getName()))

     *         reference type
     */
    private boolean isDerivedByRestriction(String ancestorNS,
            String ancestorName, int derivationMethod, XSTypeDefinition type) {

        XSTypeDefinition oldType = null;
        while (type != null && type != oldType) {

            // ancestor is anySimpleType, return false
            if (ancestorNS != null
                    && ancestorNS.equals(SchemaSymbols.URI_SCHEMAFORSCHEMA)