Examples of com.sun.org.apache.xerces.internal.impl.xs.SchemaGrammar$BuiltinSchemaGrammar

• com.sun.org.apache.xerces.internal.impl.xs.SchemaGrammar
  This class is to hold all schema component declaration that are declared within one namespace. The Grammar class this class extends contains what little commonality there is between XML Schema and DTD grammars. It's useful to distinguish grammar objects from other kinds of object when they exist in pools or caches. @xerces.internal @author Sandy Gao, IBM @author Elena Litani, IBM @version $Id: SchemaGrammar.java,v 1.7 2010-11-01 04:39:55 joehw Exp $

     * First try to find a grammar in the bucket, if failed, consult the
     * grammar pool. If a grammar is found in the pool, then add it (and all
     * imported ones) into the bucket.
     */
    protected SchemaGrammar findGrammar(XSDDescription desc) {
        SchemaGrammar sg = fGrammarBucket.getGrammar(desc.getTargetNamespace());
        if (sg == null) {
            if (fGrammarPool != null) {
                sg = (SchemaGrammar)fGrammarPool.retrieveGrammar(desc);
                if (sg != null) {
                    // put this grammar into the bucket, along with grammars

        // are valid

        // a schema document can always access it's own target namespace
        currSchemaInfo.addAllowedNS(currSchemaInfo.fTargetNamespace);

        SchemaGrammar sg = null;

        if (referType == XSDDescription.CONTEXT_INCLUDE ||
                referType == XSDDescription.CONTEXT_REDEFINE) {
            sg = fGrammarBucket.getGrammar(currSchemaInfo.fTargetNamespace);
        }
        else if(fHonourAllSchemaLocations && referType == XSDDescription.CONTEXT_IMPORT) {
            sg = findGrammar(desc);
            if(sg == null) {
                sg = new SchemaGrammar(currSchemaInfo.fTargetNamespace, desc.makeClone(), fSymbolTable);
                fGrammarBucket.putGrammar(sg);
            }
        }
        else {
            sg = new SchemaGrammar(currSchemaInfo.fTargetNamespace, desc.makeClone(), fSymbolTable);
            fGrammarBucket.putGrammar(sg);
        }

        // store the document and its location
        // REVISIT: don't expose the DOM tree
        sg.addDocument(null, (String)fDoc2SystemId.get(currSchemaInfo.fSchemaElement));

        fDoc2XSDocumentMap.put(schemaRoot, currSchemaInfo);
        Vector dependencies = new Vector();
        Element rootNode = schemaRoot;

        Element newSchemaRoot = null;
        for (Element child = DOMUtil.getFirstChildElement(rootNode);
        child != null;
        child = DOMUtil.getNextSiblingElement(child)) {
            String schemaNamespace=null;
            String schemaHint=null;
            String localName = DOMUtil.getLocalName(child);

            short refType = -1;

            if (localName.equals(SchemaSymbols.ELT_ANNOTATION))
                continue;
            else if (localName.equals(SchemaSymbols.ELT_IMPORT)) {
                refType = XSDDescription.CONTEXT_IMPORT;
                // have to handle some validation here too!
                // call XSAttributeChecker to fill in attrs
                Object[] importAttrs = fAttributeChecker.checkAttributes(child, true, currSchemaInfo);
                schemaHint = (String)importAttrs[XSAttributeChecker.ATTIDX_SCHEMALOCATION];
                schemaNamespace = (String)importAttrs[XSAttributeChecker.ATTIDX_NAMESPACE];
                if (schemaNamespace != null)
                    schemaNamespace = fSymbolTable.addSymbol(schemaNamespace);
                // a document can't import another document with the same namespace
                if (schemaNamespace == currSchemaInfo.fTargetNamespace) {
                    reportSchemaError("src-import.1.1", new Object [] {schemaNamespace}, child);
                }

                // check contents and process optional annotations
                Element importChild = DOMUtil.getFirstChildElement(child);
                if(importChild != null ) {
                    String importComponentType = DOMUtil.getLocalName(importChild);
                    if (importComponentType.equals(SchemaSymbols.ELT_ANNOTATION)) {
                        // promoting annotations to parent component
                        sg.addAnnotation(
                                fElementTraverser.traverseAnnotationDecl(importChild, importAttrs, true, currSchemaInfo));
                    } else {
                        reportSchemaError("s4s-elt-must-match.1", new Object [] {localName, "annotation?", importComponentType}, child);
                    }
                    if(DOMUtil.getNextSiblingElement(importChild) != null) {
                        reportSchemaError("s4s-elt-must-match.1", new Object [] {localName, "annotation?", DOMUtil.getLocalName(DOMUtil.getNextSiblingElement(importChild))}, child);
                    }
                }
                else {
                    String text = DOMUtil.getSyntheticAnnotation(child);
                    if (text != null) {
                        sg.addAnnotation(fElementTraverser.traverseSyntheticAnnotation(child, text, importAttrs, true, currSchemaInfo));
                    }
                }
                fAttributeChecker.returnAttrArray(importAttrs, currSchemaInfo);

                // if this namespace has not been imported by this document,
                //  then import if multiple imports support is enabled.
                if(currSchemaInfo.isAllowedNS(schemaNamespace)) {
                    if(!fHonourAllSchemaLocations)
                        continue;
                }
                else  {
                    currSchemaInfo.addAllowedNS(schemaNamespace);
                }
                // also record the fact that one namespace imports another one
                // convert null to ""
                String tns = null2EmptyString(currSchemaInfo.fTargetNamespace);
                // get all namespaces imported by this one
                Vector ins = (Vector)fImportMap.get(tns);
                // if no namespace was imported, create new Vector
                if (ins == null) {
                    // record that this one imports other(s)
                    fAllTNSs.addElement(tns);
                    ins = new Vector();
                    fImportMap.put(tns, ins);
                    ins.addElement(schemaNamespace);
                }
                else if (!ins.contains(schemaNamespace)){
                    ins.addElement(schemaNamespace);
                }

                fSchemaGrammarDescription.reset();
                fSchemaGrammarDescription.setContextType(XSDDescription.CONTEXT_IMPORT);
                fSchemaGrammarDescription.setBaseSystemId(doc2SystemId(schemaRoot));
                fSchemaGrammarDescription.setLocationHints(new String[]{schemaHint});
                fSchemaGrammarDescription.setTargetNamespace(schemaNamespace);

                // if a grammar with the same namespace and location exists (or being
                // built), ignore this one (don't traverse it).
                if ((!fHonourAllSchemaLocations && findGrammar(fSchemaGrammarDescription) != null) || isExistingGrammar(fSchemaGrammarDescription))
                    continue;
                newSchemaRoot = resolveSchema(fSchemaGrammarDescription, false, child);
            }
            else if ((localName.equals(SchemaSymbols.ELT_INCLUDE)) ||
                    (localName.equals(SchemaSymbols.ELT_REDEFINE))) {
                // validation for redefine/include will be the same here; just
                // make sure TNS is right (don't care about redef contents
                // yet).
                Object[] includeAttrs = fAttributeChecker.checkAttributes(child, true, currSchemaInfo);
                schemaHint = (String)includeAttrs[XSAttributeChecker.ATTIDX_SCHEMALOCATION];
                // store the namespace decls of the redefine element
                if (localName.equals(SchemaSymbols.ELT_REDEFINE)) {
                    fRedefine2NSSupport.put(child, new SchemaNamespaceSupport(currSchemaInfo.fNamespaceSupport));
                }

                // check annotations.  Must do this here to avoid having to
                // re-parse attributes later
                if(localName.equals(SchemaSymbols.ELT_INCLUDE)) {
                    Element includeChild = DOMUtil.getFirstChildElement(child);
                    if(includeChild != null ) {
                        String includeComponentType = DOMUtil.getLocalName(includeChild);
                        if (includeComponentType.equals(SchemaSymbols.ELT_ANNOTATION)) {
                            // promoting annotations to parent component
                            sg.addAnnotation(
                                    fElementTraverser.traverseAnnotationDecl(includeChild, includeAttrs, true, currSchemaInfo));
                        } else {
                            reportSchemaError("s4s-elt-must-match.1", new Object [] {localName, "annotation?", includeComponentType}, child);
                        }
                        if(DOMUtil.getNextSiblingElement(includeChild) != null) {
                            reportSchemaError("s4s-elt-must-match.1", new Object [] {localName, "annotation?", DOMUtil.getLocalName(DOMUtil.getNextSiblingElement(includeChild))}, child);
                        }
                    }
                    else {
                        String text = DOMUtil.getSyntheticAnnotation(child);
                        if (text != null) {
                            sg.addAnnotation(fElementTraverser.traverseSyntheticAnnotation(child, text, includeAttrs, true, currSchemaInfo));
                        }
                    }
                }
                else {
                    for (Element redefinedChild = DOMUtil.getFirstChildElement(child);
                    redefinedChild != null;
                    redefinedChild = DOMUtil.getNextSiblingElement(redefinedChild)) {
                        String redefinedComponentType = DOMUtil.getLocalName(redefinedChild);
                        if (redefinedComponentType.equals(SchemaSymbols.ELT_ANNOTATION)) {
                            // promoting annotations to parent component
                            sg.addAnnotation(
                                    fElementTraverser.traverseAnnotationDecl(redefinedChild, includeAttrs, true, currSchemaInfo));
                            DOMUtil.setHidden(redefinedChild, fHiddenNodes);
                        }
                        else {
                            String text = DOMUtil.getSyntheticAnnotation(child);
                            if (text != null) {
                                sg.addAnnotation(fElementTraverser.traverseSyntheticAnnotation(child, text, includeAttrs, true, currSchemaInfo));
                            }
                        }
                        // catch all other content errors later
                    }
                }

        fDependencyMap.put(currSchemaInfo, dependencies);
        return currSchemaInfo;
    } // end constructTrees

    private boolean isExistingGrammar(XSDDescription desc) {
        SchemaGrammar sg = fGrammarBucket.getGrammar(desc.getTargetNamespace());
        if(sg == null) {
            return findGrammar(desc) != null;
        }
        else {
            try {
                return sg.getDocumentLocations().contains(XMLEntityManager.expandSystemId(desc.getLiteralSystemId(), desc.getBaseSystemId(), false));
            } catch (MalformedURIException e) {
                return false;
            }
        }
    }

        while (!schemasToProcess.empty()) {
            XSDocumentInfo currSchemaDoc =
                (XSDocumentInfo)schemasToProcess.pop();
            Element currDoc = currSchemaDoc.fSchemaElement;

            SchemaGrammar currSG = fGrammarBucket.getGrammar(currSchemaDoc.fTargetNamespace);

            if(DOMUtil.isHidden(currDoc, fHiddenNodes)) {
                // must have processed this already!
                continue;
            }
            Element currRoot = currDoc;
            boolean sawAnnotation = false;
            // traverse this schema's global decls
            for (Element globalComp =
                DOMUtil.getFirstVisibleChildElement(currRoot, fHiddenNodes);
            globalComp != null;
            globalComp = DOMUtil.getNextVisibleSiblingElement(globalComp, fHiddenNodes)) {
                DOMUtil.setHidden(globalComp, fHiddenNodes);
                String componentType = DOMUtil.getLocalName(globalComp);
                // includes and imports will not show up here!
                if (DOMUtil.getLocalName(globalComp).equals(SchemaSymbols.ELT_REDEFINE)) {
                    // use the namespace decls for the redefine, instead of for the parent <schema>
                    currSchemaDoc.backupNSSupport((SchemaNamespaceSupport)fRedefine2NSSupport.get(globalComp));
                    for (Element redefinedComp = DOMUtil.getFirstVisibleChildElement(globalComp, fHiddenNodes);
                    redefinedComp != null;
                    redefinedComp = DOMUtil.getNextVisibleSiblingElement(redefinedComp, fHiddenNodes)) {
                        String redefinedComponentType = DOMUtil.getLocalName(redefinedComp);
                        DOMUtil.setHidden(redefinedComp, fHiddenNodes);
                        if (redefinedComponentType.equals(SchemaSymbols.ELT_ATTRIBUTEGROUP)) {
                            fAttributeGroupTraverser.traverseGlobal(redefinedComp, currSchemaDoc, currSG);
                        }
                        else if (redefinedComponentType.equals(SchemaSymbols.ELT_COMPLEXTYPE)) {
                            fComplexTypeTraverser.traverseGlobal(redefinedComp, currSchemaDoc, currSG);
                        }
                        else if (redefinedComponentType.equals(SchemaSymbols.ELT_GROUP)) {
                            fGroupTraverser.traverseGlobal(redefinedComp, currSchemaDoc, currSG);
                        }
                        else if (redefinedComponentType.equals(SchemaSymbols.ELT_SIMPLETYPE)) {
                            fSimpleTypeTraverser.traverseGlobal(redefinedComp, currSchemaDoc, currSG);
                        }
                        // annotations will have been processed already; this is now
                        // unnecessary
                        //else if (redefinedComponentType.equals(SchemaSymbols.ELT_ANNOTATION)) {
                        //    fElementTraverser.traverseAnnotationDecl(redefinedComp, null, true, currSchemaDoc);
                        //}
                        else {
                            reportSchemaError("s4s-elt-must-match.1", new Object [] {DOMUtil.getLocalName(globalComp), "(annotation | (simpleType | complexType | group | attributeGroup))*", redefinedComponentType}, redefinedComp);
                        }
                    } // end march through <redefine> children
                    currSchemaDoc.restoreNSSupport();
                }
                else if (componentType.equals(SchemaSymbols.ELT_ATTRIBUTE)) {
                    fAttributeTraverser.traverseGlobal(globalComp, currSchemaDoc, currSG);
                }
                else if (componentType.equals(SchemaSymbols.ELT_ATTRIBUTEGROUP)) {
                    fAttributeGroupTraverser.traverseGlobal(globalComp, currSchemaDoc, currSG);
                }
                else if (componentType.equals(SchemaSymbols.ELT_COMPLEXTYPE)) {
                    fComplexTypeTraverser.traverseGlobal(globalComp, currSchemaDoc, currSG);
                }
                else if (componentType.equals(SchemaSymbols.ELT_ELEMENT)) {
                    fElementTraverser.traverseGlobal(globalComp, currSchemaDoc, currSG);
                }
                else if (componentType.equals(SchemaSymbols.ELT_GROUP)) {
                    fGroupTraverser.traverseGlobal(globalComp, currSchemaDoc, currSG);
                }
                else if (componentType.equals(SchemaSymbols.ELT_NOTATION)) {
                    fNotationTraverser.traverse(globalComp, currSchemaDoc, currSG);
                }
                else if (componentType.equals(SchemaSymbols.ELT_SIMPLETYPE)) {
                    fSimpleTypeTraverser.traverseGlobal(globalComp, currSchemaDoc, currSG);
                }
                else if (componentType.equals(SchemaSymbols.ELT_ANNOTATION)) {
                    currSG.addAnnotation(fElementTraverser.traverseAnnotationDecl(globalComp, currSchemaDoc.getSchemaAttrs(), true, currSchemaDoc));
                    sawAnnotation = true;
                }
                else {
                    reportSchemaError("s4s-elt-invalid-content.1", new Object [] {SchemaSymbols.ELT_SCHEMA, DOMUtil.getLocalName(globalComp)}, globalComp);
                }
            } // end for

            if (!sawAnnotation) {
                String text = DOMUtil.getSyntheticAnnotation(currRoot);
                if (text != null) {
                    currSG.addAnnotation(fElementTraverser.traverseSyntheticAnnotation(currRoot, text, currSchemaDoc.getSchemaAttrs(), true, currSchemaDoc));
                }
            }

            /** Collect annotation information for validation. **/
            if (annotationInfo != null) {

            }
            return null;
        }

        // check whether there is grammar for the requested namespace
        SchemaGrammar sGrammar = fGrammarBucket.getGrammar(declToTraverse.uri);
        if (sGrammar == null) {
            if (needReportTNSError(declToTraverse.uri))
                reportSchemaError("src-resolve", new Object[]{declToTraverse.rawname, COMP_TYPE[declType]}, elmNode);
            return null;
        }

        // if there is such grammar, check whether the requested component is in the grammar
        Object retObj = null;
        switch (declType) {
        case ATTRIBUTE_TYPE :
            retObj = sGrammar.getGlobalAttributeDecl(declToTraverse.localpart);
            break;
        case ATTRIBUTEGROUP_TYPE :
            retObj = sGrammar.getGlobalAttributeGroupDecl(declToTraverse.localpart);
            break;
        case ELEMENT_TYPE :
            retObj = sGrammar.getGlobalElementDecl(declToTraverse.localpart);
            break;
        case GROUP_TYPE :
            retObj = sGrammar.getGlobalGroupDecl(declToTraverse.localpart);
            break;
        case IDENTITYCONSTRAINT_TYPE :
            retObj = sGrammar.getIDConstraintDecl(declToTraverse.localpart);
            break;
        case NOTATION_TYPE :
            retObj = sGrammar.getGlobalNotationDecl(declToTraverse.localpart);
            break;
        case TYPEDECL_TYPE :
            retObj = sGrammar.getGlobalTypeDecl(declToTraverse.localpart);
            break;
        }

        // if the component is parsed, return it
        if (retObj != null)

    protected void resolveKeyRefs() {
        for (int i=0; i<fKeyrefStackPos; i++) {
            XSDocumentInfo keyrefSchemaDoc = fKeyrefsMapXSDocumentInfo[i];
            keyrefSchemaDoc.fNamespaceSupport.makeGlobal();
            keyrefSchemaDoc.fNamespaceSupport.setEffectiveContext( fKeyrefNamespaceContext[i] );
            SchemaGrammar keyrefGrammar = fGrammarBucket.getGrammar(keyrefSchemaDoc.fTargetNamespace);
            // need to set <keyref> to hidden before traversing it,
            // because it has global scope
             DOMUtil.setHidden(fKeyrefs[i], fHiddenNodes);
            fKeyrefTraverser.traverse(fKeyrefs[i], fKeyrefElems[i], keyrefSchemaDoc, keyrefGrammar);
        }

        for (int i = 0; i < fLocalElemStackPos; i++) {
            Element currElem = fLocalElementDecl[i];
            //XSDocumentInfo currSchema = (XSDocumentInfo)fDoc2XSDocumentMap.get(DOMUtil.getDocument(currElem));
            //XSDocumentInfo currSchema = (XSDocumentInfo)fDoc2XSDocumentMap.get(DOMUtil.getRoot(DOMUtil.getDocument(currElem)));
            XSDocumentInfo currSchema = fLocalElementDecl_schema[i];
            SchemaGrammar currGrammar = fGrammarBucket.getGrammar(currSchema.fTargetNamespace);
            fElementTraverser.traverseLocal (fParticle[i], currElem, currSchema, currGrammar, fAllContext[i], fParent[i], fLocalElemNamespaceContext[i]);
            // If it's an empty particle, remove it from the containing component.
            if (fParticle[i].fType == XSParticleDecl.PARTICLE_EMPTY) {
                XSModelGroupImpl group = null;
                if (fParent[i] instanceof XSComplexTypeDecl) {

        // if contents was null, must have been some kind of error;
        // nothing to contribute to PSVI
        if (contents == null) return null;

        // find the grammar; fSchemaHandler must be known!
        SchemaGrammar grammar = fSchemaHandler.getGrammar(schemaDoc.fTargetNamespace);
        // fish out local attributes passed from parent
        Vector annotationLocalAttrs = (Vector)parentAttrs[XSAttributeChecker.ATTIDX_NONSCHEMA];
        // optimize for case where there are no local attributes
        if(annotationLocalAttrs != null && !annotationLocalAttrs.isEmpty()) {
            StringBuffer localStrBuffer = new StringBuffer(64);

            Object[] parentAttrs, boolean isGlobal, XSDocumentInfo schemaDoc) {

        String contents = initialContent;

        // find the grammar; fSchemaHandler must be known!
        SchemaGrammar grammar = fSchemaHandler.getGrammar(schemaDoc.fTargetNamespace);
        // fish out local attributes passed from parent
        Vector annotationLocalAttrs = (Vector)parentAttrs[XSAttributeChecker.ATTIDX_NONSCHEMA];
        // optimize for case where there are no local attributes
        if (annotationLocalAttrs != null && !annotationLocalAttrs.isEmpty()) {
            StringBuffer localStrBuffer = new StringBuffer(64);

        fSchemaLoader.setFeature(SCHEMA_FULL_CHECKING, getFeature(SCHEMA_FULL_CHECKING));

        // Should check whether the grammar with this namespace is already in
        // the grammar resolver. But since we don't know the target namespace
        // of the document here, we leave such check to XSDHandler
        SchemaGrammar grammar = (SchemaGrammar)fSchemaLoader.loadGrammar(is);
        // by default, hand it off to the grammar pool
        if (grammar != null) {
            fGrammarPool.cacheGrammars(XMLGrammarDescription.XML_SCHEMA,
                                      new Grammar[]{grammar});
        }