Examples of org.apache.xerces.impl.dv.XSSimpleType

org.apache.xerces.impl.dv.XSSimpleType
This interface XSSimpleType represents the simple type definition of schema component and defines methods to query the information contained. Any simple type (atomic, list or union) will implement this interface. It inherits from XSTypeDecl. @author Sandy Gao, IBM @version $Id: XSSimpleType.java,v 1.10 2002/10/25 16:42:30 sandygao Exp $

    //The normalized value of a string value
    String normalizedValue = validatedInfo.normalizedValue ;


    //If the type is a union type, then the member type which
    //actually validated the string value.
    XSSimpleType memberType = validatedInfo.memberType ;


    return validatedInfo;


}//validateString()

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    System.err.println("'base type definition' target namespace : " + ( baseType != null ? baseType.getNamespace() : "null" )   );


    //check if base type is simple or complex
    if(baseType != null && (baseType.getTypeCategory() == XSTypeDefinition.SIMPLE_TYPE) ){
        //now we can get all the details of base type
        XSSimpleType simpleTypeDecl = (XSSimpleType)baseType;
    }


    // 'facets' property
    // gives bit combination of the constants defined in XSSimpleType interface.
    short facets = simpleType.getDefinedFacets() ;
    printFacets(facets);


    //'final' property
    //the explicit values of this property extension, restriction, list and union prevent further
    //derivations by extension (to yield a complex type) and restriction (to yield a simple type)
    //and use in constructing lists and unions respectively.
    short finalSet = simpleType.getFinal() ;
    printFinal(finalSet);


    //if variety is 'list'
    if( variety == XSSimpleType.VARIETY_LIST ){
        // 'Item Type definition' property of List Simple Type Definition Schema Component.
        XSSimpleType listDecl = (XSSimpleType)simpleType.getItemType();
    }else if(variety == XSSimpleType.VARIETY_UNION ){
        // 'Member Type definitions' property of Union Simple Type Definition Schema Component.
        XSObjectList memberTypes = simpleType.getMemberTypes();
    }

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public static void main(String [] args){


    SimpleTypeUsage usage = new SimpleTypeUsage();


    if(args.length == 1 ){         
        XSSimpleType builtInType = factory.getBuiltInType(args[0]);
        if(builtInType == null){
            System.err.println("Invalid built-in Simple datatype given as argument.");
            printUsage();
        }
        else {

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                // 4 attributes, so initialize the size as 4*2 = 8
                fGlobalAttrDecls  = new SymbolHash(8);
                String name = null;
                String tns = null;
                XSSimpleType type = null;
                short scope = XSConstants.SCOPE_GLOBAL;
                
                // xsi:type
                name = SchemaSymbols.XSI_TYPE;
                tns = SchemaSymbols.URI_XSI;
                type = schemaFactory.getBuiltInType(SchemaSymbols.ATTVAL_QNAME);
                fGlobalAttrDecls.put(name, new BuiltinAttrDecl(name, tns, type, scope));
                
                // xsi:nil
                name = SchemaSymbols.XSI_NIL;
                tns = SchemaSymbols.URI_XSI;
                type = schemaFactory.getBuiltInType(SchemaSymbols.ATTVAL_BOOLEAN);
                fGlobalAttrDecls.put(name, new BuiltinAttrDecl(name, tns, type, scope));
                
                XSSimpleType anyURI = schemaFactory.getBuiltInType(SchemaSymbols.ATTVAL_ANYURI);
    
                // xsi:schemaLocation
                name = SchemaSymbols.XSI_SCHEMALOCATION;
                tns = SchemaSymbols.URI_XSI;
                type = schemaFactory.createTypeList(null, SchemaSymbols.URI_XSI, (short)0, anyURI, null);

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                // xpath values are validated in xpath parser
                if (oneAttr.dvIndex >= 0) {
                    if (oneAttr.dvIndex != DT_STRING &&
                        oneAttr.dvIndex != DT_XPATH &&
                        oneAttr.dvIndex != DT_XPATH1) {
                        XSSimpleType dv = fExtraDVs[oneAttr.dvIndex];
                        Object avalue = dv.validate(attrVal, schemaDoc.fValidationContext, null);
                        // kludge to handle chameleon includes/redefines...
                        if (oneAttr.dvIndex == DT_QNAME) {
                            QName qname = (QName)avalue;
                            if(qname.prefix == XMLSymbols.EMPTY_STRING && qname.uri == null && schemaDoc.fIsChameleonSchema)
                                qname.uri = schemaDoc.fTargetNamespace;

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                                SchemaGrammar grammar) {


        // General Attribute Checking
        Object[] attrValues = fAttrChecker.checkAttributes(elmNode, true, schemaDoc);
        String nameAtt = (String)attrValues[XSAttributeChecker.ATTIDX_NAME];
        XSSimpleType type = traverseSimpleTypeDecl(elmNode, attrValues, schemaDoc, grammar);
        fAttrChecker.returnAttrArray(attrValues, schemaDoc);


        // if it's a global type without a name, return null
        if (nameAtt == null) {
            reportSchemaError("s4s-att-must-appear", new Object[]{SchemaSymbols.ELT_SIMPLETYPE, SchemaSymbols.ATT_NAME}, elmNode);

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                               XSDocumentInfo schemaDoc,
                               SchemaGrammar grammar) {


        // General Attribute Checking
        Object[] attrValues = fAttrChecker.checkAttributes(elmNode, false, schemaDoc);
        XSSimpleType type = traverseSimpleTypeDecl (elmNode, attrValues, schemaDoc, grammar);
        fAttrChecker.returnAttrArray(attrValues, schemaDoc);


        return type;
    }

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                content = DOMUtil.getNextSiblingElement(content);
            }
        }


        // get base type from "base" attribute
        XSSimpleType baseValidator = null;
        if ((restriction || list) && baseTypeName != null) {
            baseValidator = findDTValidator(child, name, baseTypeName, refType, schemaDoc);
            // if its the built-in type, return null from here
            if (baseValidator == null && fIsBuiltIn) {
                fIsBuiltIn = false;
                return null;
            }
        }


        // get types from "memberTypes" attribute
        Vector dTValidators = null;
        XSSimpleType dv = null;
        XSObjectList dvs;
        if (union && memberTypes != null && memberTypes.size() > 0) {
            int size = memberTypes.size();
            dTValidators = new Vector(size, 2);
            // for each qname in the list
            for (int i = 0; i < size; i++) {
                // get the type decl
                dv = findDTValidator(child, name, (QName)memberTypes.elementAt(i),
                                     XSConstants.DERIVATION_UNION, schemaDoc);
                if (dv != null) {
                    // if it's a union, expand it
                    if (dv.getVariety() == XSSimpleType.VARIETY_UNION) {
                        dvs = dv.getMemberTypes();
                        for (int j = 0; j < dvs.getLength(); j++)
                            dTValidators.addElement(dvs.item(j));
                    } else {
                        dTValidators.addElement(dv);
                    }
                }
            }
        }


        // when there is an error finding the base type of a restriction
        // we use anySimpleType as the base, then we should skip the facets,
        // because anySimpleType doesn't recognize any facet.
        boolean skipFacets = false;
        
        // check if there is a child "simpleType"
        if (content != null && DOMUtil.getLocalName(content).equals(SchemaSymbols.ELT_SIMPLETYPE)) {
            if (restriction || list) {
                // it's an error for both "base" and "simpleType" to appear
                if (baseTypeName != null) {
                    reportSchemaError(list ? "src-simple-type.3.a" : "src-simple-type.2.a", null, content);
                }
                else {
                    // traver this child to get the base type
                    baseValidator = traverseLocal(content, schemaDoc, grammar);
                }
                // get the next element
                content = DOMUtil.getNextSiblingElement(content);
            }
            else if (union) {
                if (dTValidators == null) {
                    dTValidators = new Vector(2, 2);
                }
                do {
                    // traver this child to get the member type
                    dv = traverseLocal(content, schemaDoc, grammar);
                    if (dv != null) {
                        // if it's a union, expand it
                        if (dv.getVariety() == XSSimpleType.VARIETY_UNION) {
                            dvs = dv.getMemberTypes();
                            for (int j = 0; j < dvs.getLength(); j++)
                                dTValidators.addElement(dvs.item(j));
                        } else {
                            dTValidators.addElement(dv);
                        }
                    }
                    // get the next element
                    content = DOMUtil.getNextSiblingElement(content);
                } while (content != null && DOMUtil.getLocalName(content).equals(SchemaSymbols.ELT_SIMPLETYPE));
            }
        }
        else if ((restriction || list) && baseTypeName == null) {
            // it's an error if neither "base" nor "simpleType" appears
      reportSchemaError(list ? "src-simple-type.3.b" : "src-simple-type.2.b", null, child);
            // base can't be found, skip the facets.
            skipFacets = true;
            baseValidator = SchemaGrammar.fAnySimpleType;
        }
        else if (union && (memberTypes == null || memberTypes.size() == 0)) {
            // it's an error if "memberTypes" is empty and no "simpleType" appears
            reportSchemaError("src-union-memberTypes-or-simpleTypes", null, child);
            dTValidators = new Vector(1);
            dTValidators.addElement(SchemaGrammar.fAnySimpleType);
        }


        // error finding "base" or error traversing "simpleType".
        // don't need to report an error, since some error has been reported.
        if ((restriction || list) && baseValidator == null) {
            baseValidator = SchemaGrammar.fAnySimpleType;
        }
        // error finding "memberTypes" or error traversing "simpleType".
        // don't need to report an error, since some error has been reported.
        if (union && (dTValidators == null || dTValidators.size() == 0)) {
            dTValidators = new Vector(1);
            dTValidators.addElement(SchemaGrammar.fAnySimpleType);
        }


        // item type of list types can't have list content
    if (list && isListDatatype(baseValidator)) {
      reportSchemaError("cos-st-restricts.2.1", new Object[]{name, baseValidator.getName()}, child);
    }
        
        // create the simple type based on the "base" type
        XSSimpleType newDecl = null;
        if (restriction) {
            newDecl = schemaFactory.createTypeRestriction(name, schemaDoc.fTargetNamespace, (short)finalProperty, baseValidator, 
                annotations == null? null : new XSObjectListImpl(annotations, annotations.length));
        }
        else if (list) {
            newDecl = schemaFactory.createTypeList(name, schemaDoc.fTargetNamespace, (short)finalProperty, baseValidator,
                annotations == null? null : new XSObjectListImpl(annotations, annotations.length));
        }
        else if (union) {
            XSSimpleType[] memberDecls = new XSSimpleType[dTValidators.size()];
            for (int i = 0; i < dTValidators.size(); i++)
                memberDecls[i] = (XSSimpleType)dTValidators.elementAt(i);
            newDecl = schemaFactory.createTypeUnion(name, schemaDoc.fTargetNamespace, (short)finalProperty, memberDecls,
                annotations == null? null : new XSObjectListImpl(annotations, annotations.length));
        }


        // now traverse facets, if it's derived by restriction
        if (restriction && content != null) {
            FacetInfo fi = traverseFacets(content, baseValidator, schemaDoc);
            content = fi.nodeAfterFacets;


            if (!skipFacets) {
                try {
                    fValidationState.setNamespaceSupport(schemaDoc.fNamespaceSupport);
                    newDecl.applyFacets(fi.facetdata, fi.fPresentFacets, fi.fFixedFacets, fValidationState);
                } catch (InvalidDatatypeFacetException ex) {
                    reportSchemaError(ex.getKey(), ex.getArgs(), child);
                }
            }
        }

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            annotation = traverseAnnotationDecl(child, attrValues, false, schemaDoc);
            child = DOMUtil.getNextSiblingElement(child);
        }


        // get 'type definition'
        XSSimpleType attrType = null;
        boolean haveAnonType = false;


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


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


        // Handler 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 (attrType == null) {
            attrType = SchemaGrammar.fAnySimpleType;
        }


        attribute.setValues(nameAtt, tnsAtt, attrType,
            constraintType, scope, attDefault, enclCT, annotation);


        // Step 2: register attribute decl to the grammar
        if (isGlobal && nameAtt != null)
            grammar.addGlobalAttributeDecl(attribute);


        // Step 3: check against schema for schemas


        // required attributes
        if (nameAtt == null) {
            if (isGlobal)
                reportSchemaError("s4s-att-must-appear", new Object[]{SchemaSymbols.ELT_ATTRIBUTE, SchemaSymbols.ATT_NAME}, attrDecl);
            else
                reportSchemaError("src-attribute.3.1", null, attrDecl);
            nameAtt = NO_NAME;
        }


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


        // Step 4: check 3.2.3 constraints


        // src-attribute


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


        // 2 If default and use are both present, use must have the actual value optional.
        // This is checked in "traverse" method


        // 3 If the item's parent is not <schema>, then all of the following must be true:
        // 3.1 One of ref or name must be present, but not both.
        // This is checked in XSAttributeChecker


        // 3.2 If ref is present, then all of <simpleType>, form and type must be absent.
        // Attributes are checked in XSAttributeChecker, elements are checked in "traverse" method


        // 4 type and <simpleType> must not both be present.
        if (haveAnonType && (typeAtt != null)) {
            reportSchemaError( "src-attribute.4", new Object[]{nameAtt}, attrDecl);
        }


        // Step 5: check 3.2.6 constraints
        // check for NOTATION type
        checkNotationType(nameAtt, attrType, attrDecl);


        // a-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 String Valid (3.14.4).
        if (attDefault != null) {
            fValidationState.setNamespaceSupport(schemaDoc.fNamespaceSupport);
      try {
        checkDefaultValid(attribute);
      }
      catch (InvalidDatatypeValueException ide) {
        reportSchemaError (ide.getKey(), ide.getArgs(), attrDecl);
        reportSchemaError ("a-props-correct.2", new Object[]{nameAtt, attDefault.normalizedValue}, attrDecl);
      }
        }


        // 3 If the {type definition} is or is derived from ID then there must not be a {value constraint}.
        if (attDefault != null) {
            if (attrType.isIDType() ) {
                reportSchemaError ("a-props-correct.3", new Object[]{nameAtt}, attrDecl);
            }
        }


        // no-xmlns

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            return false;
        }


        // 2.2 One of the following must be true:
        // 2.2.1 D's base type definition is B.
        XSSimpleType directBase = (XSSimpleType)derived.getBaseType();
        if (directBase == base)
            return true;


        // 2.2.2 D's base type definition is not the simple ur-type definition and is validly derived from B given the subset, as defined by this constraint.
        if (directBase != SchemaGrammar.fAnySimpleType &&

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