Examples of org.eclipse.persistence.internal.oxm.schema.model.ComplexType

Package org.eclipse.persistence.internal.oxm.schema.model

Examples of org.eclipse.persistence.internal.oxm.schema.model.ComplexType

org.eclipse.persistence.internal.oxm.schema.model.ComplexType

        for (Property next : properties) {
            if (next == null) { continue; }
            Schema currentSchema = workingSchema;
            TypeDefParticle parentCompositor = compositor;
            boolean isChoice = (parentCompositor instanceof Choice);
            ComplexType parentType = type;
            // ignore transient and inverse reference/non-writeable properties          
            if(!next.isTransient() && !(next.isInverseReference() && !next.isWriteableInverseReference())){          
                // handle xml extensions
                if (next.isVirtual()) {
                    boolean extSchemaAny = false;
                    if (ownerTypeInfo.getXmlVirtualAccessMethods().getSchema() != null) {
                        extSchemaAny = ownerTypeInfo.getXmlVirtualAccessMethods().getSchema().equals(XmlVirtualAccessMethodsSchema.ANY);
                    }
                    if (extSchemaAny && !next.isAttribute()) {
                        if (!extAnyAdded) {
                            addAnyToSchema(next, compositor, true, Constants.ANY_NAMESPACE_ANY);
                            extAnyAdded = true;
                            continue;
                        } else {
                            // any already added
                            continue;
                        }
                    } else {
                        // proceed, adding the schema element as usual
                    }
                }
                // handle transformers
                if (next.isSetXmlTransformation() && next.getXmlTransformation().isSetXmlWriteTransformers()) {
                    addTransformerToSchema(next, ownerTypeInfo, compositor, type, workingSchema);
                    continue;
                }
                // handle XmlJoinNodes
                if (next.isSetXmlJoinNodes()) {
                    addXmlJoinNodesToSchema(next, parentCompositor, currentSchema, parentType);
                    continue;
                }
                // deal with xml-path case
                if (next.getXmlPath() != null) {
                    // create schema components based on the XmlPath
                    AddToSchemaResult xpr = addXPathToSchema(next, parentCompositor, currentSchema, isChoice, type);
                    // if the returned object or schema component is null there is nothing to do
                    if (xpr == null || ((parentCompositor = xpr.particle) == null && xpr.simpleContentType == null)) {
                        continue; 
                    }
                    // now process the property as per usual, adding to the created schema component
                    if(xpr.schema == null) {
                        //if there's no schema, this may be a ref to an attribute in an ungenerated schema
                        //no need to generate the attribute in the target schema
                        continue;
                    }
                    currentSchema = xpr.schema;
                    if(parentCompositor == null) {
                        parentType = xpr.simpleContentType;
                    } else if (parentCompositor.getOwner() instanceof ComplexType) {
                        parentType = ((ComplexType)parentCompositor.getOwner());
                    }
                // deal with the XmlElementWrapper case
                } else if (!isChoice && !next.isMap() && next.isSetXmlElementWrapper()) {
                    AddToSchemaResult asr = addXmlElementWrapperToSchema(next, currentSchema, compositor);
                    // if returned object is null there is nothing to do
                    if (asr == null) {
                        continue;
                    }
                    // the returned object contains ComplexType and TypeDefParticles to use
                    parentType = asr.type;
                    parentCompositor = asr.particle;
                }
                // handle mixed content
                if (next.isMixedContent()) {
                    parentType.setMixed(true);
                }
                // handle attribute
                if (next.isAttribute() && !next.isAnyAttribute()) {
                    addAttributeToSchema(buildAttribute(next, currentSchema), next.getSchemaName(), currentSchema, parentType);
                // handle any attribute

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                                    typeName = type.getSimpleType().getName();
                                }
                                // may need an anonymous complex type
                                if (typeName == null) {
                                    Schema schema = getSchemaForNamespace(next.getNamespaceURI());
                                    ComplexType cType = createComplexTypeForClass(javaClass, type);
                                    TypeDefParticle particle = null;
                                    if(cType.getComplexContent() != null && cType.getComplexContent().getExtension() != null) {
                                        particle = cType.getComplexContent().getExtension().getTypeDefParticle();
                                    } else {
                                        particle = cType.getTypeDefParticle();
                                    }
                                    addToSchemaType(type, type.getPropertyList(), particle, cType, schema);
                                    targetSchema = schema;
                                    element.setComplexType(cType);
                                } else {

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        boolean currentElementExists = (currentElement != null);


        if (!currentElementExists) {
            currentElement = new Element();
            // don't set the element name yet, as it may end up being a ref
            ComplexType cType = new ComplexType();
            TypeDefParticle particle = null;
            if (isChoice) {
                particle = new Choice();
                if (isUnbounded) {
                    particle.setMaxOccurs(Occurs.UNBOUNDED);
                }
            } else {
                XPathFragment nextFragment = frag.getNextFragment();
                if (frag.containsIndex() || frag.getPredicate() != null || (!next.isXmlList() && null != nextFragment && nextFragment.isAttribute() && helper.isCollectionType(next.getType()))) {
                    currentElement.setMaxOccurs(Occurs.UNBOUNDED);
                }
                particle = new Sequence();
            }
            cType.setTypeDefParticle(particle);
            currentElement.setComplexType(cType);
        } else {
            //if the current element already exists, we may need to change it's type
            XPathFragment nextFrag = frag.getNextFragment();
            if(nextFrag != null && nextFrag.isAttribute()) {
                if(currentElement.getType() != null && currentElement.getComplexType() == null) {
                    //there's already a text mapping to this element, so 
                    //attributes can be added by making it complex with 
                    //simple content.
                    SimpleType type = currentElement.getSimpleType();
                    if(type != null) {
                        ComplexType cType = new ComplexType();
                        cType.setSimpleContent(new SimpleContent());
                        Extension extension = new Extension();
                        extension.setBaseType(type.getRestriction().getBaseType());
                        cType.getSimpleContent().setExtension(extension);
                        currentElement.setSimpleType(null);
                        currentElement.setComplexType(cType);
                    } else {
                        String eType = currentElement.getType();
                        ComplexType cType = new ComplexType();
                        SimpleContent sContent = new SimpleContent();
                        Extension extension = new Extension();
                        extension.setBaseType(eType);
                        sContent.setExtension(extension);
                        cType.setSimpleContent(sContent);
                        currentElement.setType(null);
                        currentElement.setComplexType(cType);
                    }                
                }
            }
        }
        // may need to create a ref, depending on the namespace
        Element globalElement = null;


        String fragUri = frag.getNamespaceURI();
        if (fragUri != null) {
            Schema fragSchema = getSchemaForNamespace(fragUri);
            String targetNS = workingSchema.getTargetNamespace();
            
            // handle Attribute case
            if (frag.isAttribute()) {
                if (fragSchema == null || (fragSchema.isAttributeFormDefault() && !fragUri.equals(targetNS)) || (!fragSchema.isAttributeFormDefault() && fragUri.length() > 0)) {
                    // must generate a global attribute and create a reference to it
                    // if the global attribute exists, use it; otherwise create a new one
                    // if fragSchema is null, just generate the ref
                    if(fragSchema != null) {
                        Attribute globalAttribute = null;
                        globalAttribute = (Attribute) fragSchema.getTopLevelAttributes().get(frag.getLocalName());
                        if (globalAttribute == null) {
                            globalAttribute = createGlobalAttribute(frag, workingSchema, fragSchema, next);
                        }
                    } else {
                        //may need to add an import
                        addImportIfRequired(workingSchema, fragSchema, fragUri);
                    }
                    // add the attribute ref to the current element
                    String attributeRefName;
                    if (fragUri.equals(targetNS)) {
                        String prefix = fragSchema.getNamespaceResolver().resolveNamespaceURI(fragUri);
                        attributeRefName = prefix + COLON + frag.getLocalName();
                    } else {
                        attributeRefName = frag.getShortName();
                    }
                    TypeDefParticleOwner type;
                    if(currentParticle != null) {
                        type = currentParticle.getOwner();
                    } else {
                        type = xpr.simpleContentType;
                    }
                    if (type instanceof ComplexType) {
                        createRefAttribute(attributeRefName, (ComplexType)type);
                    }
                    // set the frag's schema as it may be different than the current schema
                    xpr.schema = fragSchema;
                    // ref case - indicate to the calling method that there's nothing to do
                    xpr.particle = null;
                }
                // since we are dealing with an attribute, we are on the last fragment; return
                return xpr;
            }
            
            // here we are dealing with an Element
            if ((fragSchema.isElementFormDefault() && !fragUri.equals(targetNS)) || (!fragSchema.isElementFormDefault() && fragUri.length() > 0)) {
                // must generate a global element and create a reference to it
                // if the global element exists, use it; otherwise create a new one
                globalElement = (Element) fragSchema.getTopLevelElements().get(frag.getLocalName());
                if (globalElement == null) {
                    globalElement = createGlobalElement(frag, workingSchema, fragSchema, isChoice, isUnbounded, next, (lastFrag && !isAny)); 
                }
                // if the current element doesn't exist set a ref and add it to the sequence
                if (!currentElementExists) {
                    // use prefix from the working schema's resolver - add prefix/uri pair if necessary
                    String fragPrefix = workingSchema.getNamespaceResolver().resolveNamespaceURI(fragUri);
                    if (fragPrefix == null) {
                        fragPrefix = workingSchema.getNamespaceResolver().generatePrefix(frag.getPrefix());
                        workingSchema.getNamespaceResolver().put(fragPrefix, fragUri);
                    }
                    currentElement = createRefElement(fragPrefix + COLON + frag.getLocalName(), currentParticle);
                    if (frag.containsIndex() || frag.getPredicate() != null || helper.isCollectionType(next.getType())) {
                        currentElement.setMaxOccurs(Occurs.UNBOUNDED);
                    }
                    currentElementExists = true;
                }
                // set the frag's schema as it may be different than the current schema
                xpr.schema = fragSchema;
                // at this point, if we are dealing with the last fragment we will need to return
                if (lastFrag) {
                    // since we processed the last frag, return null so the calling method doesn't
                    // add a second one...unless we're dealing with an 'any'
                    if (isAny) {
                        // set the particle that the 'any' will be added to by the calling method
                        xpr.particle = globalElement.getComplexType().getTypeDefParticle();
                        return xpr;
                    }
                    // ref case - indicate to the calling method that there's nothing to do
                    xpr.particle = null;
                    return xpr;
                }
                // make the global element current 
                currentElement = globalElement;
            }
        }
        if (!lastFrag || (lastFrag && isAny)) {
            // if we didn't process a global element, and the current element isn't already in the sequence, add it 
            if (!currentElementExists && globalElement == null) {
                currentElement.setName(frag.getLocalName());
                currentElement.setMinOccurs(Occurs.ZERO);
                currentParticle.addElement(currentElement);
            }
            // set the correct particle to use/return
            if(currentElement.getComplexType() != null) {
                if(currentElement.getComplexType().getTypeDefParticle() == null) {
                    //complexType with simple-content
                    xpr.simpleContentType = currentElement.getComplexType();
                    xpr.particle = null;
                } else {
                    xpr.particle = currentElement.getComplexType().getTypeDefParticle();
                }
            } else {
                //If there's no complex type, we're building the path through an element with
                //a simple type. In order to build the path through this
                //element, switch to a complex type with simple content.
                SimpleType type = currentElement.getSimpleType();
                if(type != null) {
                    ComplexType cType = new ComplexType();
                    cType.setSimpleContent(new SimpleContent());
                    Extension extension = new Extension();
                    extension.setBaseType(type.getRestriction().getBaseType());
                    cType.getSimpleContent().setExtension(extension);
                    currentElement.setSimpleType(null);
                    currentElement.setComplexType(cType);
                    xpr.particle = null;
                    xpr.simpleContentType = cType;
                } else {
                    String eType = currentElement.getType();
                    ComplexType cType = new ComplexType();
                    SimpleContent sContent = new SimpleContent();
                    Extension extension = new Extension();
                    extension.setBaseType(eType);
                    sContent.setExtension(extension);
                    cType.setSimpleContent(sContent);
                    currentElement.setType(null);
                    currentElement.setComplexType(cType);
                    xpr.particle = null;
                    xpr.simpleContentType = cType;
                }

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        Element gElement = new Element();
        gElement.setName(frag.getLocalName());
        if (shouldSetType) {
            gElement.setType(getQualifiedTypeName(prop, fragSchema));
        } else {
            ComplexType gCType = new ComplexType();
            TypeDefParticle particle;
            if (isChoice) {
                particle = new Choice();
                if (isUnbounded) {
                    particle.setMaxOccurs(Occurs.UNBOUNDED);
                }
            } else {
                particle = new Sequence();
            }
            gCType.setTypeDefParticle(particle);
            gElement.setComplexType(gCType);
        }
        fragSchema.addTopLevelElement(gElement);
        addImportIfRequired(workingSchema, fragSchema, frag.getNamespaceURI());
        return gElement;

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            wrapperElement.setMinOccurs(Occurs.ONE);
        } else {
            wrapperElement.setMinOccurs(Occurs.ZERO);
        }
        compositor.addElement(wrapperElement);
        ComplexType wrapperType = new ComplexType();
        Sequence wrapperSequence = new Sequence();
        wrapperType.setSequence(wrapperSequence);
        wrapperElement.setComplexType(wrapperType);
        return new AddToSchemaResult(wrapperSequence, wrapperType);
    }

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     * @param element schema Element a new complex type will be added to
     * @param schema the schema being built
     * @param typeInfo the TypeInfo that the given property belongs to
     */
    private void addMapToSchema(Property property, Element element, Schema schema, TypeInfo typeInfo) {
        ComplexType entryComplexType = new ComplexType();
        Sequence entrySequence = new Sequence();


        Element keyElement = new Element();
        keyElement.setName(Property.DEFAULT_KEY_NAME);
        keyElement.setMinOccurs(Occurs.ZERO);


        JavaClass keyType = property.getKeyType();
        JavaClass valueType = property.getValueType();
                          
        if (keyType == null) {
            keyType = helper.getJavaClass(Object.class);
        }
        
        if (valueType == null) {
            valueType = helper.getJavaClass(Object.class);
        }
        
        String typeName;
        QName keySchemaType = getSchemaTypeFor(keyType);
        if (keySchemaType != null) {
            TypeInfo targetInfo = this.typeInfo.get(keyType.getQualifiedName());
            if (targetInfo != null) {
                Schema keyElementSchema = this.getSchemaForNamespace(keySchemaType.getNamespaceURI());
                //add an import here
                addImportIfRequired(schema, keyElementSchema, keySchemaType.getNamespaceURI());
            }
            String prefix;
            if (keySchemaType.getNamespaceURI().equals(javax.xml.XMLConstants.W3C_XML_SCHEMA_NS_URI)) {
                prefix = Constants.SCHEMA_PREFIX;
            } else {
                prefix = getPrefixForNamespace(schema, keySchemaType.getNamespaceURI());
            }
            if (prefix != null && !prefix.equals(EMPTY_STRING)) {
                typeName = prefix + COLON + keySchemaType.getLocalPart();
            } else {
                typeName = keySchemaType.getLocalPart();
            }
            keyElement.setType(typeName);
        }


        entrySequence.addElement(keyElement);


        Element valueElement = new Element();
        valueElement.setName(Property.DEFAULT_VALUE_NAME);
        valueElement.setMinOccurs(Occurs.ZERO);
        QName valueSchemaType = getSchemaTypeFor(valueType);
        if (valueSchemaType != null) {
            TypeInfo targetInfo = this.typeInfo.get(valueType.getQualifiedName());
            if (targetInfo != null) {
                Schema valueElementSchema = this.getSchemaForNamespace(valueSchemaType.getNamespaceURI());
                //add an import here
                addImportIfRequired(schema, valueElementSchema, valueSchemaType.getNamespaceURI());
            }
            String prefix;
            if (valueSchemaType.getNamespaceURI().equals(javax.xml.XMLConstants.W3C_XML_SCHEMA_NS_URI)) {
                prefix = Constants.SCHEMA_PREFIX;
            } else {
                prefix = getPrefixForNamespace(schema, valueSchemaType.getNamespaceURI());
            }
            if (prefix != null && !prefix.equals(EMPTY_STRING)) {
                typeName = prefix + COLON + valueSchemaType.getLocalPart();
            } else {
                typeName = valueSchemaType.getLocalPart();
            }
            valueElement.setType(typeName);
        }


        entrySequence.addElement(valueElement);
        entryComplexType.setSequence(entrySequence);


        JavaClass descriptorClass = helper.getJavaClass(typeInfo.getDescriptor().getJavaClassName());
        JavaClass mapValueClass = helper.getJavaClass(MapValue.class);


        if (mapValueClass.isAssignableFrom(descriptorClass)) {
            element.setComplexType(entryComplexType);
            element.setMaxOccurs(Occurs.UNBOUNDED);
        } else {
            ComplexType complexType = new ComplexType();
            Sequence sequence = new Sequence();
            complexType.setSequence(sequence);


            Element entryElement = new Element();
            entryElement.setName(ENTRY);
            entryElement.setMinOccurs(Occurs.ZERO);
            entryElement.setMaxOccurs(Occurs.UNBOUNDED);

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     * @param properties
     * @param descriptors
     * @return
     */
    protected ComplexType buildComplexType(boolean anonymous, XMLDescriptor desc,  HashMap<String, Schema> schemaForNamespace, Schema workingSchema, SchemaModelGeneratorProperties properties, List<XMLDescriptor> descriptors) {
        ComplexType ct = new ComplexType();
        if (!anonymous) {
            ct.setName(desc.getSchemaReference().getSchemaContextAsQName(workingSchema.getNamespaceResolver()).getLocalPart());
        }


        InheritancePolicy inheritancePolicy = desc.getInheritancePolicyOrNull();
        Extension extension = null;
        if (inheritancePolicy != null && inheritancePolicy.getParentClass() != null) {
            extension = new Extension();
            extension.setBaseType(desc.getSchemaReference().getSchemaContextAsQName(workingSchema.getNamespaceResolver()).getLocalPart());
            ComplexContent complexContent = new ComplexContent();
            complexContent.setExtension(extension);
            ct.setComplexContent(complexContent);
        }
        Sequence seq = new Sequence();
        for (DatabaseMapping mapping : desc.getMappings()) {
            processMapping(mapping, seq, ct, schemaForNamespace, workingSchema, properties, descriptors);
        }
        if (extension != null) {
            extension.setSequence(seq);
        } else {
            ct.setSequence(seq);
        }
        return ct;
    }

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     * @param properties
     * @param descriptors
     * @return
     */
    private ComplexType buildComplexTypeWithSimpleContent(XMLDescriptor desc,  HashMap<String, Schema> schemaForNamespace, Schema workingSchema, SchemaModelGeneratorProperties properties, List<XMLDescriptor> descriptors) {
        ComplexType ct = new ComplexType();
        SimpleContent sc = new SimpleContent();
        Extension extension = new Extension();
        sc.setExtension(extension);
      ct.setSimpleContent(sc);
        for (DatabaseMapping mapping : desc.getMappings()) {
          XMLField xFld = (XMLField) mapping.getField();
          if (xFld.getXPath().equals(TEXT)) {
            extension.setBaseType(getSchemaTypeForDirectMapping((XMLDirectMapping) mapping, workingSchema));
          } else if (xFld.getXPathFragment().isAttribute()) {

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        XPathFragment frag = xmlField.getXPathFragment();
      seq = buildSchemaComponentsForXPath(frag, seq, schemaForNamespace, workingSchema, properties);
      frag = getTargetXPathFragment(frag);
      
        Element element = buildElement(frag, null, Occurs.ZERO, (collection ? Occurs.UNBOUNDED : null));
        ComplexType ctype = null;
        
        // if the reference descriptor's schema context is null we need to generate an anonymous complex type
        if (refDesc.getSchemaReference() == null) {
            ctype = buildComplexType(true, refDesc, schemaForNamespace, workingSchema, properties, descriptors);
        } else {

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    Element currentElement = elementExistsInSequence(frag.getLocalName(), frag.getShortName(), currentSequence);
    boolean currentElementExists = (currentElement != null);
    if (currentElement == null) {
            currentElement = new Element();
          // don't set the element name yet, as it may end up being a ref
            ComplexType cType = new ComplexType();
            Sequence sequence = new Sequence();
            cType.setSequence(sequence);
            currentElement.setComplexType(cType);
    }
    
      Element globalElement = null;
      String fragUri = frag.getNamespaceURI();
      if (fragUri != null) {
            Schema s = getSchema(fragUri, null, schemaForNamespace, properties);
            String targetNS = workingSchema.getTargetNamespace();
            if ((s.isElementFormDefault() && !fragUri.equals(targetNS)) || (!s.isElementFormDefault() && fragUri.length() > 0)) {
                // must generate a global element are create a reference to it
            // if the global element exists, use it; otherwise create a new one
              globalElement = (Element) s.getTopLevelElements().get(frag.getLocalName());
                if (globalElement == null) {
                    globalElement = new Element();
                    globalElement.setName(frag.getLocalName());
                    ComplexType gCType = new ComplexType();
                    Sequence gSequence = new Sequence();
                    gCType.setSequence(gSequence);
                    globalElement.setComplexType(gCType);
                    s.addTopLevelElement(globalElement);
                }
                // if the current element doesn't exist set a ref and add it to the sequence
                if (!currentElementExists) {

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