Examples of org.eclipse.persistence.internal.jpa.metadata.accessors.classes.ClassAccessor

• org.eclipse.persistence.internal.jpa.metadata.accessors.classes.ClassAccessor
  INTERNAL: A abstract class accessor. Holds common metadata for entities, embeddables and mapped superclasses. @author Guy Pelletier @since TopLink EJB 3.0 Reference Implementation

            if (referenceDescriptor.isInheritanceSubclass()) {
                referenceDescriptor = referenceDescriptor.getInheritanceRootDescriptor();
            }
        } else {
            ClassAccessor accessor = getProject().getAccessor(getReferenceClassName());
            referenceDescriptor = (accessor != null) ? accessor.getDescriptor() : null;
            if (referenceDescriptor == null) {
                MetadataProcessor compositeProcessor = getProject().getCompositeProcessor();
                if (compositeProcessor != null) {
                    for (MetadataProject pearProject : compositeProcessor.getPearProjects(getProject())) {
                        accessor = pearProject.getAccessor(getReferenceClassName());
                        if (accessor != null) {
                            referenceDescriptor = accessor.getDescriptor();
                            break;
                        }
                    }
                }
            }

     * INTERNAL:
     * Used to process primary keys and DerivedIds.
     */
    protected MetadataClass getSimplePKType(){
        MetadataDescriptor referenceDescriptor = getReferenceDescriptor();
        ClassAccessor referenceAccessor = referenceDescriptor.getClassAccessor();

        if (referenceAccessor.hasDerivedId()) {
            // Referenced object has a derived ID and must be a simple pk type.
            // Recurse through to get the simple type.
            return ((ObjectAccessor) referenceDescriptor.getMappingAccessor(referenceDescriptor.getIdAttributeName())).getSimplePKType();
        } else {
            // Validate on their basic mapping.

     * INTERNAL:
     * Used to process primary keys and DerivedIds.
     */
    protected MetadataClass getSimplePKType(){
        MetadataDescriptor referenceDescriptor = getReferenceDescriptor();
        ClassAccessor referenceAccessor = referenceDescriptor.getClassAccessor();

        if (referenceAccessor.hasDerivedId()) {
            // Referenced object has a derived ID and must be a simple pk type.
            // Recurse through to get the simple type.
            return ((ObjectAccessor) referenceDescriptor.getAccessorFor(referenceDescriptor.getIdAttributeName())).getSimplePKType();
        } else {
            // Validate on their basic mapping.

     * INTERNAL:
     * Used to process primary keys and DerivedIds.
     */
    public void processKey(HashSet<ClassAccessor> processing, HashSet<ClassAccessor> processed){
        MetadataDescriptor referenceDescriptor = getReferenceDescriptor();
        ClassAccessor referenceAccessor = referenceDescriptor.getClassAccessor();

        if (!processed.contains(referenceAccessor)){
            referenceAccessor.processDerivedIDs(processing, processed);
        }

        processRelationship();
        String attributeName = getAttributeName();

        // If this entity has a pk class, we need to validate our ids.
        String keyname = referenceDescriptor.getPKClassName();

        if (keyname != null) {
            // They have a pk class
            String ourpkname = this.getDescriptor().getPKClassName();
            if (ourpkname == null){
                throw ValidationException.invalidCompositePKSpecification(getJavaClass(), ourpkname);
            }

            if (! ourpkname.equals(keyname)){
                // Validate our pk contains their pk.
                getOwningDescriptor().validatePKClassId(attributeName, referenceDescriptor.getPKClass());
            } else {
                // This pk is the reference pk, so all pk attributes are accounted through this relationship
                getOwningDescriptor().getPKClassIDs().clear();
            }
        } else {
            MetadataClass type = null;
            if (referenceAccessor.hasDerivedId()){
                // Referenced object has a derived ID but no PK class defined,
                // so it must be a simple pk type. Recurse through to get the
                // simple type
                type = ((ObjectAccessor) referenceDescriptor.getAccessorFor(referenceDescriptor.getIdAttributeName())).getSimplePKType();
            } else {

     */
    protected void generateCanonicalModelClass(Element element, PersistenceUnit persistenceUnit) throws IOException {
        Writer writer = null;

        try {
            ClassAccessor accessor = persistenceUnit.getClassAccessor(element);
            String qualifiedName = accessor.getAccessibleObjectName();
            String className = getName(qualifiedName);
            String classPackage = getPackage(qualifiedName);

            String qualifiedCanonicalName = persistenceUnit.getQualifiedCanonicalName(qualifiedName);
            String canonicalName = getName(qualifiedCanonicalName);
            String canonicalpackage = getPackage(qualifiedCanonicalName);

            JavaFileObject file = processingEnv.getFiler().createSourceFile(qualifiedCanonicalName, element);
            writer = file.openWriter();

            // Print the package if we have one.
            if (! canonicalpackage.equals("")) {
                writer.append("package " + canonicalpackage + ";\n\n");
            }

            // Go through the accessor list, ignoring any transient accessors
            // to build our attributes and import list.
            ArrayList<String> attributes = new ArrayList<String>();
            HashMap<String, String> imports = new HashMap<String, String>();

            // Import the model class if the canonical class is generated elsewhere.
            if (! classPackage.equals(canonicalpackage)) {
                imports.put(className, qualifiedName);
            }

            for (MappingAccessor mappingAccessor : accessor.getDescriptor().getAccessors()) {
                if (! mappingAccessor.isTransient()) {
                    MetadataAnnotatedElement annotatedElement = mappingAccessor.getAnnotatedElement();
                    MetadataClass rawClass = annotatedElement.getRawClass(mappingAccessor.getDescriptor());

                    // NOTE: order of checking is important.
                    String attributeType;
                    String types = className;

                    if (mappingAccessor.isBasic()) {
                        types = types + ", " + getUnqualifiedType(getBoxedType(annotatedElement), imports);
                        attributeType = AttributeType.SingularAttribute.name();
                        imports.put(attributeType, "javax.persistence.metamodel.SingularAttribute");
                    } else {
                        if (rawClass.isList()) {
                            attributeType = AttributeType.ListAttribute.name();
                            imports.put(attributeType, "javax.persistence.metamodel.ListAttribute");
                        } else if (rawClass.isSet()) {
                            attributeType = AttributeType.SetAttribute.name();
                            imports.put(attributeType, "javax.persistence.metamodel.SetAttribute");
                        } else if (rawClass.isMap()) {
                            attributeType = AttributeType.MapAttribute.name();
                            imports.put(attributeType, "javax.persistence.metamodel.MapAttribute");
                        } else if (rawClass.isCollection()) {
                            attributeType = AttributeType.CollectionAttribute.name();
                            imports.put(attributeType, "javax.persistence.metamodel.CollectionAttribute");
                        } else {
                            attributeType = AttributeType.SingularAttribute.name();
                            imports.put(attributeType, "javax.persistence.metamodel.SingularAttribute");
                        }

                        if (mappingAccessor.isMapAccessor()) {
                            if (mappingAccessor.isMappedKeyMapAccessor()) {
                                MetadataClass mapKeyClass = ((MappedKeyMapAccessor) mappingAccessor).getMapKeyClass();
                                types = types + ", " + getUnqualifiedType(mapKeyClass.getName(), imports) + ", " + getUnqualifiedType(mappingAccessor.getReferenceClassName(), imports);
                            } else {
                                String mapKeyType;
                                if (annotatedElement.isGenericCollectionType()) {
                                    // Grab the map key class from the generic.
                                    mapKeyType = annotatedElement.getGenericType().get(1);
                                } else {
                                    if (mappingAccessor.getReferenceDescriptor().hasIdAccessor()) {
                                        // Grab the id type from the reference descriptor, now there's a handle!
                                        mapKeyType = mappingAccessor.getReferenceDescriptor().getIdAccessors().get(0).getAnnotatedElement().getType();
                                    } else {
                                        // We don't know at this point so just use the catch all default.
                                        mapKeyType = TypeVisitor.GENERIC_TYPE;
                                    }
                                }

                                types = types + ", " + getUnqualifiedType(mapKeyType, imports) + ", " + getUnqualifiedType(mappingAccessor.getReferenceClassName(), imports);
                            }
                        } else {
                            types = types + ", " + getUnqualifiedType(mappingAccessor.getReferenceClassName(), imports);
                        }
                    }

                    // Add the mapping attribute to the list of attributes for this class.
                    attributes.add("\tpublic static volatile " + attributeType + "<" + types + "> " + annotatedElement.getAttributeName() + ";\n");
                }
            }

            // Will import the parent as well if needed.
            String parent = writeImportStatements(imports, accessor, writer, persistenceUnit, canonicalpackage);

            // Write out the generation annotations.
            writer.append("@Generated(\"EclipseLink - " + new Date() + "\")\n");
            writer.append("@StaticMetamodel(" + className + ".class)\n");

            int modifier = accessor.getAccessibleObject().getModifiers();
            writer.append(java.lang.reflect.Modifier.toString(modifier) + " class " + canonicalName);

            if (parent == null) {
                writer.append(" { \n\n");
            } else {

    /**
     * INTERNAL:
     * Return the reference metadata descriptor for this accessor.
     */
    public MetadataDescriptor getReferenceDescriptor() {
        ClassAccessor accessor = getProject().getAccessor(getReferenceClassName());

        if (accessor == null) {
            throw ValidationException.classNotListedInPersistenceUnit(getReferenceClassName());
        }

        return accessor.getDescriptor();
    }

            // Finally loop through descriptors and set sequences as required
            // into Descriptors and Login
            boolean usesAuto = false;
            for (MetadataClass entityClass : m_generatedValues.keySet()) {
                // 266912: skip setting sequences if our accessor is null for mappedSuperclasses
                ClassAccessor accessor = m_allAccessors.get(entityClass.getName());
                if(null != accessor) {
                    MetadataDescriptor descriptor = accessor.getDescriptor();
                    GeneratedValueMetadata generatedValue = m_generatedValues.get(entityClass);
                    String generatorName = generatedValue.getGenerator();

                    if (generatorName == null) {
                        // Value was loaded from XML (and it wasn't specified) so

            login.getDefaultSequence().setQualifier(tempGenerator.processQualifier());

            // 3 - Loop through generated values and set sequences for each.
            for (MetadataClass entityClass : m_generatedValues.keySet()) {
                // Skip setting sequences if our accessor is null, must be a mapped superclass
                ClassAccessor accessor = m_allAccessors.get(entityClass.getName());
                if (accessor != null) {
                    m_generatedValues.get(entityClass).process(accessor.getDescriptor(), sequences, login);
                }
            }
        }
    }

    /**
     * INTERNAL:
     * Return the reference metadata descriptor for this accessor.
     */
    public MetadataDescriptor getReferenceDescriptor() {
        ClassAccessor accessor = getProject().getAccessor(getReferenceClassName());

        if (accessor == null) {
            throw ValidationException.classNotListedInPersistenceUnit(getReferenceClassName());
        }

        return accessor.getDescriptor();
    }

     * INTERNAL:
     * Used to process primary keys and DerivedIds.
     */
    protected MetadataClass getSimplePKType(){
        MetadataDescriptor referenceDescriptor = getReferenceDescriptor();
        ClassAccessor referenceAccessor = referenceDescriptor.getClassAccessor();

        if (referenceAccessor.hasDerivedId()) {
            // Referenced object has a derived ID and must be a simple pk type.
            // Recurse through to get the simple type.
            return ((ObjectAccessor) referenceDescriptor.getMappingAccessor(referenceDescriptor.getIdAttributeName())).getSimplePKType();
        } else {
            // Validate on their basic mapping.