public AnyElement(MemberDeclaration delegate, TypeDefinition typeDef) { super(delegate); XmlAnyElement info = delegate.getAnnotation(XmlAnyElement.class); if (info == null) { throw new IllegalStateException("No @XmlAnyElement annotation."); } this.lax = info.lax(); ArrayList<ElementRef> elementRefs = new ArrayList<ElementRef>(); XmlElementRefs elementRefInfo = delegate.getAnnotation(XmlElementRefs.class); if (elementRefInfo != null && elementRefInfo.value() != null) { for (XmlElementRef elementRef : elementRefInfo.value()) { elementRefs.add(new ElementRef(delegate, typeDef, elementRef)); } } refs = Collections.<ElementRef>unmodifiableList(elementRefs); }
public ValidationResult validateTypeDefinition(TypeDefinition typeDef) { ValidationResult result = new ValidationResult(); // heatonra: using @XmlSeeAlso for a QName enum doesn't actually include the xmlns declaration, // so there's no reason to validate it here... // heatonra: I couldn't figure out a good way to validate the use of @XmlSeeAlso for extended // types at build-time. I think we'll have to rely on unit tests to validate this. if ("".equals(typeDef.getNamespace())) { result.addError(typeDef, "Type definition should not be in the empty namespace."); } if (typeDef.getName().toLowerCase().startsWith("web")) { result.addWarning( typeDef, "You probably don't want a type definition that starts with the name 'web'. Consider renaming using the @XmlType annotation."); } Collection<Attribute> attributes = typeDef.getAttributes(); if (attributes != null && !attributes.isEmpty()) { for (Attribute attribute : attributes) { boolean isURI = ((DecoratedTypeMirror) TypeMirrorDecorator.decorate(attribute.getAccessorType())) .isInstanceOf("org.gedcomx.common.URI"); if (isURI && !KnownXmlType.ANY_URI.getQname().equals(attribute.getBaseType().getQname())) { result.addError( attribute, "Accessors of type 'org.gedcomx.common.URI' should of type xs:anyURI. Please annotate the attribute with @XmlSchemaType(name = \"anyURI\", namespace = XMLConstants.W3C_XML_SCHEMA_NS_URI)"); } if ("id".equalsIgnoreCase(attribute.getName())) { if (!attribute.isXmlID()) { result.addError(attribute, "Id attributes should be annotated as @XmlID."); } } TypeMirror accessorType = attribute.getAccessorType(); if (accessorType instanceof EnumType && ((EnumType) accessorType).getDeclaration().getAnnotation(XmlQNameEnum.class) != null) { result.addError( attribute, "Accessors should not reference QName enums directly. You probably want to annotate this accessor with @XmlTransient."); } } } Value value = typeDef.getValue(); if (value != null) { TypeMirror accessorType = value.getAccessorType(); if (accessorType instanceof EnumType && ((EnumType) accessorType).getDeclaration().getAnnotation(XmlQNameEnum.class) != null) { result.addError( value, "Accessors should not reference QName enums directly. You probably want to annotate this accessor with @XmlTransient."); } boolean isURI = ((DecoratedTypeMirror) TypeMirrorDecorator.decorate(accessorType)) .isInstanceOf("org.gedcomx.common.URI"); if (isURI && !KnownXmlType.ANY_URI.getQname().equals(value.getBaseType().getQname())) { result.addError( value, "Accessors of type 'org.gedcomx.common.URI' should of type xs:anyURI. Please annotate the value with @XmlSchemaType(name = \"anyURI\", namespace = XMLConstants.W3C_XML_SCHEMA_NS_URI)"); } } Collection<Element> elements = typeDef.getElements(); if (elements != null && !elements.isEmpty()) { for (Element element : elements) { for (Element choice : element.getChoices()) { boolean isURI = ((DecoratedTypeMirror) TypeMirrorDecorator.decorate(choice.getAccessorType())) .isInstanceOf("org.gedcomx.common.URI"); if (isURI && !KnownXmlType.ANY_URI.getQname().equals(choice.getBaseType().getQname())) { result.addError( choice, "Accessors of type 'org.gedcomx.common.URI' should of type xs:anyURI. Please annotate the element with @XmlSchemaType(name = \"anyURI\", namespace = XMLConstants.W3C_XML_SCHEMA_NS_URI)"); } if ("href".equals(choice.getName())) { result.addError( choice, "Entity links should be make with an attribute named 'href'. You probably need to apply @XmlAttribute."); } TypeMirror accessorType = choice.getAccessorType(); if (accessorType instanceof EnumType && ((EnumType) accessorType).getDeclaration().getAnnotation(XmlQNameEnum.class) != null) { result.addError( choice, "Accessors should not reference QName enums directly. You probably want to annotate this accessor with @XmlTransient."); } QName ref = choice.getRef(); String ns = ref != null ? ref.getNamespaceURI() : choice.getNamespace(); if (ns == null || "".equals(ns)) { result.addError(choice, "Choice should not reference the empty namespace."); } } if (element.isCollectionType()) { if (!element.isWrapped() && element.getName().endsWith("s")) { if (!suppressWarning(element, "gedcomx:plural_xml_name")) { result.addWarning( element, "You may want to use @XmlElement to change the name to a non-plural form."); } } else { // make sure collection types have a proper json name. String jsonMemberName = element.getJsonMemberName(); if (!jsonMemberName.endsWith("s")) { if (!suppressWarning(element, "gedcomx:non_plural_json_name")) { result.addWarning( element, "Collection element should probably have a JSON name that ends with 's'. Consider annotating it with @JsonName."); } } else if (!element.isWrapped()) { if (element.getDelegate() instanceof PropertyDeclaration) { DecoratedMethodDeclaration getter = ((PropertyDeclaration) element.getDelegate()).getGetter(); if (getter == null || getter.getAnnotation(JsonProperty.class) == null || !jsonMemberName.equals(getter.getAnnotation(JsonProperty.class).value())) { result.addWarning( element, "Collection element is annotated with @JsonName, but the getter needs to also be annotated with @JsonProperty(\"" + jsonMemberName + "\")."); } DecoratedMethodDeclaration setter = ((PropertyDeclaration) element.getDelegate()).getSetter(); if (setter == null || setter.getAnnotation(JsonProperty.class) == null || !jsonMemberName.equals(setter.getAnnotation(JsonProperty.class).value())) { result.addWarning( element, "Collection element is annotated with @JsonName, but the setter needs to also be annotated with @JsonProperty(\"" + jsonMemberName + "\")."); } } else if (element.getDelegate() instanceof FieldDeclaration) { if (element.getAnnotation(JsonProperty.class) == null || !jsonMemberName.equals(element.getAnnotation(JsonProperty.class).value())) { result.addWarning( element, "Collection element is annotated with @JsonName, but the field needs to also be annotated with @JsonProperty(\"" + jsonMemberName + "\")."); } } } } } } } AnyElement anyElement = typeDef.getAnyElement(); if (anyElement != null) { if (!isInstanceOf(typeDef, SupportsExtensionElements.class.getName())) { result.addError( anyElement, "Type definitions that supply the 'any' element must implement " + SupportsExtensionElements.class.getName() + " so the 'any' elements can be serialized to/from JSON."); } if (!"extensionElements".equals(anyElement.getSimpleName())) { if (!suppressWarning(anyElement, "gedcomx:unconventional_any_element_name")) { result.addWarning( anyElement, "The 'any' element might be better named 'extensionElements' to conform to convention."); } } JsonIgnore getterIgnore = anyElement.getDelegate() instanceof PropertyDeclaration ? ((PropertyDeclaration) anyElement.getDelegate()) .getGetter() .getAnnotation(JsonIgnore.class) : anyElement.getAnnotation(JsonIgnore.class); JsonIgnore setterIgnore = anyElement.getDelegate() instanceof PropertyDeclaration ? ((PropertyDeclaration) anyElement.getDelegate()) .getGetter() .getAnnotation(JsonIgnore.class) : getterIgnore; if (getterIgnore == null || setterIgnore == null) { String message = "Properties annotated with @XmlAnyElement should be annotated with @JsonIgnore."; if (anyElement.getDelegate() instanceof PropertyDeclaration) { message += " (On both the getter and the setter.)"; } result.addError(anyElement, message); } } if (typeDef.isHasAnyAttribute()) { if (!isInstanceOf(typeDef, SupportsExtensionAttributes.class.getName())) { result.addError( anyElement, "Type definitions that supply the 'any' attribute must implement " + SupportsExtensionAttributes.class.getName() + " so the 'any' attributes can be serialized to/from JSON."); } MemberDeclaration anyAttribute = null; for (PropertyDeclaration prop : typeDef.getProperties()) { if (prop.getAnnotation(XmlAnyAttribute.class) != null) { anyAttribute = prop; } } if (anyAttribute == null) { // must be a field. for (FieldDeclaration field : typeDef.getFields()) { if (field.getAnnotation(XmlAnyAttribute.class) != null) { anyAttribute = field; } } } if (anyAttribute != null) { if (!"extensionAttributes".equals(anyAttribute.getSimpleName())) { if (!suppressWarning(anyElement, "gedcomx:unconventional_any_attribute_name")) { result.addWarning( anyElement, "The 'any' attribute might be better named 'extensionAttributes' to conform to convention."); } } JsonIgnore getterIgnore = anyAttribute instanceof PropertyDeclaration ? ((PropertyDeclaration) anyAttribute).getGetter().getAnnotation(JsonIgnore.class) : anyAttribute.getAnnotation(JsonIgnore.class); JsonIgnore setterIgnore = anyAttribute instanceof PropertyDeclaration ? ((PropertyDeclaration) anyAttribute).getGetter().getAnnotation(JsonIgnore.class) : getterIgnore; if (getterIgnore == null || setterIgnore == null) { String message = "Properties annotated with @XmlAnyAttribute should be annotated with @JsonIgnore."; if (anyAttribute instanceof PropertyDeclaration) { message += " (On both the getter and the setter.)"; } result.addError(anyAttribute, message); } } } return result; }