private <O extends Objectable> MapXNode serializeObjectContent(
PrismObject<O> object, SerializationContext ctx) throws SchemaException {
MapXNode xmap = new MapXNode();
if (object.getOid() != null) {
xmap.put(XNode.KEY_OID, createPrimitiveXNodeStringAttr(object.getOid()));
}
if (object.getVersion() != null) {
xmap.put(XNode.KEY_VERSION, createPrimitiveXNodeStringAttr(object.getVersion()));
}
PrismObjectDefinition<O> objectDefinition = object.getDefinition();
serializeContainerValue(xmap, object.getValue(), objectDefinition, ctx);
return xmap;
}
// region Serializing references - specific functionality
private XNode serializeReferenceValue(
PrismReferenceValue value, PrismReferenceDefinition definition, SerializationContext ctx)
throws SchemaException {
MapXNode xmap = new MapXNode();
boolean containsOid = false;
String namespace =
definition != null
? definition.getNamespace()
: null; // namespace for filter and description
if (StringUtils.isNotBlank(value.getOid())) {
containsOid = true;
xmap.put(XNode.KEY_REFERENCE_OID, createPrimitiveXNodeStringAttr(value.getOid()));
}
QName relation = value.getRelation();
if (relation != null) {
xmap.put(XNode.KEY_REFERENCE_RELATION, createPrimitiveXNodeAttr(relation, DOMUtil.XSD_QNAME));
}
QName targetType = value.getTargetType();
if (targetType != null) {
xmap.put(XNode.KEY_REFERENCE_TYPE, createPrimitiveXNodeAttr(targetType, DOMUtil.XSD_QNAME));
}
String description = value.getDescription();
if (description != null) {
xmap.put(
createReferenceQName(XNode.KEY_REFERENCE_DESCRIPTION, namespace),
createPrimitiveXNode(description, DOMUtil.XSD_STRING));
}
SearchFilterType filter = value.getFilter();
if (filter != null) {
XNode xsubnode = filter.serializeToXNode();
xmap.put(createReferenceQName(XNode.KEY_REFERENCE_FILTER, namespace), xsubnode);
}
if (value.getTargetName() != null) {
if (SerializationContext.isSerializeReferenceNames(ctx)) {
XNode xsubnode = createPrimitiveXNode(value.getTargetName(), PolyStringType.COMPLEX_TYPE);
xmap.put(createReferenceQName(XNode.KEY_REFERENCE_TARGET_NAME, namespace), xsubnode);
} else {
String commentValue = " " + value.getTargetName().getOrig() + " ";
xmap.setComment(commentValue);
}
}
boolean isComposite = false;
if (definition != null) {
isComposite = definition.isComposite();
}
if ((serializeCompositeObjects || isComposite || !containsOid) && value.getObject() != null) {
XNode xobjnode = serializeObjectContent(value.getObject(), ctx);
xmap.put(createReferenceQName(XNode.KEY_REFERENCE_OBJECT, namespace), xobjnode);
}
return xmap;
}
private <C extends Containerable> void serializeContainerValue(
MapXNode xmap,
PrismContainerValue<C> containerVal,
PrismContainerDefinition<C> containerDefinition,
SerializationContext ctx)
throws SchemaException {
Long id = containerVal.getId();
if (id != null) {
xmap.put(XNode.KEY_CONTAINER_ID, createPrimitiveXNodeAttr(id, DOMUtil.XSD_LONG));
}
if (containerVal.getConcreteType() != null) {
xmap.setTypeQName(containerVal.getConcreteType());
xmap.setExplicitTypeDeclaration(true);
}
Collection<QName> serializedItems = new ArrayList<>();
if (containerDefinition != null) {
// We have to serialize in the definition order. Some data formats (XML) are
// ordering-sensitive. We need to keep that ordering otherwise the resulting
// document won't pass schema validation
for (ItemDefinition itemDef : containerDefinition.getDefinitions()) {
QName elementName = itemDef.getName();
Item<?, ?> item = containerVal.findItem(elementName);
if (item != null) {
XNode xsubnode = serializeItem(item, ctx);
xmap.put(elementName, xsubnode);
serializedItems.add(elementName);
}
}
}
// There are some cases when we do not have list of all elements in a container.
// E.g. in run-time schema. Therefore we must also iterate over items and not just item
// definitions.
if (containerVal.getItems() != null) {
for (Item<?, ?> item : containerVal.getItems()) {
QName elementName = item.getElementName();
if (serializedItems.contains(elementName)) {
continue;
}
XNode xsubnode = serializeItem(item, ctx);
xmap.put(elementName, xsubnode);
}
}
}
public static <T> String serializeValue(
T value,
ItemDefinition def,
QName itemName,
QName parentName,
PrismContext prismContext,
String language)
throws SchemaException {
// System.out.println("value serialization");
if (value == null) {
return null;
}
XNodeSerializer serializer = prismContext.getXnodeProcessor().createSerializer();
if (value instanceof List) {
List<T> values = (List<T>) value;
if (values.isEmpty()) {
return null;
}
if (def instanceof PrismPropertyDefinition) {
PrismProperty prop = (PrismProperty) def.instantiate(itemName);
for (T val : values) {
PrismPropertyValue<T> pValue = new PrismPropertyValue<T>(val);
prop.add(pValue);
}
XNode node = serializer.serializeItem(prop);
if (node instanceof ListXNode) {
ListXNode xList = (ListXNode) node;
if (xList.size() == 1) {
XNode sub = xList.iterator().next();
if (!(sub instanceof MapXNode)) {
throw new IllegalArgumentException("must be a map");
}
String s = prismContext.getParserDom().serializeToString(sub, parentName);
// System.out.println("serialized: " + s);
return s;
} else {
MapXNode xmap = new MapXNode();
xmap.put(itemName, xList);
String s = prismContext.getParserDom().serializeToString(xmap, parentName);
// System.out.println("serialized: " + s);
return s;
// throw new IllegalArgumentException("Check your data.");
}
// MapXNode xmap = xList.new MapXNode();
// xmap.put(def.getName(), xList);
}
String s = prismContext.getParserDom().serializeToString(node, def.getName());
// System.out.println("serialized: " + s);
return s;
} else if (def instanceof PrismContainerDefinition) {
PrismContainer pc = (PrismContainer) def.instantiate();
for (T val : values) {
// PrismContainerValue pcVal = new PrismContainerValue<Containerable>((Containerable)
// val);
PrismContainerValue pcVal = ((Containerable) val).asPrismContainerValue();
pc.add(pcVal.clone());
}
XNode node = serializer.serializeItem(pc);
if (node instanceof ListXNode) {
ListXNode xList = (ListXNode) node;
MapXNode xmap = new MapXNode();
xmap.put(def.getName(), xList);
String s = prismContext.getParserDom().serializeToString(xmap, parentName);
// System.out.println("serialized: " + s);
return s;
}
String s = prismContext.getParserDom().serializeToString(node, def.getName());
// System.out.println("serialized: " + s);
return s;
}
}
PrismValue pVal = null;
if (value instanceof Containerable) {
pVal = ((Containerable) value).asPrismContainerValue();
} else if (value instanceof Referencable) {
pVal = ((Referencable) value).asReferenceValue();
} else {
pVal = new PrismPropertyValue<T>(value);
}
// Class clazz = prismContext.getSchemaRegistry().determineCompileTimeClass(itemName);
// PrismContainerDefinition def =
// prismContext.getSchemaRegistry().determineDefinitionFromClass(clazz);
//
// ItemDefinition def =
// prismContext.getSchemaRegistry().findItemDefinitionByElementName(itemName);
// QName itemName = null;
if (def != null) {
itemName = def.getName();
}
XNode node = serializer.serializeItemValue(pVal, def);
String s = prismContext.getParserDom().serializeToString(node, itemName);
// System.out.println("serialized: " + s);
return s;
// throw new UnsupportedOperationException("need to be implemented");
}
public static <T> String serializeValue(
T value,
PrismPropertyDefinition def,
QName itemName,
PrismContext prismContext,
String langXml)
throws SchemaException {
// System.out.println("value serialization");
if (value == null) {
return null;
}
XNodeSerializer serializer = prismContext.getXnodeProcessor().createSerializer();
if (value instanceof List) {
List<T> values = (List<T>) value;
if (values.isEmpty()) {
return null;
}
if (def instanceof PrismPropertyDefinition) {
PrismProperty prop = (PrismProperty) def.instantiate();
for (T val : values) {
PrismPropertyValue<T> pValue = new PrismPropertyValue<T>(val);
prop.add(pValue);
}
XNode node = serializer.serializeItem(prop);
if (node instanceof ListXNode) {
ListXNode xList = (ListXNode) node;
MapXNode xmap = new MapXNode();
xmap.put(def.getName(), xList);
String s = prismContext.getParserDom().serializeToString(xmap, def.getName());
// System.out.println("serialized: " + s);
return s;
}
String s = prismContext.getParserDom().serializeToString(node, def.getName());
// System.out.println("serialized: " + s);
return s;
}
}
PrismValue pVal = null;
if (value instanceof Containerable) {
pVal = ((Containerable) value).asPrismContainerValue();
} else if (value instanceof Referencable) {
pVal = ((Referencable) value).asReferenceValue();
} else {
PrismProperty pp = def.instantiate();
pVal = new PrismPropertyValue<T>(value);
pp.add(pVal);
XNode xnode = serializer.serializeItemValue(pVal, def);
if (xnode == null) {
throw new IllegalArgumentException("null node after serialization");
}
MapXNode xmap = null;
if (xnode instanceof RootXNode) {
XNode sub = ((RootXNode) xnode).getSubnode();
if (!(sub instanceof MapXNode)) {
throw new IllegalArgumentException("not uspported yet");
}
xmap = (MapXNode) sub;
} else if (xnode instanceof MapXNode) {
xmap = (MapXNode) xnode;
} else if (xnode instanceof PrimitiveXNode) {
String s = ((PrimitiveXNode) xnode).getStringValue();
return s;
//
} else {
throw new IllegalStateException("hmmm");
}
XNode node = xmap.get(itemName);
String s = prismContext.getParserDom().serializeToString(node, itemName);
}
XNode node = serializer.serializeItemValue(pVal, def);
String s = prismContext.getParserDom().serializeToString(node, itemName);
// System.out.println("serialized: " + s);
return s;
// throw new UnsupportedOperationException("need to be implemented");
}