*/
package org.opendaylight.yangtools.yang.data.codec.gson;
+import static com.google.common.base.Preconditions.checkArgument;
+import static com.google.common.base.Preconditions.checkState;
+import static java.util.Objects.requireNonNull;
+
import com.google.common.annotations.Beta;
-import com.google.common.base.Preconditions;
import com.google.gson.JsonIOException;
import com.google.gson.JsonParseException;
import com.google.gson.JsonSyntaxException;
import java.io.Flushable;
import java.io.IOException;
import java.net.URI;
+import java.util.AbstractMap.SimpleImmutableEntry;
import java.util.ArrayDeque;
-import java.util.ArrayList;
-import java.util.Collections;
import java.util.Deque;
import java.util.HashSet;
-import java.util.List;
+import java.util.Iterator;
+import java.util.Map.Entry;
import java.util.Set;
-import org.opendaylight.yangtools.yang.common.QName;
+import javax.xml.transform.dom.DOMSource;
+import org.eclipse.jdt.annotation.NonNull;
+import org.opendaylight.yangtools.odlext.model.api.YangModeledAnyxmlSchemaNode;
+import org.opendaylight.yangtools.util.xml.UntrustedXML;
import org.opendaylight.yangtools.yang.data.api.schema.stream.NormalizedNodeStreamWriter;
-import org.opendaylight.yangtools.yang.model.api.AnyXmlSchemaNode;
-import org.opendaylight.yangtools.yang.model.api.ChoiceCaseNode;
+import org.opendaylight.yangtools.yang.data.util.AbstractNodeDataWithSchema;
+import org.opendaylight.yangtools.yang.data.util.AnyXmlNodeDataWithSchema;
+import org.opendaylight.yangtools.yang.data.util.CompositeNodeDataWithSchema;
+import org.opendaylight.yangtools.yang.data.util.LeafListNodeDataWithSchema;
+import org.opendaylight.yangtools.yang.data.util.LeafNodeDataWithSchema;
+import org.opendaylight.yangtools.yang.data.util.ListNodeDataWithSchema;
+import org.opendaylight.yangtools.yang.data.util.MultipleEntryDataWithSchema;
+import org.opendaylight.yangtools.yang.data.util.OperationAsContainer;
+import org.opendaylight.yangtools.yang.data.util.ParserStreamUtils;
+import org.opendaylight.yangtools.yang.data.util.SimpleNodeDataWithSchema;
+import org.opendaylight.yangtools.yang.model.api.CaseSchemaNode;
import org.opendaylight.yangtools.yang.model.api.ChoiceSchemaNode;
import org.opendaylight.yangtools.yang.model.api.DataNodeContainer;
import org.opendaylight.yangtools.yang.model.api.DataSchemaNode;
import org.opendaylight.yangtools.yang.model.api.Module;
-import org.opendaylight.yangtools.yang.model.api.RpcDefinition;
-import org.opendaylight.yangtools.yang.model.api.SchemaContext;
+import org.opendaylight.yangtools.yang.model.api.OperationDefinition;
import org.opendaylight.yangtools.yang.model.api.SchemaNode;
+import org.opendaylight.yangtools.yang.model.api.TypedDataSchemaNode;
+import org.slf4j.Logger;
+import org.slf4j.LoggerFactory;
+import org.w3c.dom.Document;
+import org.w3c.dom.Element;
+import org.w3c.dom.Text;
/**
* This class parses JSON elements from a GSON JsonReader. It disallows multiple elements of the same name unlike the
*/
@Beta
public final class JsonParserStream implements Closeable, Flushable {
+ static final String ANYXML_ARRAY_ELEMENT_ID = "array-element";
+
+ private static final Logger LOG = LoggerFactory.getLogger(JsonParserStream.class);
private final Deque<URI> namespaces = new ArrayDeque<>();
private final NormalizedNodeStreamWriter writer;
private final JSONCodecFactory codecs;
- private final SchemaContext schema;
private final DataSchemaNode parentNode;
- private JsonParserStream(final NormalizedNodeStreamWriter writer, final SchemaContext schemaContext, final DataSchemaNode parentNode) {
- this.schema = Preconditions.checkNotNull(schemaContext);
- this.writer = Preconditions.checkNotNull(writer);
- this.codecs = JSONCodecFactory.create(schemaContext);
+ // TODO: consider class specialization to remove this field
+ private final boolean lenient;
+
+ private JsonParserStream(final NormalizedNodeStreamWriter writer, final JSONCodecFactory codecs,
+ final DataSchemaNode parentNode, final boolean lenient) {
+ this.writer = requireNonNull(writer);
+ this.codecs = requireNonNull(codecs);
this.parentNode = parentNode;
+ this.lenient = lenient;
}
- public static JsonParserStream create(final NormalizedNodeStreamWriter writer, final SchemaContext schemaContext, final SchemaNode parentNode ) {
- if(parentNode instanceof RpcDefinition) {
- return new JsonParserStream(writer, schemaContext, new RpcAsContainer((RpcDefinition) parentNode));
- }
- Preconditions.checkArgument(parentNode instanceof DataSchemaNode, "Instance of DataSchemaNode class awaited.");
- return new JsonParserStream(writer, schemaContext, (DataSchemaNode) parentNode);
+ /**
+ * Create a new {@link JsonParserStream} backed by specified {@link NormalizedNodeStreamWriter}
+ * and {@link JSONCodecFactory}. The stream will be logically rooted at the top of the SchemaContext associated
+ * with the specified codec factory.
+ *
+ * @param writer NormalizedNodeStreamWriter to use for instantiation of normalized nodes
+ * @param codecFactory {@link JSONCodecFactory} to use for parsing leaves
+ * @return A new {@link JsonParserStream}
+ * @throws NullPointerException if any of the arguments are null
+ */
+ public static @NonNull JsonParserStream create(final @NonNull NormalizedNodeStreamWriter writer,
+ final @NonNull JSONCodecFactory codecFactory) {
+ return new JsonParserStream(writer, codecFactory, codecFactory.getSchemaContext(), false);
+ }
+
+ /**
+ * Create a new {@link JsonParserStream} backed by specified {@link NormalizedNodeStreamWriter}
+ * and {@link JSONCodecFactory}. The stream will be logically rooted at the specified parent node.
+ *
+ * @param writer NormalizedNodeStreamWriter to use for instantiation of normalized nodes
+ * @param codecFactory {@link JSONCodecFactory} to use for parsing leaves
+ * @param parentNode Logical root node
+ * @return A new {@link JsonParserStream}
+ * @throws NullPointerException if any of the arguments are null
+ */
+ public static @NonNull JsonParserStream create(final @NonNull NormalizedNodeStreamWriter writer,
+ final @NonNull JSONCodecFactory codecFactory, final @NonNull SchemaNode parentNode) {
+ return new JsonParserStream(writer, codecFactory, validateParent(parentNode), false);
}
- public static JsonParserStream create(final NormalizedNodeStreamWriter writer, final SchemaContext schemaContext) {
- return new JsonParserStream(writer, schemaContext, schemaContext);
+ /**
+ * Create a new {@link JsonParserStream} backed by specified {@link NormalizedNodeStreamWriter}
+ * and {@link JSONCodecFactory}. The stream will be logically rooted at the top of the SchemaContext associated
+ * with the specified codec factory.
+ *
+ * <p>
+ * Returned parser will treat incoming JSON data leniently:
+ * <ul>
+ * <li>JSON elements referring to unknown constructs will be silently ignored</li>
+ * </ul>
+ *
+ * @param writer NormalizedNodeStreamWriter to use for instantiation of normalized nodes
+ * @param codecFactory {@link JSONCodecFactory} to use for parsing leaves
+ * @return A new {@link JsonParserStream}
+ * @throws NullPointerException if any of the arguments are null
+ */
+ public static @NonNull JsonParserStream createLenient(final @NonNull NormalizedNodeStreamWriter writer,
+ final @NonNull JSONCodecFactory codecFactory) {
+ return new JsonParserStream(writer, codecFactory, codecFactory.getSchemaContext(), true);
}
- public JsonParserStream parse(final JsonReader reader) throws JsonIOException, JsonSyntaxException {
+ /**
+ * Create a new {@link JsonParserStream} backed by specified {@link NormalizedNodeStreamWriter}
+ * and {@link JSONCodecFactory}. The stream will be logically rooted at the specified parent node.
+ *
+ * <p>
+ * Returned parser will treat incoming JSON data leniently:
+ * <ul>
+ * <li>JSON elements referring to unknown constructs will be silently ignored</li>
+ * </ul>
+ *
+ * @param writer NormalizedNodeStreamWriter to use for instantiation of normalized nodes
+ * @param codecFactory {@link JSONCodecFactory} to use for parsing leaves
+ * @param parentNode Logical root node
+ * @return A new {@link JsonParserStream}
+ * @throws NullPointerException if any of the arguments are null
+ */
+ public static @NonNull JsonParserStream createLenient(final @NonNull NormalizedNodeStreamWriter writer,
+ final @NonNull JSONCodecFactory codecFactory, final @NonNull SchemaNode parentNode) {
+ return new JsonParserStream(writer, codecFactory, validateParent(parentNode), true);
+ }
+
+ public JsonParserStream parse(final JsonReader reader) {
// code copied from gson's JsonParser and Stream classes
- final boolean lenient = reader.isLenient();
+ final boolean readerLenient = reader.isLenient();
reader.setLenient(true);
boolean isEmpty = true;
try {
reader.peek();
isEmpty = false;
- final CompositeNodeDataWithSchema compositeNodeDataWithSchema = new CompositeNodeDataWithSchema(parentNode);
+ final CompositeNodeDataWithSchema<?> compositeNodeDataWithSchema =
+ new CompositeNodeDataWithSchema<>(parentNode);
read(reader, compositeNodeDataWithSchema);
compositeNodeDataWithSchema.write(writer);
return this;
- // return read(reader);
} catch (final EOFException e) {
if (isEmpty) {
return this;
- // return JsonNull.INSTANCE;
}
// The stream ended prematurely so it is likely a syntax error.
throw new JsonSyntaxException(e);
- } catch (final MalformedJsonException e) {
+ } catch (final MalformedJsonException | NumberFormatException e) {
throw new JsonSyntaxException(e);
} catch (final IOException e) {
throw new JsonIOException(e);
- } catch (final NumberFormatException e) {
- throw new JsonSyntaxException(e);
} catch (StackOverflowError | OutOfMemoryError e) {
throw new JsonParseException("Failed parsing JSON source: " + reader + " to Json", e);
} finally {
- reader.setLenient(lenient);
+ reader.setLenient(readerLenient);
}
}
- private final void setValue(final AbstractNodeDataWithSchema parent, final String value) {
- Preconditions.checkArgument(parent instanceof SimpleNodeDataWithSchema, "Node %s is not a simple type", parent);
+ private void traverseAnyXmlValue(final JsonReader in, final Document doc, final Element parentElement)
+ throws IOException {
+ switch (in.peek()) {
+ case STRING:
+ case NUMBER:
+ Text textNode = doc.createTextNode(in.nextString());
+ parentElement.appendChild(textNode);
+ break;
+ case BOOLEAN:
+ textNode = doc.createTextNode(Boolean.toString(in.nextBoolean()));
+ parentElement.appendChild(textNode);
+ break;
+ case NULL:
+ in.nextNull();
+ textNode = doc.createTextNode("null");
+ parentElement.appendChild(textNode);
+ break;
+ case BEGIN_ARRAY:
+ in.beginArray();
+ while (in.hasNext()) {
+ final Element childElement = doc.createElement(ANYXML_ARRAY_ELEMENT_ID);
+ parentElement.appendChild(childElement);
+ traverseAnyXmlValue(in, doc, childElement);
+ }
+ in.endArray();
+ break;
+ case BEGIN_OBJECT:
+ in.beginObject();
+ while (in.hasNext()) {
+ final Element childElement = doc.createElement(in.nextName());
+ parentElement.appendChild(childElement);
+ traverseAnyXmlValue(in, doc, childElement);
+ }
+ in.endObject();
+ break;
+ default:
+ break;
+ }
+ }
+
+ private void readAnyXmlValue(final JsonReader in, final AnyXmlNodeDataWithSchema parent,
+ final String anyXmlObjectName) throws IOException {
+ final String anyXmlObjectNS = getCurrentNamespace().toString();
+ final Document doc = UntrustedXML.newDocumentBuilder().newDocument();
+ final Element rootElement = doc.createElementNS(anyXmlObjectNS, anyXmlObjectName);
+ doc.appendChild(rootElement);
+ traverseAnyXmlValue(in, doc, rootElement);
- final Object translatedValue = translateValueByType(value, parent.getSchema());
- ((SimpleNodeDataWithSchema) parent).setValue(translatedValue);
+ final DOMSource domSource = new DOMSource(doc.getDocumentElement());
+ parent.setValue(domSource);
}
- public void read(final JsonReader in, AbstractNodeDataWithSchema parent) throws IOException {
+ public void read(final JsonReader in, AbstractNodeDataWithSchema<?> parent) throws IOException {
switch (in.peek()) {
- case STRING:
- case NUMBER:
- setValue(parent, in.nextString());
- break;
- case BOOLEAN:
- setValue(parent, Boolean.toString(in.nextBoolean()));
- break;
- case NULL:
- in.nextNull();
- setValue(parent, null);
- break;
- case BEGIN_ARRAY:
- in.beginArray();
- while (in.hasNext()) {
- final AbstractNodeDataWithSchema newChild = newArrayEntry(parent);
- read(in, newChild);
- }
- in.endArray();
- return;
- case BEGIN_OBJECT:
- final Set<String> namesakes = new HashSet<>();
- in.beginObject();
- /*
- * This allows parsing of incorrectly /as showcased/
- * in testconf nesting of list items - eg.
- * lists with one value are sometimes serialized
- * without wrapping array.
- *
- */
- if(isArray(parent)) {
- parent = newArrayEntry(parent);
- }
- while (in.hasNext()) {
- final String jsonElementName = in.nextName();
- final NamespaceAndName namespaceAndName = resolveNamespace(jsonElementName, parent.getSchema());
- final String localName = namespaceAndName.getName();
- addNamespace(namespaceAndName.getUri());
- if (namesakes.contains(jsonElementName)) {
- throw new JsonSyntaxException("Duplicate name " + jsonElementName + " in JSON input.");
- }
- namesakes.add(jsonElementName);
- final Deque<DataSchemaNode> childDataSchemaNodes = findSchemaNodeByNameAndNamespace(parent.getSchema(),
- localName, getCurrentNamespace());
- if (childDataSchemaNodes.isEmpty()) {
- throw new IllegalStateException("Schema for node with name " + localName + " and namespace "
- + getCurrentNamespace() + " doesn't exist.");
+ case STRING:
+ case NUMBER:
+ setValue(parent, in.nextString());
+ break;
+ case BOOLEAN:
+ setValue(parent, Boolean.toString(in.nextBoolean()));
+ break;
+ case NULL:
+ in.nextNull();
+ setValue(parent, null);
+ break;
+ case BEGIN_ARRAY:
+ in.beginArray();
+ while (in.hasNext()) {
+ if (parent instanceof LeafNodeDataWithSchema) {
+ read(in, parent);
+ } else {
+ final AbstractNodeDataWithSchema<?> newChild = newArrayEntry(parent);
+ read(in, newChild);
+ }
}
-
- final AbstractNodeDataWithSchema newChild = ((CompositeNodeDataWithSchema) parent).addChild(childDataSchemaNodes);
+ in.endArray();
+ return;
+ case BEGIN_OBJECT:
+ final Set<String> namesakes = new HashSet<>();
+ in.beginObject();
/*
- * FIXME:anyxml data shouldn't be skipped but should be loaded somehow.
- * will be able to load anyxml which conforms to YANG data using these
- * parser, for other anyxml will be harder.
+ * This allows parsing of incorrectly /as showcased/
+ * in testconf nesting of list items - eg.
+ * lists with one value are sometimes serialized
+ * without wrapping array.
+ *
*/
- if (newChild instanceof AnyXmlNodeDataWithSchema) {
- in.skipValue();
- } else {
- read(in, newChild);
+ if (isArray(parent)) {
+ parent = newArrayEntry(parent);
}
- removeNamespace();
- }
- in.endObject();
- return;
- case END_DOCUMENT:
- case NAME:
- case END_OBJECT:
- case END_ARRAY:
- break;
+ while (in.hasNext()) {
+ final String jsonElementName = in.nextName();
+ DataSchemaNode parentSchema = parent.getSchema();
+ if (parentSchema instanceof YangModeledAnyxmlSchemaNode) {
+ parentSchema = ((YangModeledAnyxmlSchemaNode) parentSchema).getSchemaOfAnyXmlData();
+ }
+ final Entry<String, URI> namespaceAndName = resolveNamespace(jsonElementName, parentSchema);
+ final String localName = namespaceAndName.getKey();
+ final URI namespace = namespaceAndName.getValue();
+ if (lenient && (localName == null || namespace == null)) {
+ LOG.debug("Schema node with name {} was not found under {}", localName,
+ parentSchema.getQName());
+ in.skipValue();
+ continue;
+ }
+ addNamespace(namespace);
+ if (!namesakes.add(jsonElementName)) {
+ throw new JsonSyntaxException("Duplicate name " + jsonElementName + " in JSON input.");
+ }
+
+ final Deque<DataSchemaNode> childDataSchemaNodes =
+ ParserStreamUtils.findSchemaNodeByNameAndNamespace(parentSchema, localName,
+ getCurrentNamespace());
+ checkState(!childDataSchemaNodes.isEmpty(),
+ "Schema for node with name %s and namespace %s does not exist at %s",
+ localName, getCurrentNamespace(), parentSchema.getPath());
+
+
+ final AbstractNodeDataWithSchema<?> newChild = ((CompositeNodeDataWithSchema<?>) parent)
+ .addChild(childDataSchemaNodes);
+ if (newChild instanceof AnyXmlNodeDataWithSchema) {
+ readAnyXmlValue(in, (AnyXmlNodeDataWithSchema) newChild, jsonElementName);
+ } else {
+ read(in, newChild);
+ }
+ removeNamespace();
+ }
+ in.endObject();
+ return;
+ default:
+ break;
}
}
- private boolean isArray(final AbstractNodeDataWithSchema parent) {
- return parent instanceof ListNodeDataWithSchema || parent instanceof ListNodeDataWithSchema;
+ private static boolean isArray(final AbstractNodeDataWithSchema<?> parent) {
+ return parent instanceof ListNodeDataWithSchema || parent instanceof LeafListNodeDataWithSchema;
}
- private AbstractNodeDataWithSchema newArrayEntry(final AbstractNodeDataWithSchema parent) {
- AbstractNodeDataWithSchema newChild;
- if (parent instanceof ListNodeDataWithSchema) {
- newChild = new ListEntryNodeDataWithSchema(parent.getSchema());
- } else if (parent instanceof LeafListNodeDataWithSchema) {
- newChild = new LeafListEntryNodeDataWithSchema(parent.getSchema());
- } else {
- throw new IllegalStateException("Incorrec nesting caused by parser.");
+ private static AbstractNodeDataWithSchema<?> newArrayEntry(final AbstractNodeDataWithSchema<?> parent) {
+ if (!(parent instanceof MultipleEntryDataWithSchema)) {
+ throw new IllegalStateException("Found an unexpected array nested under " + parent.getSchema().getQName());
}
- ((CompositeNodeDataWithSchema) parent).addChild(newChild);
- return newChild;
+ return ((MultipleEntryDataWithSchema<?>) parent).newChildEntry();
+ }
+
+ private void setValue(final AbstractNodeDataWithSchema<?> parent, final String value) {
+ checkArgument(parent instanceof SimpleNodeDataWithSchema, "Node %s is not a simple type",
+ parent.getSchema().getQName());
+ final SimpleNodeDataWithSchema<?> parentSimpleNode = (SimpleNodeDataWithSchema<?>) parent;
+ checkArgument(parentSimpleNode.getValue() == null, "Node '%s' has already set its value to '%s'",
+ parentSimpleNode.getSchema().getQName(), parentSimpleNode.getValue());
+
+ final Object translatedValue = translateValueByType(value, parentSimpleNode.getSchema());
+ parentSimpleNode.setValue(translatedValue);
}
private Object translateValueByType(final String value, final DataSchemaNode node) {
- if (node instanceof AnyXmlSchemaNode) {
- /*
- * FIXME: Figure out some YANG extension dispatch, which will
- * reuse JSON parsing or XML parsing - anyxml is not well-defined in
- * JSON.
- */
- return value;
- }
- return codecs.codecFor(node).deserialize(value);
+ checkArgument(node instanceof TypedDataSchemaNode);
+ return codecs.codecFor((TypedDataSchemaNode) node).parseValue(null, value);
}
private void removeNamespace() {
namespaces.push(namespace);
}
- private NamespaceAndName resolveNamespace(final String childName, final DataSchemaNode dataSchemaNode) {
+ private Entry<String, URI> resolveNamespace(final String childName, final DataSchemaNode dataSchemaNode) {
final int lastIndexOfColon = childName.lastIndexOf(':');
String moduleNamePart = null;
String nodeNamePart = null;
moduleNamePart = childName.substring(0, lastIndexOfColon);
nodeNamePart = childName.substring(lastIndexOfColon + 1);
- final Module m = schema.findModuleByName(moduleNamePart, null);
- namespace = m == null ? null : m.getNamespace();
+ final Iterator<Module> m = codecs.getSchemaContext().findModules(moduleNamePart).iterator();
+ namespace = m.hasNext() ? m.next().getNamespace() : null;
} else {
nodeNamePart = childName;
}
if (namespace == null) {
- Set<URI> potentialUris = Collections.emptySet();
- potentialUris = resolveAllPotentialNamespaces(nodeNamePart, dataSchemaNode);
+ final Set<URI> potentialUris = resolveAllPotentialNamespaces(nodeNamePart, dataSchemaNode);
if (potentialUris.contains(getCurrentNamespace())) {
namespace = getCurrentNamespace();
} else if (potentialUris.size() == 1) {
namespace = potentialUris.iterator().next();
} else if (potentialUris.size() > 1) {
- throw new IllegalStateException("Choose suitable module name for element "+nodeNamePart+":"+toModuleNames(potentialUris));
- } else if (potentialUris.isEmpty()) {
- throw new IllegalStateException("Schema node with name "+nodeNamePart+" wasn't found.");
+ throw new IllegalStateException("Choose suitable module name for element " + nodeNamePart + ":"
+ + toModuleNames(potentialUris));
+ } else if (potentialUris.isEmpty() && !lenient) {
+ throw new IllegalStateException("Schema node with name " + nodeNamePart + " was not found under "
+ + dataSchemaNode.getQName() + ".");
}
}
- return new NamespaceAndName(nodeNamePart, namespace);
+ return new SimpleImmutableEntry<>(nodeNamePart, namespace);
}
private String toModuleNames(final Set<URI> potentialUris) {
final StringBuilder builder = new StringBuilder();
for (final URI potentialUri : potentialUris) {
- builder.append("\n");
+ builder.append('\n');
//FIXME how to get information about revision from JSON input? currently first available is used.
- builder.append(schema.findModuleByNamespace(potentialUri).iterator().next().getName());
+ builder.append(codecs.getSchemaContext().findModules(potentialUri).iterator().next().getName());
}
return builder.toString();
}
}
for (final ChoiceSchemaNode choiceNode : choices) {
- for (final ChoiceCaseNode concreteCase : choiceNode.getCases()) {
+ for (final CaseSchemaNode concreteCase : choiceNode.getCases().values()) {
potentialUris.addAll(resolveAllPotentialNamespaces(elementName, concreteCase));
}
}
return namespaces.peek();
}
- /**
- * Returns stack of schema nodes via which it was necessary to pass to get schema node with specified
- * {@code childName} and {@code namespace}
- *
- * @param dataSchemaNode
- * @param childName
- * @param namespace
- * @return stack of schema nodes via which it was passed through. If found schema node is direct child then stack
- * contains only one node. If it is found under choice and case then stack should contains 2*n+1 element
- * (where n is number of choices through it was passed)
- */
- private Deque<DataSchemaNode> findSchemaNodeByNameAndNamespace(final DataSchemaNode dataSchemaNode,
- final String childName, final URI namespace) {
- final Deque<DataSchemaNode> result = new ArrayDeque<>();
- final List<ChoiceSchemaNode> childChoices = new ArrayList<>();
- DataSchemaNode potentialChildNode = null;
- if (dataSchemaNode instanceof DataNodeContainer) {
- for (final DataSchemaNode childNode : ((DataNodeContainer) dataSchemaNode).getChildNodes()) {
- if (childNode instanceof ChoiceSchemaNode) {
- childChoices.add((ChoiceSchemaNode) childNode);
- } else {
- final QName childQName = childNode.getQName();
-
- if (childQName.getLocalName().equals(childName) && childQName.getNamespace().equals(namespace)) {
- if (potentialChildNode == null ||
- childQName.getRevision().after(potentialChildNode.getQName().getRevision())) {
- potentialChildNode = childNode;
- }
- }
- }
- }
- }
- if (potentialChildNode != null) {
- result.push(potentialChildNode);
- return result;
- }
-
- // try to find data schema node in choice (looking for first match)
- for (final ChoiceSchemaNode choiceNode : childChoices) {
- for (final ChoiceCaseNode concreteCase : choiceNode.getCases()) {
- final Deque<DataSchemaNode> resultFromRecursion = findSchemaNodeByNameAndNamespace(concreteCase, childName,
- namespace);
- if (!resultFromRecursion.isEmpty()) {
- resultFromRecursion.push(concreteCase);
- resultFromRecursion.push(choiceNode);
- return resultFromRecursion;
- }
- }
- }
- return result;
- }
-
- private static class NamespaceAndName {
- private final URI uri;
- private final String name;
-
- public NamespaceAndName(final String name, final URI uri) {
- this.name = name;
- this.uri = uri;
- }
-
- public String getName() {
- return name;
- }
-
- public URI getUri() {
- return uri;
+ private static DataSchemaNode validateParent(final SchemaNode parent) {
+ if (parent instanceof DataSchemaNode) {
+ return (DataSchemaNode) parent;
+ } else if (parent instanceof OperationDefinition) {
+ return OperationAsContainer.of((OperationDefinition) parent);
+ } else {
+ throw new IllegalArgumentException("Illegal parent node " + requireNonNull(parent));
}
}