*/
package org.opendaylight.yangtools.yang.data.impl.schema;
-import com.google.common.base.Function;
import com.google.common.base.Optional;
import com.google.common.base.Preconditions;
+import com.google.common.base.Predicate;
import com.google.common.collect.Collections2;
+import com.google.common.collect.ImmutableList;
+import com.google.common.collect.ImmutableSet;
+import com.google.common.collect.Iterables;
import com.google.common.collect.Maps;
import com.google.common.collect.Sets;
+import java.util.ArrayList;
+import java.util.Collection;
import java.util.Collections;
import java.util.HashSet;
+import java.util.List;
import java.util.Map;
import java.util.Set;
-import javax.annotation.Nonnull;
import javax.annotation.Nullable;
import org.opendaylight.yangtools.yang.common.QName;
-import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier;
+import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier.AugmentationIdentifier;
import org.opendaylight.yangtools.yang.data.api.schema.AugmentationNode;
import org.opendaylight.yangtools.yang.data.api.schema.DataContainerChild;
+import org.opendaylight.yangtools.yang.model.api.ActionNodeContainer;
import org.opendaylight.yangtools.yang.model.api.AugmentationSchema;
import org.opendaylight.yangtools.yang.model.api.AugmentationTarget;
import org.opendaylight.yangtools.yang.model.api.ChoiceCaseNode;
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.NotificationNodeContainer;
+import org.opendaylight.yangtools.yang.model.api.RpcDefinition;
+import org.opendaylight.yangtools.yang.model.api.SchemaContext;
+import org.opendaylight.yangtools.yang.model.api.SchemaNode;
+import org.opendaylight.yangtools.yang.model.api.SchemaPath;
public final class SchemaUtils {
-
private SchemaUtils() {
throw new UnsupportedOperationException();
}
* @param dataSchemaNode - iterable of schemaNodes to look through
* @return - schema node with newest revision or absent if no schema node with matching qname is found
*/
- public static final Optional<DataSchemaNode> findFirstSchema(final QName qname, final Iterable<DataSchemaNode> dataSchemaNode) {
+ public static Optional<DataSchemaNode> findFirstSchema(final QName qname, final Iterable<DataSchemaNode> dataSchemaNode) {
DataSchemaNode sNode = null;
if (dataSchemaNode != null && qname != null) {
- for (DataSchemaNode dsn : dataSchemaNode) {
+ for (final DataSchemaNode dsn : dataSchemaNode) {
if (qname.isEqualWithoutRevision(dsn.getQName())) {
if (sNode == null || sNode.getQName().getRevision().compareTo(dsn.getQName().getRevision()) < 0) {
sNode = dsn;
}
} else if (dsn instanceof ChoiceSchemaNode) {
- for (ChoiceCaseNode choiceCase : ((ChoiceSchemaNode) dsn).getCases()) {
+ for (final ChoiceCaseNode choiceCase : ((ChoiceSchemaNode) dsn).getCases()) {
final DataSchemaNode dataChildByName = choiceCase.getDataChildByName(qname);
if (dataChildByName != null) {
return Optional.of(dataChildByName);
}
- Optional<DataSchemaNode> foundDsn = findFirstSchema(qname, choiceCase.getChildNodes());
+ final Optional<DataSchemaNode> foundDsn = findFirstSchema(qname, choiceCase.getChildNodes());
if (foundDsn.isPresent()) {
return foundDsn;
}
return findSchemaForChild(schema, qname);
}
- Optional<DataSchemaNode> childSchemaOptional = findFirstSchema(qname, schema.getChildNodes());
+ final Optional<DataSchemaNode> childSchemaOptional = findFirstSchema(qname, schema.getChildNodes());
if (!childSchemaOptional.isPresent()) {
return null;
}
}
public static DataSchemaNode findSchemaForChild(final DataNodeContainer schema, final QName qname, final Iterable<DataSchemaNode> childNodes) {
- Optional<DataSchemaNode> childSchema = findFirstSchema(qname, childNodes);
+ final Optional<DataSchemaNode> childSchema = findFirstSchema(qname, childNodes);
Preconditions.checkState(childSchema.isPresent(),
"Unknown child(ren) node(s) detected, identified by: %s, in: %s", qname, schema);
return childSchema.get();
}
public static AugmentationSchema findSchemaForAugment(final AugmentationTarget schema, final Set<QName> qNames) {
- Optional<AugmentationSchema> schemaForAugment = findAugment(schema, qNames);
+ final Optional<AugmentationSchema> schemaForAugment = findAugment(schema, qNames);
Preconditions.checkState(schemaForAugment.isPresent(), "Unknown augmentation node detected, identified by: %s, in: %s",
qNames, schema);
return schemaForAugment.get();
public static AugmentationSchema findSchemaForAugment(final ChoiceSchemaNode schema, final Set<QName> qNames) {
Optional<AugmentationSchema> schemaForAugment = Optional.absent();
- for (ChoiceCaseNode choiceCaseNode : schema.getCases()) {
+ for (final ChoiceCaseNode choiceCaseNode : schema.getCases()) {
schemaForAugment = findAugment(choiceCaseNode, qNames);
- if(schemaForAugment.isPresent()) {
+ if (schemaForAugment.isPresent()) {
break;
}
}
}
private static Optional<AugmentationSchema> findAugment(final AugmentationTarget schema, final Set<QName> qNames) {
- for (AugmentationSchema augment : schema.getAvailableAugmentations()) {
-
- HashSet<QName> qNamesFromAugment = Sets.newHashSet(Collections2.transform(augment.getChildNodes(), new Function<DataSchemaNode, QName>() {
- @Override
- public QName apply(final @Nonnull DataSchemaNode input) {
- Preconditions.checkNotNull(input);
- return input.getQName();
- }
- }));
+ for (final AugmentationSchema augment : schema.getAvailableAugmentations()) {
+ final HashSet<QName> qNamesFromAugment = Sets.newHashSet(Collections2.transform(augment.getChildNodes(),
+ DataSchemaNode::getQName));
- if(qNamesFromAugment.equals(qNames)) {
+ if (qNamesFromAugment.equals(qNames)) {
return Optional.of(augment);
}
}
}
public static DataSchemaNode findSchemaForChild(final ChoiceSchemaNode schema, final QName childPartialQName) {
- for (ChoiceCaseNode choiceCaseNode : schema.getCases()) {
- Optional<DataSchemaNode> childSchema = findFirstSchema(childPartialQName, choiceCaseNode.getChildNodes());
+ for (final ChoiceCaseNode choiceCaseNode : schema.getCases()) {
+ final Optional<DataSchemaNode> childSchema = findFirstSchema(childPartialQName, choiceCaseNode.getChildNodes());
if (childSchema.isPresent()) {
return childSchema.get();
}
/**
* Recursively find all child nodes that come from choices.
*
+ * @param schema schema
* @return Map with all child nodes, to their most top augmentation
*/
public static Map<QName, ChoiceSchemaNode> mapChildElementsFromChoices(final DataNodeContainer schema) {
}
private static Map<QName, ChoiceSchemaNode> mapChildElementsFromChoices(final DataNodeContainer schema, final Iterable<DataSchemaNode> childNodes) {
- Map<QName, ChoiceSchemaNode> mappedChoices = Maps.newLinkedHashMap();
+ final Map<QName, ChoiceSchemaNode> mappedChoices = Maps.newLinkedHashMap();
for (final DataSchemaNode childSchema : childNodes) {
if (childSchema instanceof ChoiceSchemaNode) {
continue;
}
- for (ChoiceCaseNode choiceCaseNode : ((ChoiceSchemaNode) childSchema).getCases()) {
+ for (final ChoiceCaseNode choiceCaseNode : ((ChoiceSchemaNode) childSchema).getCases()) {
- for (QName qName : getChildNodesRecursive(choiceCaseNode)) {
+ for (final QName qName : getChildNodesRecursive(choiceCaseNode)) {
mappedChoices.put(qName, (ChoiceSchemaNode) childSchema);
}
}
return false;
}
- for (AugmentationSchema augmentationSchema : ((AugmentationTarget) schema).getAvailableAugmentations()) {
- if(augmentationSchema.getDataChildByName(childSchema.getQName()) != null) {
+ for (final AugmentationSchema augmentationSchema : ((AugmentationTarget) schema).getAvailableAugmentations()) {
+ if (augmentationSchema.getDataChildByName(childSchema.getQName()) != null) {
return true;
}
}
/**
* Recursively find all child nodes that come from augmentations.
*
+ * @param schema schema
* @return Map with all child nodes, to their most top augmentation
*/
public static Map<QName, AugmentationSchema> mapChildElementsFromAugments(final AugmentationTarget schema) {
- Map<QName, AugmentationSchema> childNodesToAugmentation = Maps.newLinkedHashMap();
+ final Map<QName, AugmentationSchema> childNodesToAugmentation = Maps.newLinkedHashMap();
// Find QNames of augmented child nodes
- Map<QName, AugmentationSchema> augments = Maps.newHashMap();
+ final Map<QName, AugmentationSchema> augments = Maps.newHashMap();
for (final AugmentationSchema augmentationSchema : schema.getAvailableAugmentations()) {
- for (DataSchemaNode dataSchemaNode : augmentationSchema.getChildNodes()) {
+ for (final DataSchemaNode dataSchemaNode : augmentationSchema.getChildNodes()) {
augments.put(dataSchemaNode.getQName(), augmentationSchema);
}
}
// because nodes from augment do not contain nodes from other augmentations
if (schema instanceof DataNodeContainer) {
- for (DataSchemaNode child : ((DataNodeContainer) schema).getChildNodes()) {
+ for (final DataSchemaNode child : ((DataNodeContainer) schema).getChildNodes()) {
// If is not augmented child, continue
if (!(augments.containsKey(child.getQName()))) {
continue;
}
- AugmentationSchema mostTopAugmentation = augments.get(child.getQName());
+ final AugmentationSchema mostTopAugmentation = augments.get(child.getQName());
// recursively add all child nodes in case of augment, case and choice
if (child instanceof AugmentationSchema || child instanceof ChoiceCaseNode) {
- for (QName qName : getChildNodesRecursive((DataNodeContainer) child)) {
+ for (final QName qName : getChildNodesRecursive((DataNodeContainer) child)) {
childNodesToAugmentation.put(qName, mostTopAugmentation);
}
} else if (child instanceof ChoiceSchemaNode) {
- for (ChoiceCaseNode choiceCaseNode : ((ChoiceSchemaNode) child).getCases()) {
- for (QName qName : getChildNodesRecursive(choiceCaseNode)) {
+ for (final ChoiceCaseNode choiceCaseNode : ((ChoiceSchemaNode) child).getCases()) {
+ for (final QName qName : getChildNodesRecursive(choiceCaseNode)) {
childNodesToAugmentation.put(qName, mostTopAugmentation);
}
}
// Choice Node has to map child nodes from all its cases
if (schema instanceof ChoiceSchemaNode) {
- for (ChoiceCaseNode choiceCaseNode : ((ChoiceSchemaNode) schema).getCases()) {
+ for (final ChoiceCaseNode choiceCaseNode : ((ChoiceSchemaNode) schema).getCases()) {
if (!(augments.containsKey(choiceCaseNode.getQName()))) {
continue;
}
- for (QName qName : getChildNodesRecursive(choiceCaseNode)) {
+ for (final QName qName : getChildNodesRecursive(choiceCaseNode)) {
childNodesToAugmentation.put(qName, augments.get(choiceCaseNode.getQName()));
}
}
* Recursively list all child nodes.
*
* In case of choice, augment and cases, step in.
+ *
+ * @param nodeContainer node container
+ * @return set of QNames
*/
public static Set<QName> getChildNodesRecursive(final DataNodeContainer nodeContainer) {
- Set<QName> allChildNodes = Sets.newHashSet();
+ final Set<QName> allChildNodes = Sets.newHashSet();
- for (DataSchemaNode childSchema : nodeContainer.getChildNodes()) {
- if(childSchema instanceof ChoiceSchemaNode) {
- for (ChoiceCaseNode choiceCaseNode : ((ChoiceSchemaNode) childSchema).getCases()) {
+ for (final DataSchemaNode childSchema : nodeContainer.getChildNodes()) {
+ if (childSchema instanceof ChoiceSchemaNode) {
+ for (final ChoiceCaseNode choiceCaseNode : ((ChoiceSchemaNode) childSchema).getCases()) {
allChildNodes.addAll(getChildNodesRecursive(choiceCaseNode));
}
- } else if(childSchema instanceof AugmentationSchema || childSchema instanceof ChoiceCaseNode) {
+ } else if (childSchema instanceof AugmentationSchema || childSchema instanceof ChoiceCaseNode) {
allChildNodes.addAll(getChildNodesRecursive((DataNodeContainer) childSchema));
}
else {
* Schema of the same child node from augment, and directly from target is not the same.
* Schema of child node from augment is incomplete, therefore its useless for XML/NormalizedNode translation.
*
+ * @param targetSchema target schema
+ * @param augmentSchema augment schema
+ * @return set of nodes
*/
public static Set<DataSchemaNode> getRealSchemasForAugment(final AugmentationTarget targetSchema, final AugmentationSchema augmentSchema) {
if (!(targetSchema.getAvailableAugmentations().contains(augmentSchema))) {
Set<DataSchemaNode> realChildNodes = Sets.newHashSet();
- if(targetSchema instanceof DataNodeContainer) {
+ if (targetSchema instanceof DataNodeContainer) {
realChildNodes = getRealSchemasForAugment((DataNodeContainer)targetSchema, augmentSchema);
- } else if(targetSchema instanceof ChoiceSchemaNode) {
- for (DataSchemaNode dataSchemaNode : augmentSchema.getChildNodes()) {
- for (ChoiceCaseNode choiceCaseNode : ((ChoiceSchemaNode) targetSchema).getCases()) {
- if(getChildNodesRecursive(choiceCaseNode).contains(dataSchemaNode.getQName())) {
+ } else if (targetSchema instanceof ChoiceSchemaNode) {
+ for (final DataSchemaNode dataSchemaNode : augmentSchema.getChildNodes()) {
+ for (final ChoiceCaseNode choiceCaseNode : ((ChoiceSchemaNode) targetSchema).getCases()) {
+ if (getChildNodesRecursive(choiceCaseNode).contains(dataSchemaNode.getQName())) {
realChildNodes.add(choiceCaseNode.getDataChildByName(dataSchemaNode.getQName()));
}
}
public static Set<DataSchemaNode> getRealSchemasForAugment(final DataNodeContainer targetSchema,
final AugmentationSchema augmentSchema) {
- Set<DataSchemaNode> realChildNodes = Sets.newHashSet();
- for (DataSchemaNode dataSchemaNode : augmentSchema.getChildNodes()) {
- DataSchemaNode realChild = targetSchema.getDataChildByName(dataSchemaNode.getQName());
+ final Set<DataSchemaNode> realChildNodes = Sets.newHashSet();
+ for (final DataSchemaNode dataSchemaNode : augmentSchema.getChildNodes()) {
+ final DataSchemaNode realChild = targetSchema.getDataChildByName(dataSchemaNode.getQName());
realChildNodes.add(realChild);
}
return realChildNodes;
}
public static Optional<ChoiceCaseNode> detectCase(final ChoiceSchemaNode schema, final DataContainerChild<?, ?> child) {
- for (ChoiceCaseNode choiceCaseNode : schema.getCases()) {
+ for (final ChoiceCaseNode choiceCaseNode : schema.getCases()) {
if (child instanceof AugmentationNode
- && belongsToCaseAugment(choiceCaseNode,
- (YangInstanceIdentifier.AugmentationIdentifier) child.getIdentifier())) {
+ && belongsToCaseAugment(choiceCaseNode, (AugmentationIdentifier) child.getIdentifier())) {
return Optional.of(choiceCaseNode);
} else if (choiceCaseNode.getDataChildByName(child.getNodeType()) != null) {
return Optional.of(choiceCaseNode);
return Optional.absent();
}
- public static boolean belongsToCaseAugment(final ChoiceCaseNode caseNode, final YangInstanceIdentifier.AugmentationIdentifier childToProcess) {
- for (AugmentationSchema augmentationSchema : caseNode.getAvailableAugmentations()) {
+ public static boolean belongsToCaseAugment(final ChoiceCaseNode caseNode, final AugmentationIdentifier childToProcess) {
+ for (final AugmentationSchema augmentationSchema : caseNode.getAvailableAugmentations()) {
- Set<QName> currentAugmentChildNodes = Sets.newHashSet();
- for (DataSchemaNode dataSchemaNode : augmentationSchema.getChildNodes()) {
+ final Set<QName> currentAugmentChildNodes = Sets.newHashSet();
+ for (final DataSchemaNode dataSchemaNode : augmentationSchema.getChildNodes()) {
currentAugmentChildNodes.add(dataSchemaNode.getQName());
}
- if(childToProcess.getPossibleChildNames().equals(currentAugmentChildNodes)){
+ if (childToProcess.getPossibleChildNames().equals(currentAugmentChildNodes)){
return true;
}
}
return false;
}
- public static YangInstanceIdentifier.AugmentationIdentifier getNodeIdentifierForAugmentation(final AugmentationSchema schema) {
- return new YangInstanceIdentifier.AugmentationIdentifier(getChildQNames(schema));
+ /**
+ * Tries to find in {@code parent} which is dealed as augmentation target node with QName as {@code child}. If such
+ * node is found then it is returned, else null.
+ *
+ * @param parent parent node
+ * @param child child node
+ * @return augmentation schema
+ */
+ public static AugmentationSchema findCorrespondingAugment(final DataSchemaNode parent, final DataSchemaNode child) {
+ if (parent instanceof AugmentationTarget && !(parent instanceof ChoiceSchemaNode)) {
+ for (final AugmentationSchema augmentation : ((AugmentationTarget) parent).getAvailableAugmentations()) {
+ final DataSchemaNode childInAugmentation = augmentation.getDataChildByName(child.getQName());
+ if (childInAugmentation != null) {
+ return augmentation;
+ }
+ }
+ }
+ return null;
+ }
+
+ public static AugmentationIdentifier getNodeIdentifierForAugmentation(final AugmentationSchema schema) {
+ final Collection<QName> qnames = Collections2.transform(schema.getChildNodes(), DataSchemaNode::getQName);
+ return new AugmentationIdentifier(ImmutableSet.copyOf(qnames));
+ }
+
+ /**
+ * Finds schema node for given path in schema context. This method performs
+ * lookup in the namespace of all leafs, leaf-lists, lists, containers,
+ * choices, rpcs, actions, notifications, anydatas, and anyxmls according to
+ * Rfc6050/Rfc7950 section 6.2.1.
+ *
+ * @param schemaContext
+ * schema context
+ * @param path
+ * path
+ * @return schema node on path
+ */
+ public static SchemaNode findDataParentSchemaOnPath(final SchemaContext schemaContext, final SchemaPath path) {
+ SchemaNode current = Preconditions.checkNotNull(schemaContext);
+ for (final QName qname : path.getPathFromRoot()) {
+ current = findDataChildSchemaByQName(current, qname);
+ }
+ return current;
+ }
+
+ /**
+ * Finds schema node for given path in schema context. This method performs
+ * lookup in both the namespace of groupings and the namespace of all leafs,
+ * leaf-lists, lists, containers, choices, rpcs, actions, notifications,
+ * anydatas, and anyxmls according to Rfc6050/Rfc7950 section 6.2.1.
+ *
+ * This method is deprecated, because name conflicts can occur between the
+ * namespace of groupings and namespace of data nodes and in consequence
+ * lookup could be ambiguous.
+ *
+ * @param schemaContext
+ * schema context
+ * @param path
+ * path
+ * @return schema node on path
+ *
+ * @deprecated use
+ * {@link #findParentSchemaNodesOnPath(SchemaContext, SchemaPath)}
+ * instead.
+ */
+ @Deprecated
+ public static SchemaNode findParentSchemaOnPath(final SchemaContext schemaContext, final SchemaPath path) {
+ SchemaNode current = Preconditions.checkNotNull(schemaContext);
+ for (final QName qname : path.getPathFromRoot()) {
+ current = findChildSchemaByQName(current, qname);
+ }
+ return current;
+ }
+
+ /**
+ * Find child data schema node identified by its QName within a provided
+ * schema node. This method performs lookup in the namespace of all leafs,
+ * leaf-lists, lists, containers, choices, rpcs, actions, notifications,
+ * anydatas, and anyxmls according to Rfc6050/Rfc7950 section 6.2.1.
+ *
+ * @param node
+ * schema node
+ * @param qname
+ * QName
+ * @return data child schema node
+ * @throws java.lang.IllegalArgumentException
+ * if the schema node does not allow children
+ */
+ @Nullable
+ public static SchemaNode findDataChildSchemaByQName(final SchemaNode node, final QName qname) {
+ SchemaNode child = null;
+ if (node instanceof DataNodeContainer) {
+ child = ((DataNodeContainer) node).getDataChildByName(qname);
+ if (child == null && node instanceof SchemaContext) {
+ child = tryFindRpc((SchemaContext) node, qname).orNull();
+ }
+ if (child == null && node instanceof NotificationNodeContainer) {
+ child = tryFindNotification((NotificationNodeContainer) node, qname).orNull();
+ }
+ if (child == null && node instanceof ActionNodeContainer) {
+ child = tryFindAction((ActionNodeContainer) node, qname).orNull();
+ }
+ } else if (node instanceof ChoiceSchemaNode) {
+ child = ((ChoiceSchemaNode) node).getCaseNodeByName(qname);
+ } else if (node instanceof RpcDefinition) {
+ switch (qname.getLocalName()) {
+ case "input":
+ child = ((RpcDefinition) node).getInput();
+ break;
+ case "output":
+ child = ((RpcDefinition) node).getOutput();
+ break;
+ default:
+ child = null;
+ break;
+ }
+ } else {
+ throw new IllegalArgumentException(String.format("Schema node %s does not allow children.", node));
+ }
+
+ return child;
+ }
+
+ /**
+ * Find child schema node identified by its QName within a provided schema
+ * node. This method performs lookup in both the namespace of groupings and
+ * the namespace of all leafs, leaf-lists, lists, containers, choices, rpcs,
+ * actions, notifications, anydatas, and anyxmls according to
+ * Rfc6050/Rfc7950 section 6.2.1.
+ *
+ * This method is deprecated, because name conflicts can occur between the
+ * namespace of groupings and namespace of data nodes and in consequence
+ * lookup could be ambiguous.
+ *
+ * @param node
+ * schema node
+ * @param qname
+ * QName
+ * @return child schema node
+ * @throws java.lang.IllegalArgumentException
+ * if the schema node does not allow children
+ *
+ * @deprecated use
+ * {@link #findChildSchemaNodesByQName(SchemaNode, QName)}
+ * instead.
+ */
+ @Deprecated
+ public static SchemaNode findChildSchemaByQName(final SchemaNode node, final QName qname) {
+ SchemaNode child = findDataChildSchemaByQName(node, qname);
+ if (child == null && node instanceof DataNodeContainer) {
+ child = tryFindGroupings((DataNodeContainer) node, qname).orNull();
+ }
+
+ return child;
}
- public static Set<QName> getChildQNames(final AugmentationSchema schema) {
- Set<QName> qnames = Sets.newHashSet();
+ /**
+ * Finds schema node for given path in schema context. This method performs
+ * lookup in both the namespace of groupings and the namespace of all leafs,
+ * leaf-lists, lists, containers, choices, rpcs, actions, notifications,
+ * anydatas, and anyxmls according to Rfc6050/Rfc7950 section 6.2.1.
+ *
+ * This method returns collection of SchemaNodes, because name conflicts can
+ * occur between the namespace of groupings and namespace of data nodes.
+ * This method finds and collects all schema nodes that matches supplied
+ * SchemaPath and returns them all as collection of schema nodes.
+ *
+ * @param schemaContext
+ * schema context
+ * @param path
+ * path
+ * @return collection of schema nodes on path
+ *
+ */
+ public static Collection<SchemaNode> findParentSchemaNodesOnPath(final SchemaContext schemaContext,
+ final SchemaPath path) {
+ final Collection<SchemaNode> currentNodes = new ArrayList<>();
+ final Collection<SchemaNode> childNodes = new ArrayList<>();
+ currentNodes.add(Preconditions.checkNotNull(schemaContext));
+ for (final QName qname : path.getPathFromRoot()) {
+ for (final SchemaNode current : currentNodes) {
+ childNodes.addAll(findChildSchemaNodesByQName(current, qname));
+ }
+ currentNodes.clear();
+ currentNodes.addAll(childNodes);
+ childNodes.clear();
+ }
- for (DataSchemaNode dataSchemaNode : schema.getChildNodes()) {
- qnames.add(dataSchemaNode.getQName());
+ return currentNodes;
+ }
+
+ /**
+ * Find child schema node identified by its QName within a provided schema
+ * node. This method performs lookup in both the namespace of groupings and
+ * the namespace of all leafs, leaf-lists, lists, containers, choices, rpcs,
+ * actions, notifications, anydatas, and anyxmls according to
+ * Rfc6050/Rfc7950 section 6.2.1.
+ *
+ * This method returns collection of SchemaNodes, because name conflicts can
+ * occur between the namespace of groupings and namespace of data nodes.
+ * This method finds and collects all schema nodes with supplied QName and
+ * returns them all as collection of schema nodes.
+ *
+ * @param node
+ * schema node
+ * @param qname
+ * QName
+ * @return collection of child schema nodes
+ * @throws java.lang.IllegalArgumentException
+ * if the schema node does not allow children
+ *
+ */
+ public static Collection<SchemaNode> findChildSchemaNodesByQName(final SchemaNode node, final QName qname) {
+ final List<SchemaNode> childNodes = new ArrayList<>();
+ final SchemaNode dataNode = findDataChildSchemaByQName(node, qname);
+ if (dataNode != null) {
+ childNodes.add(dataNode);
+ }
+ if (node instanceof DataNodeContainer) {
+ final SchemaNode groupingNode = tryFindGroupings((DataNodeContainer) node, qname).orNull();
+ if (groupingNode != null) {
+ childNodes.add(groupingNode);
+ }
+ }
+ return childNodes.isEmpty() ? Collections.emptyList() : ImmutableList.copyOf(childNodes);
+ }
+
+ private static Optional<SchemaNode> tryFindGroupings(final DataNodeContainer dataNodeContainer, final QName qname) {
+ return Optional
+ .fromNullable(Iterables.find(dataNodeContainer.getGroupings(), new SchemaNodePredicate(qname), null));
+ }
+
+ private static Optional<SchemaNode> tryFindRpc(final SchemaContext ctx, final QName qname) {
+ return Optional.fromNullable(Iterables.find(ctx.getOperations(), new SchemaNodePredicate(qname), null));
+ }
+
+ private static Optional<SchemaNode> tryFindNotification(final NotificationNodeContainer notificationContanier,
+ final QName qname) {
+ return Optional.fromNullable(
+ Iterables.find(notificationContanier.getNotifications(), new SchemaNodePredicate(qname), null));
+ }
+
+ private static Optional<SchemaNode> tryFindAction(final ActionNodeContainer actionContanier, final QName qname) {
+ return Optional.fromNullable(Iterables.find(actionContanier.getActions(), new SchemaNodePredicate(qname), null));
+ }
+
+ private static final class SchemaNodePredicate implements Predicate<SchemaNode> {
+ private final QName qname;
+
+ public SchemaNodePredicate(final QName qname) {
+ this.qname = qname;
}
- return qnames;
+ @Override
+ public boolean apply(final SchemaNode input) {
+ return input.getQName().equals(qname);
+ }
}
+
}