*/
package org.opendaylight.yangtools.yang.model.util;
+import com.google.common.base.Function;
import com.google.common.base.Preconditions;
+import com.google.common.base.Splitter;
+import com.google.common.collect.Iterables;
+
import java.net.URI;
import java.util.ArrayList;
-import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.Date;
+import java.util.Iterator;
import java.util.LinkedList;
import java.util.List;
import java.util.Set;
+
import org.opendaylight.yangtools.yang.common.QName;
import org.opendaylight.yangtools.yang.model.api.AugmentationSchema;
import org.opendaylight.yangtools.yang.model.api.AugmentationTarget;
*/
public final class SchemaContextUtil {
private static final Logger LOG = LoggerFactory.getLogger(SchemaContextUtil.class);
+ private static final Splitter COLON_SPLITTER = Splitter.on(':');
+ private static final Splitter SLASH_SPLITTER = Splitter.on('/');
private SchemaContextUtil() {
}
Preconditions.checkArgument(context != null, "Schema Context reference cannot be NULL");
Preconditions.checkArgument(schemaPath != null, "Schema Path reference cannot be NULL");
- final List<QName> prefixedPath = (schemaPath.getPath());
+ final Iterable<QName> prefixedPath = schemaPath.getPathFromRoot();
if (prefixedPath == null) {
LOG.debug("Schema path {} has null path", schemaPath);
return null;
SchemaPath actualNodePath = actualSchemaNode.getPath();
if (actualNodePath != null) {
- List<QName> qnamePath = resolveRelativeXPath(context, module, relativeXPath, actualSchemaNode);
+ Iterable<QName> qnamePath = resolveRelativeXPath(context, module, relativeXPath, actualSchemaNode);
if (qnamePath != null) {
return findNodeInSchemaContext(context, qnamePath);
Preconditions.checkState(schemaNode.getPath() != null, "Schema Path for Schema Node is not "
+ "set properly (Schema Path is NULL)");
- List<QName> qnamedPath = schemaNode.getPath().getPath();
- if (qnamedPath == null || qnamedPath.isEmpty()) {
- throw new IllegalStateException("Schema Path contains invalid state of path parts."
- + "The Schema Path MUST contain at least ONE QName which defines namespace and Local name"
- + "of path.");
- }
- QName qname = qnamedPath.get(qnamedPath.size() - 1);
+ final QName qname = Iterables.getFirst(schemaNode.getPath().getPathTowardsRoot(), null);
+ Preconditions.checkState(qname != null,
+ "Schema Path contains invalid state of path parts. " +
+ "The Schema Path MUST contain at least ONE QName which defines namespace and Local name of path.");
return context.findModuleByNamespaceAndRevision(qname.getNamespace(), qname.getRevision());
}
- public static SchemaNode findNodeInSchemaContext(final SchemaContext context, final List<QName> path) {
- final QName current = path.get(0);
+ public static SchemaNode findNodeInSchemaContext(final SchemaContext context, final Iterable<QName> path) {
+ final QName current = path.iterator().next();
LOG.trace("Looking up module {} in context {}", current, path);
final Module module = context.findModuleByNamespaceAndRevision(current.getNamespace(), current.getRevision());
return (GroupingDefinition) currentParent;
}
- private static SchemaNode findNodeInModule(final Module module, final List<QName> path) {
- final QName current = path.get(0);
+ private static SchemaNode findNodeInModule(final Module module, final Iterable<QName> path) {
+ final QName current = path.iterator().next();
LOG.trace("Looking for data container {} in module {}", current, module);
SchemaNode parent = module.getDataChildByName(current);
return null;
}
- private static SchemaNode findNodeInGrouping(final GroupingDefinition grouping, final List<QName> path) {
- if (path.isEmpty()) {
+ private static SchemaNode findNodeInGrouping(final GroupingDefinition grouping, final Iterable<QName> path) {
+ final QName current = Iterables.getFirst(path, null);
+ if (current == null) {
LOG.debug("Found grouping {}", grouping);
return grouping;
}
LOG.trace("Looking for path {} in grouping {}", path, grouping);
- final QName current = path.get(0);
final DataSchemaNode node = grouping.getDataChildByName(current);
if (node == null) {
LOG.debug("No node matching {} found in grouping {}", current, grouping);
return findNode(node, nextLevel(path));
}
- private static SchemaNode findNodeInRpc(final RpcDefinition rpc, final List<QName> path) {
- if (path.isEmpty()) {
+ private static SchemaNode findNodeInRpc(final RpcDefinition rpc, final Iterable<QName> path) {
+ final QName current = Iterables.getFirst(path, null);
+ if (current == null) {
LOG.debug("Found RPC {}", rpc);
return rpc;
}
LOG.trace("Looking for path {} in rpc {}", path, rpc);
- final QName current = path.get(0);
switch (current.getLocalName()) {
case "input":
return findNode(rpc.getInput(), nextLevel(path));
}
}
- private static SchemaNode findNodeInNotification(final NotificationDefinition ntf, final List<QName> path) {
- if (path.isEmpty()) {
+ private static SchemaNode findNodeInNotification(final NotificationDefinition ntf, final Iterable<QName> path) {
+ final QName current = Iterables.getFirst(path, null);
+ if (current == null) {
LOG.debug("Found notification {}", ntf);
return ntf;
}
LOG.trace("Looking for path {} in notification {}", path, ntf);
- final QName current = path.get(0);
DataSchemaNode node = ntf.getDataChildByName(current);
if (node == null) {
LOG.debug("No node matching {} found in notification {}", current, ntf);
return findNode(node, nextLevel(path));
}
- private static SchemaNode findNode(final ChoiceNode parent, final List<QName> path) {
- if (path.isEmpty()) {
+ private static SchemaNode findNode(final ChoiceNode parent, final Iterable<QName> path) {
+ final QName current = Iterables.getFirst(path, null);
+ if (current == null) {
return parent;
}
- QName current = path.get(0);
ChoiceCaseNode node = parent.getCaseNodeByName(current);
if (node != null) {
return findNodeInCase(node, nextLevel(path));
return null;
}
- private static SchemaNode findNode(final ContainerSchemaNode parent, final List<QName> path) {
- if (path.isEmpty()) {
+ private static SchemaNode findNode(final ContainerSchemaNode parent, final Iterable<QName> path) {
+ final QName current = Iterables.getFirst(path, null);
+ if (current == null) {
return parent;
}
- final QName current = path.get(0);
final DataSchemaNode node = parent.getDataChildByName(current);
if (node == null) {
LOG.debug("Failed to find {} in parent {}", path, parent);
return findNode(node, nextLevel(path));
}
- private static SchemaNode findNode(final ListSchemaNode parent, final List<QName> path) {
- if (path.isEmpty()) {
+ private static SchemaNode findNode(final ListSchemaNode parent, final Iterable<QName> path) {
+ final QName current = Iterables.getFirst(path, null);
+ if (current == null) {
return parent;
}
- QName current = path.get(0);
DataSchemaNode node = parent.getDataChildByName(current);
if (node == null) {
LOG.debug("Failed to find {} in parent {}", path, parent);
return findNode(node, nextLevel(path));
}
- private static SchemaNode findNode(final DataSchemaNode parent, final List<QName> path) {
+ private static SchemaNode findNode(final DataSchemaNode parent, final Iterable<QName> path) {
final SchemaNode node;
- if (!path.isEmpty()) {
+ if (!Iterables.isEmpty(path)) {
if (parent instanceof ContainerSchemaNode) {
node = findNode((ContainerSchemaNode) parent, path);
} else if (parent instanceof ListSchemaNode) {
return node;
}
- public static SchemaNode findNodeInCase(final ChoiceCaseNode parent, final List<QName> path) {
- if (path.isEmpty()) {
+ public static SchemaNode findNodeInCase(final ChoiceCaseNode parent, final Iterable<QName> path) {
+ final QName current = Iterables.getFirst(path, null);
+ if (current == null) {
return parent;
}
- QName current = path.get(0);
DataSchemaNode node = parent.getDataChildByName(current);
if (node == null) {
LOG.debug("Failed to find {} in parent {}", path, parent);
return null;
}
- private static List<QName> nextLevel(final List<QName> path) {
- return path.subList(1, path.size());
+ private static Iterable<QName> nextLevel(final Iterable<QName> path) {
+ return Iterables.skip(path, 1);
}
public static NotificationDefinition getNotificationByName(final Module module, final QName name) {
Preconditions.checkArgument(m != null, "Failed to find module for node {} in context {}", node, ctx);
for (final UsesNode u : m.getUses()) {
- final SchemaNode targetGrouping = findNodeInSchemaContext(ctx, u.getGroupingPath().getPath());
+ final SchemaNode targetGrouping = findNodeInSchemaContext(ctx, u.getGroupingPath().getPathFromRoot());
Preconditions.checkArgument(targetGrouping instanceof GroupingDefinition,
"Failed to generate code for augment in %s", u);
}
private static DataSchemaNode findCorrectTargetFromGrouping(final DataSchemaNode node, final SchemaContext ctx) {
- if (node.getPath().getPath().size() != 1) {
+ if (Iterables.size(node.getPath().getPathTowardsRoot()) != 1) {
QName currentName = node.getQName();
// tmpPath is used to track level of nesting
List<QName> tmpPath = new ArrayList<>();
Object parent = null;
// create schema path of parent node
- SchemaPath sp = node.getPath();
- List<QName> newNames = new ArrayList<>(sp.getPath());
- // parentPath = nodePath - lastQName
- newNames.remove(newNames.size() - 1);
- SchemaPath newSp = SchemaPath.create(newNames, sp.isAbsolute());
- // find parent node by its schema path
- parent = findDataSchemaNode(ctx, newSp);
+ SchemaPath sp = node.getPath().getParent();
+ parent = findDataSchemaNode(ctx, sp);
do {
tmpPath.add(currentName);
// groupings => parent is added by grouping too, so repeat same
// process for parent
if (result == null) {
+ final SchemaNode sn = (SchemaNode) parent;
+
// set current name to name of parent node
- currentName = ((SchemaNode) parent).getQName();
+ currentName = sn.getQName();
Preconditions.checkArgument(parent instanceof SchemaNode,
"Failed to generate code for augmend node {} at parent {}", node, parent);
+
// create schema path for parent of current parent
- SchemaPath nodeSp = ((SchemaNode) parent).getPath();
- List<QName> nodeNewNames = new ArrayList<>(nodeSp.getPath());
- nodeNewNames.remove(nodeNewNames.size() - 1);
- // set new parent based on path
- if (nodeNewNames.isEmpty()) {
- parent = getParentModule((SchemaNode) parent, ctx);
- } else {
- SchemaPath nodeNewSp = new SchemaPath(nodeNewNames, nodeSp.isAbsolute());
- parent = findDataSchemaNode(ctx, nodeNewSp);
- }
+ final SchemaPath parentSp = sn.getPath().getParent();
+ parent = parentSp.getPathFromRoot().iterator().hasNext() ? findDataSchemaNode(ctx, parentSp)
+ : getParentModule(sn, ctx);
} else {
// if wanted node was found in grouping, traverse this node
// based on level of nesting
AugmentationSchema augment = null;
do {
SchemaPath sp = ((SchemaNode) parent).getPath();
- List<QName> names = sp.getPath();
- List<QName> newNames = new ArrayList<>(names);
- newNames.remove(newNames.size() - 1);
- SchemaPath newSp = SchemaPath.create(newNames, sp.isAbsolute());
- parent = findDataSchemaNode(ctx, newSp);
+ parent = findDataSchemaNode(ctx, sp.getParent());
if (parent instanceof AugmentationTarget) {
tmpPath.add(currentName);
tmpTree.add((SchemaNode) currentNode);
}
private static DataSchemaNode getResultFromUses(final UsesNode u, final String currentName, final SchemaContext ctx) {
- SchemaNode targetGrouping = findNodeInSchemaContext(ctx, u.getGroupingPath().getPath());
+ SchemaNode targetGrouping = findNodeInSchemaContext(ctx, u.getGroupingPath().getPathFromRoot());
Preconditions.checkArgument(targetGrouping instanceof GroupingDefinition,
"Failed to generate code for augment in %s", u);
}
private static Module getParentModule(final SchemaNode node, final SchemaContext ctx) {
- QName qname = node.getPath().getPath().get(0);
+ QName qname = node.getPath().getPathFromRoot().iterator().next();
URI namespace = qname.getNamespace();
Date revision = qname.getRevision();
return ctx.findModuleByNamespaceAndRevision(namespace, revision);
Preconditions.checkArgument(xpath != null, "XPath string reference cannot be NULL");
List<QName> path = new LinkedList<QName>();
- String[] prefixedPath = xpath.split("/");
- for (String pathComponent : prefixedPath) {
+ for (String pathComponent : SLASH_SPLITTER.split(xpath)) {
if (!pathComponent.isEmpty()) {
path.add(stringPathPartToQName(context, parentModule, pathComponent));
}
Preconditions.checkArgument(parentModule != null, "Parent Module reference cannot be NULL");
Preconditions.checkArgument(prefixedPathPart != null, "Prefixed Path Part cannot be NULL!");
- if (prefixedPathPart.contains(":")) {
- String[] prefixedName = prefixedPathPart.split(":");
- Module module = resolveModuleForPrefix(context, parentModule, prefixedName[0]);
+ if (prefixedPathPart.indexOf(':') != -1) {
+ final Iterator<String> prefixedName = COLON_SPLITTER.split(prefixedPathPart).iterator();
+ final String modulePrefix = prefixedName.next();
+
+ Module module = resolveModuleForPrefix(context, parentModule, modulePrefix);
Preconditions.checkArgument(module != null, "Failed to resolve xpath: no module found for prefix %s in module %s",
- prefixedName[0], parentModule.getName());
- return new QName(module.getNamespace(), module.getRevision(), prefixedName[1]);
+ modulePrefix, parentModule.getName());
+
+ // FIXME: Module should have a QNameModule handle
+ return QName.create(module.getNamespace(), module.getRevision(), prefixedName.next());
} else {
- return new QName(parentModule.getNamespace(), parentModule.getRevision(), prefixedPathPart);
+ return QName.create(parentModule.getNamespace(), parentModule.getRevision(), prefixedPathPart);
}
}
* Schema Path for Leafref
* @return list of QName
*/
- private static List<QName> resolveRelativeXPath(final SchemaContext context, final Module module,
+ private static Iterable<QName> resolveRelativeXPath(final SchemaContext context, final Module module,
final RevisionAwareXPath relativeXPath, final SchemaNode leafrefParentNode) {
Preconditions.checkArgument(context != null, "Schema Context reference cannot be NULL");
Preconditions.checkArgument(module != null, "Module reference cannot be NULL");
Preconditions.checkState(leafrefParentNode.getPath() != null,
"Schema Path reference for Leafref cannot be NULL");
- List<QName> absolutePath = new LinkedList<QName>();
- String strXPath = relativeXPath.toString();
- String[] xpaths = strXPath.split("/");
+ final Iterable<String> xpaths = SLASH_SPLITTER.split(relativeXPath.toString());
+ // Find out how many "parent" components there are
+ // FIXME: is .contains() the right check here?
int colCount = 0;
- while (xpaths[colCount].contains("..")) {
- colCount = colCount + 1;
- }
- List<QName> path = leafrefParentNode.getPath().getPath();
- if (path != null) {
- int lenght = path.size() - colCount;
- absolutePath.addAll(path.subList(0, lenght));
- List<String> xpathsList = Arrays.asList(xpaths);
- List<String> sublistedXPath = xpathsList.subList(colCount, xpaths.length);
- List<QName> sublist = new ArrayList<>();
- for (String pathPart : sublistedXPath) {
- sublist.add(stringPathPartToQName(context, module, pathPart));
- }
- absolutePath.addAll(sublist);
+ for (Iterator<String> it = xpaths.iterator(); it.hasNext() && it.next().contains(".."); ) {
+ ++colCount;
}
- return absolutePath;
+ final Iterable<QName> parent = leafrefParentNode.getPath().getPathFromRoot();
+ return Iterables.concat(Iterables.limit(parent, Iterables.size(parent) - colCount),
+ Iterables.transform(Iterables.skip(xpaths, colCount), new Function<String, QName>() {
+ @Override
+ public QName apply(final String input) {
+ return stringPathPartToQName(context, module, input);
+ }
+ }));
}
}