import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Splitter;
import com.google.common.collect.Iterables;
+import com.google.common.collect.Lists;
+import java.util.ArrayDeque;
import java.util.ArrayList;
+import java.util.Arrays;
+import java.util.Deque;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Optional;
import java.util.Set;
import java.util.regex.Pattern;
+import java.util.stream.Collectors;
import org.eclipse.jdt.annotation.NonNull;
import org.eclipse.jdt.annotation.Nullable;
+import org.opendaylight.yangtools.yang.common.AbstractQName;
import org.opendaylight.yangtools.yang.common.QName;
+import org.opendaylight.yangtools.yang.common.QNameModule;
+import org.opendaylight.yangtools.yang.common.UnqualifiedQName;
import org.opendaylight.yangtools.yang.model.api.ActionNodeContainer;
import org.opendaylight.yangtools.yang.model.api.CaseSchemaNode;
import org.opendaylight.yangtools.yang.model.api.ChoiceSchemaNode;
-import org.opendaylight.yangtools.yang.model.api.ContainerSchemaNode;
+import org.opendaylight.yangtools.yang.model.api.ContainerLike;
import org.opendaylight.yangtools.yang.model.api.DataNodeContainer;
import org.opendaylight.yangtools.yang.model.api.DataSchemaNode;
import org.opendaylight.yangtools.yang.model.api.DerivableSchemaNode;
import org.opendaylight.yangtools.yang.model.api.GroupingDefinition;
-import org.opendaylight.yangtools.yang.model.api.LeafListSchemaNode;
import org.opendaylight.yangtools.yang.model.api.LeafSchemaNode;
import org.opendaylight.yangtools.yang.model.api.Module;
import org.opendaylight.yangtools.yang.model.api.ModuleImport;
+import org.opendaylight.yangtools.yang.model.api.ModuleLike;
import org.opendaylight.yangtools.yang.model.api.NotificationDefinition;
import org.opendaylight.yangtools.yang.model.api.NotificationNodeContainer;
import org.opendaylight.yangtools.yang.model.api.OperationDefinition;
import org.opendaylight.yangtools.yang.model.api.PathExpression;
+import org.opendaylight.yangtools.yang.model.api.PathExpression.DerefSteps;
+import org.opendaylight.yangtools.yang.model.api.PathExpression.LocationPathSteps;
+import org.opendaylight.yangtools.yang.model.api.PathExpression.Steps;
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;
+import org.opendaylight.yangtools.yang.model.api.Submodule;
import org.opendaylight.yangtools.yang.model.api.TypeDefinition;
import org.opendaylight.yangtools.yang.model.api.TypedDataSchemaNode;
+import org.opendaylight.yangtools.yang.model.api.type.InstanceIdentifierTypeDefinition;
import org.opendaylight.yangtools.yang.model.api.type.LeafrefTypeDefinition;
import org.opendaylight.yangtools.yang.model.repo.api.RevisionSourceIdentifier;
import org.opendaylight.yangtools.yang.model.repo.api.SourceIdentifier;
+import org.opendaylight.yangtools.yang.xpath.api.YangLocationPath;
+import org.opendaylight.yangtools.yang.xpath.api.YangLocationPath.AxisStep;
+import org.opendaylight.yangtools.yang.xpath.api.YangLocationPath.QNameStep;
+import org.opendaylight.yangtools.yang.xpath.api.YangLocationPath.Step;
+import org.opendaylight.yangtools.yang.xpath.api.YangXPathAxis;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
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('/').omitEmptyStrings();
+ private static final Pattern GROUPS_PATTERN = Pattern.compile("\\[(.*?)\\]");
private SchemaContextUtil() {
+ // Hidden on purpose
}
/**
- * Method attempts to find DataSchemaNode in Schema Context via specified
- * Schema Path. The returned DataSchemaNode from method will be the node at
- * the end of the SchemaPath. If the DataSchemaNode is not present in the
- * Schema Context the method will return <code>null</code>. <br>
- * In case that Schema Context or Schema Path are not specified correctly
- * (i.e. contains <code>null</code> values) the method will throw
- * IllegalArgumentException.
+ * Method attempts to find DataSchemaNode in Schema Context via specified Schema Path. The returned DataSchemaNode
+ * from method will be the node at the end of the SchemaPath. If the DataSchemaNode is not present in the Schema
+ * Context the method will return {@code null}.
*
- * @param context
- * Schema Context
- * @param schemaPath
- * Schema Path to search for
- * @return SchemaNode from the end of the Schema Path or <code>null</code>
- * if the Node is not present.
+ * <p>
+ * In case that Schema Context or Schema Path are not specified correctly (i.e. contains {@code null} values) the
+ * method will throw IllegalArgumentException.
+ *
+ * @param context Schema Context
+ * @param schemaPath Schema Path to search for
+ * @return SchemaNode from the end of the Schema Path or {@code null} if the Node is not present.
* @throws NullPointerException if context or schemaPath is null
*/
public static SchemaNode findDataSchemaNode(final SchemaContext context, final SchemaPath schemaPath) {
return findNodeInSchemaContext(context, prefixedPath);
}
+ /**
+ * Attempt to find a DataSchemaNode based on its path from root, similar to
+ * {@link #findDataSchemaNode(SchemaContext, Module, PathExpression)} without requiring an expression.
+ *
+ * @param context Schema Context
+ * @param path Path to search for
+ * @return SchemaNode from the end of the Schema Path or {@code null} if the Node is not present.
+ * @throws NullPointerException if a any argument is null or if the path contains a null element
+ */
+ @Beta
+ public static SchemaNode findDataSchemaNode(final SchemaContext context, final List<QName> path) {
+ return findTargetNode(context, null, YangLocationPath.absolute(
+ path.stream().map(YangXPathAxis.CHILD::asStep).collect(Collectors.toList())));
+ }
+
+ /**
+ * Attempt to find a DataSchemaNode based on its path from root, similar to
+ * {@link #findDataSchemaNode(SchemaContext, Module, PathExpression)} without requiring an expression.
+ *
+ * @param context Schema Context
+ * @param path Path to search for
+ * @return SchemaNode from the end of the Schema Path or {@code null} if the Node is not present.
+ * @throws NullPointerException if a any argument is null or if the path contains a null element
+ */
+ @Beta
+ public static SchemaNode findDataSchemaNode(final SchemaContext context, final QName... path) {
+ return findDataSchemaNode(context, Arrays.asList(path));
+ }
+
/**
* Method attempts to find DataSchemaNode inside of provided Schema Context
* and Yang Module accordingly to Non-conditional Revision Aware XPath. The
* Non-conditional Revision Aware XPath, or <code>null</code> if the
* DataSchemaNode is not present in Schema Context.
* @throws NullPointerException if any of the arguments is null
+ * @deprecated Use {@link #findDataTreeSchemaNode(SchemaContext, QNameModule, YangLocationPath)} or
+ * {@link #findDataTreeSchemaNode(SchemaContext, QNameModule, PathExpression)} instead.
*/
// FIXME: This entire method is ill-defined, as the resolution process depends on where the XPath is defined --
// notably RPCs, actions and notifications modify the data tree temporarily. See sections 6.4.1 and 9.9.2
//
// which would then be passed in to a method similar to this one. In static contexts, like MD-SAL codegen,
// that feels like an overkill.
+ @Deprecated
public static SchemaNode findDataSchemaNode(final SchemaContext context, final Module module,
final PathExpression nonCondXPath) {
requireNonNull(context, "context");
final String strXPath = nonCondXPath.getOriginalString();
checkArgument(strXPath.indexOf('[') == -1, "Revision Aware XPath may not contain a condition");
if (nonCondXPath.isAbsolute()) {
- final List<QName> path = xpathToQNamePath(context, module, strXPath);
-
- // We do not have enough information about resolution context, hence cannot account for actions, RPCs
- // and notifications. We therefore attempt to make a best estimate, but this can still fail.
- final Optional<DataSchemaNode> pureData = context.findDataTreeChild(path);
- return pureData.isPresent() ? pureData.get() : findNodeInSchemaContext(context, path);
+ return findTargetNode(context, xpathToQNamePath(context, module, strXPath));
}
return null;
}
+ @Beta
+ public static SchemaNode findDataTreeSchemaNode(final SchemaContext ctx, final QNameModule localModule,
+ final YangLocationPath absPath) {
+ checkArgument(absPath.isAbsolute(), "Unsupported relative path %s", absPath);
+ return findTargetNode(ctx, localModule, absPath);
+ }
+
+ @Beta
+ public static SchemaNode findDataTreeSchemaNode(final SchemaContext ctx, final QNameModule localModule,
+ final PathExpression absPath) {
+ final Steps pathSteps = absPath.getSteps();
+ if (pathSteps instanceof LocationPathSteps) {
+ return findDataTreeSchemaNode(ctx, localModule, ((LocationPathSteps) pathSteps).getLocationPath());
+ }
+
+ // We would need a reference schema node and no, we do not want to use SchemaContext in its SchemaNode capacity
+ checkArgument(!(pathSteps instanceof DerefSteps), "No reference node for steps %s", pathSteps);
+
+ // We are missing proper API alignment, if this ever triggers
+ throw new IllegalStateException("Unsupported path " + pathSteps);
+ }
+
/**
* Method attempts to find DataSchemaNode inside of provided Schema Context
* and Yang Module accordingly to Non-conditional relative Revision Aware
//
// which would then be passed in to a method similar to this one. In static contexts, like MD-SAL codegen,
// that feels like an overkill.
+ // FIXME: YANGTOOLS-1052: this is a static analysis util, move it to a dedicated class
public static SchemaNode findDataSchemaNodeForRelativeXPath(final SchemaContext context, final Module module,
final SchemaNode actualSchemaNode, final PathExpression relativeXPath) {
checkState(!relativeXPath.isAbsolute(), "Revision Aware XPath MUST be relative i.e. MUST contains ../, "
+ "for non relative Revision Aware XPath use findDataSchemaNode method");
+ return resolveRelativeXPath(context, module, removePredicatesFromXpath(relativeXPath.getOriginalString()),
+ actualSchemaNode);
+ }
- final Iterable<QName> qnamePath = resolveRelativeXPath(context, module, relativeXPath, actualSchemaNode);
-
- // We do not have enough information about resolution context, hence cannot account for actions, RPCs
- // and notifications. We therefore attempt to make a best estimate, but this can still fail.
- final Optional<DataSchemaNode> pureData = context.findDataTreeChild(qnamePath);
- return pureData.isPresent() ? pureData.get() : findNodeInSchemaContext(context, qnamePath);
+ private static String removePredicatesFromXpath(final String xpath) {
+ return GROUPS_PATTERN.matcher(xpath).replaceAll("");
}
/**
* @return Notification schema or null, if notification is not present in schema context.
*/
@Beta
- public static @Nullable ContainerSchemaNode getRpcDataSchema(final @NonNull SchemaContext schema,
+ public static @Nullable ContainerLike getRpcDataSchema(final @NonNull SchemaContext schema,
final @NonNull SchemaPath path) {
requireNonNull(schema, "Schema context must not be null.");
requireNonNull(path, "Schema path must not be null.");
for (Module module : context.getModules()) {
ret.add(moduleToIdentifier(module));
- for (Module submodule : module.getSubmodules()) {
+ for (Submodule submodule : module.getSubmodules()) {
ret.add(moduleToIdentifier(submodule));
}
}
return ret;
}
- private static SourceIdentifier moduleToIdentifier(final Module module) {
+ private static SourceIdentifier moduleToIdentifier(final ModuleLike module) {
return RevisionSourceIdentifier.create(module.getName(), module.getRevision());
}
SchemaNode foundNode = null;
final Iterable<QName> nextPath = nextLevel(path);
- foundNode = module.getDataChildByName(current);
+ foundNode = module.dataChildByName(current);
if (foundNode != null && nextPath.iterator().hasNext()) {
foundNode = findNodeIn(foundNode, nextPath);
}
if (parent instanceof DataNodeContainer) {
final DataNodeContainer parentDataNodeContainer = (DataNodeContainer) parent;
- foundNode = parentDataNodeContainer.getDataChildByName(current);
+ foundNode = parentDataNodeContainer.dataChildByName(current);
if (foundNode != null && nextPath.iterator().hasNext()) {
foundNode = findNodeIn(foundNode, nextPath);
}
}
if (foundNode == null && parent instanceof ActionNodeContainer) {
- foundNode = ((ActionNodeContainer) parent).getActions().stream()
- .filter(act -> current.equals(act.getQName())).findFirst().orElse(null);
- if (foundNode != null && nextPath.iterator().hasNext()) {
- foundNode = findNodeIn(foundNode, nextPath);
+ final Optional<? extends SchemaNode> next = ((ActionNodeContainer) parent).getActions().stream()
+ .filter(act -> current.equals(act.getQName())).findFirst();
+ if (next.isPresent() && nextPath.iterator().hasNext()) {
+ foundNode = findNodeIn(next.orElseThrow(), nextPath);
}
}
}
if (foundNode == null && parent instanceof ChoiceSchemaNode) {
- foundNode = ((ChoiceSchemaNode) parent).getCaseNodeByName(current);
+ foundNode = ((ChoiceSchemaNode) parent).findCase(current).orElse(null);
if (foundNode != null && nextPath.iterator().hasNext()) {
foundNode = findNodeIn(foundNode, nextPath);
if (foundNode == null) {
// fallback that tries to map into one of the child cases
- for (final CaseSchemaNode caseNode : ((ChoiceSchemaNode) parent).getCases().values()) {
- final DataSchemaNode maybeChild = caseNode.getDataChildByName(current);
+ for (final CaseSchemaNode caseNode : ((ChoiceSchemaNode) parent).getCases()) {
+ final DataSchemaNode maybeChild = caseNode.dataChildByName(current);
if (maybeChild != null) {
foundNode = findNodeIn(maybeChild, nextPath);
break;
return QName.create(module.getQNameModule(), prefixedName.next());
}
- return QName.create(parentModule.getNamespace(), parentModule.getRevision(), prefixedPathPart);
+ return QName.create(parentModule.getQNameModule(), prefixedPathPart);
}
/**
return module;
}
- final Set<ModuleImport> imports = module.getImports();
- for (final ModuleImport mi : imports) {
+ for (final ModuleImport mi : module.getImports()) {
if (prefix.equals(mi.getPrefix())) {
return context.findModule(mi.getModuleName(), mi.getRevision()).orElse(null);
}
* Schema Context
* @param module
* Yang Module
- * @param relativeXPath
- * Non conditional Revision Aware Relative XPath
+ * @param pathStr
+ * xPath of leafref
* @param actualSchemaNode
* actual schema node
- * @return list of QName
+ * @return target schema node
* @throws IllegalArgumentException if any arguments are null
*/
- private static Iterable<QName> resolveRelativeXPath(final SchemaContext context, final Module module,
- final PathExpression relativeXPath, final SchemaNode actualSchemaNode) {
- checkState(!relativeXPath.isAbsolute(), "Revision Aware XPath MUST be relative i.e. MUST contains ../, "
- + "for non relative Revision Aware XPath use findDataSchemaNode method");
+ private static @Nullable SchemaNode resolveRelativeXPath(final SchemaContext context, final Module module,
+ final String pathStr, final SchemaNode actualSchemaNode) {
checkState(actualSchemaNode.getPath() != null, "Schema Path reference for Leafref cannot be NULL");
- List<String> xpaths = new ArrayList<>();
- splitXPath(relativeXPath.getOriginalString(), xpaths);
+ return pathStr.startsWith("deref(") ? resolveDerefPath(context, module, actualSchemaNode, pathStr)
+ : findTargetNode(context, resolveRelativePath(context, module, actualSchemaNode,
+ doSplitXPath(pathStr)));
+ }
+ private static Iterable<QName> resolveRelativePath(final SchemaContext context, final Module module,
+ final SchemaNode actualSchemaNode, final List<String> steps) {
// Find out how many "parent" components there are and trim them
- final int colCount = normalizeXPath(xpaths);
- if (colCount != 0) {
- xpaths = xpaths.subList(colCount, xpaths.size());
- }
+ final int colCount = normalizeXPath(steps);
+ final List<String> xpaths = colCount == 0 ? steps : steps.subList(colCount, steps.size());
- final Iterable<QName> schemaNodePath = actualSchemaNode.getPath().getPathFromRoot();
+ final List<QName> walkablePath = createWalkablePath(actualSchemaNode.getPath().getPathFromRoot(),
+ context, colCount);
- if (Iterables.size(schemaNodePath) - colCount >= 0) {
- return Iterables.concat(Iterables.limit(schemaNodePath, Iterables.size(schemaNodePath) - colCount),
- Iterables.transform(xpaths, input -> stringPathPartToQName(context, module, input)));
+ if (walkablePath.size() - colCount >= 0) {
+ return Iterables.concat(Iterables.limit(walkablePath, walkablePath.size() - colCount),
+ Iterables.transform(xpaths, input -> stringPathPartToQName(context, module, input)));
}
- return Iterables.concat(schemaNodePath,
+ return Iterables.concat(walkablePath,
Iterables.transform(xpaths, input -> stringPathPartToQName(context, module, input)));
}
+ /**
+ * Return List of qNames that are walkable using xPath. When getting a path from schema node it will return path
+ * with parents like CaseSchemaNode and ChoiceSchemaNode as well if they are parents of the node. We need to get
+ * rid of these in order to find the node that xPath is pointing to. Also we can not remove any node beyond the
+ * amount of "../" because we will not be able to find the correct schema node from schema context
+ *
+ * @param schemaNodePath list of qNames as a path to the leaf of type leafref
+ * @param context create schema context
+ * @param colCount amount of "../" in the xPath expression
+ * @return list of QNames as a path where we should be able to find referenced node
+ */
+ private static List<QName> createWalkablePath(final Iterable<QName> schemaNodePath, final SchemaContext context,
+ final int colCount) {
+ final List<Integer> indexToRemove = new ArrayList<>();
+ List<QName> schemaNodePathRet = Lists.newArrayList(schemaNodePath);
+ for (int j = 0, i = schemaNodePathRet.size() - 1; i >= 0 && j != colCount; i--, j++) {
+ final SchemaNode nodeIn = findTargetNode(context, schemaNodePathRet);
+ if (nodeIn instanceof CaseSchemaNode || nodeIn instanceof ChoiceSchemaNode) {
+ indexToRemove.add(i);
+ j--;
+ }
+ schemaNodePathRet.remove(i);
+ }
+ schemaNodePathRet = Lists.newArrayList(schemaNodePath);
+ for (int i : indexToRemove) {
+ schemaNodePathRet.remove(i);
+ }
+ return schemaNodePathRet;
+ }
+
+ private static SchemaNode resolveDerefPath(final SchemaContext context, final Module module,
+ final SchemaNode actualSchemaNode, final String xpath) {
+ final int paren = xpath.indexOf(')', 6);
+ checkArgument(paren != -1, "Cannot find matching parentheses in %s", xpath);
+
+ final String derefArg = xpath.substring(6, paren).strip();
+ // Look up the node which we need to reference
+ final SchemaNode derefTarget = findTargetNode(context, resolveRelativePath(context, module, actualSchemaNode,
+ doSplitXPath(derefArg)));
+ checkArgument(derefTarget != null, "Cannot find deref(%s) target node %s in context of %s", derefArg,
+ actualSchemaNode);
+ checkArgument(derefTarget instanceof TypedDataSchemaNode, "deref(%s) resolved to non-typed %s", derefArg,
+ derefTarget);
+
+ // We have a deref() target, decide what to do about it
+ final TypeDefinition<?> targetType = ((TypedDataSchemaNode) derefTarget).getType();
+ if (targetType instanceof InstanceIdentifierTypeDefinition) {
+ // Static inference breaks down, we cannot determine where this points to
+ // FIXME: dedicated exception, users can recover from it, derive from IAE
+ throw new UnsupportedOperationException("Cannot infer instance-identifier reference " + targetType);
+ }
+
+ // deref() is define only for instance-identifier and leafref types, handle the latter
+ checkArgument(targetType instanceof LeafrefTypeDefinition, "Illegal target type %s", targetType);
+
+ final PathExpression targetPath = ((LeafrefTypeDefinition) targetType).getPathStatement();
+ LOG.debug("Derefencing path {}", targetPath);
+
+ final SchemaNode deref = targetPath.isAbsolute()
+ ? findTargetNode(context, actualSchemaNode.getQName().getModule(),
+ ((LocationPathSteps) targetPath.getSteps()).getLocationPath())
+ : findDataSchemaNodeForRelativeXPath(context, module, actualSchemaNode, targetPath);
+ if (deref == null) {
+ LOG.debug("Path {} could not be derefenced", targetPath);
+ return null;
+ }
+
+ checkArgument(deref instanceof LeafSchemaNode, "Unexpected %s reference in %s", deref, targetPath);
+
+ final List<String> qnames = doSplitXPath(xpath.substring(paren + 1).stripLeading());
+ return findTargetNode(context, resolveRelativePath(context, module, deref, qnames));
+ }
+
+ private static @Nullable SchemaNode findTargetNode(final SchemaContext context, final QNameModule localNamespace,
+ final YangLocationPath path) {
+ final Deque<QName> ret = new ArrayDeque<>();
+ for (Step step : path.getSteps()) {
+ if (step instanceof AxisStep) {
+ // We only support parent axis steps
+ final YangXPathAxis axis = ((AxisStep) step).getAxis();
+ checkState(axis == YangXPathAxis.PARENT, "Unexpected axis %s", axis);
+ ret.removeLast();
+ continue;
+ }
+
+ // This has to be a QNameStep
+ checkState(step instanceof QNameStep, "Unhandled step %s in %s", step, path);
+ ret.addLast(resolve(((QNameStep) step).getQName(), localNamespace));
+ }
+
+ return findTargetNode(context, ret);
+ }
+
+ private static @Nullable SchemaNode findTargetNode(final SchemaContext context, final Iterable<QName> qnamePath) {
+ // We do not have enough information about resolution context, hence cannot account for actions, RPCs
+ // and notifications. We therefore attempt to make a best estimate, but this can still fail.
+ final Optional<DataSchemaNode> pureData = context.findDataTreeChild(qnamePath);
+ return pureData.isPresent() ? pureData.get() : findNodeInSchemaContext(context, qnamePath);
+ }
+
+ private static QName resolve(final AbstractQName toResolve, final QNameModule localNamespace) {
+ if (toResolve instanceof QName) {
+ return (QName) toResolve;
+ } else if (toResolve instanceof UnqualifiedQName) {
+ return ((UnqualifiedQName) toResolve).bindTo(localNamespace);
+ } else {
+ throw new IllegalStateException("Unhandled step " + toResolve);
+ }
+ }
+
@VisibleForTesting
static int normalizeXPath(final List<String> xpath) {
LOG.trace("Normalize {}", xpath);
return -1;
}
- private static void splitXPath(final String xpath, final List<String> output) {
- // This is a major hack, but should do the trick for now.
- final int deref = xpath.indexOf("deref(");
- if (deref == -1) {
- doSplitXPath(xpath, output);
- return;
+ private static List<String> doSplitXPath(final String xpath) {
+ final List<String> ret = new ArrayList<>();
+ for (String str : SLASH_SPLITTER.split(xpath)) {
+ ret.add(str);
}
-
- // Interpret leading part
- doSplitXPath(xpath.substring(0, deref), output);
-
- // Find matching parentheses
- final int start = deref + 6;
- final int paren = xpath.indexOf(')', start);
- checkArgument(paren != -1, "Cannot find matching parentheses in %s", xpath);
-
- // Interpret the argument
- doSplitXPath(xpath.substring(start, paren), output);
-
- // And now the last bit
- splitXPath(xpath.substring(paren + 1), output);
- }
-
- private static void doSplitXPath(final String xpath, final List<String> output) {
- SLASH_SPLITTER.split(xpath).forEach(output::add);
+ return ret;
}
/**
*/
public static TypeDefinition<?> getBaseTypeForLeafRef(final LeafrefTypeDefinition typeDefinition,
final SchemaContext schemaContext, final SchemaNode schema) {
- PathExpression pathStatement = typeDefinition.getPathStatement();
- pathStatement = new PathExpressionImpl(stripConditionsFromXPathString(pathStatement),
- pathStatement.isAbsolute());
+ final PathExpression pathStatement = typeDefinition.getPathStatement();
+ final String pathStr = stripConditionsFromXPathString(pathStatement);
final DataSchemaNode dataSchemaNode;
if (pathStatement.isAbsolute()) {
}
}
- Module parentModule = findParentModuleOfReferencingType(schemaContext, baseSchema);
- dataSchemaNode = (DataSchemaNode) SchemaContextUtil.findDataSchemaNode(schemaContext, parentModule,
- pathStatement);
+ final Module parentModule = findParentModuleOfReferencingType(schemaContext, baseSchema);
+ dataSchemaNode = (DataSchemaNode) findTargetNode(schemaContext,
+ xpathToQNamePath(schemaContext, parentModule, pathStr));
} else {
Module parentModule = findParentModule(schemaContext, schema);
- dataSchemaNode = (DataSchemaNode) SchemaContextUtil.findDataSchemaNodeForRelativeXPath(schemaContext,
- parentModule, schema, pathStatement);
+ dataSchemaNode = (DataSchemaNode) resolveRelativeXPath(schemaContext, parentModule, pathStr, schema);
}
// FIXME this is just to preserve backwards compatibility since yangtools do not mind wrong leafref xpaths
public static TypeDefinition<?> getBaseTypeForLeafRef(final LeafrefTypeDefinition typeDefinition,
final SchemaContext schemaContext, final QName qname) {
final PathExpression pathStatement = typeDefinition.getPathStatement();
- final PathExpression strippedPathStatement = new PathExpressionImpl(
- stripConditionsFromXPathString(pathStatement), pathStatement.isAbsolute());
- if (!strippedPathStatement.isAbsolute()) {
+ if (!pathStatement.isAbsolute()) {
return null;
}
final Optional<Module> parentModule = schemaContext.findModule(qname.getModule());
checkArgument(parentModule.isPresent(), "Failed to find parent module for %s", qname);
- final DataSchemaNode dataSchemaNode = (DataSchemaNode) SchemaContextUtil.findDataSchemaNode(schemaContext,
- parentModule.get(), strippedPathStatement);
+ final DataSchemaNode dataSchemaNode = (DataSchemaNode) findTargetNode(schemaContext,
+ xpathToQNamePath(schemaContext, parentModule.get(), stripConditionsFromXPathString(pathStatement)));
final TypeDefinition<?> targetTypeDefinition = typeDefinition(dataSchemaNode);
if (targetTypeDefinition instanceof LeafrefTypeDefinition) {
return getBaseTypeForLeafRef((LeafrefTypeDefinition) targetTypeDefinition, schemaContext, dataSchemaNode);
return schemaContext.findModule(nodeType.getQName().getModule()).orElse(null);
}
- return SchemaContextUtil.findParentModule(schemaContext, schemaNode);
+ return findParentModule(schemaContext, schemaNode);
}
private static final Pattern STRIP_PATTERN = Pattern.compile("\\[[^\\[\\]]*\\]");
return STRIP_PATTERN.matcher(pathStatement.getOriginalString()).replaceAll("");
}
- /**
- * Extracts the base type of leaf schema node until it reach concrete type of TypeDefinition.
- *
- * @param node
- * a node representing LeafSchemaNode
- * @return concrete type definition of node value
- */
- private static TypeDefinition<?> typeDefinition(final LeafSchemaNode node) {
- TypeDefinition<?> baseType = node.getType();
- while (baseType.getBaseType() != null) {
- baseType = baseType.getBaseType();
- }
- return baseType;
- }
-
- /**
- * Extracts the base type of leaf schema node until it reach concrete type of TypeDefinition.
- *
- * @param node
- * a node representing LeafListSchemaNode
- * @return concrete type definition of node value
- */
- private static TypeDefinition<?> typeDefinition(final LeafListSchemaNode node) {
- TypeDefinition<?> baseType = node.getType();
- while (baseType.getBaseType() != null) {
- baseType = baseType.getBaseType();
- }
- return baseType;
- }
-
/**
* Gets the base type of DataSchemaNode value.
*
* @return concrete type definition of node value
*/
private static TypeDefinition<?> typeDefinition(final DataSchemaNode node) {
- if (node instanceof LeafListSchemaNode) {
- return typeDefinition((LeafListSchemaNode) node);
- } else if (node instanceof LeafSchemaNode) {
- return typeDefinition((LeafSchemaNode) node);
- } else {
- throw new IllegalArgumentException("Unhandled parameter type: " + node);
+ checkArgument(node instanceof TypedDataSchemaNode, "Unhandled parameter type %s", node);
+
+ TypeDefinition<?> current = ((TypedDataSchemaNode) node).getType();
+ // TODO: don't we have a utility for this?
+ TypeDefinition<?> base = current.getBaseType();
+ while (base != null) {
+ current = base;
+ base = current.getBaseType();
}
+ return current;
}
}