*/
package org.opendaylight.yangtools.yang.binding;
+import static com.google.common.base.Preconditions.checkArgument;
+import static com.google.common.base.Verify.verify;
+import static java.util.Objects.requireNonNull;
+
import com.google.common.base.MoreObjects;
import com.google.common.base.MoreObjects.ToStringHelper;
-import com.google.common.base.Preconditions;
+import com.google.common.base.VerifyException;
import com.google.common.collect.ImmutableCollection;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.Iterables;
-import java.io.IOException;
+import java.io.ObjectStreamException;
import java.io.Serializable;
-import java.lang.reflect.Field;
-import java.util.ArrayList;
import java.util.Collections;
import java.util.Iterator;
-import java.util.List;
+import java.util.Objects;
+import java.util.Optional;
+import org.eclipse.jdt.annotation.NonNull;
+import org.eclipse.jdt.annotation.Nullable;
import org.opendaylight.yangtools.concepts.Builder;
import org.opendaylight.yangtools.concepts.Immutable;
import org.opendaylight.yangtools.concepts.Path;
import org.opendaylight.yangtools.util.HashCodeBuilder;
/**
- *
* This instance identifier uniquely identifies a specific DataObject in the data tree modeled by YANG.
*
+ * <p>
* For Example let's say you were trying to refer to a node in inventory which was modeled in YANG as follows,
*
+ * <p>
* <pre>
* module opendaylight-inventory {
* ....
* }
* </pre>
*
- * You could create an instance identifier as follows to get to a node with id "openflow:1"
- *
+ * <p>
+ * You can create an instance identifier as follows to get to a node with id "openflow:1": {@code
* InstanceIdentifierBuilder.builder(Nodes.class).child(Node.class, new NodeKey(new NodeId("openflow:1")).build();
+ * }
*
+ * <p>
* This would be the same as using a path like so, "/nodes/node/openflow:1" to refer to the openflow:1 node
- *
*/
-public class InstanceIdentifier<T extends DataObject> implements Path<InstanceIdentifier<? extends DataObject>>, Immutable, Serializable {
- private static final Field PATHARGUMENTS_FIELD;
- private static final long serialVersionUID = 2L;
+public class InstanceIdentifier<T extends DataObject> implements Path<InstanceIdentifier<? extends DataObject>>,
+ Immutable, Serializable {
+ private static final long serialVersionUID = 3L;
+
/*
- * Protected to differentiate internal and external access. Internal
- * access is required never to modify the contents. References passed
- * to outside entities have to be wrapped in an unmodifiable view.
+ * Protected to differentiate internal and external access. Internal access is required never to modify
+ * the contents. References passed to outside entities have to be wrapped in an unmodifiable view.
*/
- protected transient final Iterable<PathArgument> pathArguments;
- private final Class<T> targetType;
+ final Iterable<PathArgument> pathArguments;
+
+ private final @NonNull Class<T> targetType;
private final boolean wildcarded;
private final int hash;
- static {
- final Field f;
- try {
- f = InstanceIdentifier.class.getDeclaredField("pathArguments");
- } catch (NoSuchFieldException | SecurityException e) {
- throw new ExceptionInInitializerError(e);
- }
- f.setAccessible(true);
- PATHARGUMENTS_FIELD = f;
- }
-
- InstanceIdentifier(final Class<T> type, final Iterable<PathArgument> pathArguments, final boolean wildcarded, final int hash) {
- this.pathArguments = Preconditions.checkNotNull(pathArguments);
- this.targetType = Preconditions.checkNotNull(type);
+ InstanceIdentifier(final Class<T> type, final Iterable<PathArgument> pathArguments, final boolean wildcarded,
+ final int hash) {
+ this.pathArguments = requireNonNull(pathArguments);
+ this.targetType = requireNonNull(type);
this.wildcarded = wildcarded;
this.hash = hash;
}
*
* @return Target type
*/
- public final Class<T> getTargetType() {
+ public final @NonNull Class<T> getTargetType() {
return targetType;
}
+ /**
+ * Perform a safe target type adaptation of this instance identifier to target type. This method is useful when
+ * dealing with type-squashed instances.
+ *
+ * @return Path argument with target type
+ * @throws VerifyException if this instance identifier cannot be adapted to target type
+ * @throws NullPointerException if {@code target} is null
+ */
+ @SuppressWarnings("unchecked")
+ public final <N extends DataObject> @NonNull InstanceIdentifier<N> verifyTarget(final Class<@NonNull N> target) {
+ verify(target.equals(targetType), "Cannot adapt %s to %s", this, target);
+ return (InstanceIdentifier<N>) this;
+ }
+
/**
* Return the path argument chain which makes up this instance identifier.
*
* @return Path argument chain. Immutable and does not contain nulls.
*/
- public final Iterable<PathArgument> getPathArguments() {
+ public final @NonNull Iterable<PathArgument> getPathArguments() {
return Iterables.unmodifiableIterable(pathArguments);
}
/**
- * Check whether an instance identifier contains any wildcards. A wildcard
- * is an path argument which has a null key.
+ * Check whether an instance identifier contains any wildcards. A wildcard is an path argument which has a null key.
*
* @return true if any of the path arguments has a null key.
*/
}
/**
- * Perform class-specific fast checks for non-equality. This allows
- * subclasses to avoid iterating over the pathArguments by performing
- * quick checks on their specific fields.
+ * Perform class-specific fast checks for non-equality. This allows subclasses to avoid iterating over the
+ * pathArguments by performing quick checks on their specific fields.
*
* @param other The other identifier, guaranteed to be the same class
* @return true if the other identifier cannot be equal to this one.
}
/**
- * Return an instance identifier trimmed at the first occurrence of a
- * specific component type.
+ * Return an instance identifier trimmed at the first occurrence of a specific component type.
*
+ * <p>
* For example let's say an instance identifier was built like so,
* <pre>
- * identifier = InstanceIdentifierBuilder.builder(Nodes.class).child(Node.class, new NodeKey(new NodeId("openflow:1")).build();
+ * identifier = InstanceIdentifierBuilder.builder(Nodes.class).child(Node.class,
+ * new NodeKey(new NodeId("openflow:1")).build();
* </pre>
*
+ * <p>
* And you wanted to obtain the Instance identifier which represented Nodes you would do it like so,
*
+ * <p>
* <pre>
* identifier.firstIdentifierOf(Nodes.class)
* </pre>
* @return trimmed instance identifier, or null if the component type
* is not present.
*/
- public final <I extends DataObject> InstanceIdentifier<I> firstIdentifierOf(final Class<I> type) {
- int i = 1;
+ public final <I extends DataObject> @Nullable InstanceIdentifier<I> firstIdentifierOf(
+ final Class<@NonNull I> type) {
+ int count = 1;
for (final PathArgument a : pathArguments) {
if (type.equals(a.getType())) {
@SuppressWarnings("unchecked")
- final InstanceIdentifier<I> ret = (InstanceIdentifier<I>) internalCreate(Iterables.limit(pathArguments, i));
+ final InstanceIdentifier<I> ret = (InstanceIdentifier<I>) internalCreate(
+ Iterables.limit(pathArguments, count));
return ret;
}
- ++i;
+ ++count;
}
return null;
* an identifier.
*
* @param listItem component type
- * @param listKey component key type
* @return key associated with the component, or null if the component type
* is not present.
- *
- * @deprecated Use {@link #firstKeyOf(Class)} instead.
*/
- @Deprecated
- public final <N extends Identifiable<K> & DataObject, K extends Identifier<N>> K firstKeyOf(final Class<N> listItem, final Class<K> listKey) {
- return firstKeyOf(listItem);
- }
-
- /**
- * Return the key associated with the first component of specified type in
- * an identifier.
- *
- * @param listItem component type
- * @return key associated with the component, or null if the component type
- * is not present.
- */
- public final <N extends Identifiable<K> & DataObject, K extends Identifier<N>> K firstKeyOf(final Class<N> listItem) {
+ public final <N extends Identifiable<K> & DataObject, K extends Identifier<N>> @Nullable K firstKeyOf(
+ final Class<@NonNull N> listItem) {
for (final PathArgument i : pathArguments) {
if (listItem.equals(i.getType())) {
@SuppressWarnings("unchecked")
/**
* Check whether an identifier is contained in this identifier. This is a strict subtree check, which requires all
- * PathArguments to match exactly, e.g.
- *
+ * PathArguments to match exactly.
*
+ * <p>
* The contains method checks if the other identifier is fully contained within the current identifier. It does this
* by looking at only the types of the path arguments and not by comparing the path arguments themselves.
*
- * To illustrate here is an example which explains the working of this API.
- *
- * Let's say you have two instance identifiers as follows,
- *
+ * <p>
+ * To illustrate here is an example which explains the working of this API. Let's say you have two instance
+ * identifiers as follows:
+ * {@code
* this = /nodes/node/openflow:1
* other = /nodes/node/openflow:2
- *
+ * }
* then this.contains(other) will return false.
*
- * @param other
- * @return
+ * @param other Potentially-container instance identifier
+ * @return True if the specified identifier is contained in this identifier.
*/
@Override
public final boolean contains(final InstanceIdentifier<? extends DataObject> other) {
- Preconditions.checkNotNull(other, "other should not be null");
+ requireNonNull(other, "other should not be null");
final Iterator<?> lit = pathArguments.iterator();
final Iterator<?> oit = other.pathArguments.iterator();
* @return true if this identifier contains the other object
*/
public final boolean containsWildcarded(final InstanceIdentifier<?> other) {
- Preconditions.checkNotNull(other, "other should not be null");
+ requireNonNull(other, "other should not be null");
final Iterator<PathArgument> lit = pathArguments.iterator();
final Iterator<PathArgument> oit = other.pathArguments.iterator();
return true;
}
+ private <N extends DataObject> @NonNull InstanceIdentifier<N> childIdentifier(final AbstractPathArgument<N> arg) {
+ return trustedCreate(arg, Iterables.concat(pathArguments, Collections.singleton(arg)),
+ HashCodeBuilder.nextHashCode(hash, arg), isWildcarded());
+ }
+
/**
- * Create a builder rooted at this key.
+ * Create an InstanceIdentifier for a child container. This method is a more efficient equivalent to
+ * {@code builder().child(container).build()}.
*
- * @return A builder instance
+ * @param container Container to append
+ * @param <N> Container type
+ * @return An InstanceIdentifier.
+ * @throws NullPointerException if {@code container} is null
*/
- public InstanceIdentifierBuilder<T> builder() {
- return new InstanceIdentifierBuilderImpl<T>(new Item<T>(targetType), pathArguments, hash, isWildcarded());
- }
-
- private InstanceIdentifier<?> childIdentifier(final PathArgument arg) {
- return trustedCreate(arg, Iterables.concat(pathArguments, Collections.singleton(arg)), HashCodeBuilder.nextHashCode(hash, arg), isWildcarded());
+ public final <N extends ChildOf<? super T>> @NonNull InstanceIdentifier<N> child(
+ final Class<@NonNull N> container) {
+ return childIdentifier(Item.of(container));
}
+ /**
+ * Create an InstanceIdentifier for a child list item. This method is a more efficient equivalent to
+ * {@code builder().child(listItem, listKey).build()}.
+ *
+ * @param listItem List to append
+ * @param listKey List key
+ * @param <N> List type
+ * @param <K> Key type
+ * @return An InstanceIdentifier.
+ * @throws NullPointerException if any argument is null
+ */
@SuppressWarnings("unchecked")
- public final <N extends ChildOf<? super T>> InstanceIdentifier<N> child(final Class<N> container) {
- final PathArgument arg = new Item<>(container);
- return (InstanceIdentifier<N>) childIdentifier(arg);
+ public final <N extends Identifiable<K> & ChildOf<? super T>, K extends Identifier<N>>
+ @NonNull KeyedInstanceIdentifier<N, K> child(final Class<@NonNull N> listItem, final K listKey) {
+ return (KeyedInstanceIdentifier<N, K>) childIdentifier(IdentifiableItem.of(listItem, listKey));
}
- @SuppressWarnings("unchecked")
- public final <N extends Identifiable<K> & ChildOf<? super T>, K extends Identifier<N>> KeyedInstanceIdentifier<N, K> child(
- final Class<N> listItem, final K listKey) {
- final PathArgument arg = new IdentifiableItem<>(listItem, listKey);
- return (KeyedInstanceIdentifier<N, K>) childIdentifier(arg);
+ /**
+ * Create an InstanceIdentifier for a child container. This method is a more efficient equivalent to
+ * {@code builder().child(caze, container).build()}.
+ *
+ * @param caze Choice case class
+ * @param container Container to append
+ * @param <C> Case type
+ * @param <N> Container type
+ * @return An InstanceIdentifier.
+ * @throws NullPointerException if any argument is null
+ */
+ // FIXME: add a proper caller
+ public final <C extends ChoiceIn<? super T> & DataObject, N extends ChildOf<? super C>>
+ @NonNull InstanceIdentifier<N> child(final Class<@NonNull C> caze, final Class<@NonNull N> container) {
+ return childIdentifier(Item.of(caze, container));
}
+ /**
+ * Create an InstanceIdentifier for a child list item. This method is a more efficient equivalent to
+ * {@code builder().child(caze, listItem, listKey).build()}.
+ *
+ * @param caze Choice case class
+ * @param listItem List to append
+ * @param listKey List key
+ * @param <C> Case type
+ * @param <N> List type
+ * @param <K> Key type
+ * @return An InstanceIdentifier.
+ * @throws NullPointerException if any argument is null
+ */
+ // FIXME: add a proper caller
@SuppressWarnings("unchecked")
- public final <N extends DataObject & Augmentation<? super T>> InstanceIdentifier<N> augmentation(
- final Class<N> container) {
- final PathArgument arg = new Item<>(container);
- return (InstanceIdentifier<N>) childIdentifier(arg);
+ public final <C extends ChoiceIn<? super T> & DataObject, K extends Identifier<N>,
+ N extends Identifiable<K> & ChildOf<? super C>> @NonNull KeyedInstanceIdentifier<N, K> child(
+ final Class<@NonNull C> caze, final Class<@NonNull N> listItem, final K listKey) {
+ return (KeyedInstanceIdentifier<N, K>) childIdentifier(IdentifiableItem.of(caze, listItem, listKey));
}
- @Deprecated
- private List<PathArgument> legacyCache;
-
/**
- * @deprecated Use {@link #getPathArguments()} instead.
+ * Create an InstanceIdentifier for a child augmentation. This method is a more efficient equivalent to
+ * {@code builder().augmentation(container).build()}.
+ *
+ * @param container Container to append
+ * @param <N> Container type
+ * @return An InstanceIdentifier.
+ * @throws NullPointerException if {@code container} is null
*/
- @Deprecated
- public final List<PathArgument> getPath() {
- if (legacyCache == null) {
- legacyCache = ImmutableList.<PathArgument>copyOf(pathArguments);
- }
-
- return legacyCache;
+ public final <N extends DataObject & Augmentation<? super T>> @NonNull InstanceIdentifier<N> augmentation(
+ final Class<@NonNull N> container) {
+ return childIdentifier(Item.of(container));
}
/**
- * Create a new InstanceIdentifierBuilder given a base InstanceIdentifier
- *
- * @param base
- * @param <T>
- * @return
+ * Create a builder rooted at this key.
*
- * @deprecated Use {@link #builder()} instead.
+ * @return A builder instance
*/
- @Deprecated
- public static <T extends DataObject> InstanceIdentifierBuilder<T> builder(final InstanceIdentifier<T> base) {
- return base.builder();
+ public @NonNull InstanceIdentifierBuilder<T> builder() {
+ return new InstanceIdentifierBuilderImpl<>(Item.of(targetType), pathArguments, hash, isWildcarded());
}
/**
- * Create an InstanceIdentifierBuilder for a specific type of InstanceIdentifier as specified by container
+ * Create an InstanceIdentifierBuilder for a specific type of InstanceIdentifier as specified by container.
*
- * @param container
- * @param <T>
- * @return
+ * @param container Base container
+ * @param <T> Type of the container
+ * @return A new {@link InstanceIdentifierBuilder}
+ * @throws NullPointerException if {@code container} is null
*/
- public static <T extends ChildOf<? extends DataRoot>> InstanceIdentifierBuilder<T> builder(final Class<T> container) {
- return new InstanceIdentifierBuilderImpl<T>().addNode(container);
+ public static <T extends ChildOf<? extends DataRoot>> @NonNull InstanceIdentifierBuilder<T> builder(
+ final Class<T> container) {
+ return new InstanceIdentifierBuilderImpl<T>().addWildNode(Item.of(container));
}
/**
- * Create an InstanceIdentifierBuilder for a specific type of InstanceIdentifier which represents an IdentifiableItem
- *
- * @param listItem
- * @param listKey
- * @param <N>
- * @param <K>
- * @return
+ * Create an InstanceIdentifierBuilder for a specific type of InstanceIdentifier as specified by container in
+ * a {@code grouping} used in the {@code case} statement.
+ *
+ * @param caze Choice case class
+ * @param container Base container
+ * @param <C> Case type
+ * @param <T> Type of the container
+ * @return A new {@link InstanceIdentifierBuilder}
+ * @throws NullPointerException if any argument is null
*/
- public static <N extends Identifiable<K> & ChildOf<? extends DataRoot>, K extends Identifier<N>> InstanceIdentifierBuilder<N> builder(
- final Class<N> listItem, final K listKey) {
- return new InstanceIdentifierBuilderImpl<N>().addNode(listItem, listKey);
+ public static <C extends ChoiceIn<? extends DataRoot> & DataObject, T extends ChildOf<? super C>>
+ @NonNull InstanceIdentifierBuilder<T> builder(final Class<C> caze, final Class<T> container) {
+ return new InstanceIdentifierBuilderImpl<T>().addWildNode(Item.of(caze, container));
}
/**
- * Create an instance identifier for a very specific object type. This method
- * implements {@link #create(Iterable)} semantics, except it is used by internal
- * callers, which have assured that the argument is an immutable Iterable.
- *
+ * Create an InstanceIdentifierBuilder for a specific type of InstanceIdentifier which represents an
+ * {@link IdentifiableItem}.
+ *
+ * @param listItem list item class
+ * @param listKey key value
+ * @param <N> List type
+ * @param <K> List key
+ * @return A new {@link InstanceIdentifierBuilder}
+ * @throws NullPointerException if any argument is null
+ */
+ public static <N extends Identifiable<K> & ChildOf<? extends DataRoot>,
+ K extends Identifier<N>> @NonNull InstanceIdentifierBuilder<N> builder(final Class<N> listItem,
+ final K listKey) {
+ return new InstanceIdentifierBuilderImpl<N>().addNode(IdentifiableItem.of(listItem, listKey));
+ }
+
+ /**
+ * Create an InstanceIdentifierBuilder for a specific type of InstanceIdentifier which represents an
+ * {@link IdentifiableItem} in a {@code grouping} used in the {@code case} statement.
+ *
+ * @param caze Choice case class
+ * @param listItem list item class
+ * @param listKey key value
+ * @param <C> Case type
+ * @param <N> List type
+ * @param <K> List key
+ * @return A new {@link InstanceIdentifierBuilder}
+ * @throws NullPointerException if any argument is null
+ */
+ public static <C extends ChoiceIn<? extends DataRoot> & DataObject,
+ N extends Identifiable<K> & ChildOf<? super C>, K extends Identifier<N>>
+ @NonNull InstanceIdentifierBuilder<N> builder(final Class<C> caze, final Class<N> listItem,
+ final K listKey) {
+ return new InstanceIdentifierBuilderImpl<N>().addNode(IdentifiableItem.of(caze, listItem, listKey));
+ }
+
+ /**
+ * Create an instance identifier for a very specific object type. This method implements {@link #create(Iterable)}
+ * semantics, except it is used by internal callers, which have assured that the argument is an immutable Iterable.
*
* @param pathArguments The path to a specific node in the data tree
* @return InstanceIdentifier instance
- * @throws IllegalArgumentException if pathArguments is empty or
- * contains a null element.
+ * @throws IllegalArgumentException if pathArguments is empty or contains a null element.
+ * @throws NullPointerException if {@code pathArguments} is null
*/
- private static InstanceIdentifier<?> internalCreate(final Iterable<PathArgument> pathArguments) {
- final Iterator<? extends PathArgument> it = Preconditions.checkNotNull(pathArguments, "pathArguments may not be null").iterator();
+ private static @NonNull InstanceIdentifier<?> internalCreate(final Iterable<PathArgument> pathArguments) {
+ final Iterator<? extends PathArgument> it = requireNonNull(pathArguments, "pathArguments may not be null")
+ .iterator();
final HashCodeBuilder<PathArgument> hashBuilder = new HashCodeBuilder<>();
boolean wildcard = false;
- PathArgument a = null;
+ PathArgument arg = null;
while (it.hasNext()) {
- a = it.next();
- Preconditions.checkArgument(a != null, "pathArguments may not contain null elements");
+ arg = it.next();
+ checkArgument(arg != null, "pathArguments may not contain null elements");
// TODO: sanity check ChildOf<>;
- hashBuilder.addArgument(a);
+ hashBuilder.addArgument(arg);
- if (Identifiable.class.isAssignableFrom(a.getType()) && !(a instanceof IdentifiableItem<?, ?>)) {
+ if (Identifiable.class.isAssignableFrom(arg.getType()) && !(arg instanceof IdentifiableItem<?, ?>)) {
wildcard = true;
}
}
- Preconditions.checkArgument(a != null, "pathArguments may not be empty");
+ checkArgument(arg != null, "pathArguments may not be empty");
- return trustedCreate(a, pathArguments, hashBuilder.build(), wildcard);
+ return trustedCreate(arg, pathArguments, hashBuilder.build(), wildcard);
}
/**
* Create an instance identifier for a very specific object type.
*
- * Example
+ * <p>
+ * Example:
* <pre>
* List<PathArgument> path = Arrays.asList(new Item(Nodes.class))
* new InstanceIdentifier(path);
* @throws IllegalArgumentException if pathArguments is empty or
* contains a null element.
*/
- public static InstanceIdentifier<?> create(final Iterable<? extends PathArgument> pathArguments) {
+ public static @NonNull InstanceIdentifier<?> create(final Iterable<? extends PathArgument> pathArguments) {
if (pathArguments instanceof ImmutableCollection<?>) {
@SuppressWarnings("unchecked")
final Iterable<PathArgument> immutableArguments = (Iterable<PathArgument>) pathArguments;
return internalCreate(immutableArguments);
- } else {
- return internalCreate(ImmutableList.copyOf(pathArguments));
}
+
+ return internalCreate(ImmutableList.copyOf(pathArguments));
}
/**
* Create an instance identifier for a very specific object type.
*
+ * <p>
* For example
* <pre>
* new InstanceIdentifier(Nodes.class)
* @return InstanceIdentifier instance
*/
@SuppressWarnings("unchecked")
- public static <T extends DataObject> InstanceIdentifier<T> create(final Class<T> type) {
- return (InstanceIdentifier<T>) create(Collections.<PathArgument> singletonList(new Item<>(type)));
+ public static <T extends DataObject> @NonNull InstanceIdentifier<T> create(final Class<@NonNull T> type) {
+ return (InstanceIdentifier<T>) create(ImmutableList.of(Item.of(type)));
}
/**
* @throws IllegalArgumentException if the supplied identifier type cannot have a key.
* @throws NullPointerException if id is null.
*/
- public static <N extends Identifiable<K> & DataObject, K extends Identifier<N>> K keyOf(final InstanceIdentifier<N> id) {
- Preconditions.checkNotNull(id);
- Preconditions.checkArgument(id instanceof KeyedInstanceIdentifier, "%s does not have a key", id);
+ public static <N extends Identifiable<K> & DataObject, K extends Identifier<N>> K keyOf(
+ final InstanceIdentifier<N> id) {
+ requireNonNull(id);
+ checkArgument(id instanceof KeyedInstanceIdentifier, "%s does not have a key", id);
@SuppressWarnings("unchecked")
final K ret = ((KeyedInstanceIdentifier<N, K>)id).getKey();
}
@SuppressWarnings({ "unchecked", "rawtypes" })
- static InstanceIdentifier<?> trustedCreate(final PathArgument arg, final Iterable<PathArgument> pathArguments, final int hash, boolean wildcarded) {
- if (Identifiable.class.isAssignableFrom(arg.getType()) && !(wildcarded)) {
+ static <N extends DataObject> @NonNull InstanceIdentifier<N> trustedCreate(final PathArgument arg,
+ final Iterable<PathArgument> pathArguments, final int hash, boolean wildcarded) {
+ if (Identifiable.class.isAssignableFrom(arg.getType()) && !wildcarded) {
Identifier<?> key = null;
- if (arg instanceof IdentifiableItem<?, ?>) {
- key = ((IdentifiableItem<?, ?>)arg).key;
+ if (arg instanceof IdentifiableItem) {
+ key = ((IdentifiableItem<?, ?>)arg).getKey();
} else {
wildcarded = true;
}
return new KeyedInstanceIdentifier(arg.getType(), pathArguments, wildcarded, hash, key);
- } else {
- return new InstanceIdentifier(arg.getType(), pathArguments, wildcarded, hash);
}
+
+ return new InstanceIdentifier(arg.getType(), pathArguments, wildcarded, hash);
}
/**
- * Path argument of {@link InstanceIdentifier}.
- * <p>
- * Interface which implementations are used as path components of the
+ * Path argument of {@link InstanceIdentifier}. Interface which implementations are used as path components of the
* path in overall data tree.
*/
public interface PathArgument extends Comparable<PathArgument> {
- Class<? extends DataObject> getType();
+ /**
+ * Return the data object type backing this PathArgument.
+ *
+ * @return Data object type.
+ */
+ @NonNull Class<? extends DataObject> getType();
+
+ /**
+ * Return an optional enclosing case type. This is used only when {@link #getType()} references a node defined
+ * in a {@code grouping} which is reference inside a {@code case} statement in order to safely reference the
+ * node.
+ *
+ * @return Optional case class.
+ */
+ default Optional<? extends Class<? extends DataObject>> getCaseType() {
+ return Optional.empty();
+ }
}
- private static abstract class AbstractPathArgument<T extends DataObject> implements PathArgument, Serializable {
+ private abstract static class AbstractPathArgument<T extends DataObject> implements PathArgument, Serializable {
private static final long serialVersionUID = 1L;
- private final Class<T> type;
- protected AbstractPathArgument(final Class<T> type) {
- this.type = Preconditions.checkNotNull(type, "Type may not be null.");
+ private final @NonNull Class<T> type;
+
+ AbstractPathArgument(final Class<T> type) {
+ this.type = requireNonNull(type, "Type may not be null.");
}
@Override
return type;
}
+ Object getKey() {
+ return null;
+ }
+
@Override
- public int hashCode() {
- return type.hashCode();
+ public final int hashCode() {
+ return Objects.hash(type, getCaseType(), getKey());
}
@Override
- public boolean equals(final Object obj) {
+ public final boolean equals(final Object obj) {
if (this == obj) {
return true;
}
- if (obj == null) {
- return false;
- }
- if (getClass() != obj.getClass()) {
+ if (!(obj instanceof AbstractPathArgument)) {
return false;
}
final AbstractPathArgument<?> other = (AbstractPathArgument<?>) obj;
- return type.equals(other.type);
+ return type.equals(other.type) && Objects.equals(getKey(), other.getKey())
+ && getCaseType().equals(other.getCaseType());
}
@Override
- public int compareTo(final PathArgument arg) {
- return type.getCanonicalName().compareTo(arg.getType().getCanonicalName());
+ public final int compareTo(final PathArgument arg) {
+ final int cmp = compareClasses(type, arg.getType());
+ if (cmp != 0) {
+ return cmp;
+ }
+ final Optional<? extends Class<?>> caseType = getCaseType();
+ if (!caseType.isPresent()) {
+ return arg.getCaseType().isPresent() ? -1 : 1;
+ }
+ final Optional<? extends Class<?>> argCaseType = getCaseType();
+ return argCaseType.isPresent() ? compareClasses(caseType.get(), argCaseType.get()) : 1;
+ }
+
+ private static int compareClasses(final Class<?> first, final Class<?> second) {
+ return first.getCanonicalName().compareTo(second.getCanonicalName());
}
}
* An Item represents an object that probably is only one of it's kind. For example a Nodes object is only one of
* a kind. In YANG terms this would probably represent a container.
*
- * @param <T>
+ * @param <T> Item type
*/
- public static final class Item<T extends DataObject> extends AbstractPathArgument<T> {
+ public static class Item<T extends DataObject> extends AbstractPathArgument<T> {
private static final long serialVersionUID = 1L;
- public Item(final Class<T> type) {
+ Item(final Class<T> type) {
super(type);
}
+ /**
+ * Return a PathArgument instance backed by the specified class.
+ *
+ * @param type Backing class
+ * @param <T> Item type
+ * @return A new PathArgument
+ * @throws NullPointerException if {@code} is null.
+ */
+ public static <T extends DataObject> @NonNull Item<T> of(final Class<T> type) {
+ return new Item<>(type);
+ }
+
+ /**
+ * Return a PathArgument instance backed by the specified class, which in turn is defined in a {@code grouping}
+ * used in a corresponding {@code case} statement.
+ *
+ * @param caseType defining case class
+ * @param type Backing class
+ * @param <C> Case type
+ * @param <T> Item type
+ * @return A new PathArgument
+ * @throws NullPointerException if any argument is null.
+ */
+ public static <C extends ChoiceIn<?> & DataObject, T extends ChildOf<? super C>> @NonNull Item<T> of(
+ final Class<C> caseType, final Class<T> type) {
+ return new CaseItem<>(caseType, type);
+ }
+
@Override
public String toString() {
return getType().getName();
* @param <I> An object that is identifiable by an identifier
* @param <T> The identifier of the object
*/
- public static final class IdentifiableItem<I extends Identifiable<T> & DataObject, T extends Identifier<I>> extends AbstractPathArgument<I> {
+ public static class IdentifiableItem<I extends Identifiable<T> & DataObject, T extends Identifier<I>>
+ extends AbstractPathArgument<I> {
private static final long serialVersionUID = 1L;
- private final T key;
- public IdentifiableItem(final Class<I> type, final T key) {
+ private final @NonNull T key;
+
+ IdentifiableItem(final Class<I> type, final T key) {
super(type);
- this.key = Preconditions.checkNotNull(key, "Key may not be null.");
+ this.key = requireNonNull(key, "Key may not be null.");
}
- public T getKey() {
- return this.key;
+ /**
+ * Return an IdentifiableItem instance backed by the specified class with specified key.
+ *
+ * @param type Backing class
+ * @param key Key
+ * @param <T> List type
+ * @param <I> Key type
+ * @return An IdentifiableItem
+ * @throws NullPointerException if any argument is null.
+ */
+ public static <T extends Identifiable<I> & DataObject, I extends Identifier<T>>
+ @NonNull IdentifiableItem<T, I> of(final Class<T> type, final I key) {
+ return new IdentifiableItem<>(type, key);
}
- @Override
- public boolean equals(final Object obj) {
- return super.equals(obj) && key.equals(((IdentifiableItem<?, ?>) obj).getKey());
+ /**
+ * Return an IdentifiableItem instance backed by the specified class with specified key. The class is in turn
+ * defined in a {@code grouping} used in a corresponding {@code case} statement.
+ *
+ * @param caseType defining case class
+ * @param type Backing class
+ * @param <C> Case type
+ * @param <T> List type
+ * @param <I> Key type
+ * @return A new PathArgument
+ * @throws NullPointerException if any argument is null.
+ */
+ public static <C extends ChoiceIn<?> & DataObject, T extends ChildOf<? super C> & Identifiable<I>,
+ I extends Identifier<T>> @NonNull IdentifiableItem<T, I> of(final Class<C> caseType,
+ final Class<T> type, final I key) {
+ return new CaseIdentifiableItem<>(caseType, type, key);
}
+ /**
+ * Return the data object type backing this PathArgument.
+ *
+ * @return Data object type.
+ */
@Override
- public int hashCode() {
- return super.hashCode() * 31 + key.hashCode();
+ public final @NonNull T getKey() {
+ return key;
}
@Override
}
}
+ private static final class CaseItem<C extends ChoiceIn<?> & DataObject, T extends ChildOf<? super C>>
+ extends Item<T> {
+ private static final long serialVersionUID = 1L;
+
+ private final Class<C> caseType;
+
+ CaseItem(final Class<C> caseType, final Class<T> type) {
+ super(type);
+ this.caseType = requireNonNull(caseType);
+ }
+
+ @Override
+ public Optional<Class<C>> getCaseType() {
+ return Optional.of(caseType);
+ }
+ }
+
+ private static final class CaseIdentifiableItem<C extends ChoiceIn<?> & DataObject,
+ T extends ChildOf<? super C> & Identifiable<K>, K extends Identifier<T>> extends IdentifiableItem<T, K> {
+ private static final long serialVersionUID = 1L;
+
+ private final Class<C> caseType;
+
+ CaseIdentifiableItem(final Class<C> caseType, final Class<T> type, final K key) {
+ super(type, key);
+ this.caseType = requireNonNull(caseType);
+ }
+
+ @Override
+ public Optional<Class<C>> getCaseType() {
+ return Optional.of(caseType);
+ }
+ }
public interface InstanceIdentifierBuilder<T extends DataObject> extends Builder<InstanceIdentifier<T>> {
/**
- * Append the specified container as a child of the current InstanceIdentifier referenced by the builder.
- *
- * This method should be used when you want to build an instance identifier by appending top-level
- * elements
- *
- * Example,
+ * Append the specified container as a child of the current InstanceIdentifier referenced by the builder. This
+ * method should be used when you want to build an instance identifier by appending top-level elements, for
+ * example
* <pre>
* InstanceIdentifier.builder().child(Nodes.class).build();
- *
* </pre>
*
+ * <p>
* NOTE :- The above example is only for illustration purposes InstanceIdentifier.builder() has been deprecated
* and should not be used. Use InstanceIdentifier.builder(Nodes.class) instead
*
- * @param container
- * @param <N>
- * @return
+ * @param container Container to append
+ * @param <N> Container type
+ * @return this builder
+ * @throws NullPointerException if {@code container} is null
*/
- <N extends ChildOf<? super T>> InstanceIdentifierBuilder<N> child(
- Class<N> container);
+ <N extends ChildOf<? super T>> @NonNull InstanceIdentifierBuilder<N> child(Class<N> container);
/**
- * Append the specified listItem as a child of the current InstanceIdentifier referenced by the builder.
+ * Append the specified container as a child of the current InstanceIdentifier referenced by the builder. This
+ * method should be used when you want to build an instance identifier by appending a container node to the
+ * identifier and the {@code container} is defined in a {@code grouping} used in a {@code case} statement.
*
- * This method should be used when you want to build an instance identifier by appending a specific list element
- * to the identifier
+ * @param caze Choice case class
+ * @param container Container to append
+ * @param <C> Case type
+ * @param <N> Container type
+ * @return this builder
+ * @throws NullPointerException if {@code container} is null
+ */
+ <C extends ChoiceIn<? super T> & DataObject, N extends ChildOf<? super C>>
+ @NonNull InstanceIdentifierBuilder<N> child(Class<C> caze, Class<N> container);
+
+ /**
+ * Append the specified listItem as a child of the current InstanceIdentifier referenced by the builder. This
+ * method should be used when you want to build an instance identifier by appending a specific list element to
+ * the identifier.
*
- * @param listItem
- * @param listKey
- * @param <N>
- * @param <K>
- * @return
+ * @param listItem List to append
+ * @param listKey List key
+ * @param <N> List type
+ * @param <K> Key type
+ * @return this builder
+ * @throws NullPointerException if any argument is null
*/
- <N extends Identifiable<K> & ChildOf<? super T>, K extends Identifier<N>> InstanceIdentifierBuilder<N> child(
- Class<N> listItem, K listKey);
+ <N extends Identifiable<K> & ChildOf<? super T>, K extends Identifier<N>>
+ @NonNull InstanceIdentifierBuilder<N> child(Class<@NonNull N> listItem, K listKey);
+
+ /**
+ * Append the specified listItem as a child of the current InstanceIdentifier referenced by the builder. This
+ * method should be used when you want to build an instance identifier by appending a specific list element to
+ * the identifier and the {@code list} is defined in a {@code grouping} used in a {@code case} statement.
+ *
+ * @param caze Choice case class
+ * @param listItem List to append
+ * @param listKey List key
+ * @param <C> Case type
+ * @param <N> List type
+ * @param <K> Key type
+ * @return this builder
+ * @throws NullPointerException if any argument is null
+ */
+ <C extends ChoiceIn<? super T> & DataObject, K extends Identifier<N>,
+ N extends Identifiable<K> & ChildOf<? super C>> @NonNull InstanceIdentifierBuilder<N> child(
+ Class<C> caze, Class<N> listItem, K listKey);
/**
* Build an identifier which refers to a specific augmentation of the current InstanceIdentifier referenced by
- * the builder
+ * the builder.
*
- * @param container
- * @param <N>
- * @return
+ * @param container augmentation class
+ * @param <N> augmentation type
+ * @return this builder
+ * @throws NullPointerException if {@code container} is null
*/
- <N extends DataObject & Augmentation<? super T>> InstanceIdentifierBuilder<N> augmentation(
+ <N extends DataObject & Augmentation<? super T>> @NonNull InstanceIdentifierBuilder<N> augmentation(
Class<N> container);
/**
* Build the instance identifier.
*
- * @return
+ * @return Resulting instance identifier.
*/
@Override
InstanceIdentifier<T> build();
-
- /*
- * @deprecated use #build()
- */
- @Deprecated
- InstanceIdentifier<T> toInstance();
- }
-
- private void writeObject(final java.io.ObjectOutputStream out) throws IOException {
- out.defaultWriteObject();
- out.writeInt(Iterables.size(pathArguments));
- for (Object o : pathArguments) {
- out.writeObject(o);
- }
}
- private void readObject(final java.io.ObjectInputStream in) throws IOException, ClassNotFoundException {
- in.defaultReadObject();
-
- final int size = in.readInt();
- final List<PathArgument> args = new ArrayList<>(size);
- for (int i = 0; i < size; ++i) {
- args.add((PathArgument) in.readObject());
- }
-
- try {
- PATHARGUMENTS_FIELD.set(this, ImmutableList.copyOf(args));
- } catch (IllegalArgumentException | IllegalAccessException e) {
- throw new IOException(e);
- }
+ private Object writeReplace() throws ObjectStreamException {
+ return new InstanceIdentifierV3<>(this);
}
}