Exemplo n.º 1
0
  @Override
  public Iterator columnAs(final String name) {

    final Iterator<Value> it = result.list(Records.column(name)).iterator();

    return Iterables.map(
        new Function<Value, Object>() {

          @Override
          public Object apply(final Value t) {
            return wrapper.apply(t.asObject());
          }
        },
        it);
  }
Exemplo n.º 2
0
  @Override
  public Iterable<S> get(
      final SecurityContext securityContext,
      final NodeInterface node,
      final Predicate<GraphObject> predicate) {

    final NodeFactory<S> nodeFactory = new NodeFactory<>(securityContext);
    final Iterable<Relationship> rels = getRawSource(securityContext, node.getNode(), predicate);

    if (rels != null) {

      return Iterables.map(
          new Function<Relationship, S>() {

            @Override
            public S apply(Relationship from) throws RuntimeException {
              return nodeFactory.instantiate(from.getStartNode(), from);
            }
          },
          sort(rels));
    }

    return null;
  }
Exemplo n.º 3
0
  @Override
  public Object set(
      final SecurityContext securityContext,
      final NodeInterface targetNode,
      final Iterable<S> collection)
      throws FrameworkException {

    final App app = StructrApp.getInstance(securityContext);
    final PropertyMap properties = new PropertyMap();
    final NodeInterface actualTargetNode =
        (NodeInterface) unwrap(securityContext, relation.getClass(), targetNode, properties);
    final Set<S> toBeDeleted =
        new LinkedHashSet<>(Iterables.toList(get(securityContext, actualTargetNode, null)));
    final Set<S> toBeCreated = new LinkedHashSet<>();

    if (collection != null) {
      Iterables.addAll(toBeCreated, collection);
    }

    // create intersection of both sets
    final Set<S> intersection = new HashSet<>(toBeCreated);
    intersection.retainAll(toBeDeleted);

    // intersection needs no change
    toBeCreated.removeAll(intersection);
    toBeDeleted.removeAll(intersection);

    // remove existing relationships
    for (S sourceNode : toBeDeleted) {

      for (AbstractRelationship rel : actualTargetNode.getIncomingRelationships()) {

        final String relTypeName = rel.getRelType().name();
        final String desiredRelType = relation.name();

        if (sourceNode.equals(actualTargetNode)) {

          logger.warn(
              "Preventing deletion of self relationship {}-[{}]->{}. If you experience issue with this, please report to [email protected].",
              new Object[] {sourceNode, rel.getRelType(), actualTargetNode});

          // skip self relationships
          continue;
        }

        if (relTypeName.equals(desiredRelType) && rel.getSourceNode().equals(sourceNode)) {
          app.delete(rel);
        }
      }
    }

    final List<Relation> createdRelationship = new LinkedList<>();

    // create new relationships
    for (S sourceNode : toBeCreated) {

      if (sourceNode != null && actualTargetNode != null) {

        properties.clear();

        final S actualSourceNode =
            (S) unwrap(securityContext, relation.getClass(), sourceNode, properties);
        final PropertyMap notionProperties =
            getNotionProperties(
                securityContext,
                relation.getClass(),
                actualSourceNode.getName() + relation.name() + actualTargetNode.getName());

        if (notionProperties != null) {

          properties.putAll(notionProperties);
        }

        relation.ensureCardinality(securityContext, actualSourceNode, actualTargetNode);

        createdRelationship.add(
            app.create(actualSourceNode, actualTargetNode, relation.getClass(), properties));
      }
    }

    return createdRelationship;
  }