# how to traverse first neighbors and their relationships

I guess this can be trivially achieved but can't figure it out. Is it possible to achieve the following in one traversal (Neo4j 1.9RC2): starting from a node, include all its first neighbors (depth 1) and include all links between it's neighbors (if any). The direction is irrelevant.

Here's a test scenario:

``````  +-+     +-+                 +-+
|7+----->5|                 |4+------+
+++     +-+-----------------+-+      |
|        |                 |        |
|        |      +--+       |        |
|        +------|1 |-------+        |
++>              +-++               +-+     +-+
|8|                |                |2+-----|6|
+-+                +----------------+++     +-+
|
|
+-+
|3|
+-+
``````

starting from node 1, i want to include nodes 2,4 and 5 and relationships 2-4 and 4-5, but not 2-6 or 5-7. And the test fixture:

``````Node[] nodes = new Node[10];
Transaction tx = graphDb.beginTx();
try {
for (int i = 1; i < 10; i++) {
Node node = graphDb.createNode();
node.setProperty("id", i);
nodes[i] = node;//nodes[0] is empty!
}
nodes[1].createRelationshipTo(nodes[2], RelTypes.CONNECTED_TO);
nodes[1].createRelationshipTo(nodes[4], RelTypes.CONNECTED_TO);
nodes[1].createRelationshipTo(nodes[5], RelTypes.CONNECTED_TO);
nodes[2].createRelationshipTo(nodes[4], RelTypes.CONNECTED_TO);
nodes[2].createRelationshipTo(nodes[6], RelTypes.CONNECTED_TO);
nodes[3].createRelationshipTo(nodes[2], RelTypes.CONNECTED_TO);
nodes[5].createRelationshipTo(nodes[4], RelTypes.CONNECTED_TO);
nodes[7].createRelationshipTo(nodes[5], RelTypes.CONNECTED_TO);
nodes[7].createRelationshipTo(nodes[8], RelTypes.CONNECTED_TO);
tx.success();
} finally {
tx.finish();
}

.relationships(RelTypes.CONNECTED_TO, Direction.BOTH)
.uniqueness(Uniqueness.RELATIONSHIP_GLOBAL)
.evaluator(Evaluators.toDepth(2))
.evaluator(Evaluators.excludeStartPosition());
for (Path path : traversalDescription.traverse(nodes[1])) {
System.out.println(path);
}
``````

The output is:

``````(1)--[CONNECTED_TO,0]-->(2)
(1)--[CONNECTED_TO,1]-->(4)
(1)--[CONNECTED_TO,2]-->(5)
(1)--[CONNECTED_TO,0]-->(2)--[CONNECTED_TO,3]-->(4)
(1)--[CONNECTED_TO,0]-->(2)--[CONNECTED_TO,4]-->(6)
(1)--[CONNECTED_TO,0]-->(2)<--[CONNECTED_TO,5]--(3)
(1)--[CONNECTED_TO,1]-->(4)<--[CONNECTED_TO,6]--(5)
(1)--[CONNECTED_TO,2]-->(5)<--[CONNECTED_TO,7]--(7)
``````

and what I'm trying to do is to exclude these three:

``````(1)--[CONNECTED_TO,0]-->(2)<--[CONNECTED_TO,5]--(3)
(1)--[CONNECTED_TO,0]-->(2)--[CONNECTED_TO,4]-->(6)
(1)--[CONNECTED_TO,2]-->(5)<--[CONNECTED_TO,6]--(7)
``````

Lasse suggested the following cypher query http://console.neo4j.org/?id=3ihr7l:

``````start one=node:node_auto_index(name='One')
match one-[r:R*1]->m, m-[s]-l--one
return distinct s
``````

which sort of does what I need but I'm wondering if this is doable with `Traversal`.

-

Ok, found one way of doing this, but it's way too slow, in a 200K nodes/700K relationships db it takes a second to load one network compared to 0.006sec for fromDepth(1).toDepth(1) evaluator (150 times factor):

``````final TraversalDescription traversalDescription = Traversal.description().breadthFirst()
.relationships(RelTypes.CONNECTED_TO, Direction.BOTH)
.uniqueness(Uniqueness.RELATIONSHIP_GLOBAL)
.evaluator(Evaluators.includeIfAcceptedByAny(new PathEvaluator() {
private final Set<Long> firstNeighbors = new HashSet<Long>();
@Override
public Evaluation evaluate(Path path, BranchState state) {
if (path.length() == 0) {
return Evaluation.EXCLUDE_AND_CONTINUE;
} else if (path.length() == 1) {
return Evaluation.INCLUDE_AND_CONTINUE;
} else if (path.length() == 2) {
final Iterator<Node> iterator = path.nodes().iterator();
iterator.next();//start node, just skip
Node firstNeighbor = iterator.next();
if (firstNeighbors.contains(path.endNode().getId()) && firstNeighbors.contains(firstNeighbor.getId())) {
return Evaluation.INCLUDE_AND_CONTINUE;
} else {
return Evaluation.EXCLUDE_AND_CONTINUE;
}
} else {
return Evaluation.EXCLUDE_AND_PRUNE;
}
}

@Override
public Evaluation evaluate(Path path) {
return evaluate(path, null);
}
}));
``````

Update: tstorms suggested a faster query:

``````public class NeoTraversal {

public static void main(final String[] args) {
final GraphDatabaseService db = new GraphDatabaseFactory()
.newEmbeddedDatabaseBuilder("/neo4j")
.newGraphDatabase();
final Set<Long> uniquePartnerRels = new HashSet<Long>();
long startTime = System.currentTimeMillis();
final Node start = db.getNodeById(36);
for (final Path path : Traversal.description()
.relationships(Rel.COOCCURS_WITH, Direction.BOTH)
.uniqueness(Uniqueness.NODE_GLOBAL)
.evaluator(Evaluators.atDepth(1))
.traverse(start)) {
Node partner = start.equals(path.startNode()) ? path.endNode() : path.startNode();
for (final Path partnerPath : Traversal.description()
.depthFirst()
.relationships(Rel.COOCCURS_WITH, Direction.BOTH)
.uniqueness(Uniqueness.RELATIONSHIP_PATH)
.evaluator(Evaluators.atDepth(2))
.evaluator(Evaluators.includeWhereEndNodeIs(start))
.traverse(partner)) {