Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I'm working with a network that allows self-loops (i.e., some edges have the same vertex as both head and tail). Suppose, the graph g has 3 vertices (adam, bill, and cid), and 3 edges of type reports ([adam-reports->bill], [bill-reports->cid], and [adam-reports->adam]), the last being the only reflexive edge in this example.

gremlin> g = new TinkerGraph();
gremlin> adam = g.addVertex('adam');
gremlin> bill = g.addVertex('bill');
gremlin> cid = g.addVertex('cid');
gremlin> g.addEdge(adam, bill, 'reports');
gremlin> g.addEdge(bill, cid, 'reports');
gremlin> g.addEdge(adam, adam, 'reports'); 

In gremlin, the self-loop(s) can be easily retrieved, thus:

gremlin> g.V.sideEffect{v=it}.outE('reports').inV.filter{it==v}.path
gremlin> [v[adam], e[2][adam-reports->adam], v[adam]]

However, I'm trying to do the same using GremlinPipeline in Java without success. How can I build a valid GremlinePipeline to do the above?

GremlinPipeline pp = new GremlinPipeline();
// Add various pies to pp to get a valid pipeline
pp.setStarts(g.getVertices()); 
share|improve this question

If you only want to find self-loop edges, do this:

g.E.filter{it.inV == it.outV}

Given you sample TinkerGraph above, the output is:

gremlin> g.E.filter{it.inV == it.outV}
==>e[2][adam-reports->adam]
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.