The objective of the query is to find the count of nodes and edges returned. The query is as follows:

g.inject(1).union(V().has('property1', 'A').aggregate('v').outE().has('property1', 'E').aggregate('e').inV().has('property1', 'B').aggregate('v')).select('v').dedup().as('vertexCount').select('e').dedup().as('edgeCount').select('vertexCount','edgeCount').by(unfold().count())

Output: vertexCount: 200k edgeCount: 250k Time took: 1.5 mins

I was trying to optimize the query and tried the following:

g.inject(1).union(V().has('property1', 'A').as('v1').outE().has('property1', 'E').as('e').inV().has('property1', 'B').as('v2')).select('v1','e','v2').by(valueMap().by(unfold())).count()

Output: 250k Time Took: 30 sec It's returning the edge count only.

How can we optimize the query to return both vertex and edge count and also limit on vertex or edge if required??

  • Are you just looking for a count of all vertices where property1 is A or B and the edges where property1' = E` or do you only want the count if the A-E->B?
    – bechbd
    Jun 9, 2021 at 20:07
  • I am looking for the second option want the count if the A-E->B
    – Phoenix
    Jun 10, 2021 at 3:47

1 Answer 1


I'm not sure I have anything ground breaking to offer but it seems like your second query could get faster just by removing processing unneeded for counting:

g.V().has('property1', 'A').
  outE().has('property1', 'E').
  inV().has('property1', 'B').

I would imagine that if "property1" (for "A") was indexed the removal of inject()/union() would allow that index to get a hit (not sure JanusGraph will optimize that query as it is with the inject()/union() and neither seem to serve a purpose). Depending on the nature of "property1" for "E" a vertex centric index there might also be helpful. The select().by() seems like an unnecessary and potentially costly transform because it enables path tracking and forces an added Map transform which you just throw away in the count()

Your comment indicates that you need the count of the source vertex as well as the edge. Perhaps something like this would work:

gremlin> g.V(1).aggregate('e').by(constant(1)).
......1>   outE().
......2>   inV().count().
......3>   math("(2 * _) + x").
......4>     by().
......5>     by(select('e').unfold().sum()) 

The aggregate() just holds a "1" for each source vertex in a list which you sum() later in the math() step. Since the number of edges should equate to the number of inV() you can just multiply it by "2" and then add that sum to get the count of what you are looking for.

Or if edges can point to the same destination vertex, just extend the aggregate pattern to the edges and dedup() the inV():

gremlin> g.V(1).aggregate('s').by(constant(1)).
......1>   outE().aggregate('e').by(constant(1)).
......2>   inV().dedup().count().
......3>   math("_ + source + edge").
......4>     by().
......5>     by(select('s').unfold().sum()).
......6>     by(select('e').unfold().sum())  

You could also add filtering if you don't want to count any source vertices that don't match a full path to the destination:

gremlin> g.V(1).filter(outE().has('weight',gt(0)).inV().hasLabel('person','software')).
......1>   aggregate('s').by(constant(1)).
......2>   outE().has('weight',gt(0)).
......3>   aggregate('e').by(constant(1)).
......4>   inV().hasLabel('person','software').dedup().count().
......5>   math("_ + source + edge").
......6>     by().
......7>     by(select('s').unfold().sum()).
......8>     by(select('e').unfold().sum()) 
  • I agree with the solution provided, but that will work only when we need to get the count only for inV(). I need the counts for source, relation, and destination all three in one query
    – Phoenix
    Oct 4, 2021 at 11:10
  • updated my answer. note of course that the edge count is going to be equal to the inV() count so you really just need to count the source vertices and add them to the "edgeCount * 2" Oct 4, 2021 at 12:06
  • there can be cases where two different edges can end up with the same destination node, hence getting all the counts for source, edge, and destination separately will help.
    – Phoenix
    Oct 4, 2021 at 12:25
  • the pattern is the same. just extend it to count edges basically. Oct 4, 2021 at 14:43
  • in the above query, all the source nodes are selected. I want the count of only those nodes which satisfy the outgoing relation and incoming node condition
    – Phoenix
    Oct 4, 2021 at 15:20

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